BACKGROUND OF TIlE INVENTION
[0001] This invention relates generally to fans, and particularly to those of the class
used for engine cooling and like applications. Still more particularly, the invention
pertains to a fan of novel knock-down construction designed for the ease of assemblage
and high performance characteristics
[0002] By the term "fan" as used herein and in the claims attached hereto is meant any propeller-type
device for imparting motion and acceleration to air or other gases and operating on
the centrifugal principle. Thus the invention should be construed to comprehend devices
that may be commonly classified as blowers.
[0003] Internal-combustion engines such as those used on motor vehicles are normally equipped
with a fan as a part of the engine-cooling system. Normally mounted on the water-pump
shaft driven from the engine via a fan belt, the engine fan functions to provide a
powerful draft of air through the radiator. A typical construction of the engine fan
has been such that a set of fan blades have been riveted respectively to arms or spokes
radiating from a hub. The hub and spokes may be a unitary piece of sheet metal.
[0004] This type of engine fan, as so far constructed, has had some shortcomings. Such shortcomings
arise from the fact that the fan blades should not overlap, as seen in a front view,
to such an extent as to interfere with the riveting of the successive blades to the
spokes. Limitations have therefore been imposed on the shape, size and number of fan
blades that could be employed. The number of fan blades has had to be reduced if they
are each increased in size for higher rates of air delivery. Conversely, if the number
of fan blades is increased, the size of each blade has had to be reduced.
[0005] Such limitations on the prior art have made it difficult to make the rate of air
delivery as high as can be desired, and the air pressure has been easy to pulsate.
It might be contemplated to drive the fan at higher speeds for higher rates of air
delivery. This solution would not be realistic because, driven at high speeds, the
engine fan would generate inconveniently large amounts of vibrations and noise, particularly
if it had a relatively small number of blades.
SUMMARY OF THE INVENTION
[0006] The present invention provides a fan of novel knocked-down construction whereby any
desired practical number or size of fan blades can be employed without the possibility
of interfering with the assemblage of fan.
[0007] Briefly, the invention may be summarized as a knocked-down fan for engine cooling
and other applications, comprising at least two fan assemblies of like construction.
Each fan assembly comprises hub means having an axis of rotation, and a plurality
of fan blades riveted or otherwise attached radially to the hub means with equal angular
spacings between the fan blades. The fan assemblies are combined by having their hub
means joined together, typically by riveting, in axial alignment and with the fan
assemblies angularly displaced from each other by half the pitch of the fan blades
of each fan assembly.
[0008] The fan blades are to be riveted to the hub means of the two separate fan assemblies
before they are joined together. In each such fan assembly the angular distances between
the fan blades are twice as much as those between the fan blades of the completed
fan. Each blade can therefore be riveted to the hub means of each fan assembly without
being hampered by the neighboring blades. Thus the fan can be readily assembled with
use of practically any desired number or size of blades to provide a desired rate
of air delivery at constant pressure.
[0009] Typically, the hub means of each fan assembly takes the form of a sheet-metal hub
integral with radiating spokes each having one blade riveted thereto. The spokes of
at least either of the two fan assemblies may be offset into coplanar relation with
those of the other fan assembly so that the blades of the two combined fan assemblies
may rotate in one and the same plane. The performance of the resulting fan will then
be totally free from any adverse effect that might be feared to arise from the joining
of the two fan assemblies in axial alignment.
[0010] The above and other features and advantages of this invention and the manner of realizing
them will become more apparent, and the invention itself will best be understood,
from a study of the following description and appended claims, with reference had
to the attached drawings showing some preferred embodiments of the invention.
BRIEF DESCRIPTION Of THE DRAWINGS
[0011]
FIG. 1 is a front elevation of a knocked-down engine fan embodying the principles
of this invention, the fan comprising two fan assemblies disposed one behind the other
in axial alignment;
FIG. 2 is a front elevation of the front fan assembly of the engine fan;
FIG. 3 is a front elevation of the rear fan assembly of the engine fan;
FIG. 4 is a side elevation of the sheet-metal hub members or spiders of the engine
fan, shown together with only one of the fan blades attached thereto for illustrative
convenience;
FIG. 5 is a front elevation of the spider of the rear fan assembly of FIG. 3;
FIG. 6 is an enlarged fragmentary section through the spider of FIG.5, taken along
the line VI-VI therein; and
FIG. 7 is a front elevation of the spider of the front fan assembly of FIG. 2.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0012] The knocked-down fan of this invention will now be described more specifically as
adapted for use as an engine cooling-system fan. Generally designated 10 in FIG. 1,
the knocked-down engine fan exemplifying the invention is shown as a combination of
two fan assemblies 12 and 12′ of like construction disposed one behind the other.
The front fan assembly 12 is shown by itself in FIG. 2, and the rear fan assembly
12′ in FIG. 3. It will be seen that FIGS. 2 and 3 show the fan assemblies 12 and 12′
in the same angular positions about their axes as they are depicted in FIG. 1.
[0013] As will be understood from FIG. 2, the front fan assembly 12 comprises a hub member
14 known to the specialists as a spider because of the resemblance of its appearance,
and a plurality of, four in this embodiment, fan blades 16 fastened to the spider
14. This spider takes the form of a sheet-metal punching integrally comprising a hub
18 and a set of four arms or spokes 20 extending radially from the hub with a constant
angular pitch spacing of 90 degrees. The fan blades 16 are riveted at 22 to the respective
hub spokes 20 via sheet-metal retainers 24, with each fan blade engaged between one
hub spoke 20 and one retainer 24.
[0014] It will be appreciated that the four fan blades 16 of the front fan assembly 12 employed
in this embodiment are angularly spaced from one another much more widely than the
eight fan blades of the complete fan 10 of FIG. 1. Therefore, if the fan blades 16
are riveted to the hub spokes 20 before the two fan assemblies 12 and 12′ are joined
together, the riveting of each fan blade will not be hampered by the neighboring fan
blades of the same fan assembly. It will also be understood that the width, or dimension
in the circumferential direction of the fan, of each fan blade 16 can be far greater
than if the fan 10 were not divided into the two separate assemblies 12 and 12′, as
has been the case heretofore.
[0015] The hub 18 has a mounting hole 26 of relatively large diameter formed centrally therethrough
for use in mounting the fan 10 on, for example, the water-pump shaft of an internal-combustion
engine. An annular row of six additional mounting holes 28 of smaller diameter are
formed concentrically around the central mounting hole 26 for use in fastening the
fan 10 to, for example, a fan pulley on the water-pump shaft. Another annular row
of eight holes 30 in the hub 18, also centered about the hub axis, are rivet holes
for use in fastening together the two fan assemblies 12 and 12′.
[0016] Despite the showing of FIG. 2, it is not essential that the holes 26, 28 and 30 be
formed in the hub 18 before the front fan assembly 12 is combined with the rear fan
assembly 12′ as in FIG. 1. The rivet holes 30, in particular, should preferably be
formed after the two fan assemblies 12 and 12′ are held together in the correct axial
and angular positions as in FIG. 1, in order to firmly unite the fan assemblies in
the required relative positions.
[0017] The construction of the front fan assembly 12 as so far described with reference
to FIG. 2 applies to that of the rear fan assembly 12′ illustrated in FIG. 3. Therefore,
in this and other drawings, the various parts of the rear fan assembly 12′ are indicated
by priming the reference numerals used to denote the corresponding parts of the front
fan assembly 12. No repeated explanation of such parts of the rear fan assembly 12′
is considered necessary,
[0018] As will be understood by referring back to FIG. 1, taken together with FIG. 4, the
two fan assembly 12 and 12′ are fastened together by rivets 32 passing through the
rivet holes 30 and 30′ in the hubs 18 and 18′. The fan assemblies are united in alignment
about the hub axis X-X but with an angular difference equal to half the pitch of the
fan blades 16 and 16′ of each fan assembly. Since each fan assembly 12 or 12′ has
four blades with a pitch angle of 90 degrees in this particular embodiment, the two
fan assemblies 12 and 12′ are joined with an angular displacement of 45 degrees from
each other about the hub axis X-X, providing a total of eight fan blades 16 and 16′
with an equal pitch spacing of 45 degrees.
[0019] Incidentally, FIG. 4 shows only the spiders 14 and 14′ of the fan assemblies 12 and
12′ in their correct relative positions, together with only fan blade 16′ in order
to reveal the twist imparted to each hub spoke 20 or 20′. Such twist of the hub spokes
20 and 20′, and the resulting angles of the fan blades 16 and 16′ with respect to
the principal plane of the fan 10, is of course needed for the air-moving function
of the fan.
[0020] Although the two fan assemblies 12 and 12′ are essentially alike in construction,
a slight difference exists in this embodiment in order to make the fan blades 16 and
16′ of both fan assemblies rotate in one and the same plane. Toward this end the hub
spokes 20′ of the rear fan assembly 12′ are offset into coplanar relation with the
hub spokes 20 of the front fan assembly 12, as discussed in more detail in the following.
[0021] As will be noted from FIGS. 5 and 6, the hub spokes 20′ of the rear fan assembly
12′ are each twisted at its region Y, in the immediate vicinity of the hub 18′, to
hold the associated fan blade 16′ at the required angle set forth with reference to
FIG. 4. At this twisted part Y each hub spoke 20′ is offset forwardly a distance equal
to the thickness T of the sheet metal of which the spiders 14 and 14′ are made, into
coplanar relation with the hub spokes 20 of the front fan assembly 12. With the hub
spokes 20 and 20′ of the two fan assemblies 12 and 12′ thus disposed in coplanar relation
to each other, the fan blades 16 and 16′ rotate in the same plane just like those
of the conventional undivided fan. It will, of course, be understood that the hub
spokes 20 of the front fan assembly 12 could be offset into coplanar relation with
the hub spokes 20′ of the rear fan assembly 12′.
[0022] As has been mentioned, the mounting holes 26, 26′, 28 and 28′ and rivet holes 30
and 30′ may not necessarily be formed in the hubs 18 and 18′ before the fan assemblies
12 and 12′ are united as shown in FIG. 1. Only the central mounting holes 26 and 26′
may be preformed in the hubs 18 and 18′ to facilitate the boring and other operations
to be performed subsequently on the hubs.
[0023] However, in some instances, it may be desirable to preform all such holes in the
hubs 18 and 18′, as in the quantity production of the fan assemblies 12 and 12′ including
those to be held in sock for future use as replacements. In such cases the holes may
be arranged as shown in FIG. 5 in the hub 18′ of the rear fan assembly 12′ and as
shown in FIG. 7 in the hub 18 of the front fan assembly 12. Since each hub has four
spokes in this embodiment, the eight rivet holes 30 and 30′ can be of the same arrangement
in each hub 18, 18′. The arrangement of the six mounting holes 28, 28′ must differ
between the hubs 18 and 18′. The angle Z, FIG. 7, between one of the mounting holes
28 in the hub 18 and the centerline of the adjacent spoke 20 is 15 degrees whereas
the angle Z′, FIG. 5, between one of the mounting holes 28′ in the hub 18′ and the
centerline of the adjacent spoke 20′ is 30 degrees.
[0024] Although the present invention has been shown and described in very specific aspects
thereof and as embodied in engine cooling-system fans, it is not desired that the
invention be limited by the exact details of the illustrated embodiments. For example,
three or more, instead of two, fan assemblies could be combined into a single fan.
The number of fan blades of each fan assembly could also be greater or smaller than
four. Still further, the two or more fan assemblies could be united by means other
than riveting, such as screwing, bolting, welding, adhesion, etc, The knocked-down
fan of this invention may not include any means for joining the fan assemblies if
they are welded together, All such and additional modifications, alterations or adaptations
of the invention may be resorted to without departing from the proper scope or fair
meaning of the following claims.
1. A knocked-down fan for engine cooling and other applications, comprising:
(a) at least two fan assemblies of like construction, each fan assembly comprising
hub means having an axis of rotation, and a plurality of fan blades attached radially
to the hub means with equal angular spacings between the fan blades;
(b) the hub means of the fan assemblies being joined together in axial alignment,
with the fan assemblies angularly displaced from each other by half the pitch of
the fan blades of each fan assembly;
2. The knocked-down fan of claim 1 wherein the hub means of each fan assembly comprises:
(a) a hub; and
(b) a plurality of spokes extending radially from the hub, each spoke having one fan
blade attached thereto.
3. The knocked-down fan of claim 2 wherein the spokes of the hub means of one of the
fan assemblies are offset into coplanar relation with the spokes of the hub means
of the other fan assembly whereby the fan blades of the fan assemblies rotate in
one and the same plane.
4. A knocked-down fan formed by combining two fan assemblies of like construction,
each fan assembly comprising:
(a) a spider comprising a hub and a plurality of spokes extending radially from the
hub; and
(b) a plurality of fan blades mounted one to each spoke of the spider;
(c) the hubs of the spiders of both fan assemblies being firmly joined together in
axial alignment.
5. The knocked-down fan of claim 4 wherein the spider of each fan assembly is fabricated
from sheet metal, and wherein the spokes of the spider of one of the fan assemblies
is offset toward the other fan assembly a distance equal to the thickness of the sheet
metal whereby the spokes of both fan assemblies are in the same plane at right angles
with the axis of the fan.