JP4512871B2 - Air conditioner unit for vehicle air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner unit for a vehicle air conditioner.
[0002]
[Prior art]
4 is a front view of an air conditioner unit of a conventional vehicle air conditioner, and FIG. 5 is a cross-sectional view showing a bottom surface of the unit case.
[0003]
The air conditioner unit includes an evaporator 103, a heater core 105 positioned above the evaporator 103 in the vehicle vertical direction (V in FIG. 4), and a unit case 101 that houses the heater core 105 and the evaporator 103.
[0004]
A blower unit 102 is connected to the side surface 101 c of the unit case 101. The unit case 101 houses an air mix door (not shown) that adjusts the ratio of the air passing through the heater core 105 and the air bypassing the heater core 105.
[0005]
The upstream end surface 103a of the evaporator 103 is inclined at a predetermined angle to the right of the vehicle left-right direction (RL in FIG. 4) with respect to the bottom surface 101a of the unit case 101. The evaporator 103 is connected with two refrigerant pipes (not shown) for refrigerant inflow and outflow.
[0006]
The heater core 105 is disposed in parallel to the bottom surface 101 a of the unit case 101. The heater core 105 is connected to two hot water pipes (not shown) for inflow and outflow of engine cooling water.
[0007]
An air introduction port 106 is formed on the side surface 101c of the unit case 1, and the opening surface of the air introduction port 106 is inclined at right angles to the bottom surface 101a. The air inlet 106 takes in the air blown from the blower unit 102 into the unit case 101.
[0008]
Next, the operation of this air conditioner unit will be described.
[0009]
When a blower motor (not shown) in the blower unit 102 rotates, air flows into the unit case 101 through the air inlet 106. The air is bent at a right angle by the side surface portion 101b facing the air introduction port 106 and travels upward in the vehicle vertical direction. Air is cooled as it passes through the evaporator 103.
[0010]
When the air is cooled, moisture contained in the air is separated from the air, and is condensed and condensed on the surface of the evaporator 103 (hereinafter, this water is referred to as condensed water). The condensed water travels from the evaporator 103 to the side surface portion 101b of the unit case 101 and falls to the area B in FIG. 5 on the bottom surface 101a. This condensed water is discharged to the outside from a drain port (not shown).
[0011]
Further, since the air blown into the unit case 101 from the air inlet 106 collides with the side surface portion 101b, the wind pressure is increased in the area A of FIG. 5A on the bottom surface 101a.
[0012]
The air that has passed through the evaporator 103 is heated by the heater core, and is blown out of the unit case 101 through a vent, a differential, and a foot blowing opening (not shown) provided in the upper portion of the unit case 101.
[0013]
Next, a procedure for detaching the evaporator 103 from the unit case 101 in this air conditioner unit will be described.
[0014]
First, the center console (not shown) is removed, and then the instrument panel (not shown) is removed. Thereafter, the steering member (not shown) is removed, and then the meter (not shown), the audio (not shown), the harness (not shown) and the like are removed. Thereafter, the blower unit 102 is removed, and then the unit case 1 is removed. In order to remove the unit case 1, it is necessary to drain the cooling water and remove the hot water pipe in advance, remove the refrigerant, and remove the refrigerant pipe. Finally, the evaporator 103 is removed from the air conditioner unit 1.
[0015]
The mounting operation of the evaporator 103 may be performed by reversing the procedure of the above-described detaching operation, and thus description thereof is omitted.
[0016]
[Problems to be solved by the invention]
By the way, in order to perform maintenance and repair of the evaporator 103 as described above, many parts have to be removed from the vehicle in the above-described procedure, which is complicated. In addition, when maintenance and repair of the evaporator 103 are completed and the air conditioner unit is mounted on the vehicle again, the same troublesome work must be performed by reversing the procedure for removing the evaporator 103.
[0017]
Further, as described above, the position where the condensed water falls (the area B in FIG. 5) and the position where the wind pressure of the air introduced into the unit case 101 becomes high (the area A in FIG. 5) substantially coincide. Condensed water may be blown upward due to wind pressure.
[0018]
The present invention has been made in view of such circumstances, and an object thereof is to facilitate the attachment and detachment of an evaporator and promote the discharge of condensed water.
[0019]
[Means for Solving the Problems]
In order to solve the above-described problem, an air conditioner unit for a vehicle air conditioner according to claim 1 is connected to a cooling heat exchanger and the cooling heat exchanger, and refrigerant flows into the cooling heat exchanger. a refrigerant pipe for performing the outflow, and the heating heat exchanger located in the vehicle vertical direction upper side of the cooling heat exchanger, a unit case for accommodating the both heat exchangers, a side surface of the unit case, the vehicle The cooling heat exchange includes an air inlet formed on the lower side in the vertical direction and closer to the rear side in the vehicle front-rear direction and for introducing air into the side of the unit case from the blower unit connected to the side of the unit case. The front end of the vehicle is inclined at a predetermined angle with respect to the bottom of the unit case with respect to the bottom of the unit case, and the opening surface of the air inlet is upstream of the cooling heat exchanger. On the end face Substantially at right angles to constitute, and by, with no inclination in the vehicle right-left direction with respect to the upstream end face of the cooling heat exchanger bottom surface of the unit case, condensed water units along the said cooling heat exchanger The air flows to the front side in the vehicle front-rear direction of the case and falls to the area on the front side in the vehicle front-rear direction on the bottom surface of the unit case, and the air taken into the unit case through the air inlet faces the air inlet. Guided so as to collide with the side surface, the traveling direction of the air is bent by approximately 90 degrees by the side surface of the unit case, and the air passes through the cooling heat exchanger and proceeds from the lower side to the upper side in the vehicle vertical direction. a bottom side of the use heat exchanger to increase the air pressure in the vehicle longitudinal direction rear side, lower than the wind pressure of the wind pressure of Elijah the vehicle longitudinal direction front side falling of condensed water vehicle longitudinal direction rear side Elijah wind The discharge port for discharging the condensed water flowing down from the cooling heat exchanger to the outside of the unit case so that the area where the condensed water falls and the area where the wind pressure increases are shifted. It is provided on the front side in the vehicle front-rear direction of the lower part of the unit case so that the area where the condensed water in the lowermost part of the cooling heat exchanger falls and the position of the drain outlet are substantially coincident. An opening for attaching and detaching the heat exchanger for cooling is provided on the side surface of the directional blower unit side so that the cooling heat exchanger can be pulled out in parallel to the bottom surface through the opening after the blower unit is removed .
[0020]
As described above, since the opening for attaching / detaching the cooling heat exchanger to the unit case is provided, the cooling heat exchanger can be attached / detached while the unit case is mounted on the vehicle. Further, since the air inlet for introducing from the blower unit is formed on the side surface of the unit case and closer to the rear side in the vehicle front-rear direction, the air taken into the unit case from the air inlet is Guided to collide with the side facing the air inlet, the wind pressure on the bottom side of the cooling heat exchanger on the rear side in the vehicle front-rear direction is increased, and the front side in the vehicle front-rear direction where condensate falls is low. Therefore, the condensed water from the cooling heat exchanger can be smoothly dropped onto the bottom surface and discharged without being blown up by the wind pressure.
[0022]
Furthermore, since the drain outlet for discharging the condensed water flowing down from the cooling heat exchanger to the outside of the unit case as described above is provided on the front side of the lower part of the unit case, it is generated on the surface of the cooling heat exchanger. The condensed water flows downward through the cooling heat exchanger to the front side or rear side of the unit case, and falls to the bottom surface of the unit case. The condensed water on the bottom surface is discharged from the drain port to the outside of the unit case by the inertial force and gravity generated when the vehicle in operation is accelerated or decelerated.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0024]
2 is a front view of a vehicle air conditioner provided with an air conditioner unit according to an embodiment of the present invention, FIG. 1 is a longitudinal sectional view of the air conditioner unit, and FIG. 3 is a sectional view showing a bottom surface of the unit case.
[0025]
The vehicle air conditioner includes an air conditioner unit 50 and a blower unit 2.
[0026]
A blower unit 2 is connected to the side surface 1 c of the unit case 1 of the air conditioner unit 50. The blower unit 2 is a device that sends air into the unit case 1.
[0027]
In the unit case 1, an evaporator (cooling heat exchanger) 3, an air mix door 4, and a heater core (heating heat exchanger) 5 are arranged from the upstream side to the downstream side.
[0028]
An air inlet 6 is formed on the side surface 1c of the unit case 1 on the rear side in the vehicle longitudinal direction (H in FIG. 1). The opening surface of the air inlet 6 is substantially perpendicular to the upstream end surface 3 a of the evaporator 3. The air inlet 6 is an opening for taking air from the blower unit 2 into the unit case 1.
[0029]
The evaporator 3 is a heat exchanger that cools air. The upstream end surface 3 a of the evaporator 3 is inclined at a predetermined angle with respect to the front side in the vehicle front-rear direction (H in FIG. 1) with respect to the bottom surface 1 a of the unit case 1. Two refrigerant pipes 7 and 8 for inflow and outflow are connected to the evaporator 3. The refrigerant pipe 7 is a pipe for supplying the refrigerant from the outlet of the refrigerant compressor (not shown) to the evaporator 3. The refrigerant pipe 8 is a pipe for sending the refrigerant from the evaporator 3 to a condenser (not shown).
[0030]
The heater core 5 is a heat exchanger that heats the air that has passed through the evaporator 3. The upstream end surface of the heater core 5 is inclined rearward in the vehicle front-rear direction with respect to the bottom surface 1 a of the unit case 1. Two hot water pipes 9 and 10 for inflow and outflow are connected to the heater core 5. The hot water pipe 9 is a pipe for supplying engine cooling water to the heater core 5 from an engine water jacket (not shown). The hot water pipe 10 is a pipe for returning the engine cooling water from the heater core 5 to the water jacket of the engine.
[0031]
An opening 11 for attaching / detaching the evaporator 3 and an opening 12 for attaching / detaching the heater core 5 are formed on the side surface 1 c of the unit case 1.
[0032]
The refrigerant pipes 7 and 8 and the hot water pipes 9 and 10 are drawn out of the unit case 1 so as not to interfere with each other, and are disposed along the side surface of the unit case 1 toward the front side in the vehicle front-rear direction.
[0033]
The air mix door 4 rotates around a shaft 13 attached to the unit case 1 and adjusts the ratio of air passing through the heater core 5 and air bypassing the heater core 5.
[0034]
In the upper part of the unit case 1, a vent blowing opening 14, a differential blowing opening 15 and a foot blowing opening 16 for sending air to the passenger compartment are provided. The vent and differential blowing openings 14 and 15 are opened and closed by a vent rotary door 17 and a differential rotary door 18, respectively.
[0035]
The vent blowing opening 14 has a vent blowing duct (not shown), the differential blowing opening 15 has a differential blowing duct (not shown), and the foot blowing opening 16 has a foot blowing duct (not shown). Are connected to each other.
[0036]
On the front side in the vehicle front-rear direction below the unit case 1, a drain port 19 is provided for discharging condensed water that has flowed down from the surface of the evaporator 3 to the outside of the unit case 1.
[0037]
Next, the operation of this air conditioner unit will be described.
[0038]
The air taken into the unit case 1 from the blower unit 2 through the air inlet 6 collides with the side surface portion 1 b facing the air inlet 6. Therefore, the wind pressure is very high in the area A of FIG. 3 on the bottom surface 1a. However, since the air inlet 6 is located closer to the rear side in the vehicle front-rear direction of the unit case 1, the wind pressure of the area B in FIG. 3 on the front side of the unit case 1 is not as high as the area A in FIG.
[0039]
The traveling direction of the air is bent by approximately 90 degrees by the side surface portion 1b of the unit case 1, and the air travels from the lower side to the upper side in the vehicle vertical direction (V in FIG. 1). Air is cooled as it passes through the evaporator 3. When the air is cooled, moisture contained in the air is separated from the air and condensed on the surface of the evaporator 3. The condensed water flows through the evaporator 3 to the front side of the unit case 1 and falls to the area B in FIG. 3 on the bottom surface 1a of the unit case 1.
[0040]
However, since the area where the condensed water falls (B in FIG. 3) and the area where the wind pressure increases (A in FIG. 3) are shifted, the condensed water is not blown up by the wind pressure.
[0041]
Further, the drain port 19 is provided on the front side in the vehicle front-rear direction below the unit case 1, and the position of the drain port 19 and the area (B in FIG. 3) where the condensed water falls substantially coincide with each other. The condensed water that has fallen on 1a is quickly discharged to the outside of the unit case 1.
[0042]
Furthermore, since the condensed water moves to the front side of the unit case 1 due to the inertial force generated when the driving vehicle accelerates or decelerates, drainage is promoted.
[0043]
The air flow that has passed through the evaporator 3 is divided into two by the air mix door 4 when the air mix mode is set.
[0044]
One air travels toward the heater core 5, passes through the heater core 5, and then travels along the warm air passage 20 from the front side in the vehicle front-rear direction to the rear side. Air is heated when passing through the heater core 5. The other air bypasses the heater core 5 and proceeds from the lower side in the vehicle vertical direction to the upper side through the cold air bypass passage 21. The air downstream of the cold air bypass passage 21 and the air downstream of the hot air passage 20 are merged in the air mix chamber 22 and mixed.
[0045]
When the opening degree of the air mix door 4 is large, the amount of air flowing into the heater core 5 increases, and the temperature of the air joined in the air mix chamber 22 increases.
[0046]
When the opening degree of the air mix door 4 is small, the amount of air flowing into the heater core 5 decreases, and the temperature of the air that joins in the air mix chamber 22 decreases.
[0047]
The air mixed in the air mix chamber 22 is blown out of the unit case 1 through the differential, vent or foot blowing openings 14, 15, 16.
[0048]
Next, a procedure for detaching the evaporator 3 from the unit case 1 mounted on the vehicle will be described.
[0049]
First, the center console (not shown) is removed, and then the instrument panel (not shown) is removed.
[0050]
Next, a steering member (not shown) is removed, and then a meter (not shown), an audio (not shown), a harness (not shown), and the like are removed.
[0051]
Thereafter, the blower unit 2 is removed, the refrigerant is removed, and the refrigerant pipes 7 and 8 are removed.
[0052]
Finally, the evaporator 3 is pulled out from the unit case 1 of the air conditioner unit 50 through the opening 11. Since the evaporator 3 is inclined forward in the vehicle front-rear direction with respect to the bottom surface 1a, the evaporator 3 can be pulled out parallel to the bottom surface 1a through the opening 11.
[0053]
The attachment work of the evaporator 3 may be performed by reversing the procedure of the above-described detachment work, and thus the description thereof is omitted.
[0054]
It is not necessary to remove the unit case 1 from the vehicle in the work of removing the evaporator 3. Therefore, there is no need to remove the hot water pipes 9 and 10 necessary for removing the unit case 1. Furthermore, the operation | work which mounts the unit case 1 and the hot water piping 9 and 10 becomes unnecessary.
[0055]
Since it can be pulled out parallel to the bottom surface 1a through the opening 11 and the space required for the detachment operation is not hindered by other in-vehicle components, the detachment operation is smooth.
[0056]
According to this embodiment, since the evaporator 3 does not tilt in the left-right direction of the vehicle with respect to the bottom surface 1a of the unit case 1, the opening 3 is provided so that the evaporator 3 can be easily mounted with the unit case 1 mounted on the vehicle. Detachable. Therefore, workability at the time of performing maintenance and repair of the evaporator 3 is improved.
[0057]
Further, since the position of the lowermost part of the evaporator 3 and the drain port 19 coincide, the condensed water that has fallen on the bottom surface 1a of the unit case 1 is quickly discharged from the drain port 19, and the drainage is performed by the inertial force of the vehicle during operation. Promoted. Since the time during which the condensed water stays in the unit case 1 is shortened, the condensed water is not easily blown up to the evaporator side by the wind pressure, and the condensed water in the unit case 1 becomes water from the fitting portion 1d of the unit case 1 to the vehicle compartment. Leakage can be suppressed.
[0058]
Furthermore, since the area where the condensed water falls (B in FIG. 3) and the area where the wind pressure increases (A in FIG. 3) are shifted, the condensed water once dropped on the bottom surface 1a of the unit case 1 is blown up by the wind pressure. Less is. Since the amount of condensed water adhering to the evaporator 3 is reduced and a wide contact area between the evaporator 3 and air is maintained, a decrease in cooling efficiency can be suppressed.
[0059]
Further, since the upstream end surface 3a of the evaporator 3 is not inclined in the vehicle left-right direction with respect to the bottom surface 1a of the unit case 1, (1) the vehicle left-right width of the evaporator 3 is substantially equal to the vehicle left-right width of the unit case 1. Thus, the width of the unit case 1 in the vehicle left-right direction can be reduced as compared with the conventional example. For this reason, the unit case 1 can be arrange | positioned in the center of the vehicle left-right direction. (2) Since the vehicle vertical distance between the evaporator 3 and the heater core 5 becomes equal, the amount of heat received from the evaporator 3 and the heater core 5 from when the air contacts the evaporator 3 until it is blown out of the unit case 1 It becomes constant in the left-right direction. Therefore, the temperature of the air blown out from the unit case 1 is uniform in the left-right direction of the vehicle, and ideal temperature adjustment of the vehicle interior air can be realized.
[0060]
According to an air-conditioning unit of the vehicle air conditioner of this invention, it is possible to attach and detach the cooling heat exchanger in a state equipped with the unit case to a vehicle, when performing maintenance and repair of the cooling heat exchanger Improved workability. In addition, the air taken into the unit case from the air insertion port is guided so as to collide with the side surface portion facing the air introduction port, and the wind pressure on the bottom side of the cooling heat exchanger and on the rear side in the vehicle longitudinal direction. Since the front side in the vehicle front-rear direction where the condensed water falls is kept at a low wind pressure, the condensed water from the cooling heat exchanger can be smoothly dropped to the bottom surface and discharged.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of an air conditioner unit.
FIG. 2 is a front view of a vehicle air conditioner including an air conditioner unit according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view showing a bottom surface of a unit case of an air conditioner unit according to one embodiment of the present invention.
FIG. 4 is a front view of an air conditioner unit of a conventional vehicle air conditioner.
FIG. 5 is a cross-sectional view showing a bottom surface of a unit case of an air conditioner unit of a conventional vehicle air conditioner.
[Explanation of symbols]
1 Unit case 1a Bottom surface 3 Evaporator (cooling heat exchanger)
5 Heater core (heat exchanger for heating)
6 Air inlet 7, 8 Refrigerant pipe 19 Drain outlet

Claims (1)

A heat exchanger for cooling;
Refrigerant piping connected to the cooling heat exchanger and performing refrigerant inflow and outflow of the cooling heat exchanger;
A heating heat exchanger located on the upper side in the vehicle vertical direction of the cooling heat exchanger, and a unit case that accommodates both the heat exchangers;
An air inlet that is formed on the side surface of the unit case on the lower side in the vehicle vertical direction and closer to the rear side in the vehicle front-rear direction, and for introducing air into the unit case from the blower unit connected to the side surface of the unit case And
The upstream end surface of the cooling heat exchanger is inclined at a predetermined angle in the vehicle front-rear direction with respect to the bottom surface of the unit case, and the opening surface of the air inlet is the heat for cooling. Constructed approximately at right angles to the upstream end face of the exchanger,
In addition, the upstream end surface of the cooling heat exchanger does not tilt in the vehicle left-right direction with respect to the bottom surface of the unit case, and the condensed water travels through the cooling heat exchanger to the front side of the unit case in the vehicle front-rear direction. Flow, let it fall on the front side of the vehicle front-rear direction on the bottom of the unit case,
The air taken into the unit case through the air inlet is guided so as to collide with the side surface facing the air inlet, and the air traveling direction is bent by approximately 90 degrees by the side surface of the unit case. Passes through the cooling heat exchanger and proceeds from the lower side to the upper side in the vertical direction of the vehicle,
The wind pressure on the bottom side of the cooling heat exchanger on the rear side in the vehicle front-rear direction is increased, and the wind pressure on the front side in the vehicle front-rear direction where condensed water falls is lower than the wind pressure on the rear side in the vehicle front-rear direction. An outlet for discharging the condensed water flowing down from the cooling heat exchanger to the outside of the unit case so that the area where the condensed water falls and the area where the wind pressure increases are shifted. It is provided on the front side in the vehicle front-rear direction at the bottom of the unit case so that the area where the condensed water in the lowermost part of the heat exchanger falls and the position of the drain outlet substantially coincide
Further, the side wall of the unit case on the side of the blower unit in the left-right direction of the vehicle is an opening through which the cooling heat exchanger is attached and detached so that the blower unit can be pulled out parallel to the bottom surface after the blower unit is removed. An air conditioner unit for a vehicle air conditioner is provided.

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