This application is based on and incorporated herein by reference Japanese Patent Application No. 2002-336586 filed on Nov. 20, 2002.
The present invention relates to a vehicle air conditioning unit that can separately control temperature in a driver's compartment and that in a front passenger compartment.
A conventional vehicle air conditioning unit, for example, is described in JP-A-H8-48128. As shown in
Recently, a vehicle air conditioning unit, particularly, a rear air conditioning unit is required to be downsized in order to enlarge the passenger compartment of a vehicle. For example, a structure shown in
However, the above vehicle air conditioning units, which can separately control the temperatures in the respective air passages 120, 130, are suitable to employ a symmetrical duct shape for preserving the balance between the temperatures and between the amounts of the blowing air in the respective air passages 120, 130. In the vehicle air conditioning unit shown in
The present invention is considered in view of the above circumstances and provides a vehicle air conditioning unit that occupies less space and can preserve the balance between the amounts of the blowing air in respective air passages.
According to the present invention, a vehicle air conditioning unit includes an air duct, through which air is blown into a passenger compartment, and a partition board, which partitions the air duct in its inside into a right side air passage and a left side air passage. Temperature of air in the right side air passage and temperature of air in the left side air passage can be separately controlled. The air duct has a recess on its one side. An air conditioning device is disposed in the recess. The partition board is deformed correspondingly to the recess so that a corresponding cross-sectional area of the right side air passage and a corresponding cross-sectional area of the left side air passage should be approximately equal.
The air conditioning device is disposed in the recess of the air duct, thereby making the vehicle air conditioning unit more compact. Moreover, the partition board is deformed corresponding to the recess of the air duct, thereby allowing the corresponding cross-sectional areas of the right side air passage and the left side air passage to be approximately equal. Accordingly, the left and right amounts of the blowing air can be balanced, and the temperature control performance can be kept.
The invention, together with additional objectives, features and advantages thereof, will be best understood from the following description, the appended claims and the accompanying drawings in which:
An embodiment of the present invention will be described with reference to
A vehicle air conditioning unit explained in this embodiment is a rear air conditioning unit 1 for air-conditioning a rear passenger compartment. As shown in
The duct 3 is constructed with a cooler case (not shown), which houses the evaporator 4, and a heater case 3A, which houses the heater core 5 and the air mix doors. As shown in
The heater case 3A has FACE air outlets 9, from which conditioned air is blown toward the upper body of a rear passenger, FOOT air outlets 10, from which conditioned air is blown toward the feet of the rear passenger, and an air outlet switching door 11 (see
As shown in
The evaporator 4 is one of functional components of a refrigeration cycle. Low temperature refrigerant circulating inside the evaporator 4 absorbs heat from blowing air passing therethrough, thereby cooling the blowing air.
The heater core 5 is a heat exchanger that heats the blowing passing therethrough by engine coolant serving as a heat reservoir and is connected with an engine cooling channel with the use of a hot water piping.
The air mix doors, which are respectively disposed in the right and left side air passages 7, 8, relatively control the amount of air passing through the heater core 5 (hot air) and the amount of air bypassing the heater core 5 (cool air), thereby regulating the temperature of the blowing air. The respective air mix doors can be separately driven by their own actuators (not shown), thereby being capable of separately regulating the temperatures of the blowing air in the respective air passages 7, 8.
Hereinafter, the effect of the rear air conditioning unit 1 will be described.
The heater case 3A has the recess 3a in the left side, in which the servo motor 13 is disposed, thereby preventing the servo motor 13 from projecting outward from the heater case 3A. Accordingly, the space occupied by the rear air conditioning unit 1 can be downsized. On the ground that the size of the rear air conditioning unit 1 affects the size of the passenger compartment, the passenger compartment can be enlarged by downsizing the space occupied by the rear air conditioning unit 1.
Moreover, deforming the partition board 6 correspondingly to the recess 3a can make the corresponding cross-sectional areas of the right and left side air passages 7, 8 approximately equal. Accordingly, the left and right amounts of the blowing air can be balanced, and thereby the desired temperature control performance can be kept.
(Modifications)
In the above embodiment, the servo motor 13 for driving the air outlet switching door 11 is disposed in the recess 3a of the heater case 3A. However, the recess 3a can be, for example, used for storing a refrigerant piping connected to the evaporator 4 or the hot water piping connected to the heating core 5.
Moreover, the present invention is applied for the rear air conditioning unit 1 but can be instead applied for a front air conditioning unit or an air conditioning unit disposed in a console.
Further, regarding to the deformed shape of the partition board 6, as shown in
Number | Date | Country | Kind |
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2002-336586 | Nov 2002 | JP | national |
Number | Name | Date | Kind |
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5101883 | Kinmartin et al. | Apr 1992 | A |
Number | Date | Country |
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2396690 | Jun 2004 | GB |
05301515 | Nov 1993 | JP |
07293710 | Nov 1995 | JP |
8-48128 | Feb 1996 | JP |
09039546 | Feb 1997 | JP |
11048753 | Feb 1999 | JP |
11189024 | Jul 1999 | JP |
Number | Date | Country | |
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20040194946 A1 | Oct 2004 | US |