JP3454118B2 - Sirocco fan impeller and molding die - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sirocco fan impeller mainly used for blowing air and a mold for molding the same.

[0002]

2. Description of the Related Art A sirocco fan is used for blowing air in a dryer or the like. The impeller of a sirocco fan is a multi-blade fan that has a large number of blade plates that are short in the radial direction and long in the axial direction. By connecting the tip ends of the plates with a ring-shaped side plate, the plates are formed into a cylindrical shape as a whole.

The impeller of such a sirocco fan is generally formed by processing and assembling a metal plate such as aluminum. Among the blower fans, the sirocco fan has the advantage that it can be formed in the smallest size because it can obtain the largest flow rate and pressure at the same diameter and the same rotation speed.

[0004]

However, even with such a sirocco fan, there is a demand for further improvement in the amount of air blown. Furthermore, it is required to reduce the cost. The present invention has been made in view of the above points, and an object of the present invention is to provide an impeller of a sirocco fan that can obtain a high air flow rate during air blowing, and such a sirocco fan. It is an object of the present invention to provide a molding die capable of inexpensively manufacturing the impeller.

[0005]

The impeller of a sirocco fan according to the present invention is a sirocco fan impeller formed by arranging a plurality of impeller plates 1 on the circumference. The outline of the cross section of one end of the
A point (1.) on the xy Cartesian coordinate system whose origin is one point on the circumference of the circle and the diameter line of this circle passing through the origin o is the y axis.
0,8.0) [A unit of numerical value of coordinate is mm, the same applies below] centered on an arc with a radius of 8.5 mm and the above φ12.
The intersection point with the circumference of 0 mm is a, the intersection point of this circular arc of radius 8.5 mm and the circumference of φ94 mm concentric with the circle of φ120 mm is b, and the coordinates with the point o as the origin (0.0, 8.0). ) Centered on an arc with a radius of 8.5 mm and the above φ94
The intersection point with the circle of mm is c, the intersection point of this circular arc with a radius of 8.5 mm and the circle of φ120 mm is d, and points a and b
Is a circular arc with a radius of 8.5 mm that passes through both points between points b and c, and passes through points b and c between the points b and c, and the center of the circle is 0.5 mm in radius and is located outside the circumference of φ94 mm. Of which, φ
When a circular arc having a radius of 8.5 mm that passes through both points between the points c and d, and a circular arc of φ120 mm between the points d and a is formed inside the circumference of 94 mm. Is formed with a two-dimensional curve included in the range of ± 5% of the coordinate value of each point on each of these arcs, and the outline of the cross section of the other end of each blade 1 is defined as the origin of the point o. And a circle with a radius of 8 mm drawn around the coordinates (1.0, 8.0) set as xy rectangular coordinates with the y-axis being the diameter line of a circle of φ120 mm passing through the origin o and the circumference of the above φ120 mm. A ', the intersection of this circular arc having a radius of 8 mm and the circumference of φ94 mm described above is b', and the coordinates (0.0, 8.
0) as the center and a circular arc with a radius of 9 mm and the above φ9
The intersection point with the circumference of 4 mm is c ', the intersection point of the circular arc of 9 mm radius and the circumference of φ120 mm is d', and the arc between the points a'and b'is the radius of 8 mm and the point b '. And point c '
Among the circles with a radius of 1 mm whose center is located outside the circumference of φ94 mm, passing through points b ′ and c ′ between
A circular arc inside the circumference of mm, a radius between the points c'and d'is 9 mm, and a radius between the points d'and a'is φ1.
When formed by circular arcs of 20 mm circles, they are formed by a two-dimensional curve included in the range of ± 5% of the coordinate value of each point on each of these circular arcs, and the line connecting the origin o and the point b and y Based on the angle between the axis and the y-axis and the line connecting the origin o and the point c, ± 2 of these angles is used.
It is characterized in that the mounting angle of each blade is set within the range of °.

The sirocco fan impeller molding die according to the present invention has a cavity for molding a sirocco fan impeller made of synthetic resin, which is formed by arranging a plurality of blade plates on the circumference. A mold provided and formed,
The outer shape of one end and the other end is formed by the above-mentioned two-dimensional curve, and the inner surface shape of the cavity is formed so as to form the vane plate whose mounting angle is set to the above angle. It is characterized by.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. 2 and 3 show an example of an impeller A of a sirocco fan, which is formed by radially arranging a large number of vane plates 1 that are short in the radial direction and long in the axial direction on the circumference. 2 and 3 show an impeller A of a type having 48 vane plates 1 having a diameter of 120 mm. In this impeller A, the base end of each vane plate 1 is integrally joined to the outer peripheral edge of a disc-shaped main plate 2, and the tip end of each vane plate 1 is integrally connected by a ring-shaped side plate 3. Like that, A
It is formed integrally with a resin molded product such as BS resin. The impeller A formed in this way is used by rotating around the center of the main plate 2 as a rotation axis, and the air sucked from the inner peripheral side of the side plate 3 is outward from between the vane plates 1. It is sent and blown.

Further, in the present invention, each vane plate 1 is formed with an outline of a sectional shape on a plane perpendicular to the longitudinal direction as shown in FIG. That is, FIG. 1A shows a cross-sectional shape of the tip end portion connected to the side plate 3 of each vane plate 1, and in FIG. 1A, o is one point on the circumference of φ120 mm. In the type that has 48 blades 1,
Φ120m at equal intervals of 360 ° / 48 = 7.5 °
Points o are set at 48 points on the circumference of m.

With this point o as the origin, the above φ12
A point of coordinates (1.0, 8.0) on the xy Cartesian coordinate system in which the y-axis is a diameter line passing through the origin o of a 0 mm circle and the x-axis is a line passing through the origin o and perpendicular to the y-axis. Set p ₁ . Here, the y-axis is + from the origin o on the center side of the circle of φ120 mm, and the x-axis is from the origin o in the direction of rotation of the impeller A (arrow direction in FIG. 2). The unit of the numerical value in the parentheses of the coordinate is mm.

Of the circle with a radius of 8.5 mm drawn around the point p ₁ at this coordinate (1.0, 8.0), the impeller A
Of the arc on the side opposite to the direction of rotation of and the above φ120mm
Is defined as a point a on the xy rectangular coordinates, and the intersection of this circular arc of radius 8.5 mm and the circle of φ94 mm concentric with the circle of φ120 mm is a point on the xy rectangular coordinates. b
And

Further, coordinates (0.0,
The point p ₂ of (8.0) is set on the xy rectangular coordinates, and this p
Of the circle with a radius of 8.5 mm drawn with ₂ as the center, the arc on the side opposite to the direction of rotation of the impeller A and the above φ94
An intersection with the circle of mm is defined as a point c on the xy Cartesian coordinate, and an intersection of the arc having a radius of 8.5 mm and the circumference of φ120 mm is defined as a point d on the xy rectangular coordinate.

In FIG. 1 (a), the points a and b are connected by the above-mentioned arc having a radius of 8.5 mm passing through these points, and the points b and c are connected by points b and b. It passes through c and the center is φ
The circle having a radius of 0.5 mm, which is located outside the circumference of 94 mm, is connected by an arc of a portion inside the circumference of φ94 mm, and the radius of 8.5 passing between the points c and d passes through these points.
Connect with a circular arc of mm, and connect between point d and point a by the above φ120m.
The circular arcs of m are connected to form the outline of the cross section of the tip of the blade 1.

It is most preferable that the outline of the cross section of the tip of the blade 1 is formed by a curved line in which the above-mentioned arcs are continuous, but in the present invention, the cross-section of the tip of the blade 1 is a curve in which these arcs are continuous. The present invention is not limited to forming the outline of the blade, and the outline of the cross section of the tip of the blade plate 1 may be formed by a curve that falls within a predetermined range with reference to a continuous curve of this circular arc. Good. That is, these points a,
When the coordinates of the xy rectangular coordinates are taken on each arc connecting the points b, c, and d, the range of ± 5% of the numerical value of the coordinates is set, and the blade plate is a curve that falls within this range. The outline of the cross section of the tip portion of 1 may be formed.

FIG. 1 (b) shows the cross-sectional shape of the base end portion of each blade plate 1 connected to the main plate 2.
In (b), o is a point on the circumference of φ120 mm. In the type with 48 blades 1, 360 ° /
Points o are set at 48 points on the circumference of φ120 mm at equal intervals of 48 = 7.5 °. Here, in FIG.
The center of the circle of φ120 mm in (a) and φ12 in FIG. 1 (b)
The center of the circle of 0 mm, the point o on the φ120 mm circumference in FIG. 1 (a) and the point o on the φ120 mm circumference in FIG. 1 (b) are
They are the same in the rotational axis direction of the impeller A.

With this point o as the origin, the above φ12
A point of coordinates (1.0, 8.0) on the xy Cartesian coordinate system in which the y-axis is a diameter line passing through the origin o of a 0 mm circle and the x-axis is a line passing through the origin o and perpendicular to the y-axis. Set p ₁ . Here, the y-axis is + from the origin o on the center side of the circle of φ120 mm, and the x-axis is from the origin o on the positive side in the direction of rotation of the impeller A. The xy Cartesian coordinates in FIG. 1 (a) and the xy Cartesian coordinates in FIG. 1 (b) are parallel, and the unit of the numerical value in the parentheses of the coordinates is mm.

Of the circle having a radius of 8 mm drawn around the point p ₁ at this coordinate (1.0, 8.0), the arc of the portion opposite to the direction of rotation of the impeller A and the circumference of φ120 mm described above. And a point a ′ on the xy Cartesian coordinates, and this circular arc having a radius of 8 mm and φ9 concentric with the circle of φ120 mm.
The point of intersection with the 4 mm circumference is designated as point b'on the xy rectangular coordinates.

Further, coordinates (0.0,
The point p ₂ of (8.0) is set on the xy rectangular coordinates, and this p
Of the circle with a radius of 9 mm drawn centering on ₂ , the arc on the side opposite to the direction of rotation of the impeller A and the above-mentioned φ94 mm
The point of intersection with the circumference of is the point c ′ on the xy rectangular coordinates, and the point of intersection of this circular arc with a radius of 9 mm and the circumference of φ120 mm is the point d ′ on the xy rectangular coordinates.

In FIG. 1 (b), points a'and b'are connected by the arc having a radius of 8 mm, and points b'and c'are connected by points b'and c '. The center is φ94 above
Of the circle having a radius of 1 mm, which is located outside the circumference of mm, is connected by an arc of a portion inside the circumference of φ94 mm, and the points c ′ and d ′ are connected by the arc of 9 mm. The d'and the point a'are connected by the circular arc of φ120 mm to form the outline of the cross section of the base end of the blade 1.

It is most preferable that the outline of the cross section of the base end portion of the blade plate 1 is formed by a curved line in which the above arcs are continuous, but in the present invention, the base end portion of the blade plate 1 is a curve in which these arcs are continuous. The contour line of the base end portion of the blade 1 is formed by a curve that falls within a predetermined range with reference to a curve where the arcs are continuous. You can do it like this. That is, x on each arc connecting these points a ', b', c ', and d'.
-Y When the rectangular coordinate is taken, it is ± 5 of the numerical value of the coordinate.
Set the range of%, and use a curve that falls within this range to set the blade plate 1
The outer contour line of the cross section of the base end portion may be formed.

As described above, one end and the other end in the longitudinal direction of each vane plate 1, that is, the outlines of the front end and the base end are set, and the outlines of the respective parts between the front end and the base end are The contour line is continuously formed between the contour line at the tip and the contour line at the base end. Therefore, when the contour lines of the tip and the base end of the blade plate 1 are set, the contour lines of the respective parts between the tip and the base end are also automatically set. In addition, according to the present invention, a blade plate 1 having an outer diameter wire similar to these outer shapes is used.
Also applies to.

Further, when the outlines of the tip end and the base end of the blade plate 1 are set as shown in FIGS. 1A and 1B, the mounting angle of each blade plate 1 with respect to the rotation direction, that is, φ1 passing through the origin o.
The angle θ ₁ formed by the y-axis, which is a diameter line of 20 mm, and the line connecting the origin o and the point b is 23.1 °, and the y-axis and the origin o
The angle θ ₂ formed by the line connecting the point c and the point c is 26.7 °.
This angle is most preferable for the mounting angle of the blade 1,
The present invention is not limited only to setting this mounting angle to this angle, and the angle θ ₁ between the y-axis and the line connecting the origin o and the point b in FIG.
With reference to the angle θ ₂ between the line connecting the point c and the y-axis and the angle θ ₂ respectively, the attachment angle of each blade 1 may be set within a range of ± 2 ° of each angle.

As described above, by providing the 48 vane plates 1 between the main plate 2 and the side plates 3, the impeller A of the sirocco fan according to the present invention can be manufactured. It can be formed as an integrally molded product of synthetic resin such as. In the mold for molding such an impeller A, the molding cavity has a blade plate molding part for molding the vane plate 1, a main plate molding part for molding the main plate 2, and a side plate molding part for molding the side plate 3. In the vane plate forming part, the contour lines of one end portion and the other end portion of the vane plate 1 and the contour line of the portion between the both end portions are molded by the above-mentioned curve and the vane plate 1 is formed. The inner surface shape is formed so that the mounting angle of is molded to the above angle. It goes without saying that the shape of the inner surface of the cavity is designed in consideration of molding shrinkage, warpage, deformation, draft and the like of the molded product.

[0023]

EXAMPLES The present invention will be specifically described below with reference to examples. (Embodiment 1) In manufacturing an ABS resin impeller A in which 48 blades 1 having a length H = 50 mm are integrally provided between a main plate 2 having a diameter of 125 mm and a side plate 3 having an outer diameter of 125 mm, each blade is manufactured. The outline of the cross section of the tip (the end joined to the side plate 3) of the plate 1 and the outline of the cross section of the base end (the end joined to the main plate 2) were formed as follows.

That is, as shown in FIG. 1 (a), the outline of the cross section of the tip of the blade 1 is defined as an origin o at a point on the circumference of φ120 mm, and the diameter line of this circle passing through the origin o is the y-axis. The coordinates set on the xy rectangular coordinates (1.0, 8.
0) the intersection point of an arc with a radius of 8.5 mm drawn around the point p ₁ and the circumference of φ120 mm is a, and a circle with a radius of 8.5 mm and the circle of φ120 mm are concentric φ9.
The intersection point of the circle of 4 mm and the circle of φ8.5 mm, which is drawn around the point p ₂ of the coordinates (0.0, 8.0) whose origin is point o and b is the intersection point of φ4 mm. Let c be the intersection point of this circular arc of radius 8.5 mm and the circumference of φ120 mm, and the circular arc of radius 8.5 mm that passes through these points between point a and point b, and point b and point c Of the circle with a radius of 0.5 mm and the center of which is located outside the circumference of φ94 mm passing points b and c, and is between the points c and d with an arc inside the circumference of φ94 mm. It is an arc with a radius of 8.5 mm that passes through a point, and the distance between point d and point a is 120 m above.
It was formed by a curve that is connected by arcs of a circle of m.

The outline of the cross section of the base end of the blade 1 is shown in the figure.
As shown in 1 (b), the point o is the origin and the origin o
XY right angle seat with the diameter line of a circle of φ120 mm as the y-axis
Point p with coordinates (1.0, 8.0) set as the mark₁Centered around
A circle with a radius of 8 mm and the circle of φ120 mm above
The point of intersection with the circumference is a ', this circular arc with a radius of 8 mm and the above φ94
Coordinates where the point of intersection with the circumference of mm is b'and the point o is the origin
Point p at (0.0,8.0) ₂Radius centered on
The intersection of the 9 mm arc and the φ94 mm circumference is c ′,
The intersection of this circular arc with a radius of 9 mm and the circumference of the above φ120 mm
The point is d'and the radius between the points a'and b'is 8 mm.
In an arc, passing between points b'and c'through points b'and c '
With a radius of 1 mm, the center of which is outside the circumference of φ94 mm
An arc inside the circle of φ94mm above,
Between the point c'and the point d'is an arc having a radius of 9 mm, and the point d '
Connect the points a ′ with the circular arc of φ120mm.
It was formed by a curved line.

Example 2 A 48-blade impeller A was manufactured in the same manner as in Example 1 except that the outline of the cross section of the tip of each blade 1 was formed as follows. It should be noted that this one is equivalent to the one in which the outer shape of the cross section of the tip portion of the blade plate 1 is deformed by + 5% and the mounting angle is changed by + 2 ° with respect to that of the first embodiment.

That is, as shown in FIG. 1 (a), the outline of the cross section of the tip of the vane plate 1 is the diameter o of the circle passing through the origin o with one point on the circumference of φ120 mm as the origin o. Coordinates set on the xy rectangular coordinates as the y-axis (1.5,
9.6) The intersection point of an arc having a radius of 10 mm drawn around the point p ₁ and the circumference of φ120 mm is a, and the arc of radius 10 mm and the circle of φ120 mm are concentric with φ94.
Coordinates (1.
0, 9.6) with a radius of 10 m drawn around the point p ₂
Let c be the intersection of the circular arc of m and the circumference of φ94 mm, and d be the intersection of the circular arc of 10 mm radius and the circumference of φ120 mm, and the radius 10 passing between these points a and b.
It is an arc of mm and has a radius of 0.5 mm with the center located outside the circumference of φ94 mm passing between points b and c between points b and c.
Is a circular arc inside the circle of φ94 mm, a circular arc with a radius of 10 mm that passes through these points between points c and d, and a circular arc of the circle of φ120 mm between points d and a. It was formed by connecting curves.

(Example 3) A 48-blade impeller A was produced in the same manner as in Example 1 except that the outline of the cross section of the tip of each blade 1 was formed as follows. It should be noted that this is equivalent to that of the first embodiment in which the outer shape of the cross section of the tip portion of the blade 1 is deformed by -5% and the mounting angle is changed by -2 °.

That is, the outline of the cross section of the tip of the blade 1 is, as shown in FIG. 1A, one point on the circumference of φ120 mm as the origin o, and the diameter line of this circle passing through the origin o. The coordinates (0.5,
6.4) Radius of 7.5 mm centered on point p ₁
The intersection point of the arc and the circumference of φ120 mm is a, and the arc of radius 7.5 mm and φ concentric with the circle of φ120 mm are
The intersection point with the circle of 94 mm is b, and the circle with a radius of 7.5 mm drawn around the point p ₂ of coordinates (-0.5, 6.4) with the point o as the origin and the circle of φ94 mm. The intersection is c, the intersection of this 7.5 mm radius arc and the above-mentioned φ120 mm circumference is d, and the 7.5 mm radius arc that passes through both points between points a and b. Between points b and c
Of the circle of 0.5 mm radius whose center is located outside the circumference of φ94 mm, is an arc inside the circumference of φ94 mm, and the radius of 7.5 m passing between both points c and d.
A circular arc of m is formed by a curve connecting the points d and a with the circular arc of 120 mm in diameter.

(Comparative Example 1) A 50-blade impeller A was manufactured in the same manner as in Example 1 except that the outline of the cross section of the tip of each blade 1 was formed as follows. It should be noted that this is equivalent to the one of Example 1 in which the contour line of the cross section of the tip portion of the blade plate 1 is deformed by + 10% and the mounting angle is changed by + 4 °.

That is, the outline of the cross section of the tip of the blade 1 is, as shown in FIG. 1 (a), one point on the circumference of φ120 mm as the origin o, and the diameter line of this circle passing through the origin o. Coordinates set on the xy rectangular coordinates as the y-axis (2.5,
11.2) Radius of 12 mm centered on the point p ₁
The intersection point of the circular arc and the circumference of φ120 mm is a, and the circular arc of 12 mm in radius and φ9 concentric with the circle of φ120 mm.
The intersection point with the circle of 4 mm is b, and the intersection point of the arc of 12 mm in radius drawn around the point p ₂ of the coordinates (1.5, 11.2) with the point o as the origin and the circumference of φ94 mm is c. , D is the intersection of the 12 mm radius arc and the φ120 mm circumference, and the 12 mm radius arc passes between the points a and b, and the point b is between the points b and c. Point c
Of the circle with a radius of 0.5 mm whose center is located outside the circumference of φ94 mm and is an arc inside the circumference of φ94 mm, and the radius between the points c and d passes through these points.
A circular arc of mm is used to form a curve connecting the points d and a with the circular arc of 120 mm in diameter.

(Comparative Example 2) A 50-blade impeller A was produced in the same manner as in Example 1 except that the outline of the cross section of the tip of each blade 1 was formed as follows. It should be noted that this is equivalent to the one of Example 1 in which the outline of the cross section of the tip end portion of the blade 1 is deformed by -10% and the mounting angle is changed by -4 °.

That is, the outline of the cross section of the tip of the blade 1 is, as shown in FIG. 1A, one point on the circumference of φ120 mm as the origin o, and the diameter line of this circle passing through the origin o. Coordinates (-0.
5, 4.8) Radius 7.5 centered on the point p ₁
The intersection point of the circular arc of mm and the circumference of φ120 mm is a, the intersection point of the circular arc of 7.5 mm radius and the circumference of φ94 mm concentric with the circle of φ120 mm is b, and the coordinates with point o as the origin (-1 .5, 4.8), the intersection point of a circular arc having a radius of 7.5 mm drawn around the point p ₂ and the circumference of φ94 mm is c, and the intersection point of the circular arc of 7.5 mm and the circumference of φ120 mm is Is d, the arc between the points a and b is a 7.5 mm radius passing through these points, and the point b is between the points b and c.
Of the circle with a radius of 0.5 mm and the center of which is located outside the circumference of φ94 mm and passes through the point c, and is an arc inside the circumference of φ94 mm, and the radius passing between the points c and d passing through these points. A circular arc of 7.5 mm, with the above-mentioned φ120 between point d and point a.
It was formed by curves connecting with circular arcs of a circle of mm.

A sirocco fan was produced from the impellers A produced in Examples 1, 2 and 3 and Comparative Examples 1 and 2 as described above, and the sirocco fan was attached to a blower to meet JIS.
Based on the standard B8330, the maximum air volume, maximum static pressure, operating point air volume, and operating point static pressure were measured. Here, the maximum air volume is the air volume when the fan static pressure is 0 mmH ₂ O (no load), the maximum static pressure is the static pressure when the fan air volume is 0 m ³ / min, and the operating point air volume is the air volume at the operating point static pressure Point static pressure is the static pressure under the environment where the fan is actually used.

The results are shown in Table 1.

[0036]

[Table 1]

As can be seen from Table 1, the maximum air flow rates of Examples 1 to 3 are 3.5 to 3.5 times those of Comparative Examples 1 and 2.
4.8%, maximum static pressure 13.0 to 21.8%, operating point air volume 2.6 to 3.4%, operating point static pressure 14.3 to 20.
It is confirmed that it has improved by 0%.

[0038]

As described above, in the impeller of the sirocco fan according to the present invention, the outline of the cross section of one end of each vane plate passes through the origin o with one point on the circumference of φ120 mm as the origin o. Coordinates (1.0, 8.0) set on xy rectangular coordinates with the diameter line of this circle as the y-axis [The unit of the numerical value of the coordinate is m
m, the same applies hereinafter) and the intersection point of an arc with a radius of 8.5 mm and the circumference of φ120 mm described above is denoted by a, and a circle with a radius of 8.5 mm and a circle of φ120 mm are concentric with φ9.
A radius of 8.5 m drawn centering on the coordinates (0.0, 8.0) with the intersection point with the circumference of 4 mm being b and the origin point o.
The intersection point of the circular arc of m and the circumference of φ94 mm is c, the intersection point of the circular arc of 8.5 mm radius and the circumference of φ120 mm is d, and the radius 8 passing between both points a and b is 8 .5
It is an arc of mm and has a radius of 0.5 whose center is located outside the circumference of φ94 mm, passing through points b and c between points b and c.
Of the circle of mm, an arc inside the circumference of φ94 mm is an arc of 8.5 mm radius passing through both points between points c and d, and a circle of φ120 mm between points d and a. When formed with circular arcs, they are formed with curves included in the range of ± 5% of the coordinate value of each point on each of these circular arcs, and the outline of the cross section of the other end of each blade is defined as the above points. An arc with a radius of 8 mm drawn around the coordinates (1.0, 8.0) set on the xy rectangular coordinate system with the diameter line of the circle of φ120 mm passing through the origin o as the y-axis and the above-mentioned φ120 m.
The intersection point with the circle of m is a ', the intersection point of the circular arc with a radius of 8 mm and the circumference of φ94 mm is b', and the coordinates (0.0, 8.0) with the point o as the origin are drawn. Radius 9mm
Let c'be the intersection of the circular arc of 4 mm and the circumference of φ94 mm, and d'the intersection of the circular arc of 9 mm radius and the circumference of φ120 mm be the arc of 8 mm radius between points a'and b '. , Between the points b ′ and c ′, passing through the points b ′ and c ′ and centered on the outside of the circumference of φ94 mm and having a radius of 1 mm, an arc inside the circumference of φ94 mm, When the arc between the points c'and d'is formed with the radius of 9 mm, and the area between the points d'and the point a'is formed with the circle of φ120 mm, the coordinate value of each point on each of these arcs. ±
It is formed by a curve included in the range of 5%, and the origin o and the point b are
With respect to the angle between the line connecting the points and the y-axis and the angle between the line connecting the origin o and the point c and the y-axis, and each blade plate within ± 2 ° of each of these angles. It is characterized in that the mounting angle is set, and by forming the vane plate in such a form, it is possible to obtain a large amount of air blown at the time of air blowing.

In the sirocco fan impeller molding die according to the present invention, the outer shape of one end portion and the other end portion is formed by the above curve and the mounting angle is set to the above angle. It is characterized in that the inner surface of the cavity is formed so as to form a vane plate, and an impeller having a vane plate having the above-described form can be formed by resin integral molding. It is possible to manufacture at low cost without requiring the number of man-hours required for processing and assembling such as processing and assembling a metal plate.

[Brief description of drawings]

FIG. 1 shows an example of an embodiment of the present invention,
(A) is a figure which shows the outline of the cross section of the tip part of an impeller,
(B) is a figure which shows the outline of the cross section of the base end part of an impeller.

FIG. 2 is a front view showing an example of an embodiment of an impeller of a sirocco fan according to the present invention.

FIG. 3 is a perspective view showing an example of an embodiment of an impeller of a sirocco fan according to the present invention.

[Explanation of symbols] 1 blade 2 main plate 3 side plates

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Takahide Suzuki 1048 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) References JP-A-53-31206 (JP, A) JP-A-62-225799 ( JP, A) JP 4-234598 (JP, A) JP 7-293494 (JP, A) JP 57-126638 (JP, A) JP 5-141394 (JP, A) JP Flat 8-189498 (JP, A) Japanese Patent Publication Sho 36-5589 (JP, B1) (58) Fields investigated (Int.Cl. ⁷ , DB name) F04D 29/18-29/38

Claims (2)

(57) [Claims] 1. In a sirocco fan impeller formed by arranging a plurality of vanes on the circumference, the outline of the cross section of one end of each vane is the circumference of φ120 mm. Let the point o be the origin o and the diameter line of this circle passing through the origin o be y
Coordinates set on the xy rectangular coordinates as the axis (1.0,
8.0) A circular arc with a radius of 8.5 mm drawn around [the unit of numerical values of coordinates is the same as the following] and φ120 m above
The intersection point with the circumference of m is a, the intersection point of the circular arc having a radius of 8.5 mm and the circumference of φ94 mm concentric with the circle of φ120 mm is b, and the coordinates having the point o as the origin (0.0, 8.0). ) Centered on an arc with a radius of 8.5 mm and the above φ94 mm
Let c be the intersection point with the circumference of the circle, d be the intersection point of the circle with a radius of 8.5 mm and the circle with a diameter of φ120 mm, and an arc with the radius of 8.5 mm that passes through both points between points a and b, Point b and point c
Among the circles having a radius of 0.5 mm and whose center is located outside the circumference of φ94 mm, passing through points b and c between
When an arc having a radius of 8.5 mm that passes through both points between points c and d and is between the points d and a is formed as a circular arc of φ120 mm, which is an arc inside the circle of mm. To
The outline of the cross section of the other end of each vane is formed with a curve included in the range of ± 5% of the coordinate value of each point on each of these arcs, and the point o is the origin and passes through the origin o. φ120 mm
Radius of 8 m drawn around the coordinates (1.0, 8.0) set on the xy rectangular coordinates with the y-axis of the circle diameter line
Coordinates (0.0, 8.0) with the intersection point of the arc of m and the circumference of φ120 mm being a ′, the intersection point of the arc of 8 mm radius and the circumference of φ94 mm being the origin, and the point o being the origin. C'is the intersection point of a circular arc with a radius of 9 mm and the circumference of φ94 mm, and the circular arc with a radius of 9 mm and φ12
The intersection point with the circumference of 0 mm is d ′, the point a ′ and the point b ′ are the above-mentioned circular arcs with a radius of 8 mm, and the points b ′ and c ′ pass through the points b ′ and c ′ and the center is Of the circle having a radius of 1 mm, which is located outside the circumference of φ94 mm, is an arc inside the circumference of φ94 mm, and the radius 9 is between the points c ′ and d ′.
mm arc, and between the points d'and a'is the above 120 mm
When formed by the circular arcs of the circles, they are formed by curves included in the range of ± 5% of the coordinate value of each point on each of these circular arcs, and the line connecting the origin o and the point b and the y-axis And the angle between the y-axis and the line connecting the origin o and the point c, respectively, are set, and the mounting angles of the blades are set within a range of ± 2 ° of these angles. An impeller of a sirocco fan characterized by that. 2. A mold formed by providing a cavity for molding an impeller of a sirocco fan, which is formed by arranging a plurality of vane plates on a circumference, with a cavity made of synthetic resin.
The outer shape of one end portion and the other end portion is formed by the curved line according to claim 1, and the inner surface shape of the cavity is formed so as to form the vane plate whose mounting angle is set to the angle according to claim 1. A mold for forming an impeller of a sirocco fan, which is characterized by being formed.