DE10350449A1 - Automobile climate control device with pivoted air mixing gate between heat exchangers for cooling and heating supplied air and bypass across air heating heat exchanger - Google Patents

Abstract

The climatization device (10) has a housing (1) defining an air channel leading to an air mixing chamber (5), with a fan (2) for blowing air through the air channel followed by 2 successive heat exchangers (3,4), respectively used for cooling and heating the air. A pivoted air mixing gate (6) between the heat exchangers determines the quantity of cooled air fed directly to the air mixing chamber, the remainder heated via the second heat exchanger before being fed to the air mixing chamber, with a bypass channel between the pivot axis (61) of the air mixing gate and one end of the second heat exchanger.

Description

The invention relates to an air conditioning unit for a Vehicle that improves performance when blending cooled and warmed up Air provides and over a compact housing for Improves installation in a vehicle.

In recent years, there has been a growing demand to make a vehicle air conditioning unit compact so that it can be easily installed in a passenger compartment. In order to meet this requirement, a fan-integrated air conditioning unit was designed in accordance with 5 proposed. In particular, is a blower 2 integral in one housing 1 accommodated. Also are an evaporator 3 and a heater core 4 under the blower 2 arranged in the housing. The evaporator 3 and the heater core 4 are arranged close to each other and essentially parallel, seen in the vertical direction. An air mixer chamber 5 is above the heater core 4 in the housing 1 educated.

Such a type of air conditioning unit is for example in the JP-A-2001-150923 disclosed. In the air conditioning unit, however, is the volume of the air mixer chamber 4 reduced because the blower 2 in the housing 1 is arranged.

There is an air mixer door in the air conditioning unit 6 in an outlet opening 50 for chilled air which is located on the back of the evaporator 3 is trained. The air mixer door is operated by a spindle 61 worn above the heater core 4 is arranged so that the air outlet opening 5 into a cooled air opening 51 and a heater opening 52 is divided. The chilled air after the evaporator 3 has penetrated and into the opening 51 for chilled air is poured directly into the air mixer chamber 5 introduced. The cooled air that the heater opening 52 has flowed through, is against the heater core 4 initiated. The one to the heater core 4 Introduced air is heated while it is heating the heater core 4 flows through and into the mixing chamber 5 through a heated air duct 40 introduced that on a back of the heater core 4 is trained. Then the cooled air C and the heated air N in the air mixer chamber 5 mixed.

However, if the volume in the air mixer chamber 5 is small and the extent to which the cooled air C and the heated air N go together is insufficient, the cooled air C and the heated air H are insufficiently mixed. As a result, the vertical distribution of the temperature of the air in the air mixing chamber is likely to become non-uniform. For example, the temperature varies by a maximum of 30 ° C. It is therefore difficult to maintain air conditioning comfort.

Furthermore, the air mixer chamber 5 with a foot opening 52 provided with a foot air vent, a face opening 54 and a defroster opening 55 communicates. In the event that the foot opening 53 on one side of the heated air outlet 5A which is a downstream end of the heated air duct 40 is and the face opening 54 and the defroster opening 55 on one side of the opening for cooled air 51 the air mixer chamber 5 are formed, the temperature is that of the foot opening 53 blown air high and the temperature of the face opening 54 blown air low in an operation where the conditioned air from the foot opening 53 and the face opening 54 is blown at the same time. In an operation where the conditioned air from the face opening 54 and the defroster opening 55 blown at the same time is the temperature of the face opening 54 blown air high and the temperature of the defroster opening 55 blown air low.

To solve the aforementioned disadvantage, a guide wall was considered 8th in the opening 51 for cooled air in the air mixer chamber 5 to provide to increase the union angle of cooled air C and heated air N. As shown by arrow C1, the direction of flow of the cooled air through the guide wall 8th changed so that the union angle with the heated air N1 coming from the opening 5A for the heated air flows in, is enlarged. In this case, however, the guide wall increases 8th the resistance of the air flow, which reduces the air volume. In addition, the guide wall calls 8th a noise problem.

The aim of the present invention is propose an air conditioning unit for a vehicle, which is able to improve the air mixer operation without the flow resistance the air and the sounds to enlarge and which is capable of temperature changes in the air in the air mixer chamber to reduce.

According to an air conditioning unit of the present invention, an air conditioning case defines an air duct through which air flows, and defines an air mixer chamber behind the air duct. A blower blows air into the air duct. A first heat exchanger is arranged behind the fan in the flow direction in the air conditioning housing for cooling the air from the fan. A second heat exchanger is arranged downstream of the first heat exchanger and heats the air which has been cooled by the first heat exchanger. An air mixer door is rotatably supported about an axis that is positioned between the second heat exchanger and the air mixer chamber, around a cooling air outlet, which is located downstream of the heat exchanger in the flow direction, into a cooling air opening through which cooled air flows from the first heat exchanger directly into the air mixer chamber and to divide a heater opening through which cooled air from the first heat exchanger to the second heat exchanger to be heated flows. The air heated by the second heat exchanger flows into the air mixer chamber through a heated air duct, which is defined behind the second heat exchanger, and mixes with the cooled air from the cooling air opening in the air mixer chamber. Furthermore, the air mixer chamber is arranged such that a bypass channel is defined between the axis of the air mixer door and one end of the second heat exchanger, so that the heater opening comes into connection with the heated air channel.

So it mixes through the bypass channel flowing chilled Air with the warmed Air in the heated Air duct before it flows into the air mixer chamber. Therefore become the warmed air and the chilled Air mixed sufficiently even if the volume of the air mixer chamber is small is. By also providing the bypass channel, it is less likely that the flow resistance the air increases and the air flow disturbed becomes. As a result, the decrease in volume of air is reduced and Sounds are reduced. Because the mixing of the heated and the cooled air is improved, the air conditioning housing is compact and can be therefore simply mount it on the vehicle. Furthermore, the air conditioning efficiency improved, noise are reduced.

For example embodiments the invention will now refer to the accompanying drawings are explained in more detail (same reference numerals stand for same parts) in which:

1 FIG. 4 is a cross section of an air conditioning unit for a vehicle according to a first embodiment of the invention;

2 an enlarged cross section through a main part of the in 1 air conditioning unit shown;

3 an enlarged section through the main part of the in 1 air conditioning unit shown;

4 FIG. 4 is an enlarged cross section through the main part of the air conditioning unit according to a modification of this embodiment, and

5 shows a cross section through an air conditioning unit for a vehicle according to a prior art.

In the drawings shows 1 a blower-integrated conditioning unit 10 , which is generally installed in the front area of a passenger compartment of a vehicle. The air conditioning unit 10 has a conditioning housing 1 , which is formed into a single housing and of substantially elongated shape, in the up-down direction in 1 seen is. The housing 1 has a front wall 11 , a back wall 12 , a ceiling wall 13 , a bottom wall 14 and left and right side walls (not shown). The housing 1 is generally attached so that the back wall 12 located on the back, that is, the back wall 12 points towards the passenger compartment.

A blower 2 is in the upper front area of the housing 1 intended. The fan sucks in air to be conditioned and blows the air into the in the housing 1 defined air duct. An evaporator (first heat exchanger) 3 is under the blower 2 provided, ie in a lower front part of the housing 1 , The evaporator 3 is arranged essentially vertically. In particular, the evaporator 3 inclined towards the back about 5 to 10 degrees from the vertical. A heater core (second heat exchanger) 4 is on the back of the evaporator 3 provided, ie in a lower rear part of the housing 1 , The heater core 4 is arranged essentially longitudinally. In particular, the heater core 4 inclined towards the back by about 30 to 45 degrees from the vertical. The evaporator 3 is a heat exchanger in which a liquid coolant evaporates from a coolant circuit located on the vehicle. The heater core 4 is a heat exchanger in which a coolant of a machine circulates.

The heater core 4 is about 20 to 30 degrees against the back, based on the evaporator 3 , inclined so that a substantially V-shaped cooled air space 30 between the evaporator 3 and the heater core 4 is defined. The V-shape extends upwards. An air mixer chamber 5 is in the upper rear part of the housing 1 educated. That is, the air mixer chamber is above the heater core 4 on the back of the blower 2 and on a sloping top of the evaporator 3 positioned. Cooled and heated air are in the air mixer chamber 5 mixed.

A spiral or evolute case 21 of the blower 2 has an outer evolute wall 23 and an inner evolute wall 25 , This outer spiral wall 23 defines a head part of the front wall 11 and a front part of the head wall 13 , A fan outlet opening 22 is between the outer spiral wall 23 and a nose part 24 of the blower 2 educated. The fan outlet opening 22 is essentially open to the bottom, so the air is against the evaporator 3 to be led. The inner spiral wall 25 extends from the rear part of the head wall 13 to the nose part 24 , The inner spiral wall 25 separates an inside of the blower 2 from the air mixer chamber 5 , A centrifugal fan 25 is in the middle of the volute 21 intended. The spiral casing 26 is arranged so that its axis of rotation extends essentially horizontally. Although not shown, one forms from the right side wall and the left side wall of the volute casing 21 an opening through which inside air inside the cabin and outside air outside the cabin into the volute 21 be introduced. A fan, not shown motor is on the remaining of the right side wall and left side wall of the volute 21 attached. The spiral casing 21 is in the housing 1 integrated.

The evaporator 3 has a core part 33 , an upper collector tank 31 and a lower collector tank 32 , The core part 33 is made up of tubes and fins. The upper collector tank 31 and the lower collector tank 32 are essentially of semi-elliptical cross-section. The upper collector tank 31 and the lower collector tank 32 are with an upper end and a lower end of the core part 33 each connected. The lower part of the front wall 11 extends from the outer spiral wall 23 substantially in the vertical direction. An air duct 20 is between the lower part of the front wall 11 and a front surface of the core part 33 Are defined. A cross-sectional area of the air duct 20 gradually decreases towards the bottom. Air is released from the centrifugal fan 26 into the air duct through the fan outlet opening 22 introduced.

The upper collector tank 31 is through an evaporator retaining wall 34 held. The evaporator retaining wall 34 is integral with the inner spiral wall 25 adjacent to the nose part 24 shaped. The lower collector tank 32 is by a drain system part 35 supported on the front part of the bottom wall 14 located. The evaporator retaining wall 34 has an essentially semi-elliptical cross-section corresponding to the cross-sectional shape of the upper header tank 31 , In particular, the evaporator retaining wall 34 a middle plate part 36 , a front bulkhead 37 and a rear bulkhead 38 as in the 2 and 3 shown. The middle plate part 36 contacts the top surface of the upper collector tank 31 , The front bulkhead 37 and the rear bulkhead 38 are curved and extend from a front end and a rear end of the center plate part 36 substantially perpendicular to the middle plate part 36 ,

A front part of the nose 24 as well as the lower end of the front side wall 37 are smooth over a diffusion wall 39 connected. This will remove the blower 2 blown air diffuses softly and therefore towards the upper part of the core part 33 introduced. The diffusion wall 39 makes the air duct 35 from the upper outlet opening 22 to the upper part of the core part 33 smooth. The diffusion wall thus prevents 39 that of the blower 2 blown air from being disturbed. Airflow resistance and noise are reduced. Therefore, the heat exchange efficiency of the evaporator 3 improved.

A cooling air duct 15 is in a middle part between the evaporator 3 and the heater core 4 educated. The cooling air duct wall 15 extends diagonally from the bottom wall 14 so that the wall 15 parallel to the heater core 4 located. The head end A of the wall 15 is at the middle level of the heater core 4 and the evaporator 3 , The guide wall 15 For the cooled air, the cooled air directs the lower half of the evaporator 3 has flowed from a substantially horizontal direction diagonally upwards, ie against the air mixer chamber 5 ,

A lower part above 27 is on the back of the lower part of the inner spiral wall 25 educated. A cooling air outlet 50 is between the head end A of the cooling air guide wall 15 and the end B of the lower part above 27 Are defined. An air mixer door 6 is about an axis (spindle) 61 rotatable between the heater core 4 and the air mixer chamber 5 is positioned. The cooling air outlet 50 is in a cooled air vent 51 and a heater opening 52 in the up-down direction through the air mixing door 6 divided. The degree of opening of the cooling air opening 51 and the heater opening 52 according to the rotation of the air mixer door 6 set. The cooling air opening 51 is on the top of the air mixer door 6 educated. The cooling air entering the cooling air opening 51 flows directly into the air mixer chamber 5 introduced. The heater opening 52 is on the bottom of the air mixer door 6 educated. Cooling air in the heater core 52 flows, is against the heater core 4 guided and through the heater core 4 heated.

The heater core 4 has a core part 43 , which is made of tubes and fins, as well as an upper collector tank 41 and a lower collector tank 42 , The upper collector tank 41 and the lower collector tank 42 are with the ends of the core part 43 connected. The upper collector tank 41 and the lower collector tank 42 have essentially semi-elliptical cross sections. The upper collector tank 41 is through the retaining wall 44 of the heater core and the lower collector tank 42 is through the support part 45 held for the lower collector tank. The retaining wall 44 the heater core is inside the housing 1 educated. The lower collector support part is in the bottom wall 14 on the back of the guide wall 15 for the cooled air in the form of a recess.

As in the 2 and 3 to see the retaining wall 44 for the heater core via a flat plate part 46 , a front bulkhead 47 and a rear bulkhead 48 , The front bulkhead 47 and the rear bulkhead 48 are from the front part and the rear part of the flat plate part 46 curved and extend substantially perpendicular to it, so that the holding wall 44 of the heater core has a substantially semi-elliptical cross section. The retaining wall 44 of the heater core fits on the upper collector tank 41 , A curved corner wall 16 is in the rear lower part of the housing 1 trained, ie under the heater core 4 , The curved corner wall 16 defines the rear part of the bottom wall 14 and the lower part of the back wall 12 and has a quarter-circular cross-section.

A heated air duct 40 is defined between rear of the core part 43 and the curved corner wall 16 , Because the heater core 4 is the heater air duct 40 wide between the back of the core part 43 and the curved corner wall 16 shaped. Therefore, the space is adequately wide to accommodate an electric heater D, for example a PTC heater herein, as in FIG 1 shown to integrate (PTC = positive temperature coefficient heater). Because the electric heater in the heated air duct 40 can be installed, this housing 1 for an air conditioning unit for use in cold climates. This may refer to a lack of a heating source, which means that a high-performance air conditioning unit must be constructed that has a large heat capacity.

A guide wall 17 for heated air is designed so that it is diagonal from the curved corner wall 16 extends, ie at the middle level of the rear wall 12 , against the air mixer chamber 5 , The end of the guide wall 17 for the heated air reaches a middle position of the air mixer chamber 5 , The guide wall 17 For the warmed air, the warmed air directs the heater core 4 happened against the middle position of the air mixer chamber 5 ,

Degree of opening of the opening 51 for cooled air and the heater opening 52 are through the air mixing door 6 adjustable. So the volume of the cooled in the opening for cooled air and the heater opening 12 Air to be introduced is set in a range between 0% and 100%. After the heated air has passed the heater core and the cooled air has passed the opening 51 for chilled air has passed, they are in the air mixer chamber 5 mixed so that the mixed air has a predetermined target temperature.

A foot opening part 53 , a front opening part 54 and a defroster opening part 55 are on the perimeter of the air mixer chamber 5 educated. The foot opening part 53 is above the guide wall 17 positioned for the heated air. The face opening part 54 and the defroster opening part 55 are on the rear part of the top wall 13 positioned. A switch door 56 for footwell operation there is an opening part in the foot 56 intended. A switch door for a face defroster 57 is between the face opening part 54 and the defroster opening part 55 intended. The opening degrees of the switch door 57 for face defroster fashion and the switch door 56 For the footwell fashion, appropriately selected air-blowing modes are set so that the conditioned air in the air mixer door 5 is blown into the passenger compartment from the respective air blowing openings.

The spindle 61 the air mixer door 6 is above the retaining wall 44 arranged for the heater core. The air mixer door 6 includes a main door 62 that extend to the front of the spindle 61 extends and includes a side door 63 that extend to the back of the spindle 61 extends from. The side door 63 turns with the main door 62 , The end 64 the main door 62 turns up and down between end A of the baffle 15 for the cooled air and the end B of the lower part above 27 in the outlet 50 for cooled air.

How 3 can be seen when the end 64 the air mixer door 64 in contact with the end B of the lower part above 27 the cooled air is full to the heater core 4 supplied, whereby a maximum heating operation is achieved. On the other hand, if the end 64 get in contact with end A of the baffle 15 for chilled air, as indicated by double-dash lines in 1 is shown, the cooled air is fully at the air mixer door 5 delivered and thereby a maximum cooling operation is achieved.

Further, as in 2 shown when the end 64 the air mixer door 6 in the middle position of the outlet 50 for the chilled air, the chilled in the heater opening 52 under the air mixer door 6 flowing air at the heater core 4 led and warmed up while keeping the heater core 4 flows through. The heated air goes through the channel 40 for heated air and flows into the air mixer chamber 5 , The in the cooling air opening 51 above the air mixer door 6 flowing air is directly into the air mixer chamber 5 introduced and mixed with the heated air.

There is also a gap 70 between the spindle 61 and the retaining wall 44 defined for the heater core and forms a bypass channel 70 through which the cooled air flows. As in 2 can be seen, the cooled air is partially from the heater core 52 to the bypass channel 7 guided and previously with the heated air in the area 4A mixed, which is in the flow direction behind the heated air duct 40 be found. Even if the air mixing chamber of the air mixing chamber 5 is small, the heated and the cooled air are mixed sufficiently. As a result, the temperature change in the air mixer chamber 5 is reduced in the range of 10 ° C, whereby the air conditioning operation is improved. The bypass channel also increases 7 not the flow resistance of the cooled air. The bypass channel is also annoying 7 not the flow of the cooled air, which would give rise to noise. The air volume is therefore less likely to be reduced and noise to be increased.

Furthermore, in maximum heating mode, where is the end 64 the air mixer chamber 6 in contact with the end B of the lower projecting part 27 , as in 3 shown, located, the side door 63 , which extends on the back, in contact with the flat plate part 46 the retaining wall 44 for the heater core, creating the bypass channel 7 is closed. Therefore, during maximum heating operation, the cooled air from the bypass duct is less likely 7 leaks and causes a decrease in the heating effect. Because the main door 62 and the ne bentür 63 integral with the air mixing door 6 are formed, manufacturing costs are reduced. The size of the air conditioning unit is also not increased. Because the retaining wall 44 of the heater core is curved, the cooled air flows smoothly into the bypass duct 7 ,

4 shows a modification of this embodiment. In particular, the end is 65 the side door 63 curved down. This will cool the bypass duct 7 Air flowing through is directed essentially opposite to the direction of flow of the heated air flowing in the duct 40 flows for heated air. This facilitates prior mixing of the heated and cooled air. Thus, the mixing of the cooled and the heated air in the air mixer chamber 5 further improved.

The invention has only been achieved on the basis of a few embodiments explained. amendments and changes are within the scope of the invention.

Claims (8)

Air conditioning unit ( 10 ) comprehensive: an air conditioning or climate housing ( 1 ), which has an air duct through which air flows and an air mixer chamber ( 5 ) defined in the flow direction behind the air duct; a blower ( 2 ) for blowing air into the air duct; a first heat exchanger ( 3 ), which is in the housing in the flow direction behind the fan ( 2 ) is arranged to cool the air; a second heat exchanger ( 4 ), which is downstream of the first heat exchanger ( 3 ) is arranged to heat the air flowing through the first heat exchanger ( 3 ) was cooled; an air mixing door ( 6 ) around an axis ( 61 ) which can be rotated between the second heat exchanger ( 4 ) and the air mixer chamber ( 5 ) is arranged around an outlet ( 50 ) for cooled air, which is downstream of the first heat exchanger ( 3 ) is formed in an opening ( 51 ) for cooled air, through which the cooled air from the first heat exchanger ( 3 ) directly into the air mixer chamber ( 5 ) flows and a heater opening ( 52 ) through which the cooled air from the first heat exchanger ( 3 ) against the second heat exchanger ( 4 ) to be heated flows through the second heat exchanger ( 4 ) warmed air into the air mixer chamber ( 5 ) through a canal ( 41 ) for heated air that flows downstream of the second heat exchanger ( 4 ) is defined and mixes with the cooled air coming out of the opening ( 51 ) for cooled air in the air mixer chamber ( 5 ) flows, characterized in that the air mixing door ( 6 ) is arranged such that a bypass channel ( 7 ) between the axis ( 61 ) and one end of the second heat exchanger ( 4 ) and the heater opening ( 52 ) allowed in connection with the channel ( 41 ) kick for the heated air. Air conditioning unit ( 10 ) according to claim 1, wherein the air mixing door ( 6 ) is arranged so that through the bypass channel ( 7 ) flowing cooled air is directed essentially opposite to the flow of heated air flowing through the duct ( 41 ) for heated air. Air conditioning unit ( 10 ) according to claim 1 or 2, wherein the air mixing door ( 6 ) a side door ( 63 ) which is arranged around the air bypass duct ( 7 ) during maximum heating operation, where the opening ( 51 ) is completely closed for cooled air. Air conditioning unit ( 10 ) according to one of claims 1 to 3, wherein the fan ( 2 ) an evolute or spiral casing ( 21 ) that has an opening ( 22 ) through which the fan ( 2 ) blown air flows into the air duct, and the volute ( 21 ) over a nose part ( 24 ) adjacent to the opening ( 22 ) and a diffusion wall ( 39 ) that is smooth from the nose part ( 24 ) to one end of the core part ( 33 ) of the first heat exchanger ( 3 ) extends. Air conditioning unit ( 10 ) according to one of claims 1 to 4, further comprising: an electric heater (D) for heating the from the second heat exchanger ( 4 ) flowing air, the second heat exchanger ( 4 ) is inclined such that the electric heater (D) downstream of the second heat exchanger (D) 4 ) is arranged. Air conditioning unit ( 10 ) according to claim 4 or 5, wherein the spiral housing ( 21 ) in one piece in the air conditioning housing ( 10 ) is molded. Air conditioning unit ( 10 ) according to one of claims 1 to 6, wherein the fan ( 2 ) in an upper part of the air conditioning housing ( 1 ) is arranged, the first heat exchanger ( 3 ) under the fan ( 2 ) is arranged and the second heat exchanger ( 4 ) on the back of the first heat exchanger ( 3 ) and the air mixer chamber ( 5 ) above the second heat exchanger ( 4 ) on the back of the blower ( 2 ) is trained. Air conditioning unit ( 10 ) according to one of claims 1 to 7, wherein the first heat exchanger ( 3 ) is arranged substantially vertically and the second heat exchanger with respect to the first heat exchanger ( 4 ) is inclined.