JP2005271838A - Air-conditioner for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air-conditioner for a vehicle capable of performing an air-blowing operation through compartment air of a rear seat air conditioner unit while keeping a cooling operation of a front seat air-conditioner unit, having a simple structure, reducing an increased cost caused by an increased space or weight of the rear seat air-conditioner unit and attaining an easy operation or handling. <P>SOLUTION: This air-conditioner device for a vehicle comprises a front seat air-conditioner unit and a rear seat air-conditioner unit, and an evaporator and an expansion valve for each of the air-conditioner units are connected in parallel at a refrigerant circuit. The rear seat air-conditioner unit has the evaporator, the expansion valve, a ventilation passage having a compartment air inlet, a blower and a rear seat air outlet for blowing air from the blower through the evaporator, a bypass passage for allowing the air blown from the blower bypasses the evaporator, and a changing-over means for changing-over the ventilation passages. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a vehicle air conditioner provided with an air conditioning unit in both a front part and a rear part of a passenger compartment.

  FIG. 3 is an explanatory diagram showing a configuration of a conventional vehicle air conditioner provided with an air conditioning unit at both the front and rear of the vehicle.

  In FIG. 3, 1 is a vehicle air conditioner, and this vehicle air conditioner 1 is composed of a front seat air conditioning unit 2 installed at the front of the vehicle and a rear seat air conditioning unit 3 installed at the rear of the vehicle. Has been.

  The front seat air conditioning unit 2 includes an inside / outside air switching device 6, a blower 7, an evaporator 8, an expansion valve 9, an air mix damper 10, a heater core 11, an outlet switching damper 12, and the like. It is connected to a vehicle running engine 13.

  The rear seat air conditioning unit 3 includes an inside / outside air switching device 14, a blower 15, an evaporator 16, an expansion valve 17, and the like. The evaporators 8 and 16 and the expansion valves 9 and 17 are respectively shown in the figure. A refrigerant circuit in which refrigerant is circulated through a condenser 22 and a receiver 23 is constituted by a compressor 21 that is arranged in parallel and driven by a belt 5 wound around a pulley 4 by a traveling engine 13. .

  In the conventional vehicle air conditioner 1 configured as described above, when the compressor 21 is driven by the traveling engine 13, the refrigerant discharged from the compressor 21 enters the condenser 22, where it is cooled by the outside air. After being condensed and liquefied, the liquid refrigerant branches via the receiver 23 into a front-seat refrigerant path and a rear-seat refrigerant path.

  One of the branched liquid refrigerants is adiabatically expanded by the expansion valve 9 and then enters the evaporator 8 of the front seat air conditioning unit 2. Here, the vehicle interior is switched by the inside / outside air switching device 6 and sent by the blower 7. By cooling the air or outside air, it evaporates and vaporizes, and is returned to the compressor 21 for circulation.

  The other of the branched liquid refrigerant is adiabatically expanded by the expansion valve 17 and then enters the evaporator 16 of the rear seat air conditioning unit 3. Here, the vehicle is switched by the inside / outside air switching device 14 and sent by the blower 15. By cooling indoor air or outside air, it evaporates and vaporizes, and is returned to the compressor 21 for circulation.

  Note that the air cooled by the evaporator 8 of the air conditioning unit 2 for the front seat is branched by the operation of the air mix damper 10, and a part of the air is circulated through the heater core 11 in the process of passing through the heater core 11. The temperature is raised by exchanging heat with the engine cooling water.

  The heated air is mixed with the remaining cooling air that bypasses the heater core 11 to become conditioned air having a predetermined temperature, and is blown into the vehicle compartment from the air outlet selected by the air outlet switching damper 12, thereby Air conditioning in the passenger compartment on the seat side will be performed.

  In the air conditioning unit 3 for the rear seat, the air cooled by the evaporator 16 is blown out from the outlet to the rear seat side of the vehicle compartment, thereby cooling the passenger compartment on the rear seat side.

  However, in the conventional vehicle air conditioner 1 configured as described above, the cooling operation of both the front seat air conditioning unit 2 and the rear seat air conditioning unit 3, and the front seat in which the rear seat air conditioning unit 3 is stopped. The air conditioning unit 2 can be switched to a single cooling operation by turning the blower 15 of the rear seat air conditioning unit 3 on and off. Alternatively, when setting to a blowing operation by outside air, it is necessary to turn off the compressor 21 to stop the circulation of the refrigerant, and the air conditioning unit 2 for the front seat is also operated to blow the air. There was a problem that it could not be continued, and improvement was desired.

  FIG. 4 is an explanatory view showing the configuration of the air conditioning unit for the rear chamber of the vehicle air conditioner as a conventional countermeasure example proposed to improve the conventional problem, and is the same as the part shown in FIG. Are given the same numbering, and redundant description is omitted.

  The vehicle air conditioner 1A of the conventional countermeasure example shown in FIG. 4 includes a heater core 51 and air mix dampers 52, 53, etc., which use the cooling water of the traveling engine 13 as a heat source, in the rear seat air conditioning unit 3 in FIG. The rear seat air-conditioning unit 3a is configured to be reheated to the blowing temperature that requires the cool air blown from the rear seat air-conditioning unit 3a by the operation of the air mix dampers 52 and 53. There is a problem that there are many additional parts, and the space and weight of the rear seat air conditioning unit 3a increase, resulting in an increase in cost.

  In addition, an example in which an electromagnetic opening / closing valve is provided in the refrigerant pipe to the air conditioning unit for the rear seat has been proposed (see Patent Documents 1, 2, and 3). In addition, it is necessary to take measures for lack of lubrication of the compressor, and there is a problem that the control of the air conditioner is complicated and the cost is increased.

  In addition, the example of the rear seat air conditioning unit provided with the switching damper shown in Patent Document 3 is only for the front seat side by the front seat air conditioning unit due to the air curtain effect when the rear seat side cooling is not necessary. The purpose of this is to enable zone air conditioning in the front seat where the air conditioner is cooled, and it is not aimed at the air blowing function on the rear seat side.

Japanese Patent Laid-Open No. 10-24730 (FIGS. 1 and 2) JP-A-9-86135 (FIGS. 1, 2, and 3) JP-A-7-25219 (FIGS. 7 and 9)

  The present invention has been made in view of the above-described conventional problems. The air-conditioning unit for the rear seat can be blown by the air in the vehicle interior while the air-conditioning unit for the front seat is maintained, and the structure is simple. Therefore, an object of the present invention is to provide a vehicle air conditioner that is easy to operate and handle, with little cost increase due to an increase in space and weight of the rear seat air conditioning unit.

  In order to solve the above problems, the present invention employs the following means (1), (2), and (3) as a vehicle air conditioner.

(1) The first means includes a front seat air conditioning unit and a rear seat air conditioning unit, and the rear air conditioning system includes an evaporator and an expansion valve connected to the refrigerant circuit in parallel. An air conditioning unit for a seat has the evaporator and the expansion valve, a vehicle interior air inlet, a blower, and a rear seat blowout port, and an air passage through which air blown from the blower passes through the evaporator The air blown from the blower has a ventilation path that bypasses the evaporator, and has switching means for switching the ventilation path.

  (2) The second means is a vehicle air conditioner comprising a front seat air conditioning unit and a rear seat air conditioning unit, wherein an evaporator and an expansion valve of each air conditioning unit are connected in parallel to a refrigerant circuit. An air conditioning unit for a seat has the above-described evaporator and expansion valve, a vehicle interior air inlet, a blower, and a rear-seat air outlet, and is provided in a ventilation path that bypasses the evaporator, and a downstream-side ventilation path of the evaporator And a ventilating damper that opens and closes a rear flow side ventilation path and a ventilation path that bypasses the evaporator when one is open and the other is closed. It is.

  (3) The third means is a vehicle air conditioner comprising a front seat air conditioning unit and a rear seat air conditioning unit, wherein an evaporator and an expansion valve of each air conditioning unit are connected in parallel to the refrigerant circuit. A seat air-conditioning unit has the evaporator and the expansion valve, a passenger compartment air inlet, a blower, and a rear seat outlet, and is provided in a ventilation path that bypasses the evaporator, and a front-flow-side ventilation path of the evaporator. The airflow passage that bypasses the evaporator is provided with a blower damper that opens and closes so that the other is closed when one is open. Is.

  Since the inventions according to claims 1, 2, and 3 described in the claims employ the means (1), (2), and (3), they have the following effects.

(1) Since the invention according to claim 1 employs the first means, it is possible to switch whether the air blown from the blower passes through the evaporator or bypasses.
Therefore, the cooling operation and the air blowing operation on the rear seat side can be switched while maintaining the cooling operation of the air conditioning unit for the front seat.

  (2) Since the invention according to claim 2 employs the above-mentioned second means, the ventilation which bypasses the evaporator is set by operating the blower damper and setting the wake side ventilation path of the evaporator to the closed position. Since the passage is opened and the wake side ventilation path of the evaporator is closed, the vehicle interior air blown by the blower is not cooled by the evaporator, passes through the ventilation path that bypasses the evaporator, and exits the rear seat side. The air blowing operation by the air in the passenger compartment of the air conditioning unit for the rear compartment can be performed while maintaining the air cooling operation of the air conditioning unit for the front seat.

  In addition, an air flow damper that opens and closes the downstream air flow path and the air flow path that bypasses the evaporator to open and close the other when one is open is provided in the downstream air flow path of the evaporator. Therefore, the structure is simple, there is little cost increase due to increase in space and weight of the rear seat air conditioning unit, and operation and handling are easy.

  (3) Since the invention according to claim 3 employs the third means described above, the ventilation that bypasses the evaporator by operating the blower damper and setting the front-flow side ventilation path of the evaporator to the closed position. Since the road is opened and the front-flow side ventilation path of the evaporator is closed, the air in the passenger compartment blown by the blower passes through the ventilation path that bypasses the evaporator without being cooled by the evaporator, and then the rear seat side. The air blowing operation by the air in the passenger compartment of the air conditioning unit for the rear compartment can be performed while maintaining the air cooling operation of the air conditioning unit for the front seat.

  In addition, an airflow damper that opens and closes the upstream airflow path and the airflow path that bypasses the evaporator to open and close the other when one is open is disposed in the upstream airflow path of the evaporator. Therefore, the structure is simple, there is little cost increase due to the increase in space and weight of the rear seat air conditioning unit, and operation and handling are easy.

  The best mode for carrying out the present invention will be described based on Examples 1 and 2 below.

  FIG. 1 is an explanatory diagram showing the configuration of a vehicle air conditioner according to a first embodiment of the present invention. In the figure, the same parts as those shown in FIG.

  In FIG. 1, reference numeral 100 denotes a vehicle air conditioner, and the vehicle air conditioner 100 includes a front seat air conditioning unit 2 installed at the front of the vehicle and a rear seat air conditioning unit 30 installed at the rear of the vehicle. ing.

  The front seat air conditioning unit 2 includes an inside / outside air switching device 6, a blower 7, an evaporator 8, an expansion valve 9, an air mix damper 10, a heater core 11, an outlet switching damper 12, and the like. It is connected to a vehicle running engine 13.

  The rear seat air conditioning unit 30 includes a vehicle interior air inlet 18, a blower 15, an evaporator 16, an expansion valve 17, and a rear chamber outlet, and a ventilation path 42 that bypasses the evaporator 16, and the evaporator 16 A blower damper 41 is provided in the wake side ventilation path 43 and opens and closes the wake side ventilation path 43 and the ventilation path 42 bypassing the evaporator 16 so that when one is open, the other is closed. The evaporators 8 and 16 and the expansion valves 9 and 17 are arranged in parallel as shown in the figure, and are arranged via a belt 5 wound around a pulley 4 by a traveling engine 13. The compressor 21 driven in this manner constitutes a refrigerant circuit in which the refrigerant circulates via the condenser 22 and the receiver 23.

  In the vehicle air conditioner 100 according to the first embodiment configured as described above, when the compressor 21 is driven by the traveling engine 13, the refrigerant discharged from the compressor 21 enters the condenser 22, where After being cooled by outside air to be condensed and liquefied, the liquid refrigerant branches through the receiver 23 into a front-seat refrigerant path and a rear-seat refrigerant path.

  One of the branched refrigerants is adiabatically expanded by the expansion valve 9 and then enters the evaporator 8 of the air conditioning unit 2 for the front seat, where it is switched by the inside / outside air switching device 6 and is sent by the blower 7. Alternatively, it is evaporated and vaporized by cooling the outside air, and returned to the compressor 21 for circulation.

  The other of the branched liquid refrigerant is adiabatically expanded by the expansion valve 17 and then enters the evaporator 16 of the rear seat air conditioning unit 30, where the vehicle interior is sent by the blower 15 via the vehicle interior air inlet 18. By cooling the air, it evaporates and vaporizes, and is returned to the compressor 21 for circulation.

  Note that the air cooled by the evaporator 8 of the air conditioning unit 2 for the front seat is branched by the operation of the air mix damper 10, and a part of the air is circulated through the heater core 11 in the process of passing through the heater core 11. The temperature is raised by exchanging heat with the engine cooling water.

  Then, the heated air is mixed with the remaining cooling air that bypasses the heater core 11 to become conditioned air at a predetermined temperature, and is blown into the vehicle compartment from the air outlet selected by the air outlet switching damper 12, thereby The air conditioning of the passenger compartment on the front seat side will be performed.

  Further, in the rear seat air conditioning unit 30, if the ventilation path 42 that bypasses the evaporator 16 is set to the closed position by the blower damper 41 installed in the downstream ventilation path 43 of the evaporator 16, The air in the passenger compartment is cooled by the evaporator 16 and blown out from the rear seat outlet 44 to the rear seat side of the passenger compartment, thereby cooling the passenger compartment on the rear seat side.

  In the vehicle air conditioner 100 according to the first embodiment configured as described above, cold air is blown out from the outlet 44 of the rear seat air conditioning unit 30 while the cooling operation of the front seat air conditioning unit 2 is continued. In the case of performing the air blowing operation for blowing out the air in the passenger compartment, the air blowing damper 41 is operated to set the posterior air passage 43 of the evaporator 16 to the closed position. That is, in the present embodiment, a configuration in which the switching unit is provided on the downstream side of the evaporator 16 is employed.

  As a result, the ventilation path 42 that bypasses the evaporator 16 is opened and the wake side ventilation path 43 of the evaporator 16 is closed, so that the passenger compartment air blown by the blower 15 is not cooled by the evaporator 16, and thus the evaporator 16 16 is blown out from the air outlet 44 to the rear seat side through the ventilation path 42 bypassing the air outlet 16, and the air blowing operation by the air in the vehicle interior of the air conditioning unit 30 for the rear compartment is performed while maintaining the air conditioning operation of the air conditioning unit 2 for the front seat. I can do it.

  Further, in the vehicle air conditioner 100 according to the first embodiment, when one of the downstream air passage 43 and the air passage 42 bypassing the evaporator 16 is opened in the downstream air passage 43 of the evaporator 16. Since the blower damper 41 that opens and closes so that the other is closed is provided, the structure is simple, the cost and the increase in the space and weight of the rear seat air conditioning unit 30 are small, and the operation and handling are easy. It is.

  In the vehicle air conditioner 100 according to the first embodiment, in the state where the blower damper 41 is in the position indicated by the broken line in the drawing, the air in the vehicle interior that is blown by the blower 15 and passes through the evaporator 16 is There is a possibility that a part of the airflow is convected by the blower damper 41 closing the wake side air passage 43 and flows toward the air passage 42 bypassing the evaporator 16. For example, the shape of the case of the air conditioning unit 30 for the rear seat Depending on the structure and the like, the flow along the wall surface of the case may enter and exit above and below the evaporator 16, but even if the above phenomenon occurs, the cooling operation of the air conditioning unit 2 for the front seat can be performed. While maintaining, there is almost no influence on the performance of the air blowing operation by the air in the passenger compartment of the air conditioning unit 30 for the rear room.

  Further, since the air blowing operation by the air in the passenger compartment of the air conditioning unit 30 for the rear room is the air blowing mode, there is no restriction on the capacity.

  FIG. 2 is an explanatory view showing the configuration of the rear room air conditioning unit portion of the vehicle air conditioner according to the second embodiment of the present invention.

  The vehicle air conditioner 100a shown in FIG. 2 is provided with a rear seat air conditioning unit 30a instead of the rear seat air conditioning unit 30 installed at the rear of the vehicle air conditioner 100 according to the first embodiment shown in FIG. In the figure, the same parts as those shown in FIG. 1 are denoted by the same reference numerals, and redundant description is omitted.

  The rear seat air conditioning unit 30a according to the second embodiment shown in FIG. 2 includes a vehicle interior air inlet 18, a blower 15, an evaporator 16, an expansion valve 17, and a rear seat outlet 64. The ventilation passage 62 that bypasses the evaporator 16 and the upstream-side ventilation passage 63 of the evaporator 16 are provided on the upstream-side ventilation passage 63 and the ventilation passage 62 that bypasses the evaporator 16. A blower damper 61 that opens and closes so as to be closed is arranged as shown in the figure.

  In the vehicle air conditioner 100a according to the second embodiment configured as described above, the rear-seat air conditioning unit 30a includes a front-flow side ventilation path 63 of the evaporator 16, a front-flow-side ventilation path 63, and an evaporator. Since the ventilation damper 61 that opens and closes the ventilation passage 62 that bypasses the air passage 16 so that the other is closed when one is open, the cooling operation of the air conditioning unit 2 for the front seat is continued. When the air blowing operation is performed to blow the vehicle interior air from which the cool air does not blow out from the air outlet 64 of the air conditioning unit 30a for operation, the air blowing path 61 of the evaporator 16 is closed by operating the air blowing damper 61 described above. What is necessary is just to set to a position. That is, in the present embodiment, a configuration in which the switching unit is provided on the upstream side of the evaporator 16 is employed.

  As a result, the ventilation path 62 that bypasses the evaporator 16 is opened and the upstream flow path 63 of the evaporator 16 is closed, so that the vehicle interior air blown by the blower 15 is not cooled by the evaporator 16, but the evaporator 16 is blown out from the air outlet 64 to the rear seat through the ventilation passage 62 that bypasses the air passage 16, and while the cooling operation of the air conditioning unit 2 for the front seat is continued, the air blowing operation by the air in the vehicle interior of the air conditioning unit 30a for the rear seat is performed. I can do it.

  Further, in the vehicle air conditioner 100a according to the second embodiment, one of the upstream air passage 63 of the evaporator 16 and the air passage 62 bypassing the evaporator 16 are opened on the upstream air passage 63 of the evaporator 16. Since the blower damper 61 is opened and closed so that the other is closed, the structure is simple, the cost increase due to the increase in space and weight of the rear seat air conditioning unit 30a is small, and the operation and handling are also easy. Easy.

  However, the present invention is not limited to each of the above embodiments, and the shape and structure of the case of the air conditioning unit for the rear chamber may vary depending on the vehicle such as a blower, an evaporator, a blower damper, etc. Needless to say, it is designed optimally in consideration of ventilation resistance, efficiency, downsizing, etc., corresponding to the shape dimensions, the arrangement and shape dimensions of the air inlet and outlet of the passenger compartment, and the like.

It is explanatory drawing which shows the structure of the vehicle air conditioner which concerns on Example 1 of this invention. It is explanatory drawing which shows the structure of the air conditioning unit part for rear rooms of the vehicle air conditioner which concerns on Example 2 of this invention. It is explanatory drawing which shows the structure of the conventional vehicle air conditioner. It is explanatory drawing which shows the structure of the air conditioning unit part for rear rooms of the vehicle air conditioner as the example of a conventional countermeasure.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 1A Vehicle air conditioner 2 Front seat air conditioning unit 3, 3a Rear seat air conditioning unit 4 Pulley 5 Belt 6 Inside / outside air switching device 7 Blower 8 Evaporator 9 Expansion valve 10 Air mix damper 11 Heater core 12 Outlet switching damper 13 Traveling Engine 14 Inside / outside air switching device 15 Blower 16 Evaporator 17 Expansion valve 18 Car interior air inlet 21 Compressor 22 Condenser 23 Receiver 30, 30 a Rear seat air conditioning unit 41 Blower damper 42 Ventilation path 43 Wake-up side ventilation path 44 Blower outlet 51 Heater core 52 Air mix damper 53 Air mix damper 61 Blower damper 62 Ventilation path 63 Front flow side ventilation path 64 Air outlet 100, 100a Air conditioner for vehicle

Claims (3)

In a vehicle air conditioner comprising a front seat air conditioning unit and a rear seat air conditioning unit, wherein an evaporator and an expansion valve of each air conditioning unit are connected in parallel to a refrigerant circuit,
The rear seat air conditioning unit includes the evaporator and the expansion valve, a vehicle interior air inlet, a blower, and a rear seat outlet.
A ventilation path through which the air blown from the blower passes through the evaporator, and a ventilation path through which the air blown from the blower bypasses the evaporator,
A vehicle air conditioner comprising switching means for switching the ventilation path. In a vehicle air conditioner comprising a front seat air conditioning unit and a rear seat air conditioning unit, wherein an evaporator and an expansion valve of each air conditioning unit are connected in parallel to a refrigerant circuit,
The rear seat air conditioning unit has the evaporator and the expansion valve, a cabin air inlet, a blower, and a rear seat outlet,
Opening and closing the ventilation path that bypasses the evaporator and the downstream flow path of the evaporator, the downstream flow path and the ventilation path that bypasses the evaporator, so that when one is open, the other is closed An air conditioner for a vehicle characterized by being provided with a blowing damper. In a vehicle air conditioner comprising a front seat air conditioning unit and a rear seat air conditioning unit, wherein an evaporator and an expansion valve of each air conditioning unit are connected in parallel to a refrigerant circuit,
The rear seat air conditioning unit has the evaporator and the expansion valve, a cabin air inlet, a blower, and a rear seat outlet,
The ventilation path that bypasses the evaporator and the upstream flow path of the evaporator, the upstream flow path and the ventilation path that bypasses the evaporator, so that when one is open, the other is closed An air conditioner for a vehicle comprising a blower damper that opens and closes.

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