JP2020032913A - Vehicle air conditioning system and control method of the same - Google Patents

Abstract

To provide a vehicle air conditioning system which can inhibit increase of air resistance of a vehicle and inhibit deterioration of cooling efficiency of an air conditioning unit properly, and to provide a control method of the vehicle air conditioning system.SOLUTION: A vehicle air conditioning system 10 includes: a roof cover 18 forming a ventilation passage 16 between itself and a roof panel 14 of a vehicle 12; and an air conditioning unit 20 provided at the ventilation passage 16. The roof cover 18 is provided with: an introduction port 32 which introduces air into the ventilation passage 16; an introduction port opening/closing part 34 which opens or closes the introduction port 32; and a discharge port 38 which discharges the air introduced into the ventilation passage 16.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicle air conditioning system and a control method thereof.

  For example, as shown in Patent Literature 1, a vehicle air conditioning system including an air conditioning case installed on a roof (roof panel) of a vehicle and an air conditioning unit arranged inside the air conditioning case is known. The air conditioning case is provided with openings that open toward the front and rear of the vehicle, respectively. Air such as running air flows through the openings into the air conditioning case, thereby cooling the condenser of the air conditioning unit.

JP 2005-125896 A

  As described above, when air flows into the air-conditioning case installed on the roof of the vehicle, there is a concern that the air resistance increases when the vehicle travels. However, if the inflow of air into the air-conditioning case is cut off to suppress an increase in air resistance, heat dissipation of the refrigerant in the condenser and the like are hindered, and there is a concern that the cooling efficiency is reduced.

  Therefore, an object of the present invention is to provide a vehicle air conditioning system and a control method thereof that can appropriately suppress an increase in the air resistance of the vehicle and a decrease in the cooling efficiency of the air conditioning unit. And

  One embodiment of the present invention is a vehicle air-conditioning system including a roof cover that forms an air passage between a vehicle and a roof panel, and an air conditioning unit provided in the air passage. An introduction port for introducing air into the ventilation path, an introduction port opening / closing section for opening and closing the introduction port, and a discharge port for discharging air introduced into the ventilation path are provided.

  Another aspect of the present invention is a control method for a vehicle air-conditioning system including: a roof cover that forms an air passage between the vehicle and a roof panel; and an air conditioning unit provided in the air passage. The roof cover has an inlet for introducing air into the air passage, an inlet opening / closing unit for opening and closing the inlet under control of a control device, and an outlet for discharging air introduced into the air passage. And an internal temperature determining step of determining whether an internal temperature of the ventilation path is equal to or lower than an external temperature of the vehicle. In the internal temperature determining step, the internal temperature is higher than the external temperature. When it is determined that the inlet is in the open state and the internal temperature is determined to be equal to or lower than the external temperature, the temperature of the compressor of the air conditioning unit or the pressure of the refrigerant in the compressor is equal to or lower than a predetermined value. Whether or not Performing an air-conditioning load determining step of performing the air-conditioning load determining step, when it is determined that the temperature of the compressor or the pressure of the refrigerant in the compressor is greater than a predetermined value, the inlet is opened, the compressor is opened. If it is determined that the temperature or the pressure of the refrigerant in the compressor is equal to or less than a predetermined value, perform an air conditioning unit determination step of determining whether the air conditioning unit is operating or has stopped operating, in the air conditioning unit determination step When it is determined that the air conditioning unit is operating, the introduction port is set to the open state, and when it is determined that the operation of the air conditioning unit is stopped, the introduction port is set to the closed state.

  Yet another aspect of the present invention is a control method for a vehicle air conditioning system including: a roof cover that forms an air passage between a roof panel of a vehicle; and an air conditioning unit provided in the air passage. The roof cover has an inlet for introducing air into the air passage, an inlet opening / closing part capable of opening and closing the inlet according to a selection of an occupant of the vehicle, and an outlet for discharging air introduced into the air passage. And an outlet to be provided, and the control device has an inlet determination step of determining whether the inlet is in an open state. In the inlet determination step, the inlet is not in an open state. If it is determined, the control device performs control to stop the operation of the air conditioning unit, and if it is determined that the introduction port is in an open state, the occupant selects that the air conditioning unit is in an operating state, The control device Performing an air-conditioning determination step, and determining that the occupant has selected to operate the air-conditioning unit in the air-conditioning determination step, the control device controls the air conditioning unit to operate. Is performed, and when it is determined that the occupant has not selected to activate the air conditioning unit, the control device performs control to stop the operation of the air conditioning unit.

  In this vehicle air conditioning system, the inlet can be opened and closed by the inlet opening and closing unit. For this reason, by closing the introduction port, the inflow of air into the ventilation path is blocked, and the increase in the air resistance of the vehicle can be suppressed. On the other hand, by opening the inlet, air can be introduced into the ventilation path to cool the condenser and the like satisfactorily, so that the cooling efficiency of the air conditioning unit can be improved. Therefore, according to the present invention, it is possible to appropriately suppress the increase in the air resistance of the vehicle and the decrease in the cooling efficiency of the air conditioning unit.

1 is a block diagram of a vehicle air conditioning system according to a first embodiment of the present invention. FIG. 2 is an external configuration diagram of a vehicle equipped with the vehicle air conditioning system of FIG. 1. 2 is a flowchart illustrating a control method of the vehicle air conditioning system in FIG. 1. It is a block diagram of a vehicle air-conditioning system concerning a 2nd embodiment of the present invention. 5 is a flowchart illustrating a control method of the vehicle air conditioning system of FIG.

  BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a vehicle air-conditioning system and a control method thereof according to the present invention will be described in detail with reference to the accompanying drawings by way of preferred embodiments. In the following drawings, components having the same or similar functions and effects are denoted by the same reference numerals, and repeated description may be omitted.

  As shown in FIG. 1, a vehicle air conditioning system 10 according to a first embodiment of the present invention is provided in a roof cover 18 that forms a ventilation path 16 with a roof panel 14 of a vehicle 12, and in the ventilation path 16. The air conditioner includes an air conditioning unit 20, a cooling fan 22 for taking air into the ventilation path 16, and a control device 23 for controlling the air conditioning unit 20, the cooling fan 22, and the like.

  In addition, as a suitable example of the vehicle 12 to which the vehicle air-conditioning system 10 is applied, a small electric vehicle (MEV: Micro Electric Vehicle) or the like is cited, but it is not particularly limited to this. In addition, hereinafter, the front-back, up-down, left-right directions will be described according to the arrow directions shown in FIG. “Front” is the traveling direction of the vehicle 12, and “rear” is the opposite direction. “Left” and “right” are the left and right directions as viewed from the occupant P of the vehicle 12 facing forward.

  As shown in FIG. 2, the roof cover 18 has a front wall 24 facing the front of the vehicle 12, a rear wall 26 facing the rear, a pair of side walls 28 facing the left and right sides, The roof panel 14 and the opposing ceiling wall 30 at an interval are integrally formed. Since the right side wall 28 is configured in the same manner as the left side wall 28, illustration thereof is omitted.

  The front wall 24 is provided to be inclined in a direction away from the roof panel 14 from the front to the rear, for example. As shown in FIG. 1, the front wall 24 has an inlet 32 that opens forward and allows air to be introduced into the ventilation path 16, and an inlet opening / closing unit 34 that opens and closes the inlet 32. Provided. The inlet opening / closing unit 34 is configured by a louver mechanism that opens and closes the inlet 32 by rotating at least one louver fin 35 about the left-right direction, and is driven by an opening / closing actuator 36.

  The rear wall 26 is provided with a discharge port 38 that opens rearward and allows the air in the ventilation path 16 to be discharged, and a discharge port opening / closing section 40 that opens and closes the discharge port 38. The outlet opening / closing section 40 also has a louver mechanism similarly to the inlet opening / closing section 34, and is driven by an opening / closing actuator 42.

  As shown in FIG. 2, each of the left and right side walls 28 is provided with a side opening 44 that opens toward the left and right sides, and a side opening and closing unit 46 that opens and closes the side opening 44. The side opening / closing section 46 also includes a louver mechanism similarly to the introduction opening / closing section 34, and is driven by an opening / closing actuator (not shown).

  As shown in FIG. 1, the ceiling wall 30 is provided with an upper opening 48 that opens upward and an upper opening and closing unit 50 that opens and closes the upper opening 48. The upper port opening / closing section 50 includes a slide mechanism that opens and closes the upper port 48 by sliding in the front-rear direction near the upper port 48 of the ceiling wall 30, and is driven by the opening / closing actuator 52.

  In the first embodiment, each of the inlet opening and closing unit 34, the outlet opening and closing unit 40, and the side opening and closing unit 46 is a louver mechanism, and the upper opening and closing unit 50 is a slide mechanism. It is not limited. The inlet opening / closing unit 34, the outlet opening / closing unit 40, and the side opening / closing unit 46 may be configured by a slide mechanism or another opening / closing mechanism instead of the louver mechanism. The upper port opening / closing section 50 may be configured by a louver mechanism instead of the slide mechanism, or may be configured by another opening / closing mechanism.

  The ventilation path 16 is formed between the roof cover 18 and the roof panel 14 by the roof cover 18 covering the roof panel 14. The air passage 16 is provided with a temperature sensor (temperature information acquisition unit) 54 for detecting the temperature inside the air passage 16.

  The air conditioning unit 20 includes a duct 62 communicating with a cabin 60 of the vehicle 12 via an air conditioning intake 56 and an air conditioning outlet 58 formed through the roof panel 14, and a refrigeration cycle device 64 for cooling air in the duct 62. And a duct fan 66 for taking air from the cabin 60 into the duct 62 from the air conditioning inlet 56 and blowing air (hereinafter, also referred to as cooling air) cooled by the refrigeration cycle device 64 from the air conditioning outlet 58 to the cabin 60. Having.

  The air-conditioning outlet 58 is preferably disposed, for example, in the vicinity of the head PH of the occupant P seated on the seat S in front of the vehicle 12 so that cooling air can be blown from the front to the head PH. More preferably, it is provided. Further, the air conditioning outlet 58 may be provided with a wind direction adjusting mechanism (not shown) capable of adjusting the direction in which the cooling air is blown out by using a louver or the like. The air conditioning intake 56 is preferably provided behind the air conditioning outlet 58.

  The duct 62 has a front end communicating with the air conditioning outlet 58 and a rear end communicating with the air conditioning intake 56 so as to extend from the front to the rear of the ventilation path 16. Further, the outer wall surface 62a above the duct 62 and the ceiling wall 30 of the roof cover 18 are arranged apart from each other, and a space through which air can flow is formed between each other.

  A duct fan 66 and an evaporator 68 of a refrigeration cycle device 64 are accommodated on the rear side inside the duct 62. In the present embodiment, the duct fan 66 is disposed near the air conditioning intake 56 in the duct 62, and the evaporator 68 is disposed in front of the duct fan 66 (on the air conditioning outlet 58 side). The duct fan 66 may be provided in front of the evaporator 68.

  The refrigeration cycle device 64 is configured such that a compressor 70, a condenser 72, an expansion valve (not shown), and an evaporator 68 are sequentially connected via a refrigerant pipe (not shown). The compressor 70 is disposed between the left or right side wall 28 (see FIG. 2) of the roof panel 14 in the ventilation path 16 and the outer wall surface 62 a of the duct 62 and on the side of the duct fan 66. And compress the refrigerant. The compressor 70 has an air-conditioning load sensor capable of detecting the temperature of the compressor 70 or the pressure of the refrigerant in the compressor 70 (hereinafter, these are also collectively referred to as “temperature of the compressor 70”). (Air conditioning load information acquisition unit) 74 is provided.

  The condenser 72 is disposed behind the duct 62 in the ventilation path 16, and cools and liquefies the refrigerant compressed by the compressor 70 by exchanging heat with the air in the ventilation path 16. The expansion valve decompresses the liquefied refrigerant and adiabatically expands the refrigerant.

  Since the evaporator 68 is disposed in the duct 62 as described above, the evaporator 68 is disposed in the ventilation path 16 ahead of the condenser 72. Further, the evaporator 68 cools the air by exchanging heat between the refrigerant, which has become low in temperature through the expansion valve, and the air in the cabin 60 taken into the duct 62.

  The cooling fan 22 is provided behind the condenser 72 in the ventilation path 16. In the air passage 16, traveling wind, natural wind, and the like of the vehicle 12 flow from the inlet 32, the side port 44, and the upper port 48 in the open state to the outlet 38. At this time, by driving the cooling fan 22, it is possible to more efficiently take in the air into the ventilation path 16 and distribute it. The cooling fan 22 may be provided at any position as long as it can promote the flow of air in the ventilation path 16, and may be provided near the inlet 32.

  The control device 23 includes a control unit 76, an operation panel 78, a duct fan driver 80, a cooling fan driver 82, and a compressor driver 84. The control unit 76 is composed of a well-known microcomputer including a CPU, a ROM, a RAM, and the like, and peripheral circuits thereof. A program for air-conditioning control is stored in the ROM, and various calculations and processes are performed based on the program. I do.

  The operation panel 78 is provided, for example, on the instrument panel 86 of the vehicle 12 or in the vicinity thereof, and has an on / off switch (not shown) for the air conditioning unit 20 and the like. When the occupant P operates the on / off switch, a switching signal for switching between starting and stopping the operation of the air conditioning unit 20, in other words, a switching signal for switching between starting and stopping the supply of the cooling air to the cabin 60 is transmitted to the control unit 76. Is input to

  When a switching signal for starting the air conditioning unit 20 is input, the control unit 76 outputs a control signal for driving the compressor 70 and the like to the compressor driver 84 and a control signal for driving the duct fan 66. Is output to the duct fan driver 80. Accordingly, the compressor 70 and the like are driven, so that the refrigerant circulates in the refrigerant pipe of the refrigeration cycle device 64 while changing the state, and the temperature of the evaporator 68 decreases. In addition, since the duct fan 66 is driven, the air in the cabin 60 is taken into the duct 62, becomes a cooling air by heat exchange with the evaporator 68, and is blown out to the cabin 60. That is, the air conditioner unit 20 is operating (on).

  On the other hand, when a switching signal for stopping the operation of the air conditioning unit 20 is input, the control unit 76 outputs a control signal for stopping the operation of the compressor 70 and the like to the compressor driver 84, and A control signal for stopping the operation of 66 is output to the duct fan driver 80. Accordingly, the operation of the compressor 70 and the like is stopped, so that the circulation of the refrigerant in the refrigeration cycle device 64 is stopped. Further, since the operation of the duct fan 66 stops, the circulation of air between the cabin 60 and the duct 62 stops. That is, the operation of the air conditioning unit 20 is stopped (off).

  The operation panel 78 may be provided with a mode selection switch (not shown). In this case, the occupant P operates the mode selection switch to select, for example, a weak mode for minimizing the temperature or air volume of the cooling air or a strong mode for maximizing the cooling air, so that an operation signal corresponding to each mode is generated. It is input to the control unit 76. Then, the control unit 76 outputs a compressor control signal based on the operation signal to the compressor driver 84, so that the refrigerant circulation amount and the like in the refrigeration cycle device 64 are adjusted, and the temperature of the evaporator 68 is adjusted. In addition, the control unit 76 outputs a duct fan control signal based on the operation signal to the duct fan driver 80, so that the operation state (the amount of rotation and the amount of air blow) of the duct fan 66 is adjusted. As a result, the temperature of the cooling air cooled by heat exchange with the evaporator 68, the amount of cooling air supplied to the cabin 60, and the like are adjusted according to the selection of the occupant P.

  In conjunction with the control of the air conditioning unit 20, the control device 23 controls the air inlet 32, the outlet 38, the side port 44 (see FIG. 2), and the upper port 48 of the roof cover 18 (hereinafter, these are collectively referred to as “ Opening / closing of a ventilation port) and activation and stop of the cooling fan 22 are controlled. Specifically, the control device 23 opens and closes the vent based on at least one of the internal temperature of the ventilation path 16, the air conditioning load of the air conditioning unit 20, and whether the air conditioning unit 20 is operating.

  That is, the control unit 76 controls the opening / closing actuator based on at least one of the temperature detection signal input from the temperature sensor 54, the air conditioning load detection signal input from the air conditioning load sensor 74, and the switching signal input from the operation panel 78. A drive signal is output to an opening / closing actuator (hereinafter, these are also simply referred to as “opening / closing actuators”) that drives the opening / closing portions 36, 42, 52 and the side opening / closing section 46. As a result, the inlet opening / closing section 34, the outlet opening / closing section 40, the side opening / closing section 46, and the upper opening opening / closing section 50 (hereinafter, also collectively referred to as “opening / closing section”) are connected to the inlet 32 and the outlet 38. , The side opening 44 and the upper opening 48 are respectively opened and closed.

  In the first embodiment, the discharge port 38, the side port 44, and the upper port 48 are opened and closed in conjunction with the opening and closing of the introduction port 32. For this reason, when a drive signal for opening the introduction port 32 is output from the control unit 76 to the opening / closing actuator 36, the discharge port 38, the side port 44, and the upper port 48 are also closed in the other opening / closing actuators. Is output. The same applies to the drive signal for closing the inlet 32. However, the present invention is not particularly limited thereto, and the inlet 32, the outlet 38, the side port 44, and the upper port 48 may be opened and closed at different timings.

  When opening and closing the vent based on the internal temperature of the ventilation path 16, the control unit 76 determines whether or not the internal temperature is equal to or lower than the external temperature (external temperature) of the vehicle 12 based on a temperature detection signal, for example. When it is determined that the internal temperature is higher than the external temperature, a drive signal for opening the vent is output to the opening / closing actuator. On the other hand, when it is determined that the internal temperature is equal to or lower than the external temperature, a drive signal for closing the vent is output to the opening / closing actuator.

  When opening and closing the vent based on the air conditioning load of the air conditioning unit 20, the control unit 76 determines whether the temperature of the compressor 70 is equal to or lower than a predetermined value based on, for example, an air conditioning load detection signal. When it is determined that the temperature or the like of the compressor 70 is larger than the predetermined value, it is determined that the air conditioning load is large, and a drive signal for opening the ventilation port is output to the opening / closing actuator. On the other hand, when it is determined that the temperature or the like of the compressor 70 is equal to or less than the predetermined value, it is determined that the air conditioning load is small, and a drive signal for closing the ventilation port is output to the opening / closing actuator.

  When the air conditioning load for cooling the cabin 60 increases, the load on the compressor 70 also increases, so that the temperature of the compressor 70 and the pressure of the refrigerant in the compressor 70 increase. Therefore, by comparing the temperature or the like of the compressor 70 with a predetermined value, it is possible to determine whether or not the air conditioning load is large, in other words, the air conditioning load can cool the condenser 72 and the like to improve the cooling efficiency. It can be determined whether or not the required size is obtained.

  Furthermore, when opening and closing the vent based on whether the air conditioning unit 20 is operating, the control unit 76 determines whether the operation of the air conditioning unit 20 is stopped based on, for example, a switching signal. If it is determined that the air conditioning unit 20 is operating, a drive signal for opening the ventilation port is output to the opening / closing actuator. On the other hand, when it is determined that the operation of the air conditioning unit 20 is stopped, a drive signal for closing the ventilation port is output to the opening / closing actuator.

  When outputting a drive signal for opening the vent to the opening / closing actuator, the control unit 76 outputs a cooling fan control signal for operating the cooling fan 22 to the cooling fan driver 82. When a drive signal for closing the ventilation port is output to the opening / closing actuator, a cooling fan control signal for stopping the operation of the cooling fan 22 is output to the cooling fan driver 82 before outputting the drive signal. Output.

  The vehicle air conditioning system 10 according to the first embodiment is basically configured as described above. Next, a control method of the vehicle air conditioning system 10 according to the first embodiment will be described with reference to FIG.

  First, in step S1, an internal temperature determining step of determining whether the internal temperature of the ventilation path 16 is equal to or lower than the external temperature of the vehicle 12 is performed. If it is determined in step S1 that the internal temperature is higher than the external temperature (step S1: NO), the process proceeds to step S2, where the vent is opened, and then proceeds to step S3, where the cooling fan 22 is operated. (ON). Thus, under the action of the cooling fan 22, air can be circulated to the ventilation path 16 through the ventilation port in the open state. After the process in step S3, the process returns to step S1.

  If it is determined in step S1 that the internal temperature is equal to or lower than the external temperature (step S1: YES), the process proceeds to step S4 to determine whether the temperature of the compressor 70 is equal to or lower than a predetermined value. A judgment step is performed.

  If it is determined in step S4 that the temperature or the like of the compressor 70 is higher than the predetermined value (step S4: NO), the process proceeds to steps S2 and S3, and then returns to step S1.

  When it is determined in step S4 that the temperature or the like of the compressor 70 is equal to or lower than the predetermined value (step S4: YES), the process proceeds to step S5, where it is determined whether the operation of the air conditioning unit 20 is stopped (off). An air conditioning unit determination step is performed.

  If it is determined in step S5 that the air conditioning unit 20 is operating (ON) (step S5: NO), the process proceeds to steps S2 and S3, and then returns to step S1.

  If it is determined in step S5 that the operation of the air conditioning unit 20 is stopped (off) (step S5: YES), the process proceeds to step S6, where the operation of the cooling fan 22 is stopped (off). Proceeding to step S7, the vent is closed. After the processing in step S7, the flowchart according to the first embodiment ends. Step S6 and step S7 can be executed in reverse. That is, step S6 may be performed after step S7 is performed.

  As described above, in the vehicle air conditioning system 10 according to the first embodiment, the inlet 32 can be opened and closed by the inlet opening and closing unit 34. For this reason, by closing the introduction port 32, the inflow of air into the ventilation path 16 is shut off, so that an increase in the air resistance of the vehicle 12 during traveling can be suppressed. On the other hand, when the inlet 32 is opened, air is introduced into the ventilation path 16, so that the heat dissipation of the refrigerant in the condenser 72 is promoted, and the cooling efficiency of the air conditioning unit 20 can be improved. Therefore, according to the vehicle air conditioning system 10, it is possible to appropriately suppress an increase in the air resistance of the vehicle 12 and to suppress a decrease in the cooling efficiency of the air conditioning unit 20.

  In the above-described vehicle air-conditioning system 10, based on at least one of the internal temperature of the ventilation path 16, the air-conditioning load of the air-conditioning unit 20, and whether or not the air-conditioning unit 20 is operating, the inlet opening / closing unit 34 controls the inlet 32. A control device 23 for controlling opening and closing is provided. In this case, since the opening and closing of the inlet 32 is controlled by the control device 23 according to the above-described conditions, the air resistance of the vehicle 12 can be reduced without requiring an additional operation of the occupant P of the vehicle 12, The cooling efficiency by the air conditioning unit 20 can be appropriately improved.

  The above-described vehicle air conditioning system 10 includes a temperature information acquisition unit (temperature sensor 54) for acquiring information on the internal temperature and the external temperature of the vehicle 12, and the control device 23 is configured to provide an inlet when the internal temperature is higher than the external temperature. The inlet opening / closing section 34 is controlled so that the opening 32 is opened. When the internal temperature is higher than the external temperature, heat release of the refrigerant in the condenser 72 is likely to be hindered. Therefore, when the internal temperature is higher than the external temperature, the inlet 32 is opened by the control device 23 and air is introduced into the air passage 16 so that the internal temperature is reduced at an appropriate timing. Heat of the refrigerant can be promoted. As a result, the cooling efficiency of the air conditioning unit 20 can be effectively improved.

  The vehicle air conditioning system 10 includes an air conditioning load information acquisition unit (air conditioning load sensor 74) that acquires information on the temperature of the compressor 70 of the air conditioning unit 20 or the pressure of the refrigerant in the compressor 70, and the control device 23 includes: When the temperature of the compressor 70 or the pressure of the refrigerant in the compressor 70 is larger than a predetermined value, the inlet opening / closing section 34 is controlled so that the inlet 32 is opened. As described above, when the temperature or the like of the compressor 70 is greater than the predetermined value, it can be determined that the air conditioning load of the air conditioning unit 20 has increased. Therefore, when the temperature or the like of the compressor 70 is higher than a predetermined value, the control device 23 opens the inlet 32 and introduces air into the ventilation path 16 to reduce the internal temperature at an appropriate timing. Heat release of the refrigerant in the condenser 72 can be promoted. As a result, the cooling efficiency of the air conditioning unit 20 can be effectively improved.

  In the vehicle air conditioning system 10 described above, the control device 23 opens the inlet 32 when the air conditioning unit 20 is operating, and closes the inlet 32 when the operation of the air conditioning unit 20 is stopped. The opening and closing unit 34 is controlled. In this case, when the air conditioning unit 20 operates, air is introduced into the ventilation path 16 via the introduction port 32, so that the air conditioning unit 20 can be operated efficiently. On the other hand, when the operation of the air conditioning unit 20 is stopped, the inlet 32 is closed. That is, except when the air conditioning unit 20 is operating, the inflow of air into the ventilation path 16 is shut off. Therefore, it is possible to appropriately balance the improvement of the cooling efficiency of the air conditioning unit 20 with the reduction of the air resistance of the vehicle 12.

  The vehicle air conditioning system 10 includes the cooling fan 22 that takes in air into the ventilation path 16, and the control device 23 stops the operation of the cooling fan 22 in response to closing the inlet 32 (or the cooling fan 22). In response to stopping the operation, the inlet 32 is closed). By operating the cooling fan 22, air can be effectively taken into the ventilation path 16 through the inlet 32. In addition, by stopping the operation of the cooling fan 22 in response to closing the inlet 32, the cooling fan 22 can be operated at an appropriate timing without waste, and power consumption can be reduced. . Of course, the same applies to the case where the inlet 32 is closed in response to stopping the operation of the cooling fan 22.

  In the above-described vehicle air-conditioning system 10, the control device 23 determines whether the internal temperature is equal to or lower than the external temperature of the vehicle 12, and when the internal temperature is higher than the external temperature, opens the inlet 32, When the temperature is equal to or lower than the external temperature, it is determined whether the temperature of the compressor 70 or the pressure of the refrigerant in the compressor 70 is equal to or lower than a predetermined value, and the temperature of the compressor 70 or the pressure of the refrigerant in the compressor 70 is determined. Is greater than a predetermined value, the inlet 32 is opened, and when the temperature of the compressor 70 or the pressure of the refrigerant in the compressor 70 is equal to or less than a predetermined value, it is determined whether or not the air conditioning unit 20 has stopped operating. It is determined that the inlet 32 is opened when the air conditioning unit 20 is operating, and the inlet 32 is closed when the operation of the air conditioning unit 20 is stopped.

  When the internal temperature of the air passage 16 is lower than the external temperature (when the first condition is satisfied), the refrigerant can be radiated by the condenser 72 without introducing air into the air passage 16. . When the temperature or the like of the compressor 70 is equal to or lower than a predetermined value (when the second condition is satisfied), the air conditioning load needs to cool the condenser 72 and the like to improve the cooling efficiency. It can be determined that it has not reached. In the first place, when the air conditioning unit 20 stops operating (when the third condition is satisfied), the necessity of cooling the condenser 72 is low. Therefore, when all of these first to third conditions are satisfied, by closing the inlet 32, the air resistance of the vehicle 12 is effectively reduced while maintaining the cooling efficiency of the air conditioning unit 20. be able to.

  In the vehicle air-conditioning system 10 according to the first embodiment, whether or not the first to third conditions are satisfied is determined, as described above, by an internal temperature determination step, an air-conditioning load determination step, and an air-conditioning unit determination step. Are determined in this order, but the present invention is not particularly limited to this. For example, the internal temperature determination step, the air conditioning load determination step, and the air conditioning unit determination step may be performed in any order, or only one or two of these steps may be performed. It may be.

  The above-described vehicle air-conditioning system 10 includes the cooling fan 22 that takes in air into the ventilation path 16, and the control device 23 starts the cooling fan 22 when the inlet 32 is opened, and closes the inlet 32. In this case, the operation of the cooling fan 22 is stopped. In this case, by operating the cooling fan 22, it is possible to satisfactorily improve the cooling efficiency of the air conditioning unit 20 because air can be satisfactorily introduced into the ventilation path 16 through the open inlet 32. Can be. On the other hand, by stopping the operation of the cooling fan 22 before closing the inlet 32, the cooling fan 22 can be prevented from operating wastefully in a state where air is not introduced into the ventilation path 16. As a result, power consumption can be reduced.

  In the above-described vehicle air-conditioning system 10, the roof cover 18 is provided with an outlet opening / closing unit 40 that opens and closes the outlet 38, and the outlet opening / closing unit 40 opens and closes the outlet 38 in conjunction with opening and closing of the inlet 32. It was decided to.

  In the vehicle air-conditioning system 10 described above, in addition to the inlet 32 opening toward the front of the vehicle 12 and the outlet 38 opening toward the rear of the vehicle 12, A side port 44 that opens toward the front and a side port opening / closing section 46 that opens and closes the side port 44 are provided. The side port opening / closing section 46 opens the side port 44 in conjunction with opening and closing of the introduction port 32. I decided to open and close.

  In the above-described vehicle air-conditioning system 10, the roof cover 18 has an inlet 32 opening toward the front of the vehicle 12 and an outlet 38 opening toward the rear of the vehicle 12. An upper opening 48 that opens toward the front and an upper opening and closing unit 50 that opens and closes the upper opening 48 are provided. The upper opening and closing unit 50 opens and closes the upper opening 48 in conjunction with opening and closing of the inlet 32. .

  In these cases, by opening the discharge port 38, the side port 44, and the upper port 48 in conjunction with the opening of the inlet port 32, it becomes possible to make the air flow through the ventilation path 16 better. On the other hand, the air resistance of the vehicle 12 can be reduced by closing the discharge port 38, the side port 44, and the upper port 48 in conjunction with closing the inlet port 32. The roof cover 18 may be selectively provided with one or more of the side opening 44 and the upper opening 48, or may be omitted. Further, the roof cover 18 may be selectively provided with one or more of a discharge port opening / closing section 40, a side port opening / closing section 46, and an upper port opening / closing section 50, or all of them are provided. It may not be. Further, the outlet 38 may be provided so as to open upward near the rear end of the roof cover 18.

  In the vehicle air conditioning system 10 described above, the inlet opening / closing unit 34 has a louver mechanism that opens and closes the inlet 32 by rotation, or a slide mechanism that opens and closes the inlet 32 by sliding. The same applies to the discharge port opening / closing section 40, the side port opening / closing section 46, and the upper port opening / closing section 50. In this case, the vent can be easily opened and closed with a simple configuration.

  Next, a vehicle air-conditioning system 90 according to a second embodiment will be described with reference to FIGS. This vehicle air-conditioning system 90 mainly differs from the vehicle air-conditioning system 10 according to the first embodiment in that the occupant P can select whether to open or close the inlet 32.

  Specifically, as shown in FIG. 4, the vehicle air conditioning system 90 includes a drive mechanism 92 in place of the opening / closing actuators 36, 42, 52, and the like (see FIG. 1), and the control unit 76 (see FIG. 1). Instead, a control unit 94 is provided. The drive mechanism 92 drives the opening / closing unit to open / close the ventilation hole, for example, by the operation of the occupant P.

  The drive mechanism 92 includes, for example, a lever 96 provided at or near the instrument panel 86, a wire and a rod (not shown), and generates power generated by operating the lever 96 of the occupant P through the wire and the rod. By transmitting the air to the opening / closing unit, the ventilation port can be opened and closed. As this type of drive mechanism 92, a known mechanism can be used, and thus detailed description is omitted. The driving mechanism 92 includes, for example, an actuator (not shown) that drives an opening / closing unit based on an opening / closing signal output when an occupant P operates an opening / closing switch (not shown) provided on the operation panel 78 or the like. May be done.

  When detecting that the air vent is closed based on, for example, the operation of the drive mechanism 92 by the occupant P, the control unit 94 sends a control signal for stopping the operation of the air conditioning unit 20 to the compressor driver 84. At the same time, a control signal for stopping the operation of the duct fan 66 is output to the duct fan driver 80. Accordingly, the operation of the compressor 70 and the like is stopped, so that the circulation of the refrigerant in the refrigeration cycle device 64 is stopped. Further, since the operation of the duct fan 66 stops, the circulation of air between the cabin 60 and the duct 62 stops. That is, the operation of the air conditioning unit 20 is stopped.

  Further, for example, when the control unit 94 detects that the vent is opened based on the operation of the drive mechanism 92 by the occupant P, the control unit 94 performs the selection based on the selection of the occupant P via the on / off switch of the operation panel 78. The air conditioning unit 20 is started or stopped.

  That is, the control unit 94 drives the compressor 70 and the like when a switching signal for activating the air conditioning unit 20 is input through the operation of the on / off switch of the operation panel 78 when the ventilation port is open. Is output to the compressor driver 84, and a control signal for driving the duct fan 66 is output to the duct fan driver 80. Thereby, the air conditioning unit 20 operates.

  On the other hand, when a switching signal for stopping the operation of the air conditioning unit 20 is input through the operation of the on / off switch of the operation panel 78 when the ventilation port is in the closed state, the control unit 94 drives the compressor 70 and the like. Is output to the compressor driver 84, and a control signal for stopping the driving of the duct fan 66 is output to the duct fan driver 80. Thus, the operation of the air conditioning unit 20 stops.

  When the inlet 32 is open and the operation of the air conditioning unit 20 is stopped, the control unit 94 compares the internal temperature with the external temperature based on the temperature detection signal. Then, when the internal temperature is higher than the external temperature, a cooling fan control signal for causing the cooling fan 22 to operate is output to the cooling fan driver 82. On the other hand, when the internal temperature is lower than the external temperature, a cooling fan control signal for stopping the operation of the cooling fan 22 is output to the cooling fan driver 82. When the inlet 32 is in the open state and the air conditioning unit 20 is operating, the control unit 94 outputs a cooling fan control signal for setting the cooling fan 22 to the operating state to the cooling fan driver 82.

  The vehicle air conditioning system 90 according to the second embodiment is basically configured as described above. Next, a control method of the vehicle air conditioning system 90 according to the second embodiment will be described with reference to FIG.

  First, in step S101, an introduction port determination step of determining whether or not the vent is open according to the selection of the occupant P is performed. If it is determined in step S101 that the vent is not in the open state, that is, it is determined that the vent is in the closed state (step S101: NO), the process proceeds to step S102, and the operation of the air conditioning unit 20 is stopped (off). And Thereafter, the process proceeds to step S103, where the operation of the cooling fan 22 is stopped (off). After the processing in step S103, the flowchart according to the second embodiment ends.

  On the other hand, if it is determined in step S101 that the air vent is in the open state (step S101: YES), the process proceeds to step S104, and the occupant P operates the air conditioning unit 20 (on) based on, for example, a switching signal. An air-conditioning determination step is performed to determine whether or not the selection has been made.

  If it is determined in step S104 that the operation of the air conditioning unit 20 has not been selected, that is, it has been determined that the operation of the air conditioning unit 20 has been stopped (off) (step S104: NO). Then, the process proceeds to step S105, in which the operation of the air conditioning unit 20 is stopped. Thereafter, the process proceeds to step S106, in which an internal temperature determining step of determining whether the internal temperature is equal to or lower than the external temperature is performed.

  If it is determined in step S106 that the internal temperature is equal to or lower than the external temperature (step S106: YES), the process proceeds to step S103. If it is determined in step S106 that the internal temperature is higher than the external temperature (step S106: NO), the process proceeds to step S107, and the cooling fan 22 is turned on (ON). After the process in step S107, the process returns to step S101.

  On the other hand, if it is determined in step S104 that the air conditioning unit 20 has been selected to be in the operating state (step S104: YES), the process proceeds to step S108, and the air conditioning unit 20 is set to the operating state (ON). Then, after proceeding to step S107, the process returns to step S101.

  As described above, also in the vehicle air conditioning system 90 according to the second embodiment, since the inlet 32 can be opened and closed by the inlet opening and closing unit 34, it is possible to suppress an increase in the air resistance of the vehicle 12 and to use the air conditioning unit 20. It is possible to appropriately suppress the decrease in the cooling efficiency.

  The vehicle air conditioning system 90 includes the control device 23 that stops the operation of the air conditioning unit 20 when the opening and closing of the inlet 32 is selected by the occupant P of the vehicle 12 and the inlet 32 is closed. In this case, the occupant P can open and close the inlet 32 at a desired timing. In addition, since the operation of the air conditioning unit 20 is stopped at the timing when the inlet 32 is closed, the air conditioning unit 20 is shut off in a state where the inflow of air into the ventilation path 16 is interrupted, in other words, in a state where there is a concern that the cooling efficiency is reduced. 20 can be avoided.

  In the above vehicle air conditioning system 90, when the inlet 32 is in the open state, the control device 23 starts or stops the operation of the air conditioning unit 20 based on the selection of the occupant P. When the inlet 32 is in the open state, air can flow into the ventilation passage 16 through the inlet 32, so that even when the occupant P selects to activate the air conditioning unit 20, The unit 20 can be operated efficiently.

  The vehicle air conditioning system 90 includes the cooling fan 22 that takes in air into the ventilation path 16. The control device 23 controls the ventilation path 16 when the introduction port 32 is open and the operation of the air conditioning unit 20 is stopped. Comparing the internal temperature of the vehicle with the external temperature of the vehicle 12, operating the cooling fan 22 when the internal temperature is higher than the external temperature, and stopping the operation of the cooling fan 22 when the internal temperature is lower than the external temperature. did.

  When the inlet 32 is open and the operation of the air conditioning unit 20 is stopped, the air passage 16 can be effectively cooled by operating the cooling fan 22 to introduce air into the inlet 32. If the operation of the cooling fan 22 is stopped, power consumption can be reduced. Therefore, by operating the cooling fan 22 when the internal temperature is higher than the external temperature, the temperature of the ventilation path 16 can be reduced, and the heat insulation of the cabin 60 against solar radiation or the like can be improved. On the other hand, when the internal temperature is equal to or lower than the external temperature, power consumption can be reduced by stopping the operation of the cooling fan 22.

  In the vehicle air conditioning system 90 described above, the control device 23 operates the cooling fan 22 when the inlet 32 is open and the air conditioning unit 20 is operating. By operating the cooling fan 22 when the air conditioning unit 20 is operating, heat dissipation of the refrigerant in the condenser 72 is promoted, and the cooling efficiency of the air conditioning unit 20 can be further improved.

  The present invention is not particularly limited to the embodiment described above, and various modifications can be made without departing from the gist thereof.

10, 90 vehicle air conditioning system 12 vehicle 14 roof panel 16 air passage 18 roof cover 20 air conditioning unit 22 cooling fan 23 control device 32 inlet 34 inlet opening / closing part 38 outlet 40 Discharge port opening / closing section 44 ... Side port 46 ... Side port opening / closing section 48 ... Upper port 50 ... Upper port opening / closing section 54 ... Temperature sensor 74 ... Air conditioning load sensor 76,94

Claims (20)

A vehicle air conditioning system comprising: a roof cover that forms an air passage between a vehicle and a roof panel; and an air conditioning unit provided in the air passage.
A vehicle, wherein the roof cover is provided with an inlet for introducing air into the air passage, an inlet opening / closing unit for opening and closing the inlet, and an outlet for discharging air introduced into the air passage. Air conditioning system. The vehicle air conditioning system according to claim 1,
A control device that controls opening and closing of the inlet by the inlet opening and closing unit based on at least one of an internal temperature of the ventilation path, an air conditioning load of the air conditioning unit, and whether or not the air conditioning unit is operating. , Vehicle air conditioning system. The vehicle air conditioning system according to claim 2,
A temperature information acquisition unit that acquires information on the internal temperature and the external temperature of the vehicle,
The vehicle air conditioning system, wherein the control device controls the inlet opening / closing unit to open the inlet when the internal temperature is higher than the external temperature. The vehicle air conditioning system according to claim 2 or 3,
An air conditioning load information acquisition unit that acquires information on the temperature of the compressor of the air conditioning unit or the pressure of the refrigerant in the compressor,
The vehicle air conditioning system, wherein the control device controls the inlet opening / closing unit to open the inlet when the temperature of the compressor or the pressure of the refrigerant in the compressor is greater than a predetermined value. The vehicle air conditioning system according to any one of claims 2 to 4,
The control device controls the inlet opening / closing unit so as to open the inlet when the air conditioning unit is operating and to close the inlet when the operation of the air conditioning unit is stopped. system. The vehicle air conditioning system according to any one of claims 2 to 5,
A cooling fan that takes in air into the ventilation path,
The vehicle air conditioning system, wherein the control device stops the operation of the cooling fan in response to closing the inlet, or closes the inlet in response to stopping the operation of the cooling fan. The vehicle air conditioning system according to claim 2,
The control device includes:
It is determined whether or not the internal temperature is equal to or lower than the external temperature of the vehicle.When the internal temperature is higher than the external temperature, the inlet is opened, and when the internal temperature is equal to or lower than the external temperature. Determine whether the temperature of the compressor of the air conditioning unit or the pressure of the refrigerant in the compressor is equal to or less than a predetermined value,
When the temperature of the compressor or the pressure of the refrigerant in the compressor is higher than a predetermined value, the inlet is opened, and when the temperature of the compressor or the pressure of the refrigerant in the compressor is lower than a predetermined value, the air conditioning is performed. Determine if the unit has stopped working,
A vehicle air conditioning system, wherein the inlet is in an open state when the air conditioning unit is operating, and the inlet is closed when the operation of the air conditioning unit is stopped. The vehicle air conditioning system according to claim 7,
A cooling fan that takes in air into the ventilation path,
The vehicle air conditioning system, wherein the control device starts the cooling fan when the inlet is in an open state and stops the operation of the cooling fan when the inlet is in a closed state. The vehicle air conditioning system according to claim 1,
Opening and closing of the inlet is selected by an occupant of the vehicle,
A vehicle air conditioning system, comprising: a control device that stops operation of the air conditioning unit in response to closing of the inlet. The vehicle air conditioning system according to claim 9,
The vehicle air conditioning system, wherein when the introduction port is in an open state, the control device starts or stops the operation of the air conditioning unit based on the selection of the occupant. The vehicle air conditioning system according to claim 10,
A cooling fan that takes in air into the ventilation path,
The control device, when the introduction port is open and the operation of the air conditioning unit is stopped, compares the internal temperature of the ventilation path and the external temperature of the vehicle,
A vehicle air conditioning system, wherein the cooling fan is operated when the internal temperature is higher than the external temperature, and the operation of the cooling fan is stopped when the internal temperature is lower than the external temperature. The vehicle air conditioning system according to claim 11,
The controller is configured to operate the cooling fan when the inlet is in an open state and the air conditioning unit is operating. The vehicle air conditioning system according to any one of claims 1 to 12,
The roof cover is provided with an outlet opening / closing unit that opens and closes the outlet.
The vehicle air conditioning system, wherein the outlet opening / closing unit opens / closes the outlet in conjunction with opening / closing of the inlet. The vehicle air conditioning system according to any one of claims 1 to 13,
The roof cover has, in addition to the inlet opening to the front of the vehicle and the outlet opening to the rear of the vehicle, a side opening to the side of the vehicle. And a side opening and closing unit for opening and closing the side opening is provided,
The vehicle air conditioning system, wherein the side opening and closing unit opens and closes the side opening in conjunction with opening and closing of the introduction port. The vehicle air conditioning system according to any one of claims 1 to 14,
In the roof cover, in addition to the inlet opening toward the front of the vehicle and the outlet opening toward the rear of the vehicle, an upper opening opening toward the top of the vehicle, An upper opening and closing unit for opening and closing the upper opening,
The vehicle air conditioning system, wherein the upper port opening and closing unit opens and closes the upper port in conjunction with opening and closing of the introduction port. The vehicle air conditioning system according to any one of claims 1 to 15,
The vehicle air conditioning system, wherein the inlet opening / closing unit has a louver mechanism that opens and closes the inlet by rotation, or a slide mechanism that opens and closes the inlet by sliding. A method for controlling a vehicle air conditioning system, comprising: a roof cover that forms an air passage between a vehicle and a roof panel; and an air conditioning unit provided in the air passage.
The roof cover has an inlet for introducing air into the air passage, an inlet opening / closing unit for opening and closing the inlet under control of a control device, and an outlet for discharging air introduced into the air passage. , Is provided,
An internal temperature determining step of determining whether the internal temperature of the ventilation path is equal to or lower than the external temperature of the vehicle,
In the internal temperature determination step, when it is determined that the internal temperature is higher than the external temperature, the inlet is opened, and when it is determined that the internal temperature is equal to or lower than the external temperature, the compression of the air conditioning unit is performed. Performing an air conditioning load determination step of determining whether the temperature of the compressor or the pressure of the refrigerant in the compressor is equal to or less than a predetermined value,
In the air conditioning load determining step, when it is determined that the temperature of the compressor or the pressure of the refrigerant in the compressor is greater than a predetermined value, the inlet is opened, and the temperature of the compressor or the refrigerant in the compressor is changed. If it is determined that the pressure is equal to or less than a predetermined value, perform an air conditioning unit determination step to determine whether the air conditioning unit is operating or has stopped operating,
In the air conditioning unit determination step, when it is determined that the air conditioning unit is operating, the inlet is opened, and when it is determined that the operation of the air conditioning unit is stopped, the inlet is closed. To control a vehicle air conditioning system. The control method for a vehicle air conditioning system according to claim 17,
The vehicle air conditioning system further includes a cooling fan that takes air into the ventilation path,
The control method of a vehicle air conditioning system, wherein the control device activates the cooling fan when the inlet is in an open state, and stops the operation of the cooling fan when the inlet is in a closed state. A method for controlling a vehicle air conditioning system, comprising: a roof cover that forms an air passage between a vehicle and a roof panel; and an air conditioning unit provided in the air passage.
The roof cover has an inlet for introducing air into the air passage, an inlet opening / closing part capable of opening and closing the inlet according to a selection of an occupant of the vehicle, and an outlet for discharging air introduced into the air passage. And an outlet for
The control device has an inlet determination step of determining whether the inlet is in an open state,
In the introduction port determination step, if it is determined that the introduction port is not in the open state, the control device performs control to stop the operation of the air conditioning unit, if it is determined that the introduction port is in the open state, Performing an air-conditioning determination step of determining whether or not the occupant has selected to put the air-conditioning unit into an operation state by the control device;
When the occupant determines in the air conditioning determination step that the occupant has selected to operate the air conditioning unit, the control device performs control for activating the air conditioning unit, and the occupant controls the air conditioning unit. A control method for a vehicle air-conditioning system, wherein the control device performs control to stop the operation of the air-conditioning unit when it is determined that the operation of the air-conditioning unit is not selected. The control method for a vehicle air conditioning system according to claim 19,
The vehicle air conditioning system further includes a cooling fan that takes air into the ventilation path,
In the introduction port determination step, when it is determined that the introduction port is not in the open state and control for stopping the operation of the air conditioning unit is performed, the control device controls the operation of the cooling fan to a stop state. Do
In the air-conditioning determination step, when the occupant determines that the air-conditioning unit has been selected to be in the operating state, and performs control for setting the air-conditioning unit to the operating state, the control device includes the cooling fan. Control to make the
In the air-conditioning determination step, when the occupant determines that the air-conditioning unit has not been selected to be in the operating state and performs control to stop the operation of the air-conditioning unit, Performing an internal temperature determination step of determining whether the internal temperature of the vehicle is equal to or lower than the external temperature of the vehicle,
If it is determined in the internal temperature determination step that the internal temperature is equal to or lower than the external temperature, the control device performs control to stop the operation of the cooling fan, and the internal temperature is higher than the external temperature. A control method for controlling the vehicle air-conditioning system, wherein the control device controls the cooling fan to operate.

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