KR101232746B1 - Air conditioning system for automotive vehicles - Google Patents

Abstract

The present invention relates to a vehicle air conditioner, and an object of the present invention is to improve the cutoff structure of a blower so that the noise reduction function of the cutoff can be applied to both an LHD vehicle and an RHD vehicle.
In order to achieve the above object, the air conditioner of the present invention includes a scroll casing having a blower chamber, a blower fan installed in the blower chamber, and a blower motor for rotating the blower fan. In the vehicle air conditioner for sucking the suction, and the discharged inside and outside air to the discharge port, the scroll casing further includes a cut-off protruding toward the blowing fan from the inner wall of the ventilation chamber to form a starting point of the air discharge; ; The cutoff is formed to be inclined so that the distance from the outer circumferential surface of the blower fan gradually increases from a portion corresponding to both ends of the blower fan in the height direction to a portion corresponding to the center of the blower fan. The cutoffs are formed to be symmetrical with respect to a portion corresponding to both ends of the blowing fan in the height direction with respect to a portion corresponding to the center of the blowing fan.

Description

Air Conditioning System for Vehicles {AIR CONDITIONING SYSTEM FOR AUTOMOTIVE VEHICLES}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle air conditioner, and more particularly, to a vehicle air conditioner capable of applying a cutoff noise reduction function compatible with both an LHD vehicle and an RHD vehicle by improving a cutoff structure of a blower.

In recent years, a vehicle air conditioner has been gradually miniaturized, and according to this trend, a compact and miniaturized center type air conditioner has been developed.

As shown in FIGS. 1 and 2, the center type air conditioner includes an air conditioning case 10, and a blower 20 for suctioning internal and external air is installed in the air conditioning case 10.

The blower 20 includes a scroll casing 22. The scroll casing 22 is comprised from the 1st case 22a of the left side, and the 2nd case 22b of the right side, and these 1st and 2nd cases 22a and 22b are joined together.

And the scroll casing 22 is equipped with the ventilation chamber 24 inside. The blowing chamber 24 includes a suction port 26 and a discharge port 28.

The suction port 26 is formed at the side portion of the scroll casing 22 and communicates with the internal and external air suction ports (not shown). The discharge port 28 is formed in the lower portion of the scroll casing 22 and communicates with the inner passage 10a of the air conditioning case 10.

On the other hand, the scroll casing 22 is provided with cutoff 30 which is a boundary part of the ventilation chamber 24 and the discharge port 28. As shown in FIG. Cut-off 30 is a part which protrudes inwardly of the ventilation chamber 24, and forms the discharge port 28, and is also a starting point of air discharge.

The blower 20 includes a blower fan 32 provided in the blower chamber 24, and a blower motor 34 for driving the blower fan 32.

As illustrated in FIG. 1, the blower fan 32 is installed in the blower chamber 24, and a scroll flow path gradually formed to the discharge port 28 may be formed using the cutoff 30 as a starting point. Is installed. The blower fan 32 sucks internal and external air through the suction port 26, and then discharges the suctioned internal and external air to the discharge port 28 starting from the cutoff 30.

As shown in FIG. 2, the blowing motor 34 is provided in the motor installation hole 36 formed in the side surface of the scroll casing 22, and rotates the blowing fan 32 at high speed.

Here, the motor mounting hole 36 communicates with the air blowing chamber 24 and is formed to be symmetrical with the suction port 26. This allows the motor installation hole 36 to serve as the suction port 26 of the blower chamber 24 and, conversely, the suction port 26 of the blower chamber 24 to serve as the motor mounting hole 36. To make it possible.

The reason for this configuration is that the scroll casing 22 is applied to the left hand drive (hereinafter referred to as "LHD vehicle") or the right hand drive (hereinafter referred to as "RHD vehicle"). This is because the installation positions of the blower fan 32 and the blower motor 34 are opposite to each other depending on whether they are applied.

Therefore, the motor mounting hole 36 and the suction port 26 of the blower chamber 24 are configured to be left and right symmetrical, thereby making the blower fan 32 and the blower motor 34 compatible with each other regardless of the LHD vehicle and the RHD vehicle. Enable to install

However, such a conventional air conditioner has a problem that noise is generated at the cutoff 30, which is a boundary between the blowing chamber 24 and the discharge port 28, when the blowing fan 32 is rotated.

That is, the cutoff 30 is the boundary between the blower chamber 24 and the discharge port 28 and is the starting point of air discharge, and thus receives the most wind pressure of the blower fan 32. Accordingly, the air hit by the cutoff 30 becomes very unstable, thereby causing a problem in which the rumble noise and the whistle noise are generated in the cutoff 30.

On the other hand, in view of this, various techniques for reducing noise in the cutoff 30 have been developed. As an example, as shown in FIG. 3, there is a technique of improving the structure of the cutoff 30.

This technique is formed by gradually inclining one side of the cutoff (30) to minimize the wind pressure of the blower fan 32 to the cutoff (30) with a deviation in the distance (l) with the blowing fan (32). . Therefore, the air flow around the cutoff 30 is stabilized, thereby reducing the rumble noise and the whistle noise generated at the cutoff 30.

However, this conventional technique has a disadvantage in that the cutoff 30 has a direction and gradually slopes to one side, and thus exhibits a noise reduction function only for a specific flow of air. There is a problem in that it is not applicable to the LHD and RHD compatible scroll casing 22 that changes depending on the RHD vehicle.

That is, the cut-off 30 which is inclined to either direction has a significant noise reduction function when the suction port 26 of the blower chamber 24 changes and the air flow changes. Therefore, the inlet 26 of the blower chamber 24 is changed to the left side or the right side according to the LHD vehicle and the RHD vehicle, and thus it is not applicable to the LHD and RHD compatible scroll casing 22 in which the air flow is changed. There is this.

And because of these drawbacks, there is a problem that the scroll casing 22 must be manufactured in two types according to the LHD vehicle and the RHD vehicle.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is an air conditioner for a vehicle that can be used interchangeably with both an LHD vehicle and an RHD vehicle even with a scroll casing having a cut-off noise reduction function. To provide.

Another object of the present invention is to configure the device to be compatible with both the LHD vehicle and the RHD vehicle even with one type of scroll casing, thereby increasing the common use ratio of the parts and increasing the common use ratio of the parts, thereby reducing the cost. To provide a vehicle air conditioner that can be expected.

In order to achieve the above object, the vehicle air conditioner of the present invention includes a scroll casing having a blower chamber, a blower fan installed in the blower chamber, and a blower motor for rotating the blower fan. In the air conditioning apparatus for a left and right handled common vehicle which sucks internal and external air and discharges the sucked internal and external air to the discharge port, the scroll casing is formed from the inner wall of the ventilation chamber so as to form a starting point of air discharge. A cutoff protruding toward the blowing fan; The cutoff is formed to be inclined so that a distance from an outer circumferential surface of the blowing fan is gradually increased from a portion corresponding to both ends of the blowing fan in a height direction thereof to a portion corresponding to the center of the blowing fan; The portions corresponding to both ends of the blowing fan in the height direction are formed to be symmetrical with respect to the portion corresponding to the center of the blowing fan, and further include a motor mounting hole for installing the blowing motor, and the motor mounting hole. Is formed in an open shape and communicates with the blower chamber and is configured to be symmetrical with the intake port, so that the position of the blower motor is left and right according to a left hand drive vehicle and a right hand drive vehicle. Characterized in that can be changed.

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The cutoff may be provided at one side corresponding to the suction port and the motor installation hole to maintain a constant structure for each of the suction port and the motor installation hole when the roles of the suction port and the motor installation hole are changed to each other. Corresponding other parts are configured to be symmetrical with each other.

According to the vehicle air conditioner according to the present invention, since the structure can minimize the wind pressure of the blowing fan applied to the cutoff, there is an effect that can reduce the rumble noise and whistle noise generated in the cutoff.

In addition, since the structure of the cut-off for the inlet and the motor mounting hole is always constant, even if the air flow for the cut-off is changed due to the roles of the inlet and the motor mounting hole changing, the noise reduction function of the cut-off can be maintained as it is. .

In addition, the noise reduction function of the cut-off can be maintained even if the inlet and the motor mounting holes are interchanged. Therefore, it is applied to the LHD and RHD compatible scroll casing in which the inlet and the motor mounting holes are changed according to the LHD vehicle and the RHD vehicle. It can work.

Therefore, the cut-off noise reduction function can be realized with one kind of scroll casing, and at the same time, it is compatible with both LHD and RHD vehicles. As a result, it is easy to manufacture a die of the scroll casing, and thus, the cost reduction effect can be expected by increasing the share rate of the part and raising the share rate of the part.

1 is a cross-sectional view showing a conventional vehicle air conditioner,
2 is a cross-sectional view taken along the line II-II of FIG. 1;
3 is a cross-sectional view showing another conventional air conditioner for a vehicle;
4 is a perspective view showing a feature of the vehicle air conditioner according to the present invention;
5 is a cross-sectional view showing a feature of the vehicle air conditioner according to the present invention, a view showing an example applied to the left hand drive (LHD) vehicle,
FIG. 6 is a cross-sectional view showing features of the vehicle air conditioner according to the present invention and showing a case applied to a right hand drive (RWD) vehicle. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a vehicle air conditioner according to the present invention will be described in detail with reference to the accompanying drawings (the same components as those in the prior art are denoted by the same reference numerals).

4 and 5 are cross-sectional views showing in detail the features of the vehicle air conditioner according to the present invention.

First, before looking at the features of the vehicle air conditioner according to the present invention, a brief description will be made of the center type air conditioner with reference to FIGS. 1, 4 and 5.

As shown in FIG. 1, the center type air conditioner includes an air conditioning case 10, and a blower 20 is installed in the air conditioning case 10.

The blower 20 includes a scroll casing 22. The scroll casing 22 is divided into a first case 22a on the left side and a second case 22b on the right side, as shown in FIGS. 4 and 5, and the first and second cases 22a, 22b) is constructed by joining each other.

Here, the junction part of the 1st, 2nd case 22a, 22b is comprised so that it may correspond to the center part of the height direction h of the blowing fan 32 mentioned later.

And the scroll casing 22 is equipped with the ventilation chamber 24 inside. The blowing chamber 24 includes a suction port 26 and a discharge port 28.

The suction port 14 is formed in the side part of the scroll casing 22, and the discharge port 28 is formed in the lower part of the scroll casing 22. As shown in FIG.

On the other hand, the scroll casing 22 is provided with the cutoff 40 (member number "30" in FIG. 1) which is a boundary part of the ventilation chamber 24 and the discharge port 28. As shown in FIG.

The cut-off 40 is a part which protrudes inwardly of the ventilation chamber 24, is a part which forms the discharge port 28, and is also a starting point of air discharge.

The blower 20 includes a blower fan 32 provided in the blower chamber 24, and a blower motor 34 for driving the blower fan 32.

As illustrated in FIG. 1, the blower fan 32 is installed in the blower chamber 24, but has a scroll flow path that gradually extends to the discharge port 28 with the cutoff 40 as a starting point. . The blower fan 32 sucks internal and external air through the suction port 26 and then discharges the suctioned internal and external air to the discharge port 28 starting from the cutoff 40.

As illustrated in FIG. 5, the blower motor 34 is installed in the motor mounting hole 36 formed in the side surface of the scroll casing 22, and rotates the blower fan 32 at high speed.

On the other hand, the motor mounting hole 36 communicates with the blowing chamber 24 and is formed to be symmetrical with the suction port 26 of the blowing chamber 24. Therefore, the motor mounting hole 36 can serve as the inlet 26 of the blower chamber 24, and in some cases, the inlet 26 of the blower chamber 24 serves as the motor mounting hole 36. Make it work. As a result, as illustrated in FIGS. 5 and 6, the blowing fan 32 and the blowing motor 34 may be installed in a compatible manner regardless of the LHD vehicle and the RHD vehicle.

Next, look at in detail the features of the air conditioning apparatus according to the present invention.

First, as shown in FIG. 4 and FIG. 5, the air conditioner of the present invention includes a cutoff 40 that is a boundary portion between the blower chamber 24 and the discharge port 28, and the cutoff 40 has both sides. It is formed inclined downward from the end portion 42 toward the central portion 44.

In particular, both end portions 42 of the cutoff 40 corresponding to both ends 32a of the height direction h of the blowing fan 32 are directed toward the central portion 44 corresponding to the center of the blowing fan 32. It is gradually formed to be inclined downward.

In addition, the cut-off 40 is the center part 44 whose both parts 40a and 40b corresponding to the both ends 32a of the height direction h of the blowing fan 32 correspond to the center of the said blowing fan 32, respectively. Are configured symmetrically with respect to each other.

Preferably, the cutoff 40 is left and right symmetrical about the central portion 44, but is also configured to be left and right symmetrical with respect to the suction port 26 and the motor installation hole 36, respectively. In particular, one portion 40a corresponding to the suction port 26 and the other portion 40b corresponding to the motor mounting hole 36 are configured to be symmetric with each other.

This means that even if the roles of the suction port 26 and the motor installation hole 36 are interchanged with each other, for example, the roles of the suction port 26 and the motor installation hole 36 are mutually different depending on whether or not they are applied to the LHD vehicle and the RHD vehicle. Even if it changes, the structure and shape of the cut-off 40 with respect to each of the suction port 26 and the motor installation hole 36 are always kept constant.

And the cutoff 40 is preferably comprised so that the center part 44 may correspond to the junction part of the 1st, 2nd case 22a, 22b.

This is for the two parts 40a and 40b of the cutoff 40 to be symmetrical with respect to the joints of the first and second cases 22a and 22b, which are the first and second cases 22a and 22b. This is to ensure that the shape of is always kept constant regardless of the cutoff (40). In particular, the shape of the first and second cases 22a and 22b can be kept constant even if the roles of the first and second cases 22a and 22b are changed depending on whether they are applied to the LHD vehicle and the RHD vehicle. For sake.

As a result, the first and second cases 22a and 22b can be used interchangeably regardless of the LHD vehicle and the RHD vehicle. Thus, the first and second cases 22a and 22b can be used at the time of injection molding the first and second cases 22a and 22b. Molding of one or two cases 22a and 22b is facilitated.

According to the cutoff 40 of this structure, since both parts 40a and 40b are inclined downward toward the center part 44, the distance (l) with respect to the outer peripheral surface of the blowing fan 32 is center part 44 As you go further away. As a result, a deviation occurs in the distance l from the blowing fan 32.

Therefore, the wind pressure of the blower fan 32 applied to the cutoff 40 can be minimized while the wind pressure of the blower fan 32 applied to the cutoff 40 is different. As a result, the air flow around the cutoff 40 is stabilized, and as a result, the rumble noise and the whistle noise generated at the cutoff 40 are reduced.

In addition, since the cutoff 40 has a structure in which the suction port 26 and the motor mounting hole 36 are symmetrical left and right, even if the roles of the suction port 26 and the motor mounting hole 36 are interchanged with each other, the suction port 26 ) And the structure and shape of the cutoff 40 for the motor mounting hole 36 are always kept constant.

Accordingly, the roles of the suction port 26 and the motor installation hole 36 are interchanged so that the noise reduction function of the cutoff 40 can be maintained as it is even if the flow of air to the cutoff 40 is changed to left and right.

As a result, as shown in Figs. 5 and 6, it is applied to the LHD, RHD compatible scroll casing 22 in which the inlet port 26 of the blower chamber 24 is changed to the left or the right according to the LHD vehicle and the RHD vehicle. can do.

As a result, the noise reduction function of the cutoff 40 can be realized with one type of scroll casing 22, and at the same time, the LHD vehicle and the RHD vehicle can be used interchangeably. As a result, the cost reduction effect can be expected by improving the part-use rate and improving the part-use rate.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: air conditioning case 20: blower
22: scroll casing 22a: first case
22b: Case 2 24: Ventilation Room
26: suction port 28: discharge port
32: blower fan 34: blower motor
36: motor mounting hole 40: cutoff
40a: one part of the cutoff 40b: the other part of the cutoff
44: center of cutoff

Claims (4)

A scroll casing 22 having a blower chamber 24, a blower fan 32 installed in the blower chamber 24, and a blower motor 34 for rotating the blower fan 32; In the air conditioning apparatus for the left and right steering wheel common vehicles, the fan 32 sucks internal and external air through the suction port 26 and discharges the suctioned internal and external air to the discharge port 28.
The scroll casing 22 further includes a cutoff 40 protruding from the inner wall of the blower chamber 24 toward the blower fan 32 so as to form a starting point of air discharge;
The cutoff 40,
From the portions 40a and 40b corresponding to both ends of the height direction h of the blowing fan 32 toward the portion 44 corresponding to the center of the blowing fan 32, the outer peripheral surface of the blowing fan 32 and It is formed to be inclined so that the space | interval of gradually becomes large;
Portions 40a and 40b corresponding to both ends of the height direction h of the blower fan 32 are formed to be symmetrical with respect to the portion 44 corresponding to the center of the blower fan 32.
Further provided with a motor installation hole 36 for installing the blowing motor 34,
The motor installation hole 36 is formed in an open shape to communicate with the blower chamber 24 and to be symmetrical with the intake port 26, so that the left hand drive vehicle and the right hand drive are right hand drive. Air conditioning apparatus for the left, right handle common vehicle, characterized in that it is formed to change the position of the blowing motor 34 to the left, right according to the vehicle. delete The method of claim 1,
The cutoff 40 may maintain a constant structure for each of the suction port 26 and the motor installation hole 36 when the roles of the suction port 26 and the motor installation hole 36 are changed to each other. And one side portion (40a) corresponding to the suction port (26) and the other portion (40b) corresponding to the motor installation hole (36) are configured to be symmetrical with each other. The method of claim 1,
The scroll casing 22 is formed by joining the first and second cases 22a and 22b which are divided in the height direction h of the blowing fan 32 to each other, and the first and second cases 22a and 22b. ) Joint is a part 44 corresponding to the center of the cut-off 40 and the blowing fan 32, the left, right steering wheel common vehicle.

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