KR100580579B1 - Impeller for axial flow blower - Google Patents

Abstract

The present invention provides an impeller for an axial flow fan capable of freely selecting an angle of an impeller manufactured from a single mold. The impeller is separated from a fixed shaft of the impeller, and a nut and a bolt The groove of the keyway of the fixed shaft and the groove of the keyway of the root are differentiated, and the key is inserted into the reference keyway of the impeller, and the root And the angle of the impeller can be selected by inserting the key groove selected in the key into the key to assemble the impeller for the axial flow fan.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impeller for an axial flow blower,             

Fig. 1 is a cross-sectional view of a boss member of the present invention, in which a part of one boss member is cut,

Fig. 2 shows an exploded view of the impeller

Fig. 3 is a partial cut-away view

Figure 4 shows the arrangement of the keyways of the fixed shaft and roots

Description of the Related Art

1: Boss member 2: Impeller left

3: impeller 4: root

7: Fixed shaft 8: Nut

9: Bolt hole 10,11: Keyway

12: Bolt 13: Key

The present invention relates to an impeller for an axial flow fan capable of finely adjusting an angle of a blade.

In the synthetic impeller made of synthetic resin for the axial flow blower, a combination boss having a pair and an impeller are separately injected and assembled. Such an impeller is injected by using a mold which is designed according to a design which generally has an air volume suitable for the purpose.

The main design factor influencing the airflow is the impeller angle. Since the impeller angle is the angle given at the time of manufacturing the mold, the impeller manufactured by the mold of one group is not suitable for the blower of the different purpose which differs in the air volume, and if the mold is provided for each impeller having different angles, Not only that, there are a lot of problems in mold management.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an impeller for an axial flow fan capable of selecting an angle of an impeller manufactured from a single mold.

This problem is solved by separating the roots from the fixed shaft of the impeller and tightening the fastening holes formed at the center of the cross section of the roots by a bolt to provide a sense of unity and a key groove for selecting the angle of the impeller It can be accomplished with an impeller for an axial flow blower which can arbitrarily select the angle of the impeller by inserting the key between the key groove which is the reference in the impeller and the key groove selected in the root by setting the difference in the number of the key groove of the fixed shaft and the number of the key groove of the root have.

In Fig. 1, the boss member 1 is formed with an impeller seat 2 formed radially at every circumferential portion of the circumference, and the roots 4 of the impeller 3 are inserted into each impeller seat 2. The boss member 1 is assembled into two bosses to form a boss. A bolt is inserted into a fastening hole 5 formed at each circumferential portion of the plate surface, and a nut is fastened at the opposite side to maintain the assembled state of the impeller . Reference numeral 6 denotes a shaft.

The roots 4 are separated from the fixed shaft 7 of the synthetic resin impeller 3. A nut 8 is embedded in the center of the end face of the fixed shaft 7 and a bolt hole 9 is formed concentrically with the nut 8 at the center of the cross section of the root 4 to form a bolt 12 Tightly to the nut 8, the impeller 3 is formed.

3, a nut 8 is formed on the outer circumferential surface of the nut 8 so as not to turn along the bolt 12 when the bolt 12 is fastened or loosened, so that the nut 8 is caught in the fastening shaft 7.

Key grooves 10 and 11 are formed on the divided surfaces of the fixed shaft 7 and the roots 4 for determining the angle of the wing every place where the virtual circumference having the same radius is equally divided. At this time, the key groove 10 of the fixed shaft 7 and the key groove 11 of the root 4 have different numbers. For example, if the number of the keyways 11 of the root 4 is 15, the number of the keyways 10 of the fixed shaft 7 is set to 16, which is one more. In this case, the angle between the key grooves 10 is 360 ° ÷ 16 = 22.5 ° and the angle between the key grooves 11 is 360 ° ÷ 15 = 24 °. The first key grooves 10a-11a, The second key groove 10b-11b, the third key groove 10c-11c, An angular difference of 1.5 degrees is generated between the plates. As the number of key grooves 10, 11 increases, the angular difference between the two key grooves 10, 11 becomes smaller. The angle of the impeller 3 can be adjusted at a fine angle due to the angle difference between the two keyways 10 and 11. [ It is advantageous for the keyways 10, 11 to equally divide the circumference of the fixed shaft 7 and the root 4 by a number equal to the number given, corresponding to the given number.

4, when the first key groove 11a of the root 4 is inserted while the key 13 is inserted into the first key groove 10a of the fixed shaft 7, the angle of the impeller 3 is the smallest, When the first key groove 10a and the second key groove 11b are selected, the angle of the impeller is slightly larger than when the first key grooves 10a and 11a are selected. In this way, any one of the key grooves 10 of the fixed shaft 7 is selected to set a reference point at which the key 13 is to be fitted, and the wing angle And then the bolt 12 is fastened to complete the impeller 3.

Thereafter, the roots 4 are seated in the impeller seat 2 of the boss member 1 in a known manner and the fastening holes 5 of the boss member 1 are fastened with bolts-nuts, as shown in Fig. 1 An impeller of the same type is assembled.

Even if the key groove 10 is formed more than the key groove 11, the angle of the impeller 3 can be selected. Accordingly, such changes are also within the technical scope of the present invention.

As described above, according to the present invention, a nut is planted on the fixed shaft separated from the sparging, a bolt hole is drilled in the root, and the bolt is fastened by a bolt to form an impeller. On the split surface of the fixed shaft and the root, One of the key groove of the shaft or the key groove of the root is formed with at least one or more than one of the relative key grooves so that the angle of the impeller is changed depending on which of the key grooves of the root and the fixed shaft to which the key is inserted, , An impeller manufactured using a single mold can freely select the angle. Accordingly, the mold cost is greatly reduced as compared with preparing the mold for each angle of the impeller, and the mold management becomes much easier.

Claims (2)

The boss member 1 made of synthetic resin has an impeller seat 2 formed in a radial shape at every circumferential division of the circumference and is assembled by inserting the roots 4 of the impeller 3 for each impeller seat 2, The root 4 is separated from the end portion 7 and the key groove 10 for selecting the angle of the impeller is formed at each end of the circumference of the root, A key groove 11 corresponding to the key groove 11 is formed at the end of the root 4 corresponding to the end portion and the key 13 is inserted and connected between the selected key grooves 10, Wherein a bolt (12) is fitted to a bolt hole (9) formed at the center and fastened to a nut (8) of a fixing shaft (7). The impeller for an axial flow fan according to claim 1, wherein the key groove (10) and the key groove (11) allow the angle of the impeller (3) to be finely adjusted by differentiating the number of grooves.

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