A microfluidic pump composed of a cylindrical chamber, transfer ports having an inlet port and an outlet port positioned on the cylindrical chamber, a magnet member attached outside the cylindrical chamber, a magnetic piston in sliding communication with an inner wall of the cylindrical chamber, a m
A microfluidic pump composed of a cylindrical chamber, transfer ports having an inlet port and an outlet port positioned on the cylindrical chamber, a magnet member attached outside the cylindrical chamber, a magnetic piston in sliding communication with an inner wall of the cylindrical chamber, a magnetic material, and a valve member. The magnetic material self assembles to form a seal plug separating the inlet and outlet port, where the seal plug forms a link between the magnet member and the magnetic piston to rotate the magnetic piston along the inner wall of the cylindrical chamber, where a working fluid suctioned within the cylindrical chamber is discharged at the outlet port during a movement of the magnetic piston from the inlet to outlet port. The valve member positioned at the outlet port prevents the backflow of the working fluid towards the inlet port after the magnetic piston rotates past the outlet port.
대표청구항▼
1. A microfluidic pump, comprising; a generally cylindrical chamber;transfer ports comprising an inlet port and an outlet port circumferentially positioned on the cylindrical chamber;a magnet member fixedly attached outside the cylindrical chamber to generate a magnetic field within the cylindrical
1. A microfluidic pump, comprising; a generally cylindrical chamber;transfer ports comprising an inlet port and an outlet port circumferentially positioned on the cylindrical chamber;a magnet member fixedly attached outside the cylindrical chamber to generate a magnetic field within the cylindrical chamber;a magnetic piston positioned within and in sliding communication with an inner wall of the cylindrical chamber;a magnetic fluid contained within the cylindrical chamber that, in the presence of the magnetic field, self assembles to form a seal plug connecting the magnetic piston with the magnet member, wherein the seal plug separates the inlet port from the outlet port, wherein the seal plug rotates the magnetic piston along the inner wall of the cylindrical chamber for suctioning a working fluid through the inlet port and discharging the working fluid through the outlet port during one sweep of the magnetic piston from the inlet port to the outlet port; anda valve member positioned at the outlet port configured to prevent backflow of the working fluid towards the inlet port after the magnetic piston rotates past the outlet port. 2. The microfluidic pump of claim 1, wherein the seal plug is a slug of magnetic material which is held by a stationary magnetic field produced by the magnet member. 3. The microfluidic pump of claim 2, wherein one end of the seal plug is slidably attached in an upper section of the cylindrical chamber between the inlet and the outlet ports, and another end is attached to the magnetic piston. 4. The microfluidic pump of claim 1, wherein the magnetic piston sweeps the cylindrical chamber counterclockwise from the inlet port to the outlet port displacing a volume of the working fluid to be pushed into the outlet port. 5. The microfluidic pump of claim 1, wherein the inlet port and the outlet port provide free access with each other when the rotating magnetic piston approaches a region between the inlet port and the outlet port positioned in the cylindrical chamber. 6. The microfluidic pump of claim 5, wherein the valve member is configured to prevent backflow of the working fluid from the outlet port to the inlet port. 7. The microfluidic pump of claim 1, wherein the seal plug is formed contiguously between the magnetic piston and the magnet member in the cylindrical chamber as the magnetic piston rotates. 8. The microfluidic pump of claim 7, wherein when the magnetic piston moves away from the magnet member, a portion of the magnetic fluid is affected by a magnetic field of the magnetic piston and sticks to the magnetic piston. 9. The microfluidic pump of claim 8, wherein a portion of the seal plug moves along with the rotating magnetic piston while another portion of the seal plug is always held in a region below the magnet member. 10. The microfluidic pump of claim 9, wherein dimensions of the magnetic member generating the magnetic field and the magnetic fluid are compatible to avoid separation of two seal plugs from each other and to sustain a thickness of the seal plug within a height of the cylindrical chamber. 11. The microfluidic pump of claim 1, wherein, during a complete cycle of pumping, a net positive flow of the working fluid from the inlet port into the outlet port is equal to a volume of the cylindrical chamber excluding spaces occupied by the magnetic piston and the magnetic fluid. 12. A magnetic piston-cylinder assembly of a microfluidic pump, comprising: a magnetic piston positioned within and in sliding communication with an inner wall of a cylindrical chamber;a magnetic fluid contained within the cylindrical chamber that, in the presence of a magnetic field, self assembles to form a seal plug connecting the magnetic piston with a magnet member positioned outside the cylindrical chamber, wherein the seal plug separates an inlet port from an outlet port of the cylindrical chamber, wherein the seal plug rotates the magnetic piston along the inner wall of the cylindrical chamber for suctioning a working fluid through the inlet port and discharging through the outlet port during one sweep of the magnetic piston from the inlet port to the outlet port. 13. A method of pumping a working fluid, comprising; providing a microfluidic pump, comprising: a generally cylindrical chamber;transfer ports comprising an inlet port and an outlet port circumferentially positioned on the cylindrical chamber;a magnet member fixedly attached outside the cylindrical chamber;a magnetic piston positioned within and in sliding communication with an inner wall of the cylindrical chamber;a magnetic fluid contained within the cylindrical chamber; anda valve member positioned at the outlet port;generating a magnetic field within the cylindrical chamber via the magnet member;self-assembling the magnetic fluid in the presence of the magnetic field, to form a seal plug connecting the magnetic piston with the magnet member;separating the inlet port from the outlet port via the seal plug;rotating the magnetic piston along the inner wall of the cylindrical chamber via the seal plug for suctioning a working fluid through the inlet port;discharging the working fluid through the outlet port during one sweep of the magnetic piston from the inlet port to the outlet port; andpreventing backflow of the working fluid towards the inlet port after the magnetic piston rotates past the outlet port.
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이 특허에 인용된 특허 (6)
Alexeff Igor (Oak Ridge TN), Electromagnetic apparatus operating on electrically conductive fluids.
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