Apparatus and method for separating particles from a cyclonic fluid flow utilizing a movable access member associated with a cyclonic separator
First Claim
Patent Images
1. A separator for separating entrained particles from a fluid flow, the separator comprising:
- a) a cyclone chamber having a cyclonic flow region;
b) a fluid inlet for introducing a fluid flow to the cyclonic flow region wherein the fluid flows cyclonically;
c) a fluid outlet for removing the fluid flow from the cyclone chamber;
d) a particle separator member positioned beneath the cyclonic flow region;
e) a particle receiving chamber disposed beneath the particle separation member for receiving particles separated from the fluid flow; and
, f) an access member associated with the particle separation member, the access member moveable between a closed position and an open position in which the access member is displaced to provide an opening for emptying the particle receiving chamber.
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Abstract
A particle separation member is provided for use with a cyclone separator. The particle separation member divides the separator into a cyclone chamber and a particle receiving chamber. The cyclone chamber and the particle receiving chamber communicate via a plurality of apertures in the particle separation member. The particle separation member is provided with an access member which is movably mounted with respect to the particle separation member for providing access to the particle receiving chamber to empty the collected contents therefrom.
239 Citations
30 Claims
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1. A separator for separating entrained particles from a fluid flow, the separator comprising:
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a) a cyclone chamber having a cyclonic flow region;
b) a fluid inlet for introducing a fluid flow to the cyclonic flow region wherein the fluid flows cyclonically;
c) a fluid outlet for removing the fluid flow from the cyclone chamber;
d) a particle separator member positioned beneath the cyclonic flow region;
e) a particle receiving chamber disposed beneath the particle separation member for receiving particles separated from the fluid flow; and
,f) an access member associated with the particle separation member, the access member moveable between a closed position and an open position in which the access member is displaced to provide an opening for emptying the particle receiving chamber. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
(a) a cleaner head adapted for movement over a floor and having a fluid nozzle positionable adjacent the floor, the nozzle in fluid flow communication via a passageway with the separator fluid inlet;
(b) a handle for moving the cleaner head over the floor; and
,(c) a casing for housing the cyclone chamber.
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11. The separator of claim 10 wherein the casing is pivotally mounted to the cleaner head about a casing rotation axis which is generally perpendicular to the direction of travel of the cleaner head.
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12. The separator of claim 10 wherein the passageway comprises a flexible portion that is positioned external of the cleaner head and the casing and the handle is affixed to the cleaner head.
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13. The separator of claim 11 wherein the access member is pivotally mounted to the particle separation member about a pivot axis and the pivot axis is at an angle to the casing rotation axis when the casing rotation axis is projected to lie in a plane defined by the particle separation member adjacent the pivot axis.
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14. The separator of claim 13 wherein the angle varies between 10°
- and 50°
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- and 50°
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15. The separator of claim 13 wherein the angle is 30°
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16. The separator of claim 11 wherein the cleaner head has a forward position and a rearward portion positioned rearwardly of the forward position and the cyclone chamber has a central portion and a substantial portion of the access member is disposed rearwardly of the central portion.
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17. The separator of claim 16 wherein the essentially all of the access member is disposed rearward of the central portion.
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18. A separator for separating entrained particles from a fluid flow, the separator comprising:
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a) a cyclone chamber for containing a cyclonic flow in a cyclonic flow region;
b) means for introducing a fluid flow to the cyclonic flow region for cyclonic rotation therein;
c) means for removing the fluid flow from the cyclone chamber;
d) particle receiving means disposed beneath the cyclone chamber for receiving particles separated from the fluid flow;
e) separation means for dividing the particle receiving means from the cyclone chamber;
f) transporting means associated with the separation means for connecting the particle receiving means in flow communication with the cyclonic flow region such that, in operation, particles pass through the transporting means to the particle receiving means; and
g) access means for selectively providing access to the particle receiving means via the separation means. - View Dependent Claims (19, 20, 21, 22, 23, 24)
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25. A method of emptying particles from a cyclone separator, the method comprising the steps of:
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a) introducing a fluid to flow cyclonically in a cyclone chamber having a cyclonic flow region;
b) removing particles from the fluid flow in the cyclone chamber to a particle receiving chamber which is in fluid flow communication with the cyclonic flow region, the particle receiving chamber separated from the cyclonic flow region by a particle separation member having an access member movably mounted to the particle separation member;
c) removing the fluid flow from the chamber;
d) storing the particles removed from the fluid flow;
e) terminating the fluid flow into the cyclonic flow region; and
f) inverting the chamber to remove the separated particles. - View Dependent Claims (26, 27, 28, 29, 30)
(a) opening the top of the chamber; and
,(b) emptying the particle receiving chamber by inverting the cyclone chamber to move the access member to the open position.
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27. The method of claim 26 wherein the access member is pivotally mounted to the particle separation member and particle separation chamber is emptied by pivoting the access member to an open position by inverting the cyclone chamber whereby particles accumulated in the particle receiving chamber exit the particle receiving chamber under the influence of gravity.
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28. The method of claim 27 further comprising the step of closing the particle separation member by moving the cyclone chamber to an upright position.
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29. The method of claim 26 further comprising the step of disrupting fluid flow in the particle receiving chamber to reduce cyclonic flow in the particle receiving chamber.
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30. The method of claim 26 wherein the separator comprises a dirt separation mechanism for a vacuum cleaner and the method further comprises passing a cleaning head over a surface to clean the surface.
Specification