HIGH VOLUME VACUUM PUMP FOR CONTINUOUS OPERATION
First Claim
1. A vacuum pump assembly comprising:
- a) A vacuum pump body, the vacuum pump body defining a cylindrical internal pump chamber having a first circular wall and an opposed second circular wall separated by an axial width and an internal circumferential surface;
b) A rotary vane having a cylindrical hub having an axial width and a plurality of outwardly projecting slots, each of the plurality of outwardly projecting slots slidably receiving a corresponding one of a plurality of vanes, each of the plurality of vanes having a distal leading edge having substantially the same width as the axial width of the internal pump chamber and the axial width of the rotary vane, the rotary vane rotatable about a rotation axis radially removed from the centre of the cylindrical internal pump chamber;
c) An inlet in fluid communication with the cylindrical internal pump chamber;
d) At least one outlet in fluid communication with the cylindrical internal pump chamber;
e) A rotary power source abutting the vacuum pump body and fluidly communicating with the cylindrical internal pump chamber of a cooling space defined between the rotary power source and the vacuum pump body, the cooling space fluidly communicating with the cylindrical internal pump chamber by way of the at least one outlet;
the rotary power source having a rotating shaft, the rotating shaft extending along the rotation axis and operably connected to the rotary vane;
f) An electronics housing positioned adjacent the vacuum pump body; and
g) An exhaust orifice communicating with the cooling spacewherein as the rotary vane is rotated a first of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of a first of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber and dividing the internal pump chamber into a first abbreviated crescent shaped working space in communication with the inlet and as the rotary vane continues to rotate a second of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of the second of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber and the internal pump chamber is subsequently divided into a second abbreviated crescent shaped working space defined between the first of the plurality of vanes and the second of the plurality of vanes, the at least one outlet fluidly communicating with the second abbreviated crescent shaped working space.
1 Assignment
0 Petitions
Accused Products
Abstract
In at least one embodiment the present invention provides a vacuum pump assembly having a vacuum pump body defining a cylindrical internal pump chamber housing a rotary vane rotatable about an axis radially removed from the centre of the cylindrical internal pump chamber, an inlet, at least one outlet, a rotary power source abutting the vacuum pump body and having a proximal surface fluidly communicating with the internal pump chamber by way of the at least one outlet; the rotary power source having a rotating shaft operably connected to the rotary vane, and an electronics housing positioned adjacent the vacuum pump body such that as the rotary vane is rotated a first abbreviated crescent shaped working space is defined in communication with the inlet and as the rotary vane continues to rotate a second abbreviated crescent shaped working space is defined in communication with the at least one outlet.
22 Citations
25 Claims
-
1. A vacuum pump assembly comprising:
-
a) A vacuum pump body, the vacuum pump body defining a cylindrical internal pump chamber having a first circular wall and an opposed second circular wall separated by an axial width and an internal circumferential surface; b) A rotary vane having a cylindrical hub having an axial width and a plurality of outwardly projecting slots, each of the plurality of outwardly projecting slots slidably receiving a corresponding one of a plurality of vanes, each of the plurality of vanes having a distal leading edge having substantially the same width as the axial width of the internal pump chamber and the axial width of the rotary vane, the rotary vane rotatable about a rotation axis radially removed from the centre of the cylindrical internal pump chamber; c) An inlet in fluid communication with the cylindrical internal pump chamber; d) At least one outlet in fluid communication with the cylindrical internal pump chamber; e) A rotary power source abutting the vacuum pump body and fluidly communicating with the cylindrical internal pump chamber of a cooling space defined between the rotary power source and the vacuum pump body, the cooling space fluidly communicating with the cylindrical internal pump chamber by way of the at least one outlet;
the rotary power source having a rotating shaft, the rotating shaft extending along the rotation axis and operably connected to the rotary vane;f) An electronics housing positioned adjacent the vacuum pump body; and g) An exhaust orifice communicating with the cooling space wherein as the rotary vane is rotated a first of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of a first of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber and dividing the internal pump chamber into a first abbreviated crescent shaped working space in communication with the inlet and as the rotary vane continues to rotate a second of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of the second of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber and the internal pump chamber is subsequently divided into a second abbreviated crescent shaped working space defined between the first of the plurality of vanes and the second of the plurality of vanes, the at least one outlet fluidly communicating with the second abbreviated crescent shaped working space. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
-
-
15. A vacuum pump assembly comprising:
-
a) A vacuum pump body, the vacuum pump body defining a cylindrical internal pump chamber having a first circular wall and an opposed second circular wall separated by an axial width and an internal circumferential surface, the vacuum pump body defining a second internal cavity adjacent the cylindrical internal pump chamber, the vacuum pump body having a shaft bore extending between the cylindrical internal pump chamber and the second internal cavity; b) A rotary vane having a cylindrical hub having an axial width and a plurality of outwardly projecting slots, each of the plurality of outwardly projecting slots slidably receiving a corresponding one of a plurality of vanes, each of the plurality of vanes having a distal leading edge having the same width as the axial width of the cylindrical internal pump chamber and the axial width of the rotary vane, the rotary vane rotatable about a rotation axis that is radially removed from the central axis of the cylindrical internal pump chamber; c) An inlet, the inlet including a check valve and fluidly communicating with the cylindrical internal pump chamber; d) At least one outlet, the at least one outlet connecting the cylindrical internal pump chamber in fluid communication with the second internal cavity; e) A rotary power source abutting the vacuum pump body and fluidly communicating with the second internal chamber by way of a cooling space defined between the vacuum pump body and the rotary power source;
the rotary power source having a rotating shaft, the rotating shaft extending along the rotation axis and received in the shaft bore and operably connected to the rotary vane;f) An exhaust orifice, the exhaust orifice extending through the vacuum pump body and connecting the cooling space and the external environment in fluid communication; and g) An electronics housing positioned adjacent the vacuum pump body wherein as the rotary vane is rotated a first of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of a first of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber thereby dividing the internal pump chamber into a first abbreviated crescent shaped working space in communication with the inlet and as the rotary vane continues to rotate a second of the plurality of vanes extends outwardly under centrifugal acceleration such that the distal leading edge of the second of the plurality of vanes abuts the internal circumferential surface of the internal pump chamber and the internal pump chamber is subsequently divided into a second abbreviated crescent shaped working space defined between the first of the plurality of vanes and the second of the plurality of vanes, the at least one outlet fluidly communicating with the second abbreviated crescent shaped working space. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
-
Specification