Gas separation – Multiple separators – each with discrete and longitudinally... – Centrifugal
Reexamination Certificate
2002-12-30
2004-11-16
Chiesa, Richard L. (Department: 1724)
Gas separation
Multiple separators, each with discrete and longitudinally...
Centrifugal
C055S429000, C055S432000, C055S459100, C055SDIG003, C096S405000, C210S512200
Reexamination Certificate
active
06818033
ABSTRACT:
FIELD OF INVENTION
The invention concerns separators which separate one material from another based on their relative densities. In a domestic context a cyclone-based vacuum cleaner is a separator for separating dirt and dust particles from air. Similar devices are employed in industrial and commercial processes, in laboratories and in clinical and hospital environments for separating particulate material from fluids—normally air or gaseous mixture; or particulate material for liquids. In particular, but not exclusively the invention is applicable to vacuum cleaners in which one or more cyclones are set up within the apparatus for the purpose of efficiently separating dust and dirt particles from an incoming airstream.
BACKGROUND TO THE INVENTION
In the separator/vacuum cleaner shown in PCT/GB98/03306, the collector
14
receives dust and dirt particles which have been separated by the secondary cyclone effect in the conical chamber
73
. Dust and particles from the primary cyclone separation effect in the region
13
, are collected in region
31
of collector
32
, and when the level of the dust and particles in
31
gets close to the flange
21
, the collector
32
must be emptied.
For satisfactory operation, the interior of
14
must be kept separate from
31
.
However in practice it is found that even when
31
is full, the volume of dust and dirt particles in
14
is a small fraction of that in
31
, and the useful volume of
32
is very substantially reduced by the secondary cyclone collection chamber
14
.
OBJECT OF THE INVENTION
It is an object of the present invention to provide an improved particle collecting arrangement for collecting particles from two separation stages of a multistage air/particle separator.
SUMMARY OF THE INVENTION
1. According to the present invention apparatus for separating particulate material from an airstream established by suction, comprises:
(1) a primary separation chamber in which particles are separated from the airstream therein by centrifugal force;
(2) a main particle collecting region into which the particles separated by the primary separation can fall under gravity;
(3) a secondary separation chamber downstream of the primary chamber, to which air and particles not separated in the first chamber, pass;
(4) an air outlet in the secondary chamber through which air substantially free of particles can exit;
(5) an intermediate particle collecting region associated with the secondary chamber, in which particles collect after separation by centrifugal force from the air flowing through the secondary chamber;
(6) a valve between the intermediate particle collecting region and a second particle collecting region, which is closed while air flows through the apparatus but which is opened when airflow ceases to allow particles in the intermediate region to pass into the second region.
The second collecting region may be separate from the main particle collecting region, but advantageously the main particle collecting region also comprises the second particle collecting region.
The valve means is operable manually, or electrically, but preferably the valve operates in response to the flow of air through the apparatus so as to become closed when the air flow reaches and exceeds a given rate of flow, and opens when air fluid flow falls below a given rate of flow.
The valve may comprise a ball valve comprising a captive lightweight ball which is lifted by the airflow to close an orifice at one end of the secondary chamber, and which will fall back under gravity to open the orifice when the airflow ceases.
A baffle may be provided downstream of the valve to reduce the tendency for material beyond the valve to be sucked back through the valve while the air flow is being established.
A baffle may be located between the intermediate and second regions to create a tortuous path for particulate material therethrough.
In either event the baffle may comprise a helix.
The entry point of the helix may be spaced from the exit from the secondary separation chamber.
The gap between the entrance to the helix and the exit from the secondary separation chamber is in the range 4 to 6.4 mm.
The helix may have two complete turns.
Typically a gap of the order of 4 mm exists between the ball and the valve seating, when open.
The valve seating may include an annular seal so that when the ball is held thereagainst by suction, there is no tendency for air to leak past the ball.
Alternatively the closure member may present a conical or frusto-conical surface to an annular seating, which preferably includes an O-ring seal for engagement by the said surface to close the valve.
A spring may to advantage be provided acting on the ball or other closure in a direction to open the valve.
Preferably a level sensing device is provided in the or each particle collecting region to indicate when the contents of the collecting region has reached a given level, requiring it to be emptied.
The sensing device typically includes a switch for generating an alarm and/or interrupting the power supply to the suction producing means.
The invention is not limited to apparatus for separating particles from air but may be employed in apparatus operating in a similar way to separate particulate material from a liquid (where the particulate material is more dense than the liquid) or one liquid from another liquid (again where there is a difference in density of the two liquids).
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Barnes & Thornburg LLP
Chiesa Richard L.
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