CA1181047A - Axial flow fans and blades therefor - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE

There is disclosed an axial flow fan having blades which are made up of metallic inner portions attached to the hub of the fan, and outer plastic portions whose inner ends are secured to the outer ends of the metallic portion. The plastic portions are hollow and have an exterior surface of air foil cross section, and seal discs on one side of the hub extend outwardly therefrom to approximately the intersection of the metallic and plastic portions.

Description

AXIAL FLOW FANS
AND BLADES TEEREFOR

~ his invention relates to large, industrial-type axial flow fans; and, more particularly, to improvements in fans of this type wherein seal discs cover non-working àreas on the inner portion of the blades intermediate their attachment to the fan hub and air foil-shaped working areas on the outer portions thereof. In one of its aspects, this invention relates to improvements in hollow blades for use in such fans~
The "swirl" éffect of torque upon the axial exit air vectors cause negative air flow through such a fan which, if not prevented by the seal disc, would sub-stantially lessen its efficiency. This is especially true when the fan may be 10 feet or more in diameter, as is often ~he case when used in and around industrial locations. In order to overcome this problem, the disc usually extends out over approximately 30%-50% of the radial extent of the blades.
In order to reduce the weight and cost of such a fan, its blades are preferably hollow. Also, since the inner portions of the blades covered by the disc perform no useful work, the size and weight of each such blade is minimized by providin~ a neck at its inner end which is attached to the hub. A transition area e~tends laterally outwardly from the neck to connect to the wide, inner end of the working, air foil portion.

, .~.

2-It has been proposed to make blades for fans of this type of either metal or plastic reinforced with fiberglass. Although metal blades may be cheaper to fabricate, it may be preferred, and possihly may be the only alternative, when they are to have intricate air foil shapes r to mold the blades of plastic. ~s shown, for example, in U.S. Patent ~lo. 2,9~5,262, in a typical molding process, resin is applied to reinforcement con-tained within a space between a rigid outer mold member and a bag forming an inner mold member, and the bag is pressurized to impregnate the reinforcement with the `
resin.
A molding process of this type is both time con-suming and expensive. Also, difficulty is often encoun-tered in obtaining even distribution of resin throughout the reinforcement at -the sharp rorners of the blade. As a resultr the blade may fall due to an excess of resin at the intersection of its neck and transition area.
The primary object of the present invention is to provide an axial flow fan of the type described having blades whose working areas are molded of reinforced plastic, but which are less susceptible to breakage and yet less expensive to manufacture than blades fabricated in accordance with the procedures above described.
Another object is to provide such a fan having .
blades which are of composite construction including metallic as well as plastic portions which are secured to one another in a simple and inexpensive manner.
These and other objects are accomplished, in accor-dance with the illustrated embodiment of the invention, by means of an axial flow fan of the type described where-in each of ~he blades comprises a metallic portion havin~
a nec~ which is attached to the hub, and a reinforced plastic portion which has an exterior air foil cross section and an inner end which is secured to the outer

3 ID' end of the metallic portion, an~ the outer periphery of the seal disc on one side of the hub extends outwardly therefrom to approximately the inner ends of -the plastic portions of the blades. Thus, while the working areas of the blades may be molded to intricate air foil cross sections, the non-wor]cing areas of the blades may be fabricated of metal by an inexpensive process requiring no smooth finishes or intricate shapes. As will also be apparent, the securement of the ends of the plastic and metallic portions to one another avoids breakage due to .
excess resin in the sharp corners of the blades when fabricated in accordance with prior blade manufacturing processes, as above described.
More particularly, the plastic portion of each blade is made up of one hollow piece whose interior decreases in width in a direction from its inner to its outer end, and the metalli~ portion has an outer end which fits within and is fastened to the inner end of the plastic portion. Because of its shape, the plastic portion of each blade does not require the use of a bag or other flexible inner mold member, as is required in the molding of blades of this type entirely of plastic, as previousl~ describedO Instead, since the plas-tic portion is widest at its end which interfits with the metallic portion, and decreases in width in a direction between such end and its opposite outer end, the inner mold member may be rigid and the resin may be introduced under pressure into reinforcement contained within a space between the mold members.
To provide a simple and inexpensive means of preventing things and/or objects from lodging inside the hollow plastic portion, and thus possibly upsetting the aerodynamic balance of the fan, a barrier disposed across the interior thereof near the outer end of the metallic portion, is inserted into the open end of the h- 4 -plastic portion prior to interfitting of the metallic portion therewith.
In the preferred and illustrated embodiment of the invention~ the interfitting metallic and plastic portions of each blade are secured by fasteners which are manipulated from within their interfitting ends, and the metallic portion is hollow and has sides which are open to permit access to such fasteners- Since the fasteners are manipulated in this manner, their outer ends may be flush with the air foil cross section of the exterior of the plastic portions of the blades.
More particularly, the metallic portions include a pair of elongate sheets whose inner ends are approxi-mately semi-circular and whose outer ends are substan-tially flat. A ring surrounds and is fixed to the outerends of the shee-ts to provide a means of attachment to the fan hub, and the longitudinal edges of the sheets flare from their inner to their outer ends to form the openings in their sides through which access may be had to the ~asteners.
In one aspect of the present invention there is provided an axial flow fan comprising a rotatable hub, and a plurality of blades, each of the blades extending radially from the hub and each of the blades-comprising a one-piece reinforced plastic portion having an exterior air foil cross-section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to the hub and an outer end which fits within the inner end of the plastic portion and fasteners securing the interfitting ends of such portions one to another.
In a further aspect of the present invention, there is provided a blade for an axial flow fan, com-prising a one-piece, reinforced plastic portion having an ex-terior air foil cross-section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end Eor attachment to the hub of the fan and an outer ena which fits within the inner ena of the plastic portion, and fasteners securing the interfitting ends of such portions to one another.
In a still further aspect of the present invention, there is provided an axial flow fan com-prising a rotatable hub, and a plurality of blades, each of the blades extending radially from the hub and each of the blades comprising a one-piece reinforced plastic portion having an ex-terior air foil cross-section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to the hub and an outer end which fits a relatively short distance into and is of substantially less width than the inner open end of the plastic portion, and fasteners securing the interfitting ends of such portions one to another.
; 20 In a still further aspect of the present invention, there is provided a blade for an axial flow fan, comprising a one-piece, reinforced plastic portion having an exterior air foil aross-section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to the hub of the fan and an outer end which fits a re-latively short distance into and is of substantially less width than the inner open end of said plastic portion, and fastneners securing the interfitting ends of such portions to one another.
The invention is illustrated by way o-f example in the accompanying drawings wherein:
Fig. 1 is a sectional view of an axial flow fan constructed in accordance with the present invention;
Fig. 2 is a plane view of one of the blades removed from the hub of the fan, 3 ~
-4b-Fig. 3 is an end view of the b~e oE Fig, 2 9 as seen along broken lines 3--3 thereof, Fig. 4 is a longitudinal sectional view of the plastic and metallic portions of the blade of Fig. 2, as seen along broken lines 4--4 thereof, Fig. 5 is a cross-sectional view of the blade of Fig. 2, as seen along broken lines 5--5 thereof;
Fig. 6 is a cross-sectional view of a mold in which the plastic portion of each blade may be formed:
and 7 ``:
-5- i Fig. 7 is a plan view of the inner member of the mold of Fig. 6, with the righthand end thereof being broken away for purposes of illustration.
Referring now to the details of the above~described drawings, the overall fan 10 shown in Fig. 1 includes a hub 11 rotatable with a shaft 12 disposed centrally within an annular fan ring 13. Fan blades 14 have necks 15 on their inner ends which are coupled to the hub for extension radially outwardly therefrom to dispose their tips close to the inner circumference of the fan ring. ~J:
As shown and described in U.S. Patent No. 2,908, `
335, each blade neck is held securely within an open-ended housing 16 mounted on the hub by means of split rings 17 which are received within a groove in the `
housing in position to engage a shoulder on the neck.
The shoulder is moved into ti~ht engagement with the split rings by means of ~a~k screws 18 extending through the back side to the housings.
When the jack screws are bac~ed off from the ends of the necks 15, the blades are free to be tilted into positions in which the split rings 17 may be removed from within the housings, at which time the blades may then be moved out of the housings for replacement or repair.
Obviously, the blades may be installed by a reversal of this procedure.
In the particular fan illustrated in the drawings, the hub has four housings 16 providing sockets for receiving an equal number of blades spaced 90 apart about the axis of rotation of the shaft 12. However, it will be understood that more or less blades may be used in the fan. Also, of course, other means may be employed for coupling the blades to the hub.
As previously described, each blade 14 includes a metallic portion 20 having neck 15 formed thereon for coupling to the hub 11, and a reinforced plastic portion 21 having its inner end interfit-ted with and secured to the outer end of metallic portion 20. As shown in Fig.
1, fan 10 also includes a seal disc 22 which is connected to the upper side of the hub by means o~ bolts 22A, and which has an outer periphery (shown in plan by means of broken lines in Fig. 2) which extends outwardly to approx-imately the joinder of the metallic and plastic portions of the blades.
As best shown in Fig. 4, and as previously described, the metallic portion 20 of each fan blade ~r includes a pair of sheets 23 each of which has an inner end which is substantially semi-circular in cross section ~nd an outer end which is substantially flat, except for a relatively shallowr downturned edge, for strength purposes. When the substantially semi-circular outer ends of the sheets 23 are disposed opposite one another, the sheets form a hollow body whose outer end is open circular in cross section, and whose inner end is open intermediate the inner ends of the sheets.
The outer end of the metallic portion is surrounded by a metal ring 24 which provides the neck 15 for coupling to a hub housing, as previously describedr including an outwardly facing shoulder against which the split rings ~`~
17 may engage, as best shown by broken lines in Fig. 4.
The sheets 23 of the metallic portion are welded to the ~5 ring about their inner ends as well as along the portions of their edges which are received within the ring.
The longitudinal edges oE the sheets flare out~
wardly, as shown in Fig. 2, so that metallic portion 2~
is broader at its outer end than at its inner end. Such edges also flare outwardly, as seen from the side (Fig.

4),to form openings or slots24~ into the hollow interior thereof. Sheets of this configuration may be stamped from flat stock in a conventional manner.

The plastic portion 21 of each blade is molded as one piece having an exterior alr foil section and a hollow interior which decreases in width in a direction from its inner end to its outer end. Consequently, i-t is possible to mold the plastic portion 21 between rigid inner and outer mold members 25 and 26. ~s shown in Fig. 6, the outer mold member 26 is made uP of horizon-tally split upper and lower sections, and the inner mold member is made up of longitudinally split sections 27.
In the molding of plastic portion 21, reinforce-ment is laid up on the upper face of lower outer mold member 26, the inner mold member 25 is disposed over the reinorcement, which then is laid up over the toP side of inner mold member 25, and the upper section of the outer mold member 26 is lowered into place over the reinforcement. At this time, resin may be forced into ancl through the reinforcement within th~ space between the inner and outer mold members by the application of pressure. When the reinforcement is fully an~ evenly saturated with resin, the resin may be caused to set up in orcler to complete the molding process.
As can be seen from the drawings, the plastic portion 21 of the blade is not only of an air foil shape in cross section, but also twisted somewhat between its inner and outer ends. Since the inner mold member 25 is ~,~
of considerable length, and of rigid construction, it would be difficult to remove it, upon molding of the blade portion 21, due to the fact that it, li]se the por-tion 21, is twisted from its inner to its outer ends.
However, forming the inner mold member in lonyitudinally split sections 27 facilitates its removal from the molcled blade portion, in that it permits such sections to be removed sequentially from a position within the blade portion in which there is lit~le or no twist.

That is, as can be seen from Fig. 3, the twist in the air foil section revolves generally around its center line, so that little difficulty is normally experienced in removing the center section 27 of the inner mold member. Thus, it is contemplated that the center section would be removed first, and the two end sections would then be sequentially moved laterally into the space occupied by the center section, and then moved longitudinally out of the molded portion 21. As shown in Figs 6 and 7, thin strips 28 may extend through ~-aligned slots in the adjacent sides of the inner mold sections 27 in order to align with one another during preparation for and actual performance of the molding process.
As shown, the substantially flat outer ends of the shee~s 23 fit closely within the opposite sides of the inner open end of blade portion 21. Preferably, the inner and outer mold members are formed with flat sides at their inner ends so that the sides of the plastic portion 21 within which the outer end of metallic portion 20 fits will be flush with the substantially flat sides J of the sheets 23.~ As shown in Fig. 2, the outer ends of metallic por-tion 20 extend within the inner end of plastic portion 21 a distance sufficient to dispose its rectangular open end entirely therein.
The interfitting ends of the metallic and plastic portions are secured to one another by fasteners 30. As shown in Fig. 2, there may be three such fasteners extending in an arc concentric to th`e outer curved end o~ the metallic portion 20. These fasteners are mani-pulatable from within the interfitting ends of the metallic and plastic portions. For this purpose~the fasteners may be bolts whose heads bear against the outer sides of the plates 23, and whose inner ends are secured by nuts which may be made up with the bolts - ~ -through the outer sides of metallic portion 20. Obviously, the nuts may also be manipulated through the openings to permit the interfittiny ends of the metallic and plastic portions to be disconnected from one another.
In order to prevent things and/or objects from becoming lodged within -the hollow blade portion 21, a barrier 31 of Eoamed plastic or other lightweight mate-rial is disposed across the hollow interior of the por-tion 21 near its inner end. More particularly, this barrier is shaped to fit closely within the hollow interior of blade portion 21 at a location just out-wardly of the outer end of metallic portion 20, Thus, as shown in broken lines in Fig. 2, the inner end of barrier 31 has a recess for fitting generally concen-trically of the outer curved end of metallic portion 20.
From the Eoregoing it will be seen that this invention is one well adapted to attain all of the ends and objects hereinabove set forth, together with other advantages which are obvious and which are inherent to the apparatus.
It will be understood that certain features and subcombinations are of utility and may be employed with-out reference to other features and subcombinations. r~
This is contemplated by and is within the scope oE the claims. ~77,~7 As many possible embodiments may be made o-E the invention without departing from the scope thereoE, it is to be understood that all matter herein set forth or shown in the accompanying drawings i`s to be interpreted as illustrative and not in a limiting sense.

Claims (21)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. An axial flow fan comprising a rotatable hub, and a plurality of blades, each of said blades extending radially from said hub and each of said blades comprising a one-piece reinforced plastic portion having an exterior air foil cross-section and a hollow interior which decreases in width in a dir-ection from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to said hub and an outer end which fits within said inner end of said plastic portion and fasteners se-curing the interfitting ends of such portions one to another.

2. A fan of the character defined in claim 1, including a barrier extending across the interior of the plastic portion of each blade near the outer end of the metallic portion.

3. A fan of the character defined in claim 1, wherein the fasteners are manipulated from within the interfitting ends of the metallic and plastic portions of each blade, and the sides of the metallic portion are open to permit access to the fasteners.

4. A fan of the character defined in claim 3, wherein the metallic portion of each blade includes a pair of elongate sheets whose inner ends are approx-mately semi-circular and whose outer ends are sub-stantially flat, a ring surrounds and is fixed to the outer ends of sheets, and the longitudinal edges of the sheets flare from their inner to their outer ends to form said open sides.

5. A blade for an axial flow fan, comprising a one-piece, reinforced plastic portion having an exterior air foil cross section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to the hub of the fan and an outer end which fits within the inner end of said plastic portion, and fasteners securing the interfitting ends of such portions to one another.

6. A blade of the character defined in claim 5, including a barrier extending across the interior of the plastic portion near the outer end of the metallic portion.

7. A blade of the character as defined in claim 5, wherein the metallic portion is also hollow.

8. A blade of the character defined in claim 7, wherein the fasteners are manipulated from within the interfitting ends of the metallic and plastic portions of each blade, and the sides of the metallic portions are open to permit access to the fasteners.

9. A blade of the character defined in claim 8, wherein said metallic portion of each blade includes a pair of elongate sheets whose inner ends are approx-imately semi-circular and whose outer ends are sub-stantially flat, a ring surrounds and is fixed to the outer ends of sheets and the longitudinal edges of the sheets flare from their inner to their outer ends to form said open sides.

10. An axial flow fan comprising a rotatable hub, and a plurality of blades, each of said blades extending radially from said hub and each of said blades comprising a one-piece reinforced plastic portion having an exterior air foil cross-section and a hollow interior which decreases in width in a dir-ection from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to said hub and an outer end which fits a relatively short distance into and is of substantially less width than the inner open end of said plastic portion, and fasteners securing the interfitting ends of such portions one to another.

11. A fan of the character defined in claim 10, wherein the outer end of the metallic portion is hollow and includes relatively flat, spaced apart sides fitting closely against correspondingly shaped inner walls of the plastic portion.

12. A fan of the character defined in claim 10, including a barrier of relatively light weight material extending across the interior of the plastic portion near the outer end of the metallic portion.

13. A fan of the character defined in claim 10, wherein the fasteners are manipulated from within the interfitting ends of the metallic and plastic portions of each blade, and the metallic portion has openings therein to permit access to the fasteners.

14. A fan of the character defined in claim 13, wherein the metallic portion of each blade includes a pair of elongate sheets whose inner ends are approx-imately semi-circular and whose outer ends are sub-stantially flat, a ring surrounds and is fixed to the outer ends of sheets, and the longitudinal edges of the sheets flare from their inner to their outer ends to form said openings.

15. A blade for an axial flow fan, comprising a one piece, reinforced plastic portion having an exterior air foil cross section and a hollow interior which decreases in width in a direction from its inner end to its outer end, a metallic portion having a neck at its inner end for attachment to the hub of the fan and an outer end which fits a relatively short dis-tance into and is of substantially less width than the inner open end of said plastic portion, and fasteners securing the interfitting ends of such portions to one another.

16. A blade of the character defined in claim 15, including a barrier of relatively lightweight material extending across the interior of the plastic portion near the outer end of the metallic portion.

17. A blade of the character defined in claim 15, wherein the metallic portion is also hollow.

18. A blade of the character defined in claim 17, wherein the fasteners are manipulated from within the interfitting ends of the metallic and plastic portions of each blade, and the metallic portions have openings therein to permit access to the fasteners.

19. A blade of the character defined in claim 18, wherein said metallic portion of each blade includes a pair of elongate sheets whose inner ends are approx-imately semi-circular and whose outer ends are sub-stantially flat, a ring surrounds and is fixed to the outer ends of sheets, and the longitudinal edges of the sheets flare from their inner to their outer ends to form said openings.

20. A blade of the character defined in claim 15, wherein the outer end of the metallic portion of each blade is hollow and includes relatively flat, spaced apart sides fitting closely against correspondingly shaped inner walls of the plastic portion.

21. A fan of the character defined in claims 1 or 10, including a seal disc on one side of the hub whose outer periphery extends outwardly from the periphery of the hub to terminate adjacent the inner ends of said plastic portion of said blades.