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WO2011037082A1 - Air conditioning device for vehicle - Google Patents

Air conditioning device for vehicle Download PDF

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Publication number
WO2011037082A1
WO2011037082A1 PCT/JP2010/066160 JP2010066160W WO2011037082A1 WO 2011037082 A1 WO2011037082 A1 WO 2011037082A1 JP 2010066160 W JP2010066160 W JP 2010066160W WO 2011037082 A1 WO2011037082 A1 WO 2011037082A1
Authority
WO
WIPO (PCT)
Prior art keywords
air
heat exchanger
passage
outside air
vehicle
Prior art date
Application number
PCT/JP2010/066160
Other languages
French (fr)
Japanese (ja)
Inventor
武 佐藤
俊博 武井
Original Assignee
カルソニックカンセイ株式会社
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 カルソニックカンセイ株式会社 filed Critical カルソニックカンセイ株式会社
Publication of WO2011037082A1 publication Critical patent/WO2011037082A1/en

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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 [HVAC] devices
    • B60H1/00007Combined heating, ventilating, or cooling devices
    • B60H1/00021Air flow details of HVAC devices
    • B60H1/00064Air flow details of HVAC devices for sending air streams of different temperatures into the passenger compartment
    • 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 [HVAC] devices
    • B60H1/00007Combined heating, ventilating, or cooling devices
    • B60H1/00021Air flow details of HVAC devices
    • B60H2001/00078Assembling, manufacturing or layout details
    • B60H2001/00085Assembling, manufacturing or layout details of air intake
    • 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 [HVAC] devices
    • B60H1/00007Combined heating, ventilating, or cooling devices
    • B60H1/00021Air flow details of HVAC devices
    • B60H2001/00078Assembling, manufacturing or layout details
    • B60H2001/00099Assembling, manufacturing or layout details comprising additional ventilating means

Definitions

  • the present invention relates to a vehicle air conditioner, and more particularly, to a two-layer vehicle air conditioner in which an inside air passage and an outside air passage are partitioned and divided.
  • a vehicle air conditioner having a two-layer structure that introduces outside air while circulating the inside air in order to reduce the heating load at a low outside air temperature
  • the vehicular air conditioner having a two-layer structure is configured to divide a passage for introducing air into a vehicle compartment into two and install a fan in each of the passages.
  • the two-layer vehicle air conditioner is provided with a defroster (def) outlet on the downstream side of the air in one passage and a foot (foot) outlet on the downstream side of the air in the other passage.
  • a blowing mode in which heating is performed and blowing from the foot outlet is referred to as a two-layer flow mode.
  • the above-described two-layer vehicle air conditioner includes a cooling heat exchanger (evaporator) so that the low temperature outside air and the inside air during heating are not mixed when the two layer flow mode is operated at a low outside air temperature. Since air is blown through two partitioned air conditioners, the surface temperature of the cooling heat exchanger (evaporator) does not become uniform, so there is a problem in that the prevention of freezing is not clearly defined.
  • a countermeasure against this problem in order to prevent the evaporator from freezing, it is proposed to prevent the evaporator from freezing by providing detection means on the inside air passage side and detecting the cold air temperature immediately after passing through the evaporator by the detection means. (For example, see Patent Document 2). This proposal can prevent the evaporator from freezing, but there is a problem that the dehumidifying performance of the two-layered vehicle air conditioner becomes insufficient by giving priority to the evaporator freezing prevention.
  • the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a vehicle air conditioner having excellent dehumidifying performance while reducing the heating load of air conditioning at a low outside air temperature.
  • a heat exchanger for heating that heats the air, and a heat exchanger for cooling that cools the air provided upstream of the heat exchanger for heating either the first air passage or the second air passage And a vehicular air conditioner including a communication passage communicating the first air passage and the second air passage on the downstream side of the cooling heat exchanger.
  • FIG. 2A is a schematic cross-sectional view taken along line AA shown in FIG. 2B
  • FIG. 2B is an outline of the vehicle air conditioner according to the second embodiment of the present invention.
  • FIG. FIG. 3 (a) is a schematic cross-sectional view taken along line AA shown in FIG. 3 (b), and is a schematic diagram showing the flow of conditioned air.
  • FIG. 3 (b) is a diagram illustrating the second embodiment of the present invention. It is the schematic which shows the flow of the conditioned air of the vehicle air conditioner which concerns on a form. It is the schematic of the vehicle air conditioner which concerns on the 3rd Embodiment of this invention. It is the schematic which shows the flow of the conditioned air of the vehicle air conditioner which concerns on the 3rd Embodiment of this invention. It is the schematic of the vehicle air conditioner which concerns on the 4th Embodiment of this invention.
  • the vehicle air conditioner 1 a As shown in FIG. 1, the vehicle air conditioner 1 a according to the first embodiment of the present invention includes an inside air inlet 10 that introduces inside air, an outside air inlet 11 that introduces outside air, and an inside air inlet 10.
  • the inside / outside air switching device 20 capable of selectively switching the ratio between the introduced inside air and the outside air introduced from the outside air intake port 11, and provided downstream of the inside / outside air switching device 20, the air flow toward the vehicle interior are provided on the downstream side of the first blower 30, the cooling heat exchanger (evaporator) 40 that cools the introduced air, and the downstream of the cooling heat exchanger 40.
  • the first heating heat exchanger (heat core) 50a for heating the introduced air and the inside / outside air switching device 20 is introduced and air-conditioned by the cooling heat exchanger 40 and the first heating heat exchanger 50a.
  • Conditioned air A first air passage 60 communicating with the foot outlet 15 to be blown out originally, a second outside air inlet 12 that introduces outside air, and a second that can be selected as to whether or not outside air is introduced from the second outside air inlet 12.
  • the outside air intake selection device 21 and the second outside air intake selection device 21 are provided downstream of the second outside air intake selection device 21 and generate air flow toward the vehicle interior.
  • a first communication control device (first air mix door) 22 for controlling the communication.
  • the inside air intake 10 is an intake opening that is open to introduce inside air into the vehicle air conditioner 1a.
  • the outside air intake 11 is an intake opening that is open to introduce outside air into the vehicle air conditioner 1a.
  • An inside / outside air switching device 20 is provided in the vicinity of the inside air intake 10 and the outside air intake 11.
  • the inside / outside air switching device 20 can block the inside air intake 10 and the outside air intake 11.
  • the inside / outside air switching device 20 can control to introduce only the inside air from the inside air intake port 10 by closing the outside air intake port 11, and from the outside air intake port 11 by closing the inside air intake port 10. It is possible to control to introduce only outside air.
  • the inside / outside air switching device 20 selects the ratio between the inside air and the outside air by adjusting the degree of opening of the inside air inlet 10 and the outside air inlet 11 without closing both the inside air inlet 10 and the outside air inlet 11. Can be switched automatically.
  • the first blower 30 is a blower fan or the like that is provided on the downstream side of the inside / outside air switching device 20 and generates an air flow toward the vehicle interior.
  • the first air blower 30 is rotated by a blower motor 31 to generate an air flow.
  • the air flow generated by the first blower 30 blows the inside air and the outside air selectively introduced by the inside / outside air switching device 20 toward the cooling heat exchanger 40.
  • the cooling heat exchanger 40 is a cooling device that uses heat of vaporization caused by evaporation.
  • the cooling heat exchanger 40 cools the inside air and the outside air blown by the first blower 30.
  • a dust collection filter 41 is provided on the upstream side of the cooling heat exchanger 40 to prevent dust and dirt from entering the cooling heat exchanger 40.
  • a freeze prevention sensor (not shown) is provided immediately downstream of the cooling heat exchanger 40. The refrigeration cycle is controlled by the temperature detected by the antifreezing sensor so that the temperature of the air passing through the cooling heat exchanger 40 does not fall below 3 ° C., for example.
  • the heat exchanger 50 for heating is provided in each of the 1st ventilation path 60 and the 2nd ventilation path 61, and in this Embodiment, the 1st ventilation path 60 is provided with the 1st heating heat exchanger 50a, The second air duct 61 is provided with a second heating heat exchanger 50b.
  • the first heating heat exchanger 50a and the second heating heat exchanger 50b generate warm air by exchanging heat with the inside air and the outside air using a medium heated by heat generation such as an engine or a compressor. Device.
  • the first heating heat exchanger 50a and the second heating heat exchanger 50b can be used as an integral heating heat exchanger 50.
  • the heat exchanger 50 for heating is provided in the location where the 1st ventilation path 60 and the 2nd ventilation path 61 adjoin on the downstream of the heat exchanger 40 for cooling, and the 1st ventilation path 60 and the 2nd ventilation path 61.
  • the first air passage 60 is an air passage that takes at least inside air and communicates with the foot outlet 15.
  • the first air passage 60 uses the inside air taken in from the inside air inlet 10 and the outside air taken in from the outside air inlet 11 as a foot outlet. 15 is blown.
  • the 1st ventilation path 60 is ventilated by the 1st air blower 30, and is connected to the foot blower outlet 15 which blows off the air-conditioning air which passed the heat exchanger 40 for cooling and the heat exchanger 50a for 1st heating to a passenger
  • the second outside air inlet 12 is an inlet that is open to introduce outside air into the vehicle air conditioner 1a separately from the outside air inlet 11.
  • a second outside air intake selection device 21 is provided at the second outside air intake 12. The second outside air intake selection device 21 can close the second outside air intake 12, and blocks the introduction of outside air from the second outside air intake 12 by closing the second outside air intake 12. Can do. Further, when the second outside air intake selection device 21 opens the second outside air intake 12, the outside air can be introduced from the second outside air intake 12.
  • the second blower 32 is a blower fan or the like that is provided on the downstream side of the second outside air intake selection device 21 and generates an air flow toward the vehicle interior.
  • the air flow generated by the second blower 32 causes the outside air introduced from the second outside air intake port 12 to pass through the duct 70 and blow toward the second heating heat exchanger 50b.
  • a dust collecting filter 33 is provided on the downstream side of the second blower 32 to prevent dust, dirt, and the like from entering the second heating heat exchanger 50b.
  • the filter 33 may be provided on the upstream side of the second blower 32 or may be plural.
  • the second air passage 61 is an air passage that takes in at least outside air and communicates with the differential air outlet 16. In the present embodiment, the outside air taken in from the second outside air inlet 12 is blown to the differential outlet 16. In the second air passage 61, the outside air introduced from the second outside air inlet 12 is blown to the second heating heat exchanger 50b by the second blowing device 32, and the conditioned air that has passed through the second heating heat exchanger 50b. Is an air passage that communicates with the differential outlet 16 that blows the air through the window glass in the passenger compartment.
  • the second air passage 61 is provided with a duct 70 serving as a path through which the outside air introduced from the second outside air intake port 12 is blown by the second air blower 32 to the second heating heat exchanger 50b.
  • the duct 70 is set to blow out along the direction of the air flow generated by the first blower 30.
  • the first air mix door 22 is connected to the first air passage 60 on the downstream side of the first heating heat exchanger 50 a and the second heating heat exchanger 50 b (heating heat exchanger 50).
  • the first air passage 90 is provided in the first air passage 90 that communicates with the second air passage 61 and controls the communication between the first air passage 60 and the second air passage 61.
  • the 1st air mix door 22 is a plate-shaped door, a shutter, etc., and should just be a shape which can select closure and opening of the 1st communicating path 90.
  • the 1st air mix door 22 obstruct
  • 61 can be partitioned.
  • the 1st air mix door 22 opens the 1st communicating path 90, is connected, and the 1st ventilation path 60 in the downstream of the 1st heating heat exchanger 50a and the 2nd heating heat exchanger 50b is carried out.
  • the 2nd ventilation path 61 can be made to merge.
  • the inside / outside air switching device 20 adjusts the degree of opening between the inside air intake 10 and the outside air intake 11. It is introduced from the outside air intake 11.
  • the second outside air intake selection device 21 is adjusted to close the second outside air intake 12.
  • the outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40.
  • the outside air introduced from the outside air intake 11 and passed through the cooling heat exchanger 40 is directed to the first heating heat exchanger 50a.
  • the external air which passed the 1st heat exchanger 50a is blown out from the open foot blower outlet 15.
  • first air mix door 22 of the first communication passage 90 is opened, and the differential blower outlet 16 and the foot blower outlet 15 are opened to blow out to the wind glass.
  • the 1st air mix door 22 of the 1st communicating path 90 is obstruct
  • the second outside air intake selection device 21 is adjusted, the second outside air intake 12 is opened, and the second air blower 32 is used. It can also be activated simultaneously. In this case, since the air is sent to the first heating heat exchanger 50a in the first air passage 60 and the second heating heat exchanger 50b in the second air passage 61, heat exchange can be performed efficiently.
  • the opening degree between the inside air intake port 10 and the outside air intake port 11 is adjusted by the inside / outside air switching device 20 to take in the inside air.
  • Inside air is introduced from the mouth 10 and outside air is introduced from the second outside air inlet 12.
  • the inside air introduced from the inside air inlet 10 is blown by the air flow generated by the first blower 30 and travels toward the first heating heat exchanger 50a.
  • the outside air introduced from the second outside air intake 12 is blown by the air flow generated by the second blowing device 32.
  • the outside air introduced from the second outside air intake 12 passes through the duct 70 and travels to the second heating heat exchanger 50b.
  • the outside air introduced from the second outside air inlet 12 is blown out from the opened differential outlet 16.
  • the inside air introduced from the inside air intake 10 is blown out from the open foot outlet 15.
  • the first air mix door 22 of the first communication passage 90 is closed, the inside air and the outside air are blown out without being mixed.
  • the vehicle air conditioner 1a when operating in the two-layer flow mode at a low outside air temperature, it is possible to reduce the load applied to the heating by the internal air circulation and the duct. It is possible to prevent window fogging by introducing low-humidity outside air from 70 and exhausting it from the differential outlet 16 after passing through the second heating heat exchanger 50b.
  • the vehicle air conditioner 1a which concerns on 1st Embodiment, by being able to adjust arbitrarily the blower output of the 1st air blower 30 and the 2nd air blower 32, inside air and outside air can be adjusted.
  • the ratio can be adjusted, and the degree of freedom of air conditioning control can be improved.
  • the duct 70 is inserted into the first air passage 60 on the downstream side of the air flow of the cooling heat exchanger 40, and the first air passage 60. Since the opening of the duct 70 is open to the downstream side of the air flow of the first air passage 60 and the air is blown out in the main flow direction while having a wall on the upstream side of the air flow, air easily flows from the duct 70. Become. Since air easily flows in from the duct 70, the blower power of the first blower 30 and the second blower 32 can be reduced, and the power consumption of the first blower 30 and the second blower 32 is reduced. be able to.
  • the vehicle air conditioner 1a which concerns on 1st Embodiment, since there is no partition of internal and external air in the air flow upstream and downstream of the heat exchanger 40 for cooling, it is open
  • the vehicle air conditioner 1a according to the second embodiment of the present invention has a second air blowing compared with the vehicle air conditioner 1a shown in FIG.
  • the path 61 passes through a duct (bypass duct) 70 that bypasses the heat exchanger 40 for cooling from the second outside air intake port 12, and passes through a first heat exchanger 50 a and a second heat exchanger 50 b (for heating).
  • the air-conditioning air that has passed through the heat exchanger 50) is an air passage that communicates with the differential air outlet 16 that blows off the wind glass in the vehicle interior.
  • the second embodiment will be described as a heating heat exchanger 50 in which the first heating heat exchanger 50a and the second heating heat exchanger 50b are integrated.
  • the vehicle air conditioner 1a has a communication path (second communication path) that connects the first air passage 60 and the second air passage 61 on the upstream side of the heat exchanger 50 for heating.
  • a second communication control device (second air mix door) 23 for controlling the communication between the first air passage 60 and the second air passage 61, and the heat for heating on the downstream side of the heat exchanger 40 for cooling.
  • a third communication control device (third air mix door) 24 that is provided in the air passage that does not pass through the exchanger 50 and controls whether or not the air passage that does not pass through the heat exchanger 50 for heating is communicated. Is different. Others are substantially the same, and thus redundant description is omitted.
  • the second air mix door 23 and the third air mix door 24 are cooled by the cooling heat exchanger 40, dehumidified, and then control the ratio of the conditioned air going to the heating heat exchanger 50. Specifically, if the second air mix door 23 is closed and the air going to the heating heat exchanger 50 is shut off, and the third air mix door 24 is opened, the conditioned air goes to the heating heat exchanger 50 at all. There will be no maximum cooling. On the contrary, if the 3rd air mix door 24 is closed and the 2nd air mix door 23 is opened, all the conditioned air will go to the heat exchanger 50 for heating, and it can be set as the maximum heating. Thus, the ratio of the conditioned air toward the heat exchanger 50 for heating can be controlled by interlocking the second air mix door 23 and the third air mix door 24 to control the opening degree.
  • the second air mix door 23 can close the second communication passage 91 by opening it.
  • the 1st ventilation path 60 and the 2nd ventilation path 61 can be partitioned in the upstream of the heat exchanger 50 for a heating.
  • the 2nd air mix door 23 can block
  • the vehicle air conditioner 1a has a foot outlet 15 for blowing conditioned air to the feet of the passenger, a differential outlet 16 for blowing conditioned air to the windshield in the passenger compartment, and toward the upper body side of the occupant.
  • a vent outlet 17 for blowing out conditioned air is opened.
  • the foot outlet 15 is provided with a foot outlet door 80 for controlling the air-conditioned air blown to the foot.
  • the differential outlet 16 is provided with a differential outlet 81 for controlling the conditioned air blown out to the window glass.
  • the vent outlet 17 is provided with a vent outlet door 82 that controls conditioned air that is blown out toward the upper body.
  • the operation of the vehicle air conditioner 1a in the two-layer flow mode will be described with reference to FIGS. 3 (a) and 3 (b).
  • the operation in the two-layer flow mode is, for example, at the time of the low outside temperature and the maximum heating operation.
  • the state of the air intake in the two laminar flow mode is shown using FIG.
  • the inside / outside air switching device 20 performs control to block the outside air intake port 11 and introduce only the inside air from the inside air intake port 10.
  • the second outside air intake selection device 21 performs control to open the second outside air intake 12 and introduce outside air from the second outside air intake 12.
  • the state of the air outlet in the two laminar flow mode is shown using FIG.
  • the foot outlet 15 is controlled to open the foot outlet door 80 and is opened.
  • the differential outlet 16 is opened by the control of the differential outlet 81 being opened.
  • the vent outlet 17 is closed by controlling the vent outlet door 82 to be closed.
  • the state of the 1st air mix door 22, the 2nd air mix door 23, and the 3rd air mix door 24 in 2 laminar flow mode is shown using Drawing 3 (a).
  • the first air mix door 22 performs a closing control, closes the first communication passage 90, partitions the first air passage 60 and the second air passage 61 on the downstream side of the heating heat exchanger 50, and creates a two-layer flow To.
  • the second air mix door 23 performs opening control, closes the second communication passage 91, partitions the first air passage 60 and the second air passage 61 on the upstream side of the heat exchanger 50 for heating, and creates a two-layer flow To. Since the 3rd air mix door 24 performs control contrary to the 2nd air mix door 23, close control is performed and it is made for all the conditioned air to go to the heat exchanger 50 for heating.
  • Both the first blower 30 and the second blower 32 in the two laminar flow mode are operated.
  • the first blower 30 and the second blower 32 each generate an air flow.
  • the inside air in the two-layer flow mode is blown by the air flow generated by the first blower 30 as shown in FIGS. 3 (a) and 3 (b).
  • the inside air that has passed through the cooling heat exchanger 40 in the two-layer flow mode is because the second air mix door 23 is open and the third air mix door 24 is closed, as shown in FIG. It heads for the heat exchanger 50 for a heating.
  • the internal air in the two-layer flow mode toward the heating heat exchanger 50 is closed in the second communication path 91 by the second air mix door 23. Do not merge with the outside air that has passed through.
  • the inside air that has passed through the heating heat exchanger 50 in the two-layer flow mode is blown out from the open foot blower opening 15 that is controlled so that the foot blowout door 80 is opened.
  • the internal air in the two-layer flow mode toward the foot outlet 15 is closed in the first communication passage 90 by the first air mix door 22.
  • the outside air that has passed through the vessel 50 does not merge.
  • the outside air taken in from the second outside air inlet 12 in the two-layer flow mode is blown by the air flow generated by the second blower 32 as shown in FIG.
  • the outside air in the two-layer flow mode passes through the duct 70 and goes to the heating heat exchanger 50 without passing through the cooling heat exchanger 40. Since the outside air that has passed through the duct 70 is blocked by the first air mix door 22 and the second air mix door 23, it does not merge with the inside air. Then, the outside air that has passed through the heating heat exchanger 50 is blown out from the opened differential blower outlet 16 that is controlled so that the differential blowout door 81 is opened.
  • the vehicle air conditioner 1a according to the second embodiment configured as described above can also achieve the same effects as the vehicle air conditioner 1a according to the first embodiment.
  • the low temperature and low humidity outside air bypasses the cooling heat exchanger 40 and cools it. Since the industrial heat exchanger 40 does not freeze, it is not necessary to prevent freezing, and the dehumidifying performance can be ensured.
  • the 1st ventilation path 60 and the 2nd ventilation path of the downstream of the heat exchanger 40 for cooling, and the upstream of the heat exchanger 50 for heating are used.
  • the first air passage 60 and the second air passage 61 are arranged in parallel and in the same direction, and the second communication passage 91 is provided in the adjacent portion.
  • the duct 70 is inserted in the air flow downstream side of the cooling heat exchanger 40 in the first air flow path, and has a wall on the air flow upstream side of the first air flow path 60 while having a wall on the heating heat exchanger 50 for heating the duct 70. Since air is blown in the same direction as the first air passage 60 on the upstream side, air easily flows from the duct 70.
  • the duct which is between the heat exchanger 40 for cooling of the 1st ventilation path 60 and the heat exchanger 50 for heating, and is the 2nd ventilation path 61.
  • a second communication passage 91 that communicates with the second outside air intake selection device 21 and the heat exchanger 50 for heating and a second air mix door 23 that opens and closes the second communication passage 91 are provided.
  • the second air mix door 23 is adjusted so that the second communication passage 91 is in a communicating state while the air passage to the heat exchanger 50 for heating is not blocked, and the second outside air intake selection device 21 is adjusted to 2
  • the outside air intake 18 By closing the outside air intake 18, the blown air blown by the first blower 30 can be blown over the entire surface of the heat exchanger 50 for heating.
  • the flow path of conditioned air can be changed with the 1st air mix door 22, the 2nd air mix door 23, and the 3rd air mix door 24. Since the heating load can be reduced by reducing the ventilation loss without complicating the passage in the apparatus, the cost can be reduced by simplifying the passage.
  • the vehicle air conditioner 1 b As shown in FIG. 4, the vehicle air conditioner 1 b according to the third embodiment of the present invention has a duct 70 downstream of the second air blower 32 as compared with the vehicle air conditioner 1 a shown in FIG. 1. The difference is that the structure is branched into two and joins upstream of the heating heat exchanger 50. Moreover, in 3rd Embodiment, it demonstrates as it is the heat exchanger 50 for heating with which the heat exchanger 50a for 1st heating and the heat exchanger 50b for 2nd heating are united. Others are substantially the same, and thus redundant description is omitted.
  • the inside air in the two-layer flow mode is introduced from the inside air inlet 10 by closing the outside air inlet 11 by the inside / outside air switching device 20. Then, the inside air in the two-layer flow mode is blown by the air flow generated by the first blower 30 and travels toward the cooling heat exchanger 40 as shown in FIG. The inside air that has passed through the cooling heat exchanger 40 goes to the heating heat exchanger 50. And the inside air which passed the heat exchanger 50 for heating blows off from the open foot blower outlet.
  • the outside air in the two-layer flow mode is blown by the air flow generated by the second blower 32 as shown in FIG.
  • the air flow generated by the second blower 32 forms a branched flow because the duct 70 is branched. Since the duct 70 has a structure in which it is branched and merges upstream of the heating heat exchanger 50, the air that has passed through the duct 70 can be introduced from both sides of the heating heat exchanger 50.
  • the outside air in the two-layer flow mode passes through the branched duct 70 and travels from multiple directions to the heating heat exchanger 50 without passing through the cooling heat exchanger 40. And the external air which passed the heat exchanger 50 for a heating is blown off from the open differential outlet.
  • the vehicular air conditioner 1b according to the third embodiment configured as described above can achieve the same effects as the vehicular air conditioner 1a according to the first and second embodiments.
  • the air-conditioning air which bypassed the heat exchanger 40 for cooling by the duct 70 can be made to flow into the heat exchanger 50 for heating from two directions.
  • the wind speed distribution at the time of flowing into the heating heat exchanger 50 can be improved.
  • the vehicle air conditioner 1 c includes an inside air inlet 10 that introduces inside air, an outside air inlet 11 that introduces outside air, and an inside air inlet 10.
  • the inside / outside air switching device 20 capable of selectively switching the ratio between the introduced inside air and the outside air introduced from the outside air intake port 11, and provided downstream of the inside / outside air switching device 20, the air flow toward the vehicle interior Are provided on the downstream side of the first blower 30, the cooling heat exchanger (evaporator) 40 that cools the introduced air, and the downstream of the cooling heat exchanger 40.
  • the first heating heat exchanger (heat core) 50a for heating the introduced air and the inside / outside air switching device 20 is introduced and air-conditioned by the cooling heat exchanger 40 and the first heating heat exchanger 50a.
  • Conditioned air A second air passage 61 that communicates with the differential air outlet 16 that blows out the Indian glass, a second inside air inlet 18 that introduces inside air, and whether or not the inside air is introduced from the second inside air inlet 18 can be selected.
  • the inside air intake selection device 26 and the second inside air intake selection device 26 are provided downstream of the second inside air intake selection device 26 and generate an air flow toward the vehicle interior, and are introduced from the second inside air intake port 18 and introduced.
  • a first air passage 60 that communicates with the foot outlet 15 that blows out the conditioned air that has been air-conditioned by the second heat exchanger (heat core) 50b that heats the heated air, and a first heat exchanger 50a and the second heating heat exchanger 50b on the downstream side of the first air passage 60 and the second air passage 61 are provided in the first communication passage 90, the first air passage 60 and the second air passage 61, Control of communication First communication control device for and a (first air mix door) 22.
  • the heat exchanger 50 for heating is provided in each of the 1st ventilation path 60 and the 2nd ventilation path 61, and in this Embodiment, the 2nd heating heat exchanger 50b is provided in the 1st ventilation path 60, The second air passage 61 is provided with a first heating heat exchanger 50a.
  • the degree of opening between the inside air intake port 10 and the outside air intake port 11 is adjusted by the inside / outside air switching device 20, and the outside air intake port 11 is adjusted. It is introduced from.
  • the second inside air intake selection device 26 is adjusted to close the second inside air intake 18.
  • the outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40.
  • the outside air introduced from the outside air intake 11 and passed through the cooling heat exchanger 40 is directed to the first heating heat exchanger 50a.
  • the 1st air mix door 22 of the 1st communicating path 90 is open
  • the inside / outside air switching device 20 adjusts the degree of opening between the inside air intake 10 and the outside air intake 11 so that the outside air Outside air is introduced from the intake port 11, and inside air is introduced from the second inside air intake port 18.
  • the outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40.
  • the outside air that has passed through the cooling heat exchanger 40 goes to the first heating heat exchanger 50a.
  • the outside air that has passed through the first heating heat exchanger 50a is blown out from the opened differential outlet 16.
  • the inside air introduced from the second inside air intake port is blown by the air wind generated by the second blowing device 32.
  • the inside air introduced from the second inside air intake port passes through the duct 70 and travels to the second heating heat exchanger 50b. And the inside air which passed the 2nd heating heat exchanger 50b is blown off from the open foot blower outlet 15. At that time, since the first air mix door 22 of the first communication passage 90 is closed, the inside air and the outside air are blown out without being mixed.
  • the vehicle air conditioner 1c when operating in the two-layer flow mode at the low outside air temperature, the already heated inside air does not pass through the cooling heat exchanger 40. It becomes possible to reduce the load concerning heating by circulation.
  • the vehicle air conditioner 1c it is possible to reduce the load applied to heating by circulating the inside air, so that a small amount of outside air having a low temperature and low humidity is introduced from the outside air intake port 11. Even if it has little influence on the heating effect, window fogging can be prevented by introducing low humidity outside air. Since the cooling heat exchanger 40 is not frozen by a small amount of outside air to be introduced, it is not necessary to prevent freezing, and the dehumidifying performance can be ensured.
  • the blower output of the 1st air blower 30 and the 2nd air blower 32 can be adjusted arbitrarily, and internal air and external air can be adjusted.
  • the ratio can be adjusted, and the degree of freedom of air conditioning control can be improved.
  • the duct serving as the second air passage 61 and between the cooling heat exchanger 40 and the first heating heat exchanger 50a in the first air passage 60 are provided.
  • a second communication passage 91 that communicates with the second inside air intake selection device 26 and the second heating heat exchanger 50b and a second air mix door 23 that opens and closes the second communication passage may be provided.
  • the second air mix door 23 is used in the closed state in the two-layer flow mode, but when the second air mix door 23 is used in the outside air mode, the second inside air intake selection device is closed and the second air mix door 23 and the first air mix door are used.
  • the air is also sent to the first heating heat exchanger 50 a in the first air passage and the second heating heat exchanger 50 b in the second air passage, so that heat can be exchanged efficiently.
  • the duct 70 has two branches, but may have a plurality of branches having two or more branches.
  • the number of branches is two or more, the conditioned air bypassing the cooling heat exchanger 40 can flow into the heating heat exchanger 50 from multiple directions, so the heating heat exchanger 50 It is possible to improve the wind speed distribution at the time of inflow.
  • the explanation is based on the application to a refrigeration cycle that is controlled so that the temperature of the air passing through the cooling heat exchanger 40 does not become too low depending on the temperature detected by the antifreezing sensor. It can also be applied to refrigeration cycles that are not used.
  • a low pressure control valve that detects the refrigerant pressure at the outlet of the cooling heat exchanger 40 and limits the refrigerant flow rate to the target refrigerant pressure
  • a variable capacity compressor that varies the discharge capacity per revolution
  • an electric motor that varies the number of revolutions Heat exchange for cooling in a two-layer flow mode air conditioner in which the inside air and the outside air are blown to independent flow paths even when the vehicle air conditioner of the present invention is combined with a refrigeration cycle using a compressor or the like Needless to say, the effect of properly functioning the vessel is exhibited.
  • the vehicle air conditioner of the present invention can be used in a machine manufacturing industry including an air conditioner manufacturing industry and a vehicle manufacturing industry such as an automobile.

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  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Air-Conditioning For Vehicles (AREA)

Abstract

An air conditioning device for a vehicle is provided with: a first air flow path (60) into which at least inside air is introduced and which communicates with a foot outlet (15); a second air flow path (61) into which at least outside air is introduced and which communicates with a defrosting outlet (16); heating heat exchangers (50) which are respectively provided to the first air flow path (60) and the second air flow path (61) and heat air; a cooling heat exchanger (40) which is provided to the upstream of the heating heat exchanger (50) of either the first air flow path (60) or the second air flow path (61) and cools air; and a communication path (first communication path) (90) which connects on the downstream of the cooling heat exchanger (40) the first air flow path (60) and the second air flow path (61).

Description

車両用空調装置Air conditioner for vehicles
 本発明は、車両用空調装置に関し、特に、内気通路と外気通路を仕切って区分けした2層構造の車両用空調装置に関する。 The present invention relates to a vehicle air conditioner, and more particularly, to a two-layer vehicle air conditioner in which an inside air passage and an outside air passage are partitioned and divided.
 車両用空調装置において、低外気温時に暖房負荷低減のために内気循環させながら外気を導入する2層構造の車両用空調装置がある(例えば、特許文献1参照。)。2層構造の車両用空調装置は、車室内へ空気を導く通路を2つに仕切り、それぞれの通路にファンを設置するものである。そして、この2層構造の車両用空調装置は、一方の通路の空気下流側にデフロスタ(デフ)吹出口を設け、他方の通路の空気下流側にフット(足元)吹出口を設けられている。このような2層構造の車両用空調装置によって、比較的低湿な外気を導入加熱しデフ吹出口から吹き出させて防曇効果を得ると共に、暖房能力を向上させるために比較的高温の内気を導入加熱しフット吹出口から吹き出させる吹き出しモードを2層流モードという。 In a vehicle air conditioner, there is a vehicle air conditioner having a two-layer structure that introduces outside air while circulating the inside air in order to reduce the heating load at a low outside air temperature (for example, see Patent Document 1). The vehicular air conditioner having a two-layer structure is configured to divide a passage for introducing air into a vehicle compartment into two and install a fan in each of the passages. The two-layer vehicle air conditioner is provided with a defroster (def) outlet on the downstream side of the air in one passage and a foot (foot) outlet on the downstream side of the air in the other passage. With such a two-layer vehicle air conditioner, outside air with relatively low humidity is introduced and heated and blown out from the differential outlet to obtain an anti-fogging effect, and a relatively high temperature inside air is introduced to improve heating capacity. A blowing mode in which heating is performed and blowing from the foot outlet is referred to as a two-layer flow mode.
 上述した2層構造の車両用空調装置は、低外気温時で2層流モードを運転する場合、低温の外気と暖房中の内気が混合しないよう冷却用熱交換器(エバポレータ)を含めて二つの仕切られた空調装置内を送風されているため、冷却用熱交換器(エバポレータ)の表面温度が均一にならないため凍結防止について明確にしておらず問題があった。その問題の対策として、エバポレータの凍結を防止するために、検出手段を内気通路側に設け、エバポレータを通過した直後の冷風温度を検出手段で検出することで、エバポレータの凍結防止を図ることが提案されている(例えば、特許文献2参照。)。この提案によって、エバポレータの凍結防止はすることができるが、エバポレータの凍結防止を優先することによって、2層構造の車両用空調装置の除湿性能が不足してしまう等の問題がある。 The above-described two-layer vehicle air conditioner includes a cooling heat exchanger (evaporator) so that the low temperature outside air and the inside air during heating are not mixed when the two layer flow mode is operated at a low outside air temperature. Since air is blown through two partitioned air conditioners, the surface temperature of the cooling heat exchanger (evaporator) does not become uniform, so there is a problem in that the prevention of freezing is not clearly defined. As a countermeasure against this problem, in order to prevent the evaporator from freezing, it is proposed to prevent the evaporator from freezing by providing detection means on the inside air passage side and detecting the cold air temperature immediately after passing through the evaporator by the detection means. (For example, see Patent Document 2). This proposal can prevent the evaporator from freezing, but there is a problem that the dehumidifying performance of the two-layered vehicle air conditioner becomes insufficient by giving priority to the evaporator freezing prevention.
特開平5-124426号公報Japanese Patent Laid-Open No. 5-124426 特開平10-86638号公報Japanese Patent Laid-Open No. 10-86638
 本発明は上記実情に鑑みてなされたものであって、低外気温時における空調の暖房負荷を低減させつつ、優れた除湿性能を有する車両用空調装置を提供することを目的とする。 The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a vehicle air conditioner having excellent dehumidifying performance while reducing the heating load of air conditioning at a low outside air temperature.
 本願発明の一態様によれば、少なくとも内気を取り入れフット吹出口に連通する第1送風路と、少なくとも外気を取り入れデフ吹出口に連通する第2送風路と、第1送風路及び第2送風路の各々に設けられ、空気を加熱する加熱用熱交換器と、第1送風路及び第2送風路のいずれかの加熱用熱交換器の上流に設けられ、空気を冷却する冷却用熱交換器と、冷却用熱交換器の下流側で第1送風路と第2送風路とを連通する連通路とを備える車両用空調装置であることを要旨とする。 According to one aspect of the present invention, at least a first air passage that takes in the inside air and communicates with the foot outlet, a second air passage that takes at least outside air and communicates with the differential outlet, a first air passage and a second air passage. A heat exchanger for heating that heats the air, and a heat exchanger for cooling that cools the air provided upstream of the heat exchanger for heating either the first air passage or the second air passage And a vehicular air conditioner including a communication passage communicating the first air passage and the second air passage on the downstream side of the cooling heat exchanger.
本発明の第1の実施の形態に係る車両用空調装置の概略図である。It is the schematic of the vehicle air conditioner which concerns on the 1st Embodiment of this invention. 図2(a)は、図2(b)に示すA-A線における模式的断面図であり、図2(b)は、本発明の第2の実施の形態に係る車両用空調装置の概略図である。2A is a schematic cross-sectional view taken along line AA shown in FIG. 2B, and FIG. 2B is an outline of the vehicle air conditioner according to the second embodiment of the present invention. FIG. 図3(a)は、図3(b)に示すA-A線における模式的断面図で空調空気の流れを示す概略図であり、図3(b)は、本発明の第2の実施の形態に係る車両用空調装置の空調空気の流れを示す概略図である。FIG. 3 (a) is a schematic cross-sectional view taken along line AA shown in FIG. 3 (b), and is a schematic diagram showing the flow of conditioned air. FIG. 3 (b) is a diagram illustrating the second embodiment of the present invention. It is the schematic which shows the flow of the conditioned air of the vehicle air conditioner which concerns on a form. 本発明の第3の実施の形態に係る車両用空調装置の概略図である。It is the schematic of the vehicle air conditioner which concerns on the 3rd Embodiment of this invention. 本発明の第3の実施の形態に係る車両用空調装置の空調空気の流れを示す概略図である。It is the schematic which shows the flow of the conditioned air of the vehicle air conditioner which concerns on the 3rd Embodiment of this invention. 本発明の第4の実施の形態に係る車両用空調装置の概略図である。It is the schematic of the vehicle air conditioner which concerns on the 4th Embodiment of this invention.
 以下に図面を参照して、本発明の実施の形態を説明する。以下の図面の記載において、同一又は類似の部分には同一又は類似の符号で表している。但し、図面は模式的なものであり、厚みと平面寸法との関係、各層の厚みの比率等は現実のものとは異なる。したがって、具体的な厚みや寸法は以下の説明を照らし合わせて判断するべきものである。また、図面相互間においても互いの寸法の関係や比率が異なる部分が含まれていることは勿論である。 Embodiments of the present invention will be described below with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals. However, the drawings are schematic, and the relationship between the thickness and the planar dimensions, the ratio of the thickness of each layer, and the like are different from the actual ones. Therefore, specific thicknesses and dimensions should be determined in light of the following description. Moreover, it is a matter of course that portions having different dimensional relationships and ratios are included between the drawings.
(第1の実施の形態)
 本発明の第1の実施の形態に係る車両用空調装置1aは、図1に示すように、内気を導入する内気取り入れ口10と、外気を導入する外気取り入れ口11と、内気取り入れ口10から導入される内気と外気取り入れ口11から導入される外気との比率を選択的に切替可能な内外気切替装置20と、内外気切替装置20の下流側に設けられ、車室内に向かって空気流を発生させる第1送風装置30と、第1送風装置30の下流側に設けられ、導入された空気を冷却する冷却用熱交換器(エバポレータ)40と、冷却用熱交換器40の下流側に設けられ、導入された空気を加熱する第1加熱用熱交換器(ヒートコア)50aと、内外気切替装置20から導入され、冷却用熱交換器40及び第1加熱用熱交換器50aによって空調された空調空気を足元に吹き出させるフット吹出口15へと連通する第1送風路60と、外気を導入する第2外気取り入れ口12と、第2外気取り入れ口12から外気を導入させるか否か選択可能な第2外気取り入れ選択装置21と、第2外気取り入れ選択装置21の下流側に設けられ、車室内に向かって空気流を発生させる第2送風装置32と、第2外気取り入れ口12から導入され、導入された空気を加熱する第2加熱用熱交換器(ヒートコア)50bによって空調された空調空気をウインドガラスに吹き出させるデフ吹出口16へと連通する第2送風路61と、第1加熱用熱交換器50a及び第2加熱用熱交換器50bの下流側で第1送風路60と第2送風路61とを連通する連通路(第1連通路)90に設けられ、第1送風路60と第2送風路61との連通を制御する第1連通制御装置(第1エアミックスドア)22とを備える。
(First embodiment)
As shown in FIG. 1, the vehicle air conditioner 1 a according to the first embodiment of the present invention includes an inside air inlet 10 that introduces inside air, an outside air inlet 11 that introduces outside air, and an inside air inlet 10. The inside / outside air switching device 20 capable of selectively switching the ratio between the introduced inside air and the outside air introduced from the outside air intake port 11, and provided downstream of the inside / outside air switching device 20, the air flow toward the vehicle interior Are provided on the downstream side of the first blower 30, the cooling heat exchanger (evaporator) 40 that cools the introduced air, and the downstream of the cooling heat exchanger 40. The first heating heat exchanger (heat core) 50a for heating the introduced air and the inside / outside air switching device 20 is introduced and air-conditioned by the cooling heat exchanger 40 and the first heating heat exchanger 50a. Conditioned air A first air passage 60 communicating with the foot outlet 15 to be blown out originally, a second outside air inlet 12 that introduces outside air, and a second that can be selected as to whether or not outside air is introduced from the second outside air inlet 12. The outside air intake selection device 21 and the second outside air intake selection device 21 are provided downstream of the second outside air intake selection device 21 and generate air flow toward the vehicle interior. A second air passage 61 communicating with the differential air outlet 16 for blowing the conditioned air conditioned by the second heat exchanger (heat core) 50b for heating the heated air to the window glass, and the first heat exchanger for heating 50a and the second heating heat exchanger 50b are provided in a communication passage (first communication passage) 90 that communicates the first air passage 60 and the second air passage 61 on the downstream side of the heat exchanger 50b. With air passage 61 And a first communication control device (first air mix door) 22 for controlling the communication.
 内気取り入れ口10は、車両用空調装置1a内に内気を導入するために開口している取り入れ口である。外気取り入れ口11は、車両用空調装置1a内に外気を導入するために開口している取り入れ口である。内気取り入れ口10及び外気取り入れ口11の近傍には、内外気切替装置20が設けられている。内外気切替装置20は、内気取り入れ口10及び外気取り入れ口11を閉塞することが可能である。内外気切替装置20は、外気取り入れ口11を閉塞することで内気取り入れ口10からの内気のみを導入させる制御をすることができ、また、内気取り入れ口10を閉塞することで外気取り入れ口11からの外気のみを導入させる制御をすることができる。また、内外気切替装置20は、内気取り入れ口10及び外気取り入れ口11のいずれも閉塞しないで、内気取り入れ口10及び外気取り入れ口11の開口度を調整することで内気と外気との比率を選択的に切替することが可能である。 The inside air intake 10 is an intake opening that is open to introduce inside air into the vehicle air conditioner 1a. The outside air intake 11 is an intake opening that is open to introduce outside air into the vehicle air conditioner 1a. An inside / outside air switching device 20 is provided in the vicinity of the inside air intake 10 and the outside air intake 11. The inside / outside air switching device 20 can block the inside air intake 10 and the outside air intake 11. The inside / outside air switching device 20 can control to introduce only the inside air from the inside air intake port 10 by closing the outside air intake port 11, and from the outside air intake port 11 by closing the inside air intake port 10. It is possible to control to introduce only outside air. Further, the inside / outside air switching device 20 selects the ratio between the inside air and the outside air by adjusting the degree of opening of the inside air inlet 10 and the outside air inlet 11 without closing both the inside air inlet 10 and the outside air inlet 11. Can be switched automatically.
 第1送風装置30は、内外気切替装置20の下流側に設けられ、車室内に向かって空気流を発生させるブロワファン等である。第1送風装置30は、ブロワモータ31によって回転させられることで空気流を発生させる。第1送風装置30によって発生させられた空気流は、内外気切替装置20によって選択的に導入された内気及び外気を冷却用熱交換器40に向かって送風させる。 The first blower 30 is a blower fan or the like that is provided on the downstream side of the inside / outside air switching device 20 and generates an air flow toward the vehicle interior. The first air blower 30 is rotated by a blower motor 31 to generate an air flow. The air flow generated by the first blower 30 blows the inside air and the outside air selectively introduced by the inside / outside air switching device 20 toward the cooling heat exchanger 40.
 冷却用熱交換器40は、蒸発による気化熱を利用した冷却装置である。冷却用熱交換器40は、第1送風装置30によって送風された内気及び外気を冷却する。冷却用熱交換器40の上流側には、塵やゴミ等が冷却用熱交換器40へ進入することを防ぐ集塵用のフィルタ41が設けられている。冷却用熱交換器40の直ぐ下流には、凍結防止センサ(図示せず)が設けられている。凍結防止センサの検知温度によって、冷却用熱交換器40を通過する送風温度が例えば3℃未満にならないように冷凍サイクルが制御される。 The cooling heat exchanger 40 is a cooling device that uses heat of vaporization caused by evaporation. The cooling heat exchanger 40 cools the inside air and the outside air blown by the first blower 30. A dust collection filter 41 is provided on the upstream side of the cooling heat exchanger 40 to prevent dust and dirt from entering the cooling heat exchanger 40. A freeze prevention sensor (not shown) is provided immediately downstream of the cooling heat exchanger 40. The refrigeration cycle is controlled by the temperature detected by the antifreezing sensor so that the temperature of the air passing through the cooling heat exchanger 40 does not fall below 3 ° C., for example.
 加熱用熱交換器50は、第1送風路60及び第2送風路61の各々に設けられ、本実施の形態では、第1送風路60には第1加熱用熱交換器50aが設けられ、第2送風路61には第2加熱用熱交換器50bが設けられている。第1加熱用熱交換器50a及び第2加熱用熱交換器50bは、エンジン、圧縮機等の発熱により温められた媒体を利用して、内気及び外気と熱交換させることにより温風を発生させる装置である。第1加熱用熱交換器50a及び第2加熱用熱交換器50bは、一体の加熱用熱交換器50として用いることができる。加熱用熱交換器50は、冷却用熱交換器40の下流側で第1送風路60と第2送風路61とが隣接している箇所に設けられ、第1送風路60と第2送風路61とに渡って配置されている。 The heat exchanger 50 for heating is provided in each of the 1st ventilation path 60 and the 2nd ventilation path 61, and in this Embodiment, the 1st ventilation path 60 is provided with the 1st heating heat exchanger 50a, The second air duct 61 is provided with a second heating heat exchanger 50b. The first heating heat exchanger 50a and the second heating heat exchanger 50b generate warm air by exchanging heat with the inside air and the outside air using a medium heated by heat generation such as an engine or a compressor. Device. The first heating heat exchanger 50a and the second heating heat exchanger 50b can be used as an integral heating heat exchanger 50. The heat exchanger 50 for heating is provided in the location where the 1st ventilation path 60 and the 2nd ventilation path 61 adjoin on the downstream of the heat exchanger 40 for cooling, and the 1st ventilation path 60 and the 2nd ventilation path 61.
 第1送風路60は、少なくとも内気を取り入れフット吹出口15に連通する送風路であり、本実施の形態では、内気取り入れ口10から取り入れた内気及び外気取り入れ口11から取り入れた外気をフット吹出口15に送風する。第1送風路60は、第1送風装置30によって送風され、冷却用熱交換器40及び第1加熱用熱交換器50aを通過した空調空気を乗員の足元に吹き出させるフット吹出口15へと連通する送風路である。 The first air passage 60 is an air passage that takes at least inside air and communicates with the foot outlet 15. In the present embodiment, the first air passage 60 uses the inside air taken in from the inside air inlet 10 and the outside air taken in from the outside air inlet 11 as a foot outlet. 15 is blown. The 1st ventilation path 60 is ventilated by the 1st air blower 30, and is connected to the foot blower outlet 15 which blows off the air-conditioning air which passed the heat exchanger 40 for cooling and the heat exchanger 50a for 1st heating to a passenger | crew's step. It is a ventilation path.
 第2外気取り入れ口12は、外気取り入れ口11とは別に外気を車両用空調装置1a内に導入するために開口している取り入れ口である。第2外気取り入れ口12には、第2外気取り入れ選択装置21が設けられている。第2外気取り入れ選択装置21は、第2外気取り入れ口12を閉塞することが可能であり、第2外気取り入れ口12を閉塞することで第2外気取り入れ口12からの外気の導入を遮断することができる。また、第2外気取り入れ選択装置21が第2外気取り入れ口12を開口した場合には、第2外気取り入れ口12から外気を導入させることができる。 The second outside air inlet 12 is an inlet that is open to introduce outside air into the vehicle air conditioner 1a separately from the outside air inlet 11. A second outside air intake selection device 21 is provided at the second outside air intake 12. The second outside air intake selection device 21 can close the second outside air intake 12, and blocks the introduction of outside air from the second outside air intake 12 by closing the second outside air intake 12. Can do. Further, when the second outside air intake selection device 21 opens the second outside air intake 12, the outside air can be introduced from the second outside air intake 12.
 第2送風装置32は、第2外気取り入れ選択装置21の下流側に設けられ、車室内に向かって空気流を発生させるブロワファン等である。第2送風装置32によって発生させられた空気流は、第2外気取り入れ口12から導入された外気を、ダクト70を通過させ、第2加熱用熱交換器50bに向かって送風させる。第2送風装置32の下流側には、塵やゴミ等が第2加熱用熱交換器50bへ進入することを防ぐ集塵用のフィルタ33が設けられている。フィルタ33は、第2送風装置32の上流側に設けても構わないし、複数であっても構わない。 The second blower 32 is a blower fan or the like that is provided on the downstream side of the second outside air intake selection device 21 and generates an air flow toward the vehicle interior. The air flow generated by the second blower 32 causes the outside air introduced from the second outside air intake port 12 to pass through the duct 70 and blow toward the second heating heat exchanger 50b. A dust collecting filter 33 is provided on the downstream side of the second blower 32 to prevent dust, dirt, and the like from entering the second heating heat exchanger 50b. The filter 33 may be provided on the upstream side of the second blower 32 or may be plural.
 第2送風路61は、少なくとも外気を取り入れデフ吹出口16に連通する送風路であり、
本実施の形態では、第2外気取り入れ口12から取り入れた外気をデフ吹出口16に送風する。第2送風路61は、第2外気取り入れ口12から導入された外気が第2送風装置32によって第2加熱用熱交換器50bへ送風され、第2加熱用熱交換器50bを通過した空調空気を車室内のウインドガラスに吹き出させるデフ吹出口16へと連通する送風路である。第2送風路61には、第2外気取り入れ口12から導入された外気が第2送風装置32によって第2加熱用熱交換器50bへと送風される経路となるダクト70が設けられている。ダクト70は、第1送風装置30で発生させられる空気流の方向に沿って吹き出すように設定されている。
The second air passage 61 is an air passage that takes in at least outside air and communicates with the differential air outlet 16.
In the present embodiment, the outside air taken in from the second outside air inlet 12 is blown to the differential outlet 16. In the second air passage 61, the outside air introduced from the second outside air inlet 12 is blown to the second heating heat exchanger 50b by the second blowing device 32, and the conditioned air that has passed through the second heating heat exchanger 50b. Is an air passage that communicates with the differential outlet 16 that blows the air through the window glass in the passenger compartment. The second air passage 61 is provided with a duct 70 serving as a path through which the outside air introduced from the second outside air intake port 12 is blown by the second air blower 32 to the second heating heat exchanger 50b. The duct 70 is set to blow out along the direction of the air flow generated by the first blower 30.
 第1エアミックスドア22は、図1に示すように、第1加熱用熱交換器50a及び第2加熱用熱交換器50b(加熱用熱交換器50)の下流側で第1送風路60と第2送風路61とを連通する第1連通路90に設けられ、第1送風路60と第2送風路61との連通を制御する。第1エアミックスドア22は、板状のドアやシャッター等であり、第1連通路90を閉塞及び開放を選択することが可能な形状であればよい。第1エアミックスドア22は、第1連通路90を閉塞することで、第1加熱用熱交換器50a及び第2加熱用熱交換器50bの下流側における第1送風路60と第2送風路61とを仕切ることができる。第1エアミックスドア22で第1連通路90を閉塞することで、2層の流路が形成され2層流モードとなる。また、第1エアミックスドア22は、第1連通路90を開放して連通させることで、第1加熱用熱交換器50a及び第2加熱用熱交換器50bの下流側における第1送風路60と第2送風路61とを合流させることができる。 As shown in FIG. 1, the first air mix door 22 is connected to the first air passage 60 on the downstream side of the first heating heat exchanger 50 a and the second heating heat exchanger 50 b (heating heat exchanger 50). The first air passage 90 is provided in the first air passage 90 that communicates with the second air passage 61 and controls the communication between the first air passage 60 and the second air passage 61. The 1st air mix door 22 is a plate-shaped door, a shutter, etc., and should just be a shape which can select closure and opening of the 1st communicating path 90. The 1st air mix door 22 obstruct | occludes the 1st communicating path 90, and is the 1st ventilation path 60 and the 2nd ventilation path in the downstream of the 1st heating heat exchanger 50a and the 2nd heating heat exchanger 50b. 61 can be partitioned. By closing the 1st communicating path 90 with the 1st air mix door 22, a two-layer flow path is formed and it becomes a two-layer flow mode. Moreover, the 1st air mix door 22 opens the 1st communicating path 90, is connected, and the 1st ventilation path 60 in the downstream of the 1st heating heat exchanger 50a and the 2nd heating heat exchanger 50b is carried out. And the 2nd ventilation path 61 can be made to merge.
 第1の実施の形態に係る車両用空調装置1aにおいて、外気のみを導入する外気モードで使用する場合は、内外気切替装置20によって内気取り入れ口10と外気取り入れ口11との開口度を調整し、外気取り入れ口11から導入される。この時第2外気取り入れ選択装置21を調整し第2外気取り入れ口12を閉塞させる。外気取り入れ口11から導入された外気は、第1送風装置30によって発生させられた空気流によって送風され、冷却用熱交換器40へと向かう。外気取り入れ口11から導入され、冷却用熱交換器40を通過した外気は、第1加熱用熱交換器50aへと向かう。そして、第1加熱用熱交換器50aを通過した外気は、開放されているフット吹出口15から吹き出される。又、第1連通路90の第1エアミックスドア22を開放し、デフ吹出口16とフット吹出口15とを開口することで、ウインドガラスに吹出す。もしくは、第1連通路90の第1エアミックスドア22を閉塞し、デフ吹出口16を開口することで、ウインドガラスのみへ吹出すことができる。 When the vehicle air conditioner 1a according to the first embodiment is used in the outside air mode in which only outside air is introduced, the inside / outside air switching device 20 adjusts the degree of opening between the inside air intake 10 and the outside air intake 11. It is introduced from the outside air intake 11. At this time, the second outside air intake selection device 21 is adjusted to close the second outside air intake 12. The outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40. The outside air introduced from the outside air intake 11 and passed through the cooling heat exchanger 40 is directed to the first heating heat exchanger 50a. And the external air which passed the 1st heat exchanger 50a is blown out from the open foot blower outlet 15. FIG. Further, the first air mix door 22 of the first communication passage 90 is opened, and the differential blower outlet 16 and the foot blower outlet 15 are opened to blow out to the wind glass. Or the 1st air mix door 22 of the 1st communicating path 90 is obstruct | occluded, and the differential blower outlet 16 can be opened, and it can blow out only to a window glass.
 第1の実施の形態に係る車両用空調装置1aにおいて、外気モードで使用する場合の変形例として第2外気取り入れ選択装置21を調整し第2外気取り入れ口12を開放し第2送風装置32を同時に作動させることもできる。この場合は第1送風路60中の第1加熱用熱交換器50aおよび第2送風路61中の第2加熱用熱交換器50bに送風されるため効率よく熱交換ができる。 In the vehicle air conditioner 1a according to the first embodiment, as a modified example when used in the outside air mode, the second outside air intake selection device 21 is adjusted, the second outside air intake 12 is opened, and the second air blower 32 is used. It can also be activated simultaneously. In this case, since the air is sent to the first heating heat exchanger 50a in the first air passage 60 and the second heating heat exchanger 50b in the second air passage 61, heat exchange can be performed efficiently.
 第1の実施の形態に係る車両用空調装置1aにおいて、2層流モードで使用する場合は、内外気切替装置20によって内気取り入れ口10と外気取り入れ口11との開口度を調整し、内気取り入れ口10から内気を導入し、第2外気取り入れ口12から外気を導入する。内気取り入れ口10から導入された内気は、第1送風装置30によって発生させられた空気流によって送風され、第1加熱用熱交換器50aへと向かう。一方、第2外気取り入れ口12から導入された外気は、第2送風装置32によって発生させられた空気流によって送風される。第2外気取り入れ口12から導入された外気は、ダクト70を通り、第2加熱用熱交換器50bへと向かう。そして、第1加熱用熱交換器50a及び第2加熱用熱交換器50bを通過し加熱された後第2外気取り入れ口12から導入された外気は、開放されているデフ吹出口16から吹き出され、内気取り入れ口10から導入された内気は、開放されているフット吹出口15から吹出される。そのとき第1連通路90の第1エアミックスドア22を閉塞してあるので、内気と外気が混合されずにそれぞれ吹出される。 In the vehicle air conditioner 1a according to the first embodiment, when used in the two-layer flow mode, the opening degree between the inside air intake port 10 and the outside air intake port 11 is adjusted by the inside / outside air switching device 20 to take in the inside air. Inside air is introduced from the mouth 10 and outside air is introduced from the second outside air inlet 12. The inside air introduced from the inside air inlet 10 is blown by the air flow generated by the first blower 30 and travels toward the first heating heat exchanger 50a. On the other hand, the outside air introduced from the second outside air intake 12 is blown by the air flow generated by the second blowing device 32. The outside air introduced from the second outside air intake 12 passes through the duct 70 and travels to the second heating heat exchanger 50b. Then, after passing through the first heating heat exchanger 50a and the second heating heat exchanger 50b and being heated, the outside air introduced from the second outside air inlet 12 is blown out from the opened differential outlet 16. The inside air introduced from the inside air intake 10 is blown out from the open foot outlet 15. At that time, since the first air mix door 22 of the first communication passage 90 is closed, the inside air and the outside air are blown out without being mixed.
 第1の実施の形態に係る車両用空調装置1aによれば、低外気温時において2層流モードで運転する場合、内気循環で暖房にかかる負荷を低減させることが可能であり、且つ、ダクト70から低湿度の外気を導入し、第2加熱用熱交換器50bを通過後に、デフ吹出口16から排出することで窓曇りを防止することができる。 According to the vehicle air conditioner 1a according to the first embodiment, when operating in the two-layer flow mode at a low outside air temperature, it is possible to reduce the load applied to the heating by the internal air circulation and the duct. It is possible to prevent window fogging by introducing low-humidity outside air from 70 and exhausting it from the differential outlet 16 after passing through the second heating heat exchanger 50b.
 また、第1の実施の形態に係る車両用空調装置1aによれば、第1送風装置30及び第2送風装置32のブロワ出力を任意に調整することが可能であることによって、内気と外気の比率を調整可能とし、空調制御の自由度を向上させることができる。 Moreover, according to the vehicle air conditioner 1a which concerns on 1st Embodiment, by being able to adjust arbitrarily the blower output of the 1st air blower 30 and the 2nd air blower 32, inside air and outside air can be adjusted. The ratio can be adjusted, and the degree of freedom of air conditioning control can be improved.
 また、第1の実施の形態に係る車両用空調装置1aによれば、ダクト70は、第1送風路60中で冷却用熱交換器40の空気流れ下流側に挿入され、第1送風路60の空気流れ上流側に壁を有しつつダクト70開口が第1送風路60の空気流れ下流側に開口し、空気が主流方向へ吹き出す構造となっているので、ダクト70から空気が流入しやすくなる。ダクト70から空気が流入しやすくなることで、第1送風装置30及び第2送風装置32のブロワ動力を低減させることができ、第1送風装置30及び第2送風装置32の消費電力を減少させることができる。 Further, according to the vehicle air conditioner 1 a according to the first embodiment, the duct 70 is inserted into the first air passage 60 on the downstream side of the air flow of the cooling heat exchanger 40, and the first air passage 60. Since the opening of the duct 70 is open to the downstream side of the air flow of the first air passage 60 and the air is blown out in the main flow direction while having a wall on the upstream side of the air flow, air easily flows from the duct 70. Become. Since air easily flows in from the duct 70, the blower power of the first blower 30 and the second blower 32 can be reduced, and the power consumption of the first blower 30 and the second blower 32 is reduced. be able to.
 また、第1の実施の形態に係る車両用空調装置1aによれば、冷却用熱交換器40の空気流れ上下流側において内外気の仕切りがないため、凍結防止センサの配置に関する制約から開放される。 Moreover, according to the vehicle air conditioner 1a which concerns on 1st Embodiment, since there is no partition of internal and external air in the air flow upstream and downstream of the heat exchanger 40 for cooling, it is open | released from the restrictions regarding arrangement | positioning of an antifreeze sensor. The
(第2の実施の形態)
 本発明の第2の実施の形態に係る車両用空調装置1aは、図2(a)及び(b)に示すように、図1で示した車両用空調装置1aと比して、第2送風路61は、第2外気取り入れ口12から冷却用熱交換器40をバイパスするダクト(バイパスダクト)70を経由し、第1加熱用熱交換器50a及び第2加熱用熱交換器50b(加熱用熱交換器50)を通過した空調空気を車室内のウインドガラスに吹き出させるデフ吹出口16へと連通する送風路である点が異なる。第2の実施の形態においては、第1加熱用熱交換器50a及び第2加熱用熱交換器50bが一体となっている加熱用熱交換器50として説明する。
(Second Embodiment)
As shown in FIGS. 2 (a) and 2 (b), the vehicle air conditioner 1a according to the second embodiment of the present invention has a second air blowing compared with the vehicle air conditioner 1a shown in FIG. The path 61 passes through a duct (bypass duct) 70 that bypasses the heat exchanger 40 for cooling from the second outside air intake port 12, and passes through a first heat exchanger 50 a and a second heat exchanger 50 b (for heating). The difference is that the air-conditioning air that has passed through the heat exchanger 50) is an air passage that communicates with the differential air outlet 16 that blows off the wind glass in the vehicle interior. The second embodiment will be described as a heating heat exchanger 50 in which the first heating heat exchanger 50a and the second heating heat exchanger 50b are integrated.
 また、第2の実施の形態に係る車両用空調装置1aは、加熱用熱交換器50の上流側で第1送風路60と第2送風路61とを連通する連通路(第2連通路)91に設けられ、第1送風路60と第2送風路61との連通を制御する第2連通制御装置(第2エアミックスドア)23と、冷却用熱交換器40の下流側で加熱用熱交換器50を経由しない送風路に設けられ、加熱用熱交換器50を経由しない送風路を連通させるか否かを制御する第3連通制御装置(第3エアミックスドア)24とを更に備える点が異なる。その他に関しては、実質的に同様であるので、重複する記載を省略する。 Further, the vehicle air conditioner 1a according to the second embodiment has a communication path (second communication path) that connects the first air passage 60 and the second air passage 61 on the upstream side of the heat exchanger 50 for heating. 91, a second communication control device (second air mix door) 23 for controlling the communication between the first air passage 60 and the second air passage 61, and the heat for heating on the downstream side of the heat exchanger 40 for cooling. A third communication control device (third air mix door) 24 that is provided in the air passage that does not pass through the exchanger 50 and controls whether or not the air passage that does not pass through the heat exchanger 50 for heating is communicated. Is different. Others are substantially the same, and thus redundant description is omitted.
 第2エアミックスドア23及び第3エアミックスドア24は、冷却用熱交換器40で冷却し、除湿を行った後に、加熱用熱交換器50へ行く空調空気の比率を制御する。具体的には、第2エアミックスドア23を閉じて加熱用熱交換器50へ行く空気を遮断し、第3エアミックスドア24を開けば、加熱用熱交換器50へは空調空気が全く行かないことになり、最大の冷房とすることができる。逆に、第3エアミックスドア24を閉じて、第2エアミックスドア23を開けば、全部の空調空気が加熱用熱交換器50へ行くことになり、最大の暖房とすることができる。このように、第2エアミックスドア23及び第3エアミックスドア24を連動させて開口度を制御することによって、加熱用熱交換器50へ向かう空調空気の比率を制御することができる。 The second air mix door 23 and the third air mix door 24 are cooled by the cooling heat exchanger 40, dehumidified, and then control the ratio of the conditioned air going to the heating heat exchanger 50. Specifically, if the second air mix door 23 is closed and the air going to the heating heat exchanger 50 is shut off, and the third air mix door 24 is opened, the conditioned air goes to the heating heat exchanger 50 at all. There will be no maximum cooling. On the contrary, if the 3rd air mix door 24 is closed and the 2nd air mix door 23 is opened, all the conditioned air will go to the heat exchanger 50 for heating, and it can be set as the maximum heating. Thus, the ratio of the conditioned air toward the heat exchanger 50 for heating can be controlled by interlocking the second air mix door 23 and the third air mix door 24 to control the opening degree.
 第2エアミックスドア23は、開いた状態にすることで、第2連通路91を閉塞することができる。第2エアミックスドア23で第2連通路91を閉塞することで、加熱用熱交換器50の上流側において、第1送風路60と第2送風路61とを仕切ることができる。また、第2エアミックスドア23は、閉じた状態にすることで、第1送風路60と第2送風路61の加熱用熱交換器50の空気流れ上流側を閉塞することが可能である。 The second air mix door 23 can close the second communication passage 91 by opening it. By closing the 2nd communicating path 91 with the 2nd air mix door 23, the 1st ventilation path 60 and the 2nd ventilation path 61 can be partitioned in the upstream of the heat exchanger 50 for a heating. Moreover, the 2nd air mix door 23 can block | close the air flow upstream of the heat exchanger 50 for a heating of the 1st ventilation path 60 and the 2nd ventilation path 61 by making it the closed state.
 第2の実施の形態に係る車両用空調装置1aは、乗員の足元に空調空気を吹き出すフット吹出口15、車室内のウインドガラスに空調空気を吹き出すデフ吹出口16、乗員の上半身側に向けて空調空気を吹き出すベント吹出口17が開口されている。フット吹出口15には、足元に吹き出す空調空気を制御する足元吹出ドア80が設けられている。デフ吹出口16には、ウインドガラスに吹き出す空調空気を制御するデフ吹出ドア81が設けられている。ベント吹出口17には、上半身側に向けて吹き出す空調空気を制御するベント吹出ドア82が設けられている。 The vehicle air conditioner 1a according to the second embodiment has a foot outlet 15 for blowing conditioned air to the feet of the passenger, a differential outlet 16 for blowing conditioned air to the windshield in the passenger compartment, and toward the upper body side of the occupant. A vent outlet 17 for blowing out conditioned air is opened. The foot outlet 15 is provided with a foot outlet door 80 for controlling the air-conditioned air blown to the foot. The differential outlet 16 is provided with a differential outlet 81 for controlling the conditioned air blown out to the window glass. The vent outlet 17 is provided with a vent outlet door 82 that controls conditioned air that is blown out toward the upper body.
 以下に、車両用空調装置1aの2層流モードでの運転について、図3(a)及び(b)を参照しながら説明する。車両用空調装置1aにおいて、2層流モードで運転するのは、例えば、低外気温時であって最大暖房運転時である。 Hereinafter, the operation of the vehicle air conditioner 1a in the two-layer flow mode will be described with reference to FIGS. 3 (a) and 3 (b). In the vehicle air conditioner 1a, the operation in the two-layer flow mode is, for example, at the time of the low outside temperature and the maximum heating operation.
 2層流モードでの空気取り入れ口の状態を、図3(b)を用いて示す。内外気切替装置20は、外気取り入れ口11を閉塞して、内気取り入れ口10からの内気のみを導入させる制御を行う。また、第2外気取り入れ選択装置21は、第2外気取り入れ口12を開放して、第2外気取り入れ口12から外気を導入させる制御を行う。 The state of the air intake in the two laminar flow mode is shown using FIG. The inside / outside air switching device 20 performs control to block the outside air intake port 11 and introduce only the inside air from the inside air intake port 10. Further, the second outside air intake selection device 21 performs control to open the second outside air intake 12 and introduce outside air from the second outside air intake 12.
 2層流モードでの空気吹出口の状態を、図3(a)を用いて示す。フット吹出口15は、足元吹出ドア80が開く制御がなされ、開放される。また、デフ吹出口16は、デフ吹出ドア81が開く制御がなされ、開放される。また、ベント吹出口17は、ベント吹出ドア82が閉じる制御がなされ、閉塞される。 The state of the air outlet in the two laminar flow mode is shown using FIG. The foot outlet 15 is controlled to open the foot outlet door 80 and is opened. Further, the differential outlet 16 is opened by the control of the differential outlet 81 being opened. Further, the vent outlet 17 is closed by controlling the vent outlet door 82 to be closed.
 2層流モードでの第1エアミックスドア22、第2エアミックスドア23、第3エアミックスドア24の状態を、図3(a)を用いて示す。第1エアミックスドア22は、閉じる制御を行い、第1連通路90を閉塞し、加熱用熱交換器50の下流側における第1送風路60と第2送風路61とを仕切って2層流にする。第2エアミックスドア23は、開く制御を行い、第2連通路91を閉塞し、加熱用熱交換器50の上流側における第1送風路60と第2送風路61とを仕切って2層流にする。第3エアミックスドア24は、第2エアミックスドア23と相反する制御を行うので、閉じる制御を行い、全部の空調空気が加熱用熱交換器50へと向かうようにする。 The state of the 1st air mix door 22, the 2nd air mix door 23, and the 3rd air mix door 24 in 2 laminar flow mode is shown using Drawing 3 (a). The first air mix door 22 performs a closing control, closes the first communication passage 90, partitions the first air passage 60 and the second air passage 61 on the downstream side of the heating heat exchanger 50, and creates a two-layer flow To. The second air mix door 23 performs opening control, closes the second communication passage 91, partitions the first air passage 60 and the second air passage 61 on the upstream side of the heat exchanger 50 for heating, and creates a two-layer flow To. Since the 3rd air mix door 24 performs control contrary to the 2nd air mix door 23, close control is performed and it is made for all the conditioned air to go to the heat exchanger 50 for heating.
 2層流モードでの第1送風装置30及び第2送風装置32は、いずれも稼動させる。第1送風装置30及び第2送風装置32は、それぞれ空気流を発生させる。 Both the first blower 30 and the second blower 32 in the two laminar flow mode are operated. The first blower 30 and the second blower 32 each generate an air flow.
 2層流モードでの内気は、図3(a)及び(b)に示すように、第1送風装置30によって発生させられた空気流によって送風される。2層流モードで冷却用熱交換器40を通過した内気は、図3(a)に示すように、第2エアミックスドア23が開いていて、第3エアミックスドア24が閉じていることで加熱用熱交換器50へと向かう。冷却用熱交換器40を通過した後に、加熱用熱交換器50へと向かう2層流モードでの内気は、第2エアミックスドア23によって第2連通路91が閉塞されているので、ダクト70を経由してきた外気と合流しない。そして、2層流モードで加熱用熱交換器50を通過した内気は、足元吹出ドア80が開くように制御が行われていて開放されているフット吹出口15から吹き出される。加熱用熱交換器50を通過した後に、フット吹出口15へと向かう2層流モードでの内気は、第1エアミックスドア22によって第1連通路90が閉塞されているので、加熱用熱交換器50を通過した外気と合流しない。 The inside air in the two-layer flow mode is blown by the air flow generated by the first blower 30 as shown in FIGS. 3 (a) and 3 (b). The inside air that has passed through the cooling heat exchanger 40 in the two-layer flow mode is because the second air mix door 23 is open and the third air mix door 24 is closed, as shown in FIG. It heads for the heat exchanger 50 for a heating. After passing through the cooling heat exchanger 40, the internal air in the two-layer flow mode toward the heating heat exchanger 50 is closed in the second communication path 91 by the second air mix door 23. Do not merge with the outside air that has passed through. Then, the inside air that has passed through the heating heat exchanger 50 in the two-layer flow mode is blown out from the open foot blower opening 15 that is controlled so that the foot blowout door 80 is opened. After passing through the heating heat exchanger 50, the internal air in the two-layer flow mode toward the foot outlet 15 is closed in the first communication passage 90 by the first air mix door 22. The outside air that has passed through the vessel 50 does not merge.
 2層流モードでの第2外気取り入れ口12から取り入れられた外気は、図3(b)に示すように、第2送風装置32によって発生させられた空気流によって送風される。2層流モードでの外気は、ダクト70を通ることで冷却用熱交換器40を通過せずに加熱用熱交換器50へと向かう。ダクト70を経由してきた外気は、第1エアミックスドア22及び第2エアミックスドア23により遮断されているので、内気と合流しない。そして、加熱用熱交換器50を通過した外気は、デフ吹出ドア81が開くように制御が行われていて開放されているデフ吹出口16から吹き出される。 The outside air taken in from the second outside air inlet 12 in the two-layer flow mode is blown by the air flow generated by the second blower 32 as shown in FIG. The outside air in the two-layer flow mode passes through the duct 70 and goes to the heating heat exchanger 50 without passing through the cooling heat exchanger 40. Since the outside air that has passed through the duct 70 is blocked by the first air mix door 22 and the second air mix door 23, it does not merge with the inside air. Then, the outside air that has passed through the heating heat exchanger 50 is blown out from the opened differential blower outlet 16 that is controlled so that the differential blowout door 81 is opened.
 このように構成された第2の実施の形態に係る車両用空調装置1aでも、第1の実施の形態に係る車両用空調装置1aと同様の効果を得ることができる。 The vehicle air conditioner 1a according to the second embodiment configured as described above can also achieve the same effects as the vehicle air conditioner 1a according to the first embodiment.
 第2の実施の形態に係る車両用空調装置1aによれば、低外気温時において2層流モードで運転する場合、低温で低湿度の外気が冷却用熱交換器40をバイパスして、冷却用熱交換器40が凍結することがないので凍結防止を図る必要がなく、除湿性能を確保することができる。 According to the vehicle air conditioner 1a according to the second embodiment, when operating in the two-layer flow mode at a low outside temperature, the low temperature and low humidity outside air bypasses the cooling heat exchanger 40 and cools it. Since the industrial heat exchanger 40 does not freeze, it is not necessary to prevent freezing, and the dehumidifying performance can be ensured.
 また、第2の実施の形態に係る車両用空調装置1aによれば、冷却用熱交換器40の下流側でかつ加熱用熱交換器50の上流側の第1送風路60と第2送風路61とが隣接する隣接部(図示せず)において第1送風路60と第2送風路61は平行で同一方向に送風されるように配置され、隣接部に第2連通路91が設けられている。ダクト70は第1送風路中で冷却用熱交換器40の空気流れ下流側に挿入され、第1送風路60の空気流れ上流側に壁を有しつつダクト70の加熱用熱交換器50の上流側で、第1送風路60と同一方向に空気が送風される構造となっているので、ダクト70から空気が流入しやすくなる。 Moreover, according to the vehicle air conditioner 1a which concerns on 2nd Embodiment, the 1st ventilation path 60 and the 2nd ventilation path of the downstream of the heat exchanger 40 for cooling, and the upstream of the heat exchanger 50 for heating are used. In the adjacent portion (not shown) adjacent to 61, the first air passage 60 and the second air passage 61 are arranged in parallel and in the same direction, and the second communication passage 91 is provided in the adjacent portion. Yes. The duct 70 is inserted in the air flow downstream side of the cooling heat exchanger 40 in the first air flow path, and has a wall on the air flow upstream side of the first air flow path 60 while having a wall on the heating heat exchanger 50 for heating the duct 70. Since air is blown in the same direction as the first air passage 60 on the upstream side, air easily flows from the duct 70.
 また、第2の実施の形態に係る車両用空調装置1aによれば、第1送風路60の冷却用熱交換器40と加熱用熱交換器50の間と、第2送風路61であるダクト70の第2外気取り入れ選択装置21と加熱用熱交換器50の間とに、連通する第2連通路91と第2連通路91を開閉する第2エアミックスドア23が設けられている。このため、第2エアミックスドア23を調整し第2連通路91を連通状態にしつつ加熱用熱交換器50への送風路を閉塞しない状態にして、第2外気取り入れ選択装置21を調整し第2外気取り入れ口18を閉塞することで、第1送風装置30で送風した送風空気を加熱用熱交換器50全面に送風可能となる。 Moreover, according to the vehicle air conditioner 1a which concerns on 2nd Embodiment, the duct which is between the heat exchanger 40 for cooling of the 1st ventilation path 60 and the heat exchanger 50 for heating, and is the 2nd ventilation path 61. A second communication passage 91 that communicates with the second outside air intake selection device 21 and the heat exchanger 50 for heating and a second air mix door 23 that opens and closes the second communication passage 91 are provided. Therefore, the second air mix door 23 is adjusted so that the second communication passage 91 is in a communicating state while the air passage to the heat exchanger 50 for heating is not blocked, and the second outside air intake selection device 21 is adjusted to 2 By closing the outside air intake 18, the blown air blown by the first blower 30 can be blown over the entire surface of the heat exchanger 50 for heating.
 また、第2の実施の形態に係る車両用空調装置1aによれば、第1エアミックスドア22、第2エアミックスドア23、第3エアミックスドア24によって空調空気の流路を変化させることができるので、装置内の通路を複雑化することなく換気損失低減による暖房負荷低減が得られるため、通路の単純化により経費削減が可能になる。 Moreover, according to the vehicle air conditioner 1a which concerns on 2nd Embodiment, the flow path of conditioned air can be changed with the 1st air mix door 22, the 2nd air mix door 23, and the 3rd air mix door 24. Since the heating load can be reduced by reducing the ventilation loss without complicating the passage in the apparatus, the cost can be reduced by simplifying the passage.
(第3の実施の形態)
 本発明の第3の実施の形態に係る車両用空調装置1bは、図4に示すように、図1で示した車両用空調装置1aと比して、ダクト70が第2送風装置32の下流で2本に分岐し、加熱用熱交換器50の上流で合流する構造になっている点が異なる。また、第3の実施の形態においては、第1加熱用熱交換器50a及び第2加熱用熱交換器50bが一体となっている加熱用熱交換器50であるとして説明する。その他に関しては、実質的に同様であるので、重複する記載を省略する。
(Third embodiment)
As shown in FIG. 4, the vehicle air conditioner 1 b according to the third embodiment of the present invention has a duct 70 downstream of the second air blower 32 as compared with the vehicle air conditioner 1 a shown in FIG. 1. The difference is that the structure is branched into two and joins upstream of the heating heat exchanger 50. Moreover, in 3rd Embodiment, it demonstrates as it is the heat exchanger 50 for heating with which the heat exchanger 50a for 1st heating and the heat exchanger 50b for 2nd heating are united. Others are substantially the same, and thus redundant description is omitted.
 第3の実施の形態に係る車両用空調装置1bにおいて、2層流モードでの内気は、内外気切替装置20によって外気取り入れ口11を閉塞し、内気取り入れ口10から導入される。そして、2層流モードでの内気は、図5に示すように、第1送風装置30によって発生させられた空気流によって送風され、冷却用熱交換器40へと向かう。冷却用熱交換器40を通過した内気は、加熱用熱交換器50へと向かう。そして、加熱用熱交換器50を通過した内気は、開放されているフット吹出口から吹き出される。 In the vehicle air conditioner 1b according to the third embodiment, the inside air in the two-layer flow mode is introduced from the inside air inlet 10 by closing the outside air inlet 11 by the inside / outside air switching device 20. Then, the inside air in the two-layer flow mode is blown by the air flow generated by the first blower 30 and travels toward the cooling heat exchanger 40 as shown in FIG. The inside air that has passed through the cooling heat exchanger 40 goes to the heating heat exchanger 50. And the inside air which passed the heat exchanger 50 for heating blows off from the open foot blower outlet.
 第3の実施の形態に係る車両用空調装置1bにおいて、2層流モードでの外気は、図5に示すように、第2送風装置32によって発生させられた空気流によって送風される。第2送風装置32によって発生させられた空気流は、ダクト70が分岐しているので、分岐した流れを形成する。ダクト70は、分岐した後に加熱用熱交換器50の上流で合流する構造であるので、ダクト70を通った空気を加熱用熱交換器50の両側から流入させられる。2層流モードでの外気は、分岐したダクト70を通ることで、冷却用熱交換器40を通過せずに多方向から加熱用熱交換器50へと向かう。そして、加熱用熱交換器50を通過した外気は、開放されているデフ吹出口から吹き出される。 In the vehicle air conditioner 1b according to the third embodiment, the outside air in the two-layer flow mode is blown by the air flow generated by the second blower 32 as shown in FIG. The air flow generated by the second blower 32 forms a branched flow because the duct 70 is branched. Since the duct 70 has a structure in which it is branched and merges upstream of the heating heat exchanger 50, the air that has passed through the duct 70 can be introduced from both sides of the heating heat exchanger 50. The outside air in the two-layer flow mode passes through the branched duct 70 and travels from multiple directions to the heating heat exchanger 50 without passing through the cooling heat exchanger 40. And the external air which passed the heat exchanger 50 for a heating is blown off from the open differential outlet.
 このように構成された第3の実施の形態に係る車両用空調装置1bでも、第1及び第2の実施の形態に係る車両用空調装置1aと同様の効果を得ることができる。 The vehicular air conditioner 1b according to the third embodiment configured as described above can achieve the same effects as the vehicular air conditioner 1a according to the first and second embodiments.
 また、第3の実施の形態に係る車両用空調装置1bによれば、ダクト70によって冷却用熱交換器40をバイパスした空調空気が加熱用熱交換器50へ2方向から流入させることができるので、加熱用熱交換器50へ流入時の風速分布を良好にすることができる。 Moreover, according to the vehicle air conditioner 1b which concerns on 3rd Embodiment, since the air-conditioning air which bypassed the heat exchanger 40 for cooling by the duct 70 can be made to flow into the heat exchanger 50 for heating from two directions. The wind speed distribution at the time of flowing into the heating heat exchanger 50 can be improved.
(第4の実施の形態)
 本発明の第4の実施の形態に係る車両用空調装置1cは、図6に示すように、内気を導入する内気取り入れ口10と、外気を導入する外気取り入れ口11と、内気取り入れ口10から導入される内気と外気取り入れ口11から導入される外気との比率を選択的に切替可能な内外気切替装置20と、内外気切替装置20の下流側に設けられ、車室内に向かって空気流を発生させる第1送風装置30と、第1送風装置30の下流側に設けられ、導入された空気を冷却する冷却用熱交換器(エバポレータ)40と、冷却用熱交換器40の下流側に設けられ、導入された空気を加熱する第1加熱用熱交換器(ヒートコア)50aと、内外気切替装置20から導入され、冷却用熱交換器40及び第1加熱用熱交換器50aによって空調された空調空気をウインドガラスに吹き出させるデフ吹出口16へと連通する第2送風路61と、内気を導入する第2内気取り入れ口18と、第2内気取り入れ口18から内気を導入させるか否か選択可能な第2内気取り入れ選択装置26と、第2内気取り入れ選択装置26の下流側に設けられ、車室内に向かって空気流を発生させる第2送風装置32と、第2内気取り入れ口18から導入され、導入された空気を加熱する第2加熱用熱交換器(ヒートコア)50bによって空調された空調空気を足元に吹き出させるフット吹出口15へと連通する第1送風路60と、第1加熱用熱交換器50a及び第2加熱用熱交換器50bの下流側で第1送風路60と第2送風路61とを連通する第1連通路90に設けられ、第1送風路60と第2送風路61との連通を制御する第1連通制御装置(第1エアミックスドア)22とを備える。
(Fourth embodiment)
As shown in FIG. 6, the vehicle air conditioner 1 c according to the fourth embodiment of the present invention includes an inside air inlet 10 that introduces inside air, an outside air inlet 11 that introduces outside air, and an inside air inlet 10. The inside / outside air switching device 20 capable of selectively switching the ratio between the introduced inside air and the outside air introduced from the outside air intake port 11, and provided downstream of the inside / outside air switching device 20, the air flow toward the vehicle interior Are provided on the downstream side of the first blower 30, the cooling heat exchanger (evaporator) 40 that cools the introduced air, and the downstream of the cooling heat exchanger 40. The first heating heat exchanger (heat core) 50a for heating the introduced air and the inside / outside air switching device 20 is introduced and air-conditioned by the cooling heat exchanger 40 and the first heating heat exchanger 50a. Conditioned air A second air passage 61 that communicates with the differential air outlet 16 that blows out the Indian glass, a second inside air inlet 18 that introduces inside air, and whether or not the inside air is introduced from the second inside air inlet 18 can be selected. 2 The inside air intake selection device 26 and the second inside air intake selection device 26 are provided downstream of the second inside air intake selection device 26 and generate an air flow toward the vehicle interior, and are introduced from the second inside air intake port 18 and introduced. A first air passage 60 that communicates with the foot outlet 15 that blows out the conditioned air that has been air-conditioned by the second heat exchanger (heat core) 50b that heats the heated air, and a first heat exchanger 50a and the second heating heat exchanger 50b on the downstream side of the first air passage 60 and the second air passage 61 are provided in the first communication passage 90, the first air passage 60 and the second air passage 61, Control of communication First communication control device for and a (first air mix door) 22.
 第4の実施の形態に係る車両用空調装置1cについては、第1及び第2の実施の形態に係る車両用空調装置1aと実質的に同様な箇所についての記載を省略する。 Description of the vehicle air conditioner 1c according to the fourth embodiment is omitted for parts that are substantially similar to the vehicle air conditioner 1a according to the first and second embodiments.
 加熱用熱交換器50は、第1送風路60及び第2送風路61の各々に設けられ、本実施の形態では、第1送風路60には第2加熱用熱交換器50bが設けられ、第2送風路61には第1加熱用熱交換器50aが設けられている。 The heat exchanger 50 for heating is provided in each of the 1st ventilation path 60 and the 2nd ventilation path 61, and in this Embodiment, the 2nd heating heat exchanger 50b is provided in the 1st ventilation path 60, The second air passage 61 is provided with a first heating heat exchanger 50a.
 第4の実施の形態に係る車両用空調装置1cにおいて、外気モードで使用する場合は、内外気切替装置20によって内気取り入れ口10と外気取り入れ口11との開口度を調整し、外気取り入れ口11から導入される。この時第2内気取り入れ選択装置26を調整し第2内気取り入れ口18を閉塞させる。外内気取り入れ口11から導入された外気は、第1送風装置30によって発生させられた空気流によって送風され、冷却用熱交換器40へと向かう。外気取り入れ口11から導入され、冷却用熱交換器40を通過した外気は、第1加熱用熱交換器50aへと向かう。そして、第1連通路90の第1エアミックスドア22を開放し、フット吹出口15を開放することで第1加熱用熱交換器50aを通過した外気は、開放されているフット吹出口15から吹き出される。又、第1連通路90の第1エアミックスドア22を開放し、デフ吹出口16とフット吹出口15とを開口することで、ウインドガラスに吹出す。もしくは、第1連通路90の第1エアミックスドア22を閉塞し、デフ吹出口16を開口することで、ウインドガラスのみへ吹出すことができる。 In the vehicle air conditioner 1c according to the fourth embodiment, when used in the outside air mode, the degree of opening between the inside air intake port 10 and the outside air intake port 11 is adjusted by the inside / outside air switching device 20, and the outside air intake port 11 is adjusted. It is introduced from. At this time, the second inside air intake selection device 26 is adjusted to close the second inside air intake 18. The outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40. The outside air introduced from the outside air intake 11 and passed through the cooling heat exchanger 40 is directed to the first heating heat exchanger 50a. And the 1st air mix door 22 of the 1st communicating path 90 is open | released, and the external air which passed the 1st heat exchanger 50a by opening the foot blower outlet 15 is from the open foot blower outlet 15. Blown out. Further, the first air mix door 22 of the first communication passage 90 is opened, and the differential blower outlet 16 and the foot blower outlet 15 are opened to blow out to the wind glass. Or the 1st air mix door 22 of the 1st communicating path 90 is obstruct | occluded, and the differential blower outlet 16 can be opened, and it can blow out only to a window glass.
 第4の実施の形態に係る車両用空調装置1cにおいて、2層流モードでの使用する場合は、内外気切替装置20によって内気取り入れ口10と外気取り入れ口11との開口度を調整し、外気取り入れ口11から外気を導入し、第2内気取り入れ口18から内気を導入する。外気取り入れ口11から導入された外気は、第1送風装置30によって発生させられた空気流によって送風され、冷却用熱交換器40へと向かう。冷却用熱交換器40を通過した外気は、第1加熱用熱交換器50aへと向かう。そして、第1加熱用熱交換器50aを通過した外気は、開放されているデフ吹出口16から吹き出される。一方、第2内気取り入れ口から導入された内気は、第2送風装置32によって発生させられた空気風によって送風される。第2内気取り入れ口から導入された内気は、ダクト70をとおり、第2加熱用熱交換器50bへと向かう。そして、第2加熱用熱交換器50bを通過した内気は、開放されているフット吹出口15から吹出される。そのとき第1連通路90の第1エアミックスドア22を閉塞してあるので、内気と外気が混合されずにそれぞれ吹出される。 When the vehicle air conditioner 1c according to the fourth embodiment is used in the two-layer flow mode, the inside / outside air switching device 20 adjusts the degree of opening between the inside air intake 10 and the outside air intake 11 so that the outside air Outside air is introduced from the intake port 11, and inside air is introduced from the second inside air intake port 18. The outside air introduced from the outside air intake 11 is blown by the air flow generated by the first blower 30 and travels to the cooling heat exchanger 40. The outside air that has passed through the cooling heat exchanger 40 goes to the first heating heat exchanger 50a. The outside air that has passed through the first heating heat exchanger 50a is blown out from the opened differential outlet 16. On the other hand, the inside air introduced from the second inside air intake port is blown by the air wind generated by the second blowing device 32. The inside air introduced from the second inside air intake port passes through the duct 70 and travels to the second heating heat exchanger 50b. And the inside air which passed the 2nd heating heat exchanger 50b is blown off from the open foot blower outlet 15. At that time, since the first air mix door 22 of the first communication passage 90 is closed, the inside air and the outside air are blown out without being mixed.
 第4の実施の形態に係る車両用空調装置1cによれば、低外気温時で2層流モードで運転する場合、既に加熱されている内気が冷却用熱交換器40を通過しないので、内気循環で暖房にかかる負荷を低減させることが可能となる。 According to the vehicle air conditioner 1c according to the fourth embodiment, when operating in the two-layer flow mode at the low outside air temperature, the already heated inside air does not pass through the cooling heat exchanger 40. It becomes possible to reduce the load concerning heating by circulation.
 また、第4の実施の形態に係る車両用空調装置1cによれば、内気循環で暖房にかかる負荷を低減させることが可能であるので、低温で低湿度の外気を外気取り入れ口11から少量導入しても暖房効果に与える影響が少なく、低湿度の外気を導入することで窓曇りを防止することができる。導入する少量の外気によって、冷却用熱交換器40が凍結することがないので凍結防止を図る必要がなく、除湿性能を確保することができる。 Further, according to the vehicle air conditioner 1c according to the fourth embodiment, it is possible to reduce the load applied to heating by circulating the inside air, so that a small amount of outside air having a low temperature and low humidity is introduced from the outside air intake port 11. Even if it has little influence on the heating effect, window fogging can be prevented by introducing low humidity outside air. Since the cooling heat exchanger 40 is not frozen by a small amount of outside air to be introduced, it is not necessary to prevent freezing, and the dehumidifying performance can be ensured.
 また、第4の実施の形態に係る車両用空調装置1cによれば、第1送風装置30及び第2送風装置32のブロワ出力を任意に調整することが可能であることによって、内気と外気の比率を調整可能とし、空調制御の自由度を向上させることができる。 Moreover, according to the vehicle air conditioner 1c which concerns on 4th Embodiment, the blower output of the 1st air blower 30 and the 2nd air blower 32 can be adjusted arbitrarily, and internal air and external air can be adjusted. The ratio can be adjusted, and the degree of freedom of air conditioning control can be improved.
 このように構成された第4の実施の形態に係る車両用空調装置1cでも、第1の実施の形態に係る車両用空調装置1aと実質的に同様な構成要件の箇所については、同様の効果を得ることができる。 Even in the vehicle air conditioner 1c according to the fourth embodiment configured as described above, the same effect is obtained with respect to the components having substantially the same configuration requirements as the vehicle air conditioner 1a according to the first embodiment. Can be obtained.
 また、第4の実施の形態に係る車両用空調装置1cにおいて、第1送風路60の冷却用熱交換器40と第1加熱用熱交換器50aの間と、第2送風路61であるダクト70の第2内気取り入れ選択装置26と第2加熱用熱交換器50bの間とに、連通する第2連通路91と第2連通路を開閉する第2エアミックスドア23を設けてもよい。この場合二層流モードでは第2エアミックスドア23は閉塞状態で使用するが、外気モードで使用するときに第2内気取り入れ選択装置を閉塞し、第2エアミックスドア23及び第1エアミックスドア22を開放することで、第1送風路中の第1加熱用熱交換器50aおよび第2送風路中の第2加熱用熱交換器50bにも送風されるため効率よく熱交換ができる。 Moreover, in the vehicle air conditioner 1c according to the fourth embodiment, the duct serving as the second air passage 61 and between the cooling heat exchanger 40 and the first heating heat exchanger 50a in the first air passage 60 are provided. A second communication passage 91 that communicates with the second inside air intake selection device 26 and the second heating heat exchanger 50b and a second air mix door 23 that opens and closes the second communication passage may be provided. In this case, the second air mix door 23 is used in the closed state in the two-layer flow mode, but when the second air mix door 23 is used in the outside air mode, the second inside air intake selection device is closed and the second air mix door 23 and the first air mix door are used. By opening 22, the air is also sent to the first heating heat exchanger 50 a in the first air passage and the second heating heat exchanger 50 b in the second air passage, so that heat can be exchanged efficiently.
(その他の実施の形態)
 上記のように、本発明は実施の形態によって記載したが、この開示の一部をなす記述及び図面はこの発明を限定するものであると理解するべきではない。この開示から当業者には様々な代替実施の形態、実施例及び運用技術が明らかになるはずである。
(Other embodiments)
As mentioned above, although this invention was described by embodiment, it should not be understood that the description and drawings which form a part of this disclosure limit this invention. From this disclosure, various alternative embodiments, examples, and operational techniques should be apparent to those skilled in the art.
 例えば、第3の実施の形態における車両用空調装置1bは、ダクト70の分岐が2本であったが、分岐数が2本以上の複数本であっても構わない。分岐数が2本以上の複数本であった場合は、冷却用熱交換器40をバイパスした空調空気が加熱用熱交換器50へ多方向から流入させることができるので、加熱用熱交換器50へ流入時の風速分布を良好にすることができる。 For example, in the vehicle air conditioner 1b according to the third embodiment, the duct 70 has two branches, but may have a plurality of branches having two or more branches. When the number of branches is two or more, the conditioned air bypassing the cooling heat exchanger 40 can flow into the heating heat exchanger 50 from multiple directions, so the heating heat exchanger 50 It is possible to improve the wind speed distribution at the time of inflow.
 又、凍結防止センサの検出温度によって、冷却用熱交換器40を通過する送風温度が低くなり過ぎないように制御される冷凍サイクルに適用したものを元に説明しているが、凍結防止センサを用いない冷凍サイクルにも適用できる。例えば、冷却用熱交換器40出口冷媒圧力を検出して目標冷媒圧力に冷媒流量を制限する低圧圧力制御弁や、回転当たりの吐出容量を可変する可変容量式圧縮機、回転数を可変する電動圧縮機などを用いた冷凍サイクルに本発明の車両用空気調和装置を組み合わせても本発明の内気と外気とが独立した流路に送風される二層流モードの空気調和装置において冷却用熱交換器を適正に機能させる効果が奏されることはいうまでもない。 In addition, the explanation is based on the application to a refrigeration cycle that is controlled so that the temperature of the air passing through the cooling heat exchanger 40 does not become too low depending on the temperature detected by the antifreezing sensor. It can also be applied to refrigeration cycles that are not used. For example, a low pressure control valve that detects the refrigerant pressure at the outlet of the cooling heat exchanger 40 and limits the refrigerant flow rate to the target refrigerant pressure, a variable capacity compressor that varies the discharge capacity per revolution, and an electric motor that varies the number of revolutions Heat exchange for cooling in a two-layer flow mode air conditioner in which the inside air and the outside air are blown to independent flow paths even when the vehicle air conditioner of the present invention is combined with a refrigeration cycle using a compressor or the like Needless to say, the effect of properly functioning the vessel is exhibited.
 このように、本発明はここでは記載していない様々な実施の形態等を包含するということを理解すべきである。したがって、本発明はこの開示から妥当な特許請求の範囲の発明特定事項によってのみ限定されるものである。 Thus, it should be understood that the present invention includes various embodiments not described herein. Therefore, the present invention is limited only by the invention specifying matters in the scope of claims reasonable from this disclosure.
 本発明の車両用空調装置は、空調装置の製造業や自動車等の車両の製造業を含む機械製造産業に利用可能である。 The vehicle air conditioner of the present invention can be used in a machine manufacturing industry including an air conditioner manufacturing industry and a vehicle manufacturing industry such as an automobile.

Claims (11)

  1.  少なくとも内気を取り入れフット吹出口に連通する第1送風路と、
     少なくとも外気を取り入れデフ吹出口に連通する第2送風路と、
     前記第1送風路及び前記第2送風路の各々に設けられ、空気を加熱する加熱用熱交換器と、
     前記第1送風路及び前記第2送風路のいずれかの前記加熱用熱交換器の上流に設けられ、空気を冷却する冷却用熱交換器と、
     前記冷却用熱交換器の下流側で前記第1送風路と前記第2送風路とを連通する連通路
     とを備えることを特徴とする車両用空調装置。
    A first air passage that takes at least inside air and communicates with the foot outlet;
    A second air passage that takes at least outside air and communicates with the differential outlet;
    A heating heat exchanger for heating air provided in each of the first air passage and the second air passage;
    A cooling heat exchanger that is provided upstream of the heating heat exchanger of either the first air passage or the second air passage, and that cools the air;
    A vehicular air conditioner comprising: a communication passage communicating the first air passage and the second air passage on the downstream side of the cooling heat exchanger.
  2.  前記連通路は、前記加熱用熱交換器の下流側で前記第1送風路と前記第2送風路とを連通する第1連通路、及び、前記加熱用熱交換器の上流側で前記第1送風路と前記第2送風路とを連通する第2連通路の少なくとも一方であることを特徴とする請求項1に記載の車両用空調装置。 The communication passage includes a first communication passage communicating the first air passage and the second air passage on the downstream side of the heating heat exchanger, and the first passage on the upstream side of the heating heat exchanger. 2. The vehicle air conditioner according to claim 1, wherein the air conditioner is at least one of a second communication path that communicates the air passage with the second air passage.
  3.  前記第1連通路に設けられ、前記第1送風路と前記第2送風路との連通を制御する第1連通制御装置を備えることを特徴とする請求項2に記載の車両用空調装置。 The vehicle air conditioner according to claim 2, further comprising a first communication control device that is provided in the first communication passage and controls communication between the first air passage and the second air passage.
  4.  前記冷却用熱交換器の下流側で前記第1送風路と前記第2送風路とが隣接し、前記第1送風路には前記加熱用熱交換器の一部である第1加熱用熱交換器が配置され、前記第2送風路には前記加熱用熱交換器の一部である第2加熱用熱交換器が配置され、前記加熱用熱交換器が前記第1送風路と前記第2送風路とに渡って配置されていることを特徴とする請求項1~3のいずれか1項に記載の車両用空調装置。 The first air passage and the second air passage are adjacent to each other on the downstream side of the cooling heat exchanger, and the first air passage is a part of the heating heat exchanger. A second heating heat exchanger that is a part of the heating heat exchanger is disposed in the second air passage, and the heating heat exchanger includes the first air passage and the second air passage. The vehicle air conditioner according to any one of claims 1 to 3, wherein the vehicle air conditioner is disposed across the air passage.
  5.  前記第2連通路に設けられ、前記第1送風路と前記第2送風路との連通、又は、前記第2送風路の閉塞を制御する第2連通制御装置
     とを更に備えることを特徴とする請求項2~4のいずれか1項に記載の車両用空調装置。
    And a second communication control device that is provided in the second communication passage and controls communication between the first air passage and the second air passage or blockage of the second air passage. The vehicle air conditioner according to any one of claims 2 to 4.
  6.  前記第2連通制御装置は、前記第1送風路及び前記第2送風路のいずれかの前記加熱用熱交換器の空気流れ上流側を閉塞することが可能であることを特徴とする請求項5に記載の車両用空調装置。 The said 2nd communication control apparatus can block | close the air flow upstream of the said heat exchanger for a heating in any one of a said 1st ventilation path and a said 2nd ventilation path. The vehicle air conditioner described in 1.
  7.  前記冷却用熱交換器の下流側でかつ前記加熱用熱交換器の上流側の前記第1送風路と前記第2送風路とが隣接する隣接部において、
     前記隣接部を構成する前記第1送風路と前記第2送風路は、互いに平行で同一方向に送風されるように配置され、
     前記隣接部に前記第2連通路が設けられていることを特徴とする請求項2~6のいずれか1項に記載の車両用空調装置。 
    In the adjacent portion where the first air passage and the second air passage are adjacent to the downstream side of the cooling heat exchanger and the upstream side of the heating heat exchanger,
    The first air passage and the second air passage constituting the adjacent portion are arranged to be blown in the same direction in parallel with each other,
    The vehicle air conditioner according to any one of claims 2 to 6, wherein the second communication path is provided in the adjacent portion.
  8.  内気を導入する内気取り入れ口と、
     外気を導入する外気取り入れ口と、
     前記内気取り入れ口から導入される内気と前記外気取り入れ口から導入される外気との比率を選択的に切替可能な内外気切替装置
     とを更に備えることを特徴とする請求項1~7のいずれか1項に記載の車両用空調装置。
    A shy air intake to introduce shyness,
    An outside air intake for introducing outside air;
    8. An inside / outside air switching device capable of selectively switching a ratio between the inside air introduced from the inside air intake and the outside air introduced from the outside air intake. The vehicle air conditioner according to Item 1.
  9.  前記内外気切替装置の下流側に設けられ、車室内に向かって空気流を発生させる第1送風装置を更に備えることを特徴とする請求項8に記載の車両用空調装置。 The vehicle air conditioner according to claim 8, further comprising a first air blower that is provided on the downstream side of the inside / outside air switching device and generates an air flow toward the vehicle interior.
  10.  外気を導入する第2外気取り入れ口と、
     前記第2外気取り入れ口から外気を導入させるか否か選択可能な第2外気取り入れ選択装置
     とを更に備えることを特徴とする請求項1~9のいずれか1項に記載の車両用空調装置。
    A second outside air intake for introducing outside air;
    The vehicle air conditioner according to any one of claims 1 to 9, further comprising a second outside air intake selection device capable of selecting whether or not to introduce outside air from the second outside air intake.
  11.  前記第2外気取り入れ選択装置の下流側に設けられ、車室内に向かって空気流を発生させる第2送風装置を更に備えることを特徴とする請求項10に記載の車両用空調装置。 The vehicle air conditioner according to claim 10, further comprising a second air blower that is provided on the downstream side of the second outside air intake selection device and generates an air flow toward the vehicle interior.
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