MEMS check valve

US 9,528,633 B2
Filed: 12/03/2013
Issued: 12/27/2016
Est. Priority Date: 12/17/2012
Status: Active Grant

First Claim

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1. A micro electro-mechanical systems (MEMS) check valve, comprising:

a supporting portion having a first perforation therethrough sized to permit fluid flow; and

a displaceable portion having a second perforation therethrough sized to permit fluid flow, the displaceable portion being disposed between the supporting portion and a valve seat, the displaceable portion comprising an outer flexible region and being moveable relative to the supporting portion between a closed position inhibiting fluid flow through the check valve and an open position permitting fluid flow through the check valve, wherein the first and second perforations are offset to inhibit fluid flow when the displaceable portion is in the closed position and wherein a fluid flows through the first and second perforations when the displaceable portion is in the open position, and wherein the displaceable portion abuts against the supporting portion when the displaceable portion is in the closed position.

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Abstract

A MEMS check valve includes a supporting portion having a first perforation therethrough sized to permit fluid flow and includes a displaceable portion having a second perforation therethrough sized to permit fluid flow. The displaceable portion may be moveable relative to the supporting portion between a closed position inhibiting fluid flow through the valve and an open position permitting fluid flow through the valve. The first and second perforations are offset to inhibit fluid flow when the displaceable portion is in the first position, and fluid may flow through the first and second perforations when the displaceable portion is in the second position.

215 Citations

19 Claims

1. A micro electro-mechanical systems (MEMS) check valve, comprising:
- a supporting portion having a first perforation therethrough sized to permit fluid flow; and
  
  a displaceable portion having a second perforation therethrough sized to permit fluid flow, the displaceable portion being disposed between the supporting portion and a valve seat, the displaceable portion comprising an outer flexible region and being moveable relative to the supporting portion between a closed position inhibiting fluid flow through the check valve and an open position permitting fluid flow through the check valve, wherein the first and second perforations are offset to inhibit fluid flow when the displaceable portion is in the closed position and wherein a fluid flows through the first and second perforations when the displaceable portion is in the open position, and wherein the displaceable portion abuts against the supporting portion when the displaceable portion is in the closed position.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The MEMS check valve of claim 1, wherein the supporting portion includes a body portion, and the displaceable portion abuts the supporting portion such that the second perforation is aligned with the body portion when the displaceable portion is in the closed position.
  - 3. The MEMS check valve of claim 1, wherein the displaceable portion is formed of parylene.
  - 4. The MEMS check valve of claim 1, wherein the supporting portion is comprised of parylene.
  - 5. The MEMS check valve of claim 1, wherein the supporting portion is rigid.
  - 6. The MEMS check valve of claim 1, wherein the supporting portion is formed of at least one of silicon, gold, titanium, or other metal.
  - 7. The MEMS check valve of claim 1, comprising a chip having a passageway therethrough, the MEMS check valve being operable to permit one-way fluid flow through the passageway, wherein an axis of the passageway is off-set from a central axis of the displaceable portion.

8. A micro electro-mechanical systems (MEMS) check valve chip, comprising:
- a chip body having a first side and an opposing second side;
  
  a first passage extending from the first side to the second side of the chip body;
  
  a second passage extending from the first side to the second side of the chip body;
  
  a first fluid restriction on the first side associated with the first passage, the fluid restriction being configured to inhibit fluid flow into the first passage and permitting fluid flow out of the first passage; and
  
  a second fluid restriction on the first side associated with the second passage, the second fluid restriction being configured to inhibit fluid flow out of the second passage and to permit fluid flow into the second passage, the second fluid restriction including a flexible displaceable portion positioned between a rigid supporting portion and the first side of the chip body.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. The MEMS check valve chip of claim 8, wherein the displaceable portion is moveable relative to the supporting portion between a closed position inhibiting fluid flow through the valve chip and an open position permitting fluid flow through the valve chip.
  - 10. The MEMS check valve chip of claim 9, wherein the supporting portion includes a body portion, and the displaceable portion abuts the supporting portion such that a perforation formed in the displaceable portion is aligned with the body portion when the displaceable portion is in the closed position.
  - 11. The MEMS check valve chip of claim 9, wherein the displaceable portion abuts against the supporting portion when the displaceable portion is in the closed position.
  - 12. The MEMS check valve chip of claim 9, wherein the displaceable portion is formed of parylene.
  - 13. The MEMS check valve chip of claim 9, wherein the supporting portion is comprised of parylene.
  - 14. The MEMS check valve chip of claim 9, wherein the supporting portion is rigid.
  - 15. The MEMS check valve chip of claim 9, wherein the supporting portion is formed of at least one of silicon, gold, titanium, or other metal.
  - 16. The MEMS check valve chip of claim 9, comprising a passageway extending between the first passage and the second passage, the MEMS check valve chip being operable to permit one-way fluid flow through the passageway, wherein an axis of the passageway is off-set from a central axis of the flexible portion.

17. A method comprising:
- forming a fluid passageway through a MEMS chip having a first side and a second side;
  
  creating a displaceable member on the first side of the chip over the passageway, the displaceable member having at least one displaceable member perforation therethrough configured to permit the flow of a fluid therethrough, the displaceable member further having an outer flexible region; and
  
  creating a supporting portion over the displaceable member on the first side of the chip, the supporting portion having at least one supporting portion perforation therethrough configured to permit the flow of the fluid therethrough, wherein the displaceable member perforation is aligned with a solid portion of the supporting portion when the displaceable member is in a first position to inhibit fluid flow through the displaceable member perforation, andwherein the displaceable member perforation is spaced from the solid portion of the supporting portion when the displaceable member is in a second position to permit fluid flow through the displaceable member perforation.
- View Dependent Claims (18, 19)
- - 18. The method of claim 17, comprising:
    - forming a second fluid passageway through the MEMS chip; and
      
      creating a second displaceable member on the first side of the chip over the second fluid passageway, the second displaceable member having at least one displaceable member perforation therethrough configured to permit the flow of a fluid therethrough.
  - 19. The method of claim 17, comprising:
    - securing the displaceable member along its periphery to the MEMS chip; and
      
      stacking the MEMS chip on a second MEMS chip to form a chamber therebetween.

Specification

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Current Assignee
Alcon Incorporated
Original Assignee
Novartis Ag
Inventors
Dos Santos, Cesario Pereira, Field, Leslie A.
Primary Examiner(s)
Lee, Kevin
Assistant Examiner(s)
NICHOLS, PHYLLIS M

Application Number

US14/094,903
Publication Number

US 20140166140A1
Time in Patent Office

1,120 Days
Field of Search

137/859, 137/15.18, 137/597, 137/512.15, 137/852, 251/129.01, 251/367
US Class Current

1/1
CPC Class Codes

F16K 15/144   the closure elements being ...

F16K 2099/0088   Implanted devices

F16K 99/0015   Diaphragm or membrane valves

F16K 99/0057   the fluid being the circula...

Y10T 29/49412   with assembly, disassembly ...

MEMS check valve

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

215 Citations

19 Claims

Specification

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MEMS check valve

First Claim

3 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

215 Citations

19 Claims

Specification

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Solutions

Use Cases

Quick Links