Vacuum cleaner-blower assembly with sound absorbing arrangement
First Claim
1. A vacuum cleaner-blower assembly comprising, in combination, an electric motor having a commutator assembly adjacent one end and an output shaft at its other end, a housing for said motor enclosing said commutator assembly and having elongate inlet slots on the periphery of said housing for admission of air to said housing, an axial vane cooling fan on said output shaft within said housing, sound absorbing material consisting solely of a disc shaped mat juxtaposed in the discharge flow from said axial cooling fan and normal to said shaft, said housing having elongate outlet slots on the periphery of said housing and located radially outwardly of said mat, said fan drawing cooling air inwardly through said inlet slots, over said commutator assembly and over and through the motor, impinging the air generally perpendicularly against said sound absorbing mat and discharging the air outwardly through said outlet slots;
- an impeller on said output shaft outwardly of said motor housing, a casing and a support disc enclosing said impeller, said casing being connected to said motor housing, said sound absorbing material lying against said support disc, said sound absorbing material having an opening for said output shaft, said support disc supporting said sound absorbing material and being located adjacent said impeller, said impeller comprising a plurality of curved vanes facing radially and axially away from said motor and each comprising an inner portion curved forwardly in the direction of impeller rotation and an outer or tip portion curved rearwardly relative to the direction of impeller rotation, said inner portions projecting axially beyond said tip portions in the direction away from said motor, said casing including a tubular inlet chamber surrounding the axially extending portions of the inner portions of said vanes, a generally transverse wall paralleling and enclosing the tip portions of said vanes and an exhaust chamber surrounding the outer periphery of said vanes, said exhaust chamber comprising a volute chamber of linearly increasing cross-sectional area leading to a generally tangential outlet;
said impeller upon energization of said motor rotating within said casing to draw fluid at high vacuum pressure axially into said tubular inlet chamber, to discharge the fluid without turbulence radially into said volute chamber and to discharge the fluid through said tangential outlet;
whereby the assembly provides a vacuum connection at said tubular inlet chamber and a blower connection at said tangential outlet and produces substantial fluid force and volume of flow with minimal cooling fan and impeller noise and power consumption.
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Accused Products
Abstract
A quiet and powerful vacuum cleaner-blower assembly comprises an improved quiet operating electric motor coupled to and driving an improved quiet operating blower. The motor has improved cooling air flow with cooling air inlet and discharge openings disposed to minimize noise. An axial flow cooling air fan impinges the cooling air onto sound absorbing material before discharging the cooling air from the motor. The blower has a high efficiency impeller utilizing forward and backward curved vanes which discharge air into a casing having a chamber with a cross-sectional flow area which linearly increases as air moves around the periphery, resulting in quiet operation and increased capacity with a less than expected increase in power consumption. The vacuum cleaner-blower assembly may be operated in conjunction with stationary guide blades for improving the flow of air into the impeller, resulting in still further increase in capacity without substantial increase in noise or power consumption.
87 Citations
7 Claims
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1. A vacuum cleaner-blower assembly comprising, in combination, an electric motor having a commutator assembly adjacent one end and an output shaft at its other end, a housing for said motor enclosing said commutator assembly and having elongate inlet slots on the periphery of said housing for admission of air to said housing, an axial vane cooling fan on said output shaft within said housing, sound absorbing material consisting solely of a disc shaped mat juxtaposed in the discharge flow from said axial cooling fan and normal to said shaft, said housing having elongate outlet slots on the periphery of said housing and located radially outwardly of said mat, said fan drawing cooling air inwardly through said inlet slots, over said commutator assembly and over and through the motor, impinging the air generally perpendicularly against said sound absorbing mat and discharging the air outwardly through said outlet slots;
- an impeller on said output shaft outwardly of said motor housing, a casing and a support disc enclosing said impeller, said casing being connected to said motor housing, said sound absorbing material lying against said support disc, said sound absorbing material having an opening for said output shaft, said support disc supporting said sound absorbing material and being located adjacent said impeller, said impeller comprising a plurality of curved vanes facing radially and axially away from said motor and each comprising an inner portion curved forwardly in the direction of impeller rotation and an outer or tip portion curved rearwardly relative to the direction of impeller rotation, said inner portions projecting axially beyond said tip portions in the direction away from said motor, said casing including a tubular inlet chamber surrounding the axially extending portions of the inner portions of said vanes, a generally transverse wall paralleling and enclosing the tip portions of said vanes and an exhaust chamber surrounding the outer periphery of said vanes, said exhaust chamber comprising a volute chamber of linearly increasing cross-sectional area leading to a generally tangential outlet;
said impeller upon energization of said motor rotating within said casing to draw fluid at high vacuum pressure axially into said tubular inlet chamber, to discharge the fluid without turbulence radially into said volute chamber and to discharge the fluid through said tangential outlet;
whereby the assembly provides a vacuum connection at said tubular inlet chamber and a blower connection at said tangential outlet and produces substantial fluid force and volume of flow with minimal cooling fan and impeller noise and power consumption. - View Dependent Claims (2)
- an impeller on said output shaft outwardly of said motor housing, a casing and a support disc enclosing said impeller, said casing being connected to said motor housing, said sound absorbing material lying against said support disc, said sound absorbing material having an opening for said output shaft, said support disc supporting said sound absorbing material and being located adjacent said impeller, said impeller comprising a plurality of curved vanes facing radially and axially away from said motor and each comprising an inner portion curved forwardly in the direction of impeller rotation and an outer or tip portion curved rearwardly relative to the direction of impeller rotation, said inner portions projecting axially beyond said tip portions in the direction away from said motor, said casing including a tubular inlet chamber surrounding the axially extending portions of the inner portions of said vanes, a generally transverse wall paralleling and enclosing the tip portions of said vanes and an exhaust chamber surrounding the outer periphery of said vanes, said exhaust chamber comprising a volute chamber of linearly increasing cross-sectional area leading to a generally tangential outlet;
- 3. In a vacuum cleaner-blower assembly including a blower having a casing and impeller, and an electric motor having a commutator at one end and an output shaft at the other, the improvement comprising a housing for the motor having inlet slots in the peripheral wall thereof adjacent the commutator assembly for admitting cooling air into said housing adjacent said one end of said motor and having outlet slots in the peripheral wall thereof surrounding said shaft for discharging cooling air from said housing at the other end of said motor, an axial flow fan on said shaft adjacent said outlet slots for cooling said motor, and sound absorbing means consisting solely of a disc shaped mat located within said housing, juxtaposed parallel to and downstream of said fan and adjacent said outlet slots, said sound absorbing means having an opening therein for receiving said output shaft, said sound absorbing means lying against and being supported by one of said housing and casing, whereby air is drawn by said fan laterally into said housing through said inlet slots, over the commutator assembly and over and through the motor, impinged axially and normally against said sound absorbing means, and then discharged laterally through said outlet slots.
Specification