JPH08303393A - Cross flow fan - Google Patents

Abstract

PURPOSE: To provide a cross flow fan capable of improving air volume characteristics while maintaining silentness. CONSTITUTION: A tongue part 6 is provided on a vortex fixed side caging, and a vortex stabilization guide 7 is provided on the tongue part 6. Also the vortex stabilization guide 1 comprises a center part guide 7a and an end part guide 7b, and the end part guide 7b is arranged so that its top end is close nearer to a fan rotor 1 than the top end of the center part guide 7a. In addition, a vortex position control part is formed so that the vortex center F of an eccentric vortex is positioned near the outer periphery of the fan rotor 1 at both end parts.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cross flow fan used in air conditioners and the like.

[0002]

2. Description of the Related Art A cross-flow fan is a type of fan having a fan rotor having a large number of blades curved in the direction of rotation, and has no axial suction flow and produces an air flow across the fan rotor in a diametrical direction. Is what causes it.
FIG. 2 is a cross-sectional view when an embodiment of the crossflow fan of the present invention is applied to a ceiling-embedded air conditioner, and a conventional example of the crossflow fan will be described using this. In the figure, 1 is a fan rotor, and a vortex fixed side casing 2 and a back casing 3 are provided so as to sandwich the fan rotor 1 in the axial direction. Further, the vortex fixed side casing 2 is provided with a tongue portion 6 close to the fan rotor 1 and along the axial direction thereof, and the fan motor 14 and the bearing 15 (see FIG. 5 for both).
And so on constitute a cross flow fan. In the figure, 11 is a heat exchanger, the upper end side of which is supported by the back casing 3 and the lower end side of which is supported by the vortex fixed side casing 2, and the upper end side of which is inclined so as to be separated from the fan rotor 1. There is. Further, in this ceiling-embedded air conditioner, two units configured as described above are arranged so as to be symmetrical with respect to the center line thereof, and after they are embedded and installed in the ceiling, the lower portion thereof is installed. A ceiling panel 16 having a suction port 13 and a blowout port 12 can be attached.

In the ceiling-embedded air conditioner having the above structure, the suction side 4 to the discharge side 5 are operated by the operation of the cross flow fan.
An airflow reaching to is formed. That is, the fan rotor 1
Of the eccentric vortex is generated from the part of the outer periphery of the fan rotor 1, that is, the suction side 4, by the rotation of the fan and the action of the tongue portion 6 provided in the vicinity thereof. Air as part of the flow is the fan rotor 1
It flows in and then crosses the fan rotor 1 in its diametrical direction and out again to another part of the fan rotor 1, ie to the outlet side 5. In this ceiling-embedded air conditioner, indoor air is sucked by the airflow from the suction port 13, heat-exchanged with the heat exchanger 11, and then blown into the room again from the air outlet 12. There is.

[0004]

As described above, the cross flow fan is particularly suitable for an air conditioner or the like that requires a small flow rate, a high flow velocity, and a uniform flow in the axial direction. It was However, even in the cross flow fan as described above, the air velocity at the both ends in the axial direction is slightly lower than that at the center, and further, the structural reason, for example, the fan rotor 1 as shown in FIG. The support members 17, 17 are provided on both sides of the fan. However, due to the interference of the support members 17 and 17 with the airflow, the air velocity in the vicinity of both ends of the fan rotor 1 decreases, and an air conditioner using the air conditioner uses this. There is a problem that the air flow rate characteristics at both ends of the outlet 12 are deteriorated. Particularly, when an air filter or the like is generated at the blowout port 12, air is sucked in reverse from the vicinity of both ends of the fan rotor 1 as shown in part A of FIG. 5B, which causes abnormal noise. Was causing problems. In order to solve this problem, it is conceivable to change the shape of the tongue portion 6 so as to be closer to the fan rotor 1 and move the position of the vortex center F of the eccentric vortex to the fan rotor 1 side as a whole. However, according to this, the rotation noise generated in the fan rotor 1, for example, the NZ noise is increased, and thus there is a problem that it is difficult to achieve compatibility with quietness.

The present invention has been made to solve the above-mentioned conventional drawbacks, and an object thereof is to provide a cross-flow fan capable of improving its air flow characteristic while ensuring its quietness. It is in.

[0006]

Therefore, a cross flow fan according to a first aspect of the present invention includes a fan rotor 1, a vortex fixed side casing 2 and a back casing 3 which are arranged so as to sandwich the fan rotor 1 in the axial direction. The eccentric vortex having the vortex center F is generated inside the fan rotor 1 by the rotation of the fan rotor 1.
In the cross-flow fan that blows air by forming an airflow across the diametrical direction to the outlet side 5, the fan rotor 1
The vortex center F of the eccentric vortex generated near both ends of the vortex fixed side casing 2 is positioned closer to the vortex fixed side casing 2 than the vortex center F of the eccentric vortex generated near the center of the fan rotor 1. The second feature is that a vortex position control unit is provided.

According to a second aspect of the present invention, in the cross-flow fan, the vortex fixed side casing 2 is close to the fan rotor 1.
In addition, the tongue portion 6 is provided along the axial direction of the fan rotor 1, and the vortex position control portion is such that the distance between the fan rotor 1 and the tongue portion 6 in the vicinity of both ends of the fan rotor 1 is the center of the fan rotor 1. It is characterized in that the tongue portion 6 is formed so as to be closer than the above distance in the vicinity of the portion.

Further, the cross flow fan according to claim 3 is
The vortex fixed side casing 2 has a tongue portion 6 provided in the vicinity of the fan rotor 1 and along the axial direction thereof,
Further, a vortex stabilizing guide 7 is provided on the tongue portion 6 so as to extend toward the fan rotor 1, and the vortex position control portion includes the fan rotor 1 and the vortex stabilizing guide near both ends of the fan rotor 1. The vortex stabilizing guide 7 is configured so that the distance from the tip of the vortex 7 is closer than the distance in the vicinity of the central portion of the fan rotor 1.

[0009]

In the cross flow fan of the first aspect, the vortex center F of the eccentric vortex is closer to the vortex fixed side casing 2 in the vicinity of both ends of the fan rotor 1 than in the vicinity of the center thereof. Therefore, the wind velocity distribution can be made substantially constant in the axial direction, and this makes it possible to prevent the intake of air in the vicinity of the both ends.

Further, in the crossflow fan according to the second and third aspects, since the vortex position control portion is formed by the tongue portion 6 or the vortex stabilizing guide 7, the implementation thereof can be facilitated.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, specific embodiments of the cross flow fan of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a cross-sectional view showing an application example of the above-mentioned cross-flow fan applied to a ceiling-embedded air conditioner, but the structure thereof is substantially the same as that of the conventional example. The description will be omitted, and the vortex position control unit, which is a feature of the present invention, will be mainly described below.

FIG. 1A is a perspective view of a tongue portion 6 provided on the vortex fixed side casing 2 so as to be close to the fan rotor 1 along the axial direction. The tongue portion 6 is provided with a vortex stabilizing guide 7 along its axial direction so as to extend in the direction of the fan rotor 1 so that a sufficient intake flow rate can be supplied to the fan rotor 1. This vortex stabilization guide 7
Is composed of a central portion guide 7a and end portion guides 7b, 7b provided on both end sides thereof. The end portion guides 7b, 7b are provided on the tip side of the tongue portion 6 with respect to the central portion guide 7a. As a result, the tip is arranged so as to be closer to the fan rotor 1. A vortex position control unit is constituted by the vortex stabilizing guide 7 including the end guides 7b and 7b and the central guide 7a.

FIG. 1 (b) is a cross-sectional arrow view of the cross-flow fan having the above-described structure at a position indicated by BB in FIG. 1 (a), that is, in the vicinity of the central portion, and FIG. 1 (c) is the same. It is a cross-sectional arrow view in the vicinity of the end portion indicated by CC in FIG. As shown in FIG. 6B, since there is a certain distance between the fan rotor 1 and the central portion guide 7a near the central portion, the vortex center F of the eccentric vortex generated by the rotation of the fan rotor 1 is It will be located somewhat inward of the outer circumference of the fan rotor 1. On the other hand, in the vicinity of the end, the fan rotor 1 and the tip of the end guide 7b are very close to each other as shown in FIG. It will be located in the vicinity.

FIG. 4 shows the vortex center F formed as described above.
Position is shown along the axial direction of the fan rotor 1.
As shown by the alternate long and short dash line in the figure, the vortex center F is located closer to the outer periphery of the fan rotor 1 nearer both ends thereof. Thus, the vortex center F is located closer to the outer periphery of the fan rotor 1. As the air velocity is higher when the tongue portion 6 is closer to the tongue portion 6, the reduction of the wind velocity near the both ends of the fan rotor 1 is improved, and the wind velocity is substantially constant along the axial direction. can do. Along with this, it is possible to avoid intake of air from the vicinity of the both ends, which may be caused by an air filter or the like, and to move the vortex center F closer to the tongue 6 is to move the both ends of the fan rotor 1. Since it is only in the vicinity, there is no generation of abnormal noise or increase in rotational noise, and therefore, the air volume characteristic can be improved while ensuring quietness.

Although specific embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications can be made within the scope of the present invention. FIG. 3 is a cross-sectional arrow view of the vicinity of an end portion of another embodiment of the crossflow fan of the present invention. In this embodiment, both end portions of the tongue portion 6 project toward the fan rotor 1. The protrusion 8 and the fan rotor 1 in the vicinity of both end portions are formed more than the distance between the central portion guide 7a and the fan rotor 1 in the vicinity of the central portion.
The distance between and is shorter. Then, the vortex position control unit is configured by forming the protruding portion 8 on the tongue portion 6 as described above, and it is possible to improve the air volume characteristic while securing the quietness by the same operation as in the above embodiment. ing. In this embodiment, since the tongue portion 6 is formed with the protruding portion 8, the end guide 7b is not provided, and when the vortex stabilizing guide 7 itself is not necessary, the central portion guide 7a is further omitted. It may be configured.

[0017]

In the cross flow fan according to the first aspect of the present invention, the wind velocity distribution in the axial direction of the fan rotor 1 is substantially constant, and therefore, the intake of air in the vicinity of both ends of the fan rotor 1 is also prevented, so that the quietness is ensured. It is possible to improve the air volume characteristic.

Further, the crossflow fan according to the second and third aspects can be easily implemented.

[Brief description of drawings]

1A and 1B are views showing a configuration of an embodiment of a cross flow fan of the present invention, in which FIG. 1A is a perspective view of a tongue portion, and FIG.
-B cross-section arrow view, and (c) is CC cross-section arrow view.

FIG. 2 is a cross-sectional view of a ceiling-embedded air conditioner using the cross flow fan.

FIG. 3 is a cross-sectional view taken along the line C-C showing another embodiment of the cross flow fan of the present invention.

FIG. 4 is an explanatory diagram illustrating an operation of the cross flow fan.

FIG. 5 is an explanatory diagram illustrating an air flow characteristic of a conventional example of a cross flow fan, and in particular, (b) is a case where an air filter is clogged at the air outlet.

[Explanation of symbols]

 1 Fan Rotor 2 Vortex Fixed Side Casing 3 Back Casing 4 Suction Side 5 Outflow Side 6 Tongue 7 Vortex Stabilization Guide F Vortex Center

Claims (3)

[Claims] 1. A fan rotor (1), and a vortex fixed side casing (2) and a back casing (3) arranged so as to sandwich the fan rotor (1) in the axial direction,
Due to the rotation of the fan rotor (1), an eccentric vortex having a vortex center (F) is generated inside the fan rotor (1), so that the fan side (5) is diametrically crossed from the suction side (4) to the blow side (5). In a cross-flow fan that forms an air flow that reaches the fan, the vortex center (F) of the eccentric vortex generated near both ends of the fan rotor (1) is eccentric near the center of the fan rotor (1). A cross-flow fan, characterized in that a vortex position controller is provided in the vortex fixed side casing (2) so as to be positioned closer to the vortex fixed side casing (2) than the vortex center (F) of the vortex. 2. The vortex fixed side casing (2) has a tongue portion (6) provided in the vicinity of the fan rotor (1) and along the axial direction thereof, and the vortex position control portion includes: Fan rotor (1) near both ends of the fan rotor (1)
The tongue (6) is formed such that the distance between the tongue (6) and the tongue (6) is closer than the distance in the vicinity of the central portion of the fan rotor (1). 1 cross flow fan. 3. The vortex fixed side casing (2) has a tongue (6) provided in the vicinity of the fan rotor (1) and along the axial direction thereof, and further the tongue (6). Is provided with a vortex stabilizing guide (7) so as to extend toward the fan rotor (1), and the vortex position control unit includes the vortex stabilizing guide (7) and the vortex in the vicinity of both ends of the fan rotor (1). The distance from the tip of the stabilization guide (7)
2. The cross flow fan according to claim 1, wherein the vortex stabilizing guide (7) is configured so as to be closer than the distance in the vicinity of the central portion of the fan rotor (1).