US3279684A

US3279684A - Reversible fan apparatus

Info

Publication number: US3279684A
Application number: US292844A
Authority: US
Inventors: Robert S Waters
Original assignee: Westinghouse Electric Corp
Current assignee: CBS Corp
Priority date: 1963-07-05
Filing date: 1963-07-05
Publication date: 1966-10-18
Anticipated expiration: 1983-10-18

Description

Oct. 18, 1966 R. s. WATERS 7 3,279,684

REVERSIBLE FAN APPARATUS Filed July 5, 1963 Fig.|.

Fig.2.

(\ INVENTOR Robert 8. Waters United States Patent 3,279,684 REVERSIBLE FAN APPARATUS Robert S. Waters, Lexington, Ohio, assignor to Westinghouse Electric Corporation, Pittsburgh, Pa., a corporation of Pennsylvania Filed July 5, 1963, Ser. No. 292,844 4 Claims. (Cl. 230259.)

The present invention relates to rotating fan apparatus, and more particularly to rotatable fan apparatus whose direction of rotation may be reversed.

One of the serious problems in reversible fans is that of providing adequate cooling ventilation to the motor when the fan is rotated in either of its two directions of rotation. In many fan structures a temperature difierence of 25 to 30 C. is not unusual when the fan is running in the direction to blow air toward the motor as compared to when the direction of operation is such as to blow air away from the motor. Because of the higher temperature when air is being blown toward the motor, the motor must be designed to accommodate the worse condition, and thus must be a higher cost motor. To take care of this problem, various complicated fan blades and spider structures have been devised in the past, however, none of these appear to have sufficiently overcome the cooling problem, at least from a cost point of view.

It is, therefore, an object of the present invention to provide new and improved reversible fan apparatus in which adequate ventilation is provided to the motor.

It is a further object of the present invention to provide new and improved reversible fan apparatus in which adequate cooling ventilation is provided to the motor when operating in either direction while still providing a design which is efficient and of low cost.

Broadly, the above cited objects are accomplished by providing motor driven reversible fan apparatus in which ventilation is provided to the motor while the fan is being rotated in either direction by utilizing the inner edges of the fan blades in conjunction with the fan spider to act as a centrifugal fan to cause a radial flow of air over the motor regardless of the direction of rotation of the fan.

These and other objects and advantages will become more apparent when considered in view of the following specification and drawings, in which:

FIGURE 1 is a front view of the fan apparatus of the present invention; and

FIG. 2 is a side view in section of the fan apparatus of the present invention taken along the line IIII of FIG. 1.

Referring to FIGS. 1 and 2, the fan apparatus is shown having three

blades

4, 6 and 8. The blades have a curvilinear outer surface and have a concave shape from the frontal view. The inner edges 10, 12 and 14 of the

blades

4, 6 and 8, respectively, are curvilinear in shape and taken together conform substantially to the shape of a circle. A spider member 16 being formed in the shape of a disc is attached to the motor 18 through the axle 20 of the motor. The spider 16 may be either die cast or of pressed steel and is formed in a. flat plate rather than the usual cup shape. The spider 16 is fixed to the axle through the hub 22. The motor 18 is fixed to the frame 24 of the fan apparatus through the

bolts

26 and 28.

The spider 16 has the

slots

30, 32 and 34 cut in the outer edge thereof toward the axle 20. Extending from the inner edge of each of the slots is an L-shaped flange 36. Each of the

fan blades

4, 6 and 8 is riveted to the bottom extension of the respective one of the flanges. The flanges 36 extend rearwardly from the inner planar Patented Oct. 18, 1966 ice surface of the disc shaped spider 16 toward the motor. The

blades

4, 6 and 8 are so disposed that they are a predetermined distance away from the plane of the spider 16 in the axial direction for the motor. Moreover, each of the blades is disposed so that its inner edge 10, 12 and 14 is behind the outer edge or periphery 40 of the spider 16. Thus, the inner edges 10, 12 and 14 of the blades extend beyond the outer edge 40 of the spider toward the axle of the motor. The spider 16 has the

portions

50 and 52, see FIG. 2, which extend outwardly beyond the inner edges of the blades.

Each of the fan blades has what will be designated an outer portion A and an inner portion B. The inner portion is shown shaded in FIG. 2. The outer portions A of the blades are such a configuration to direct air axially. When rotated in one direction air will be directed toward the motor and when rotated in the other direction the air will be directed away from the motor. The inner portions B of the blades act as a small centrifugal fan to direct air radially with respect to the motor when the fan is rotated in either direction; thus creating a flow of air around and through the motor tending to cool the motor regardless of its direction of rotation.

Referring specifically to FIG. 2 and considering the two directions of operation; first, assuming that air is being axially directed toward the motor according to the solid arrows appearing above the axle; and, second, the case where the fan is being rotated in the other direction to force air away from the motor according to the dotted arrows below the axle. In the first case, with the air being blown toward the motor as shown by the solid arrows above the axle, very little air will circulate through the motor from the action of the outer portion A of the blade. The air being forced by the outer portion A is moving at a high velocity and that at the inner portion B is at a much lower velocity. Moreover, due to the extended portion 50 of the disc 16, the inner portion B of the blades cannot get air from the axial flow. However, a low pressure area C is established behind the spider 16, as shown in FIG. 2. Therefore, air is induced to flow, as shown, from the relatively high pressure areas and back through and around the motor, which is the only available path, back to the low pressure area C. Air is thus circulated by the centrifugal action in a radial manner greatly aiding in the ventilation of the motor which would otherwise not be accomplished if it were not for the induced action of the inner portion B of the blade.

Now assuming the sec-0nd case, when the fan is rotating in the other direction with the air being blown away from the motor, as is shown by the dotted arrows below the axle 20; the axially directed air flow is produced due to the action of the outer portion A of the blades. There is some cooling air induced in the axial direction which passes through the motor as shown. However, since axial flow past the inner portions B of the blades is stopped by the extended portion 52 of the spider disc 16, the air will be directed by the spider in a radially outward direction. Low pressure area D is thus created by this circumferential flow. There will then be a flow of induced air through and around the motor by the air passing from a high pressure area, through the motor and then to the low pressure area D.

It may then be seen that in both directions of rotation the inner portion B of the blades are prevented from moving air in the axial direction by the extended

portions

50 and 52 of the spider disc. This causes air to flow in a radially outward direction, from the low pressure areas C and D to cause air to be induced through the motor regardless of the direction of rotation. Approximately, an equal amount of air is induced by this action through the motor in both directions of fan rotation. Since a substantial and adequate volume of cooling air is passed through and around the motor regardless of the direction of rotation thereof, there is no material difference in motor temperatures for the different direc tions of rotation; and consequently, the use of a lower cost motor within given temperature requirements is acceptable.

Although the present invention has been described with a certain degree of particularity, it should be understood that the present disclosure has been made only by way of example and that numerous changes in the details of construction and the fabrication and arrangement of pants may be resorted to Without departing from the scope and spirit of the present invention.

I claim as my invention:

1. In motor driven fan apparatus, a motor including an axle, a disc shaped fan spider member operatively connected to the axle of the motor, a plurality of blades carried by said spider, each of said blades having an inner portion with opposed outside surfaces for moving air radially outward, each of said blades being connected to said spider member with the inner portion of each of said blades extending behind said spider member toward the axle of the motor a predetermined distance and being disposed away from said spider member a predetermined distance toward said motor, whereby the opposed outside surfaces of said inner portions cooperate with the rear surface of said spider to produce a zone of reduced pressure thereat regardless of the axial direction of air flow, said zone of reduced pressure effecting flow of air thereto past and through the motor to cool the latter.

2. In motor driven fan apparatus, the combination of a motor having an axle, a disc shaped spider member operatively connected to the axle of the motor, said spider member having a plurality of slots cut in the edge thereof and having a flange extending from the inside edge of each slot toward the motor, a plurality of blades, each of said blades being connected to one of said flanges with the inner edge of each of said blades extending behind said spider member and being disposed at the side of said spider member towards said motor, said inner edge having opposed outside surfaces cooperatin with the interior surface of said spider to thereby function as a centrifugal fan in both directions of rotation of the motor to create a zone of low pressure adjacent the motor axle causing axial flow of cooling air through and past the motor.

3. In motor driven reversible fan apparatus, the combination of a motor having an axle, a disc shaped spider member operatively connected to the axle of the motor, said spider member having a plurality of flanges extending from the inside surface of said spider member toward the motor, a plurality'of blades, each of said blades having an outer portion for moving air in an axial direction and an inner portion with opposed outside surfaces for moving air in a radially outward direction, each of said blades being connected to one of said flanges with the inner portion of each of said blades extending behind said spider member toward the axle of the motor a predetermined distance and being disposed away from said spider member a predetermined distance toward said motor so that during operation the opposed outside surbination of a motor having an axle, a disc-shaped spidermember operatively connected to the axle of the motor, said spider member having a plurality of slots cutin the edge thereof and having a flange extending from the inside edge of each slot toward the motor, a plurality of blades each of said blades having an outer portion for moving air in an axial direction and an inner portion having an inner edge with opposed outside surfaces for moving air in the radially outward direction, each of said blades being connected to one of said flanges with the inner portion ofeach of said blades extending behind said spider member toward the axle of the motor a predetermined distance and being disposed away from said spider member a predetermined distance toward said,

motor whereby said opposed outside surfaces cooperate with the interior of said spider to provide a radial flow fan which functions regardless of the direction of rotation of the motor, said radial flow fan creating alzone of reduced pressure adjacent one end of the motor, and said reduced pressure inducing flow of air through and past the motor to cool the latter.

References Cited by the Examiner UNITED STATES PATENTS 2,022,417 11/1935 Gilbert et a1 230259 2,212,555 8/1940 Stevens 230259 2,240,663 5/1941 Moore et al. 31062I 2,325,842 8/1943 Findley 23042 2,538,196 1/1951 Hildebrand et a1 230-259 2,616,511 11/1952 Perrott 230259 2,620,970 12/1952 Palmer et al. 230259 2,622,793 12/1952 Gange r et al 230259 FOREIGN PATENTS 478,417 7/1937 Great Britain.

MARK NEWMAN, Primary Examiner.

DONLEY J. STOCKING, SAMUEL LEVINE,

Examiners.

W. L. FREEH, Assistant Examiner.

Claims

1. IN MOTOR DRIVEN FAN APPARATUS, A MOTOR INCLUDING AN AXLE, A DISC SHAPED FAN SPIDER MEMBER OPERATIVELY CONNECTED TO THE AXLE OF THE MOTOR, A PLURALITY OF BLADES CARRIED BY SAID SPIDER, EACH OF SAID BLADES HAVING AN INNER PORTION WITH OPPOSED OUTSIDE SURFACES FOR MOVING AIR RADIALLY OUTWARD, EACH OF SAID BLADES BEING CONNECTED TO SAID SPIDER MEMBER WITH THE INNER PORTION OF EACH OF SAID BLADES EXTENDING BEHIND SAID SPIDER MEMBER TOWARD THE AXLE OF THE MOTOR A PREDETERMINED DISTANCE AND BEING DISPOSED AWAY FROM SAID SPIDER MEMBER A PREDETERMINED DISTANCE TOWARD SAID MOTOR, WHEREBY THE OPPOSED OUTSIDE SURFACES OF SAID INNER PORTION COOPERATE WITH THE