Claims
- 1. A 3-way valve comprising:
a) a valve body comprising:
i) an integral central body portion formed of a fluoropolymer, the central body portion having a first downwardly facing valve seat, a second upwardly facing valve seat, the second valve seat positioned above the first valve seat, and a flow channel extending between the valve seats, the flow channel having a minimum inner diameter; ii) an upper body portion formed of a fluoropolymer and not being integral with the central body portion, the upper body portion having a chamber for an actuation mechanism, the upper body portion positioned over the central body portion; iii) a lower body portion formed of a fluoropolymer and not being integral with the central body portion, said lower body sealingly engaged with and below the central engagement portion, said lower body portion having a concave portion facing the first valve seat; ii) a common port intgral with the central body portion, the common port in flow communication with the flow channel; iii) a first port intgral with the central body portion, the first port in flow communication with the flow channel through the first valve seat; and iv) a second port intgral with the central body portion, the second port in flow communication with the flow channel through the second valve seat; and b) a valve stem comprising an integrally formed fluoropolymer fluid control portion and a diaphragm, the fluid flow portion extending through the first valve seat, the flow channel, and the second valve seat; the fluid control portion having a first valve member confrontin the first valve seat, a second valve member confronting the second valve seat, and a channel stem portion extending between the first and second valve members and through the flow channel, the first and second valve members having respective first and second outside diameters which are greater than the minimum inside diameter of the flow channel, the diaphragm compressed between the upper body portion and the central body portion, the diaphragm sealingly engaged with the central body portion.
- 2. The 3-way valve in claim 1, further comprising a pneumatic valve actuator positioned in the actuation chamber and connected to the valve stem, the valve actuator configured to move the fluid control portion between a first position and a second position; the first valve member sealingly engaging the first valve seat when the fluid control portion is in the first position thereby preventing the flow of fluid between the flow channel and the first port; the second valve member sealingly engaging the second valve seat when the fluid control portion is in the second position thereby preventing the flow of fluid between the flow channel and the second port.
- 3. The 3-way valve in claim 2, further comprising a actuator cover extending over the valve actuator thereby enclosing the pneumatic actuator.
- 4. The 3-way valve in claim 2, wherein the first valve member is a bulbous portion which is press-fittable through the first valve seat, the flow channel, and the second valve seat, whereby at least one of the valve body and the bulbous portion is momentarily deformable to facilitate the insertion of the valve stem through the first valve seat, the flow channel, and the second valve seat.
- 5. The valve of claim 1 further comprising a tongue in groove sealing mechanism between the upper body portion and the central body portion.
- 6. The valve of claim 1 wherein the fluid control portion has a control rod receiving portion and the valve stem further comprises a control rod inserted into the control rod receiving portion of the fluid control portion.
- 7. The valve of claim 6, wherein the control rod is connected to the valve actuator.
- 8. The valve of claim 1, wherein the valve body and the second valve member further comprise cooperating valve stem guide portions for aligning the valve stem.
- 9. The valve of claim 1, wherein the fluid control portion of the valve stem is hourglass shaped.
- 10. A 3-way valve comprising:
a) a fluoropolymer valve body having an open interior, a common port, a first port, a second port, a flow portion all contained within the open interior, the valve body having first and second valve seats and a flow channel; the first valve seat in fluid communication with the first port and the second valve seat in fluid communication with the second port, the valve seats and the flow channel having a minimum inner diameter; b) an integrally formed valve stem press-fit through the flow channel, the valve stem having a fluid control portion and an integral diaphragm portion, the fluid flow portion having a first valve member adjacent to the first valve seat, a second valve member adjacent to the second valve seat, and a channel stem portion connecting the first and second valve members and extending through the channel portion; the first and second valve members having outer diameters greater than the minimum inner diameter of the valve seats and the flow channel, whereby the first and second valve members can be selectively moved to sealingly engage the respective valve seats, the diaphragm sealingly engaged with the valve body above the first and second valve seats.
- 11. The 3-way valve in claim 10, wherein the body portion is injection molded of PFA.
- 12. A plastic valve suitable for use with caustic fluids, the valve comprising:
a) a plastic valve body having an integral valve seat; b) a valve stem having a plastic poppet and an integral diaphragm comprised of PTFE, the diaphragm sealingly mounted to the body portion.
- 13. A method for manufacturing a 3-way valve comprising the steps of:
a) injection molding a central PFA valve body having:
i) an integral flow portion having a first valve seat, a second valve seat, and a flow channel extending between the valve seats having a minimum inner diameter; ii) a common port in flow communication with the flow channel; iii) a first port in flow communication with the flow channel through the first valve seat; and iv) a second port in flow communication with the flow channel through the second valve seat; and b) forming a valve stem from a fluoropolymer having an integrally formed fluid control portion and a diaphragm, the fluid flow portion having a first valve member, a second valve member, and a channel stem portion extending between the first and second valve members; the first and second valve members having a maximum outer diameters which is greater than the minimum inner diameter of the flow channel; c) press-fitting the fluid control portion through the first valve seat, the flow channel, and the second valve seat, whereby at least one of the flow portion of the body portion and the second valve member momentarily deforms, resulting in the first valve member being operatively positioned adjacent to the first valve seat, the second valve member being operatively positioned adjacent the second valve seat, and the channel stem portion extending through the flow channel; d) forming from a fluoropolymer a lower body portion with a concave portion; e) sealingly engaging the lower body portion to the central body portion; f) forming from a fluoropolymer an upper body portion; and g) securing the upper body portion on the central body portion and sealingly securing the diaphagm therebetween.
- 14. The method of claim 10 further comprising the step of insertion of a pneumatic actuator in a chamber in the upper body portion.
- 15. The method of claim 10 further comprising the step of insertion of a control rod, comprised of one of the set of stainless steel and PEEK, into the fluid control portion of the valve stem.
- 16. The method of claim 10 further comprising the step of sealing the diaphragm to the central body portion with a tongue and groove connection.
- 17. A method for manufacturing a 3-way valve comprising the steps of:
a) forming an integral central fluoropolymer central body portion having:
i) a flow portion having a first valve seat, a second valve seat, and a flow channel extending between the valve seats having a minimum inner diameter; ii) a common port in flow communication with the flow channel; iii) a first port in flow communication with the flow channel through the first valve seat; and iv) a second port in flow communication with the flow channel through the second valve seat; and b) forming a valve stem from a fluoropolymer having an integrally formed fluid control portion having a first valve member, a second valve member, and a channel stem portion extending between the first and second valve members; the first and second valve members having a maximum outer diameters which is greater than the minimum inner diameter of the flow channel; c) press-fitting the fluid control portion through the first valve seat, the flow channel, and the second valve seat, whereby at least one of the flow portion of the body portion and the second valve member momentarily deforms, resulting in the first valve member being operatively positioned adjacent to the first valve seat, the second valve member being operatively positioned adjacent the second valve seat, and the channel stem portion extending through the flow channel; d) forming from a fluoropolymer a lower body portion with a concave portion; e) sealingly engaging with a tongue in groove connection the lower body portion to the central body portion with the concave portion facing the first valve seat; f) forming from a fluoropolymer an upper body portion with a concave portion; and g) securing the upper body portion on the central body portion with the concave portion facing the second valve seat and with a tongue in groove connection therebetween.
- 18. The method of claim 17 where in the valve stem comprises a diaphragm integral with the fluid flow portion, and the method further comprises the step of securing the diaphagm inbetween the central body portion and the upper body portion.
Parent Case Info
[0001] This is a continuation-in-part of application Ser. No. 09/274,618 filed Mar. 23, 1999. Said application is incorporated herein by reference.
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09274618 |
Mar 1999 |
US |
Child |
09954472 |
Sep 2001 |
US |