CA1130168A - One-way flex valve - Google Patents
One-way flex valveInfo
- Publication number
- CA1130168A CA1130168A CA379,396A CA379396A CA1130168A CA 1130168 A CA1130168 A CA 1130168A CA 379396 A CA379396 A CA 379396A CA 1130168 A CA1130168 A CA 1130168A
- Authority
- CA
- Canada
- Prior art keywords
- cap
- rib
- diaphragm
- valve
- inlet port
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 230000002093 peripheral effect Effects 0.000 claims abstract description 8
- 230000006835 compression Effects 0.000 claims description 4
- 238000007906 compression Methods 0.000 claims description 4
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 4
- 239000012530 fluid Substances 0.000 abstract description 11
- 239000007788 liquid Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 229920001971 elastomer Polymers 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 229920003023 plastic Polymers 0.000 description 1
- 229920001296 polysiloxane Polymers 0.000 description 1
- 230000035945 sensitivity Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 125000000391 vinyl group Chemical group [H]C([*])=C([H])[H] 0.000 description 1
- 229920002554 vinyl polymer Polymers 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Landscapes
- Check Valves (AREA)
Abstract
ONE-WAY FLEX VALVE
Ricky R. Ruschke Bette R. Schwades ABSTRACT OF THE DISCLOSURE
A check valve is provided comprising a cap having an inlet port and a body with an internal recess whose periphery is engaged with the cap and contains an outlet port. A rib extends across the body recess and is supported and urged against the cap by the rib substan-tially along the entire length of the rib. The diaphragm is engaged against the cap to close the valve, with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when a predetermined fluid pressure is exerted at the inlet port.
Ricky R. Ruschke Bette R. Schwades ABSTRACT OF THE DISCLOSURE
A check valve is provided comprising a cap having an inlet port and a body with an internal recess whose periphery is engaged with the cap and contains an outlet port. A rib extends across the body recess and is supported and urged against the cap by the rib substan-tially along the entire length of the rib. The diaphragm is engaged against the cap to close the valve, with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when a predetermined fluid pressure is exerted at the inlet port.
Description
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This is a division of copending Canadian Patent Application Serial No. 327,0~ filed May 7, 1979.
B~CKGROUND OF THE INVENTION
This invention relates to an improved check valve for use in fluid control and is particularly suited for use in medical administration sets.
An object o~ the present invention is to provide ~or a more reliable check valve that can withstand high back pressure without failure.
A further object o~ the present invention is to provide for improved aerodynamic flow of the liquid within the valves when it is operating.
A still further object of the present invention is to provide for a valve assembled from only a small number of elements.
- ~nother object of the present invention is to provide for sufficient support of the valve diaphragm to prevent unwanted movement of the diaphragm during operation.
A further object of the invention is to provide for increased sensitivity of the valve to opening and closing pressures.
Other objects and advantages of the present invention - will become apparent as the description proceeds.
SU~ARY OF T~E IN~ENTION
The above objects are met by the invention of the parent application which broadly provides a check valve which comprises: a cap; an inlet port extending from the cap, the inlet port defining a bore which extends through the inlet port; a body defining an internal opening and in peripheral engagement with the cap; an outlet port extending from the body and defining a bore which extends through the outlet port; a rib carried by the i body and extending across the opening; and a flexible diaphragm located within the opening and supported and urged against the cap by the rib substantially along the entire length of the rib, ;~
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Lhe diaphragm being engaged against -the cap to close -the valve with the peripheral edges of the diaphragm being adapted to bend away from -the cap to open the valve when a predetermined fluid pressure differential exists between the inlet port and the outlet port; the inlet port having an area less than 36 percent of the area of the flexible diaphragm, whereby the diaphragm is prevented from being pushed into the inlet port as a result of back pressure.
On the other hand the invention according to the present divisional application meets the above objects by providing a check valve which comprises: a cap; a generally circular inlet port extending from the cap, the inlet port def ning a bore which extends through the inlet port; a body defining a generally hemispherical internal opening and in peripheral engagement with the cap; a generally circular outlet port extending from the body and defining a bore which extends through the outlet port; a rib carried by and integral with the body and extending diametrically across the opening, the rib having its length longer than its width and substantially dividing the body recess into two substantially equal chambers, but defining a passage in communication with the outlet port bore; and a flexible diaphragm within the opening and supported and urged against the cap by the rib substantially along the entire length of the rib, the compression on the diaphragm by : : -the rib against the cap is such that the diaphragm at the diaphragm compression area maintains at least 30 percent of its original thickness, the diaphragm being engaged against the ;.
cap to close the va:Lve with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when ~-the opening pressure is positive, but which closes the valve when the back pressure under a flowing condition is less than~
15 inches of water, the diaphragm being a disc of uniform thickness whos0 diameter is sobstantially ~ 2 :
equal to the leng-th of the rib and diameter of the body opening and whose thickness is less than 20 percent of the disc diame-ter and less than the width of the rib.
A more detailed explanation of the invention is provided in the following description and claims, and is illustrated in the accompanying drawing.
BRIEF DESCRIPTION OF THE DRAWINGS
FIGURE 1 is an exploded perspective view of a check , valve constructed in accordance with the principles of the present invention;
FIGURE 2 is a top view thereof, with a portion broken for clarity;
FIGURE 3 is a vertical cross-sectional view thereof, `
taken along the plane of the line 3-3 of FIGURE 2; and FIGURE 4 is a side elevational view of the rib, showing a portion of the device in cross-section.
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DETAILED DESCRIPTION OF THE
ILLUSTRATIVE EMBODIMENT _ Referring to the drawings, the check valve includes a cap 10 containing an inlet port generally designated 12. In its upper region, inlet 12 has a cylindrically-shaped bore 14, and in its lower portion inlet 12 has a smaller diameter bore 16. ~he walls 18 then slope outward until they meet flat surface 20.
At the outer periphery o~ side 20, the cap slopes outward defined by surface 22 and then flattens out as de~ined by wall 24. An annular recess 26 acts as a flash trap to aid in the sonic welding of cap 10 and body 28.
The cap 10 has an outer downwardly depending rim 30 with , ' a bottom edge 32. Bottom edge 32 engages with annular edge 34 of body 28 when body 28 and cap 10 are joined ,~ , together. , ~ '' Body 28 contains an outlet port generalIy desig~
nated 36 and a generally hemispherical inner recess '~ generally designated 38. In its lower region, the outlet , port defines a large bore 40, while in its upper region, there is a smaller cylindrical bore 42. The inner recess , 38 is defined by conically sloping walls 44 and 46 and , :, straight walls 48. Body 28 has an annular ~lange 50 , defined by walls 48 and 54 and edge 56.
- Integral with body 28 is rib 58 which spans recess 38. Rib 58 is defined by walls 60 and 62 and `` has a cut-out portion 64 which communicates`with the upper region of outlet port 36, as seen in FIGURE 4.
Flexible disc 68 has~upper surface 70, outer edge 72 and lower surface 74 and is supported by rib 58 in ~irm contact with surface 20 of cap 10 in a closed valve position. In this manner, ~luid present at the -4~
.
~3C.;~6~
lower region of inlet 12 is prevented from entering inner recess 38 and exitin~ through outlet port 36 unless a predeter-mined inlet pressure is reached. The rib 5~ holds disc 68 in firm contact with cap surface 20 such that the disc cannot shift or move around with respect to the rib 58 or cap surface 20. :
When the inlet pressure attains a predetermined positive value, pressure is exerted upon flexible disc 68 at the lower region of inlet port 12 and causes the outer edges 72 of disc 68 to bend downward into the inner recess 38 to assume an open valve position. This enables the fluid present at inlet port 12 to flow into both sides of recess 38 and into the cut-out portion 64 in the lower region of rib 58 and exit at outlet port 36. Since the rib 58 divides recess 38 into two substantially equal chambers, there is little fluid turbulence in recess 38. The smooth recess walls 44, 46 and 48 help ensure laminar flow of the fluid into the cut-out portion 64 in the lower region of rib 58 and into the outlet port 36.
Back pressure will exist when the pressure at the outlet portion 36 exceeds that pressure at the inlet port 12. Before the outlet port pressure exceeds the inlet port pressure by more than 15 inches of water under a flowing condition, the valve will close since the outlet pressure will exert force on disc surface 68 to cause the peripheral disc edge 72 to bend back causing the upper disc ;
surface 70 to firmly engage with lower cap surface 20. This , .
prevents fluid presen~ at outlet port 36 from reaching inlet port 12. The valve might close at a back pressure lower than 15 inches of water under a flowing condition.
.' , ~ .
1~ ~
` .
~- ~ ` ~5-``` 1 IL3~3L68 When the valve opens, disc edye 7~ is eree from engagement with recess walls 48, 46 and 44 since the diameter of the inner recess 38 is greater than the diameter of disc 68. This also ensures ~ree ~luid flow fro~ the inlet port 12 into the recess 38.
For the disc to have adequate ~lexibility, it is preferred that its thickness be less than 20 percent of the diameter, the disc may become too stiff and the opening pressure would have to be so great that the system may be ineffective. The disc thickness should preferably be less than the thickness of the support rib ~8, otherwis~ the rib would not provide adequate support for the disc and the disc edges might fall of their own weight to an open valve position. It is also , preferable for the length of the rib across the recess 38 to be longex than the rib width.
The upper region of the outlet port 36 and the lower region of the inlet port 12 are preferably circular so that the fluid flowing therethrough will ~low freely.
To ensure a tight seal when the valve is in a closed position, rib 58 must firmly engage the disc 68 against the cap surface 20. However, the pressure on the disc 68 by the rib 58 against surface 20 should not-be so excessive as to compressly defonm ~he disc's thickness to less than 30 percent of its original thickness. Too much upward pressure against the disc would cause the ~ ~ `
disc 68 to have a tendency to bend with respect to the valve seat, which is located generally where sur~ace 18 meets surface 20, and the disc would not be seated properly.
The inlet port opening formed by the intersection of surfaces 18 and 20 should preferably have a diameter -6~
~3~68 less than 60 percent of the diameter of the disc 68.
If the inlet port opening to the disc were greater than 60 percent, a back pressure exerted at outlet passage 36 might cause the disc 68 to be pushed into the inlet port where it might become stuck. If the inlet port diamater is 60 percen~ of the disc diameter, the inlet port area will be 36 percent of the disc area. Best results have been obtained when the inlet port area is 20-30 percent of the disc area.
The valve interior is free of recesses where air might be trapped when liquid flows -therethrough.
This ensures that once the fluid is flowing freely, air will not enter the fluid flow and be injected into a patient when the valve is used in a medical administra-- tion set.
The cap and body should preferably be made of a rigid plastic material, but could be flexible. The diaphragm must be made of a flexible material such as rubber, silicone or vinyl.
Although an illustra~ive embodiment of the invention has been shown and described, it is to be understood that various modifications and substitutions and other applications with respect to fluid systems may be made without departing from the novel spirit and scope of the present invention.
..
' .... - . , .
This is a division of copending Canadian Patent Application Serial No. 327,0~ filed May 7, 1979.
B~CKGROUND OF THE INVENTION
This invention relates to an improved check valve for use in fluid control and is particularly suited for use in medical administration sets.
An object o~ the present invention is to provide ~or a more reliable check valve that can withstand high back pressure without failure.
A further object o~ the present invention is to provide for improved aerodynamic flow of the liquid within the valves when it is operating.
A still further object of the present invention is to provide for a valve assembled from only a small number of elements.
- ~nother object of the present invention is to provide for sufficient support of the valve diaphragm to prevent unwanted movement of the diaphragm during operation.
A further object of the invention is to provide for increased sensitivity of the valve to opening and closing pressures.
Other objects and advantages of the present invention - will become apparent as the description proceeds.
SU~ARY OF T~E IN~ENTION
The above objects are met by the invention of the parent application which broadly provides a check valve which comprises: a cap; an inlet port extending from the cap, the inlet port defining a bore which extends through the inlet port; a body defining an internal opening and in peripheral engagement with the cap; an outlet port extending from the body and defining a bore which extends through the outlet port; a rib carried by the i body and extending across the opening; and a flexible diaphragm located within the opening and supported and urged against the cap by the rib substantially along the entire length of the rib, ;~
~IL3~
Lhe diaphragm being engaged against -the cap to close -the valve with the peripheral edges of the diaphragm being adapted to bend away from -the cap to open the valve when a predetermined fluid pressure differential exists between the inlet port and the outlet port; the inlet port having an area less than 36 percent of the area of the flexible diaphragm, whereby the diaphragm is prevented from being pushed into the inlet port as a result of back pressure.
On the other hand the invention according to the present divisional application meets the above objects by providing a check valve which comprises: a cap; a generally circular inlet port extending from the cap, the inlet port def ning a bore which extends through the inlet port; a body defining a generally hemispherical internal opening and in peripheral engagement with the cap; a generally circular outlet port extending from the body and defining a bore which extends through the outlet port; a rib carried by and integral with the body and extending diametrically across the opening, the rib having its length longer than its width and substantially dividing the body recess into two substantially equal chambers, but defining a passage in communication with the outlet port bore; and a flexible diaphragm within the opening and supported and urged against the cap by the rib substantially along the entire length of the rib, the compression on the diaphragm by : : -the rib against the cap is such that the diaphragm at the diaphragm compression area maintains at least 30 percent of its original thickness, the diaphragm being engaged against the ;.
cap to close the va:Lve with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when ~-the opening pressure is positive, but which closes the valve when the back pressure under a flowing condition is less than~
15 inches of water, the diaphragm being a disc of uniform thickness whos0 diameter is sobstantially ~ 2 :
equal to the leng-th of the rib and diameter of the body opening and whose thickness is less than 20 percent of the disc diame-ter and less than the width of the rib.
A more detailed explanation of the invention is provided in the following description and claims, and is illustrated in the accompanying drawing.
BRIEF DESCRIPTION OF THE DRAWINGS
FIGURE 1 is an exploded perspective view of a check , valve constructed in accordance with the principles of the present invention;
FIGURE 2 is a top view thereof, with a portion broken for clarity;
FIGURE 3 is a vertical cross-sectional view thereof, `
taken along the plane of the line 3-3 of FIGURE 2; and FIGURE 4 is a side elevational view of the rib, showing a portion of the device in cross-section.
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DETAILED DESCRIPTION OF THE
ILLUSTRATIVE EMBODIMENT _ Referring to the drawings, the check valve includes a cap 10 containing an inlet port generally designated 12. In its upper region, inlet 12 has a cylindrically-shaped bore 14, and in its lower portion inlet 12 has a smaller diameter bore 16. ~he walls 18 then slope outward until they meet flat surface 20.
At the outer periphery o~ side 20, the cap slopes outward defined by surface 22 and then flattens out as de~ined by wall 24. An annular recess 26 acts as a flash trap to aid in the sonic welding of cap 10 and body 28.
The cap 10 has an outer downwardly depending rim 30 with , ' a bottom edge 32. Bottom edge 32 engages with annular edge 34 of body 28 when body 28 and cap 10 are joined ,~ , together. , ~ '' Body 28 contains an outlet port generalIy desig~
nated 36 and a generally hemispherical inner recess '~ generally designated 38. In its lower region, the outlet , port defines a large bore 40, while in its upper region, there is a smaller cylindrical bore 42. The inner recess , 38 is defined by conically sloping walls 44 and 46 and , :, straight walls 48. Body 28 has an annular ~lange 50 , defined by walls 48 and 54 and edge 56.
- Integral with body 28 is rib 58 which spans recess 38. Rib 58 is defined by walls 60 and 62 and `` has a cut-out portion 64 which communicates`with the upper region of outlet port 36, as seen in FIGURE 4.
Flexible disc 68 has~upper surface 70, outer edge 72 and lower surface 74 and is supported by rib 58 in ~irm contact with surface 20 of cap 10 in a closed valve position. In this manner, ~luid present at the -4~
.
~3C.;~6~
lower region of inlet 12 is prevented from entering inner recess 38 and exitin~ through outlet port 36 unless a predeter-mined inlet pressure is reached. The rib 5~ holds disc 68 in firm contact with cap surface 20 such that the disc cannot shift or move around with respect to the rib 58 or cap surface 20. :
When the inlet pressure attains a predetermined positive value, pressure is exerted upon flexible disc 68 at the lower region of inlet port 12 and causes the outer edges 72 of disc 68 to bend downward into the inner recess 38 to assume an open valve position. This enables the fluid present at inlet port 12 to flow into both sides of recess 38 and into the cut-out portion 64 in the lower region of rib 58 and exit at outlet port 36. Since the rib 58 divides recess 38 into two substantially equal chambers, there is little fluid turbulence in recess 38. The smooth recess walls 44, 46 and 48 help ensure laminar flow of the fluid into the cut-out portion 64 in the lower region of rib 58 and into the outlet port 36.
Back pressure will exist when the pressure at the outlet portion 36 exceeds that pressure at the inlet port 12. Before the outlet port pressure exceeds the inlet port pressure by more than 15 inches of water under a flowing condition, the valve will close since the outlet pressure will exert force on disc surface 68 to cause the peripheral disc edge 72 to bend back causing the upper disc ;
surface 70 to firmly engage with lower cap surface 20. This , .
prevents fluid presen~ at outlet port 36 from reaching inlet port 12. The valve might close at a back pressure lower than 15 inches of water under a flowing condition.
.' , ~ .
1~ ~
` .
~- ~ ` ~5-``` 1 IL3~3L68 When the valve opens, disc edye 7~ is eree from engagement with recess walls 48, 46 and 44 since the diameter of the inner recess 38 is greater than the diameter of disc 68. This also ensures ~ree ~luid flow fro~ the inlet port 12 into the recess 38.
For the disc to have adequate ~lexibility, it is preferred that its thickness be less than 20 percent of the diameter, the disc may become too stiff and the opening pressure would have to be so great that the system may be ineffective. The disc thickness should preferably be less than the thickness of the support rib ~8, otherwis~ the rib would not provide adequate support for the disc and the disc edges might fall of their own weight to an open valve position. It is also , preferable for the length of the rib across the recess 38 to be longex than the rib width.
The upper region of the outlet port 36 and the lower region of the inlet port 12 are preferably circular so that the fluid flowing therethrough will ~low freely.
To ensure a tight seal when the valve is in a closed position, rib 58 must firmly engage the disc 68 against the cap surface 20. However, the pressure on the disc 68 by the rib 58 against surface 20 should not-be so excessive as to compressly defonm ~he disc's thickness to less than 30 percent of its original thickness. Too much upward pressure against the disc would cause the ~ ~ `
disc 68 to have a tendency to bend with respect to the valve seat, which is located generally where sur~ace 18 meets surface 20, and the disc would not be seated properly.
The inlet port opening formed by the intersection of surfaces 18 and 20 should preferably have a diameter -6~
~3~68 less than 60 percent of the diameter of the disc 68.
If the inlet port opening to the disc were greater than 60 percent, a back pressure exerted at outlet passage 36 might cause the disc 68 to be pushed into the inlet port where it might become stuck. If the inlet port diamater is 60 percen~ of the disc diameter, the inlet port area will be 36 percent of the disc area. Best results have been obtained when the inlet port area is 20-30 percent of the disc area.
The valve interior is free of recesses where air might be trapped when liquid flows -therethrough.
This ensures that once the fluid is flowing freely, air will not enter the fluid flow and be injected into a patient when the valve is used in a medical administra-- tion set.
The cap and body should preferably be made of a rigid plastic material, but could be flexible. The diaphragm must be made of a flexible material such as rubber, silicone or vinyl.
Although an illustra~ive embodiment of the invention has been shown and described, it is to be understood that various modifications and substitutions and other applications with respect to fluid systems may be made without departing from the novel spirit and scope of the present invention.
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' .... - . , .
Claims
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A check valve which comprises:
a cap;
a generally circular inlet port extending from said cap, said inlet port defining a bore which extends through said inlet port;
a body defining a generally hemispherical internal opening and in peripheral engagement with said cap;
a generally circular outlet port extending from said body and defining a bore which extends through said outlet port;
a rib carried by and integral with said body and extending diametrically across said opening, said rib having its length longer than its width and substantially dividing the body recess into two substantially equal chambers, but defining a passage in communication with the outlet port bore;
and a flexible diaphragm within said opening and supported and urged against the cap by said rib substantially along the entire length of the rib, the compression on the diaphragm by the rib against the cap is such that the diaphragm at the diaphragm compression area maintains at least 30 percent of its original thickness, said diaphragm being engaged against the cap to close the valve with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when the opening pressure is positive, but which closes the valve when the back pressure under a flowing condition is less than 15 inches of water, said diaphragm being a disc of uniform thickness whose diameter is substantially equal to the length of the rib and diameter of the body opening and whose thickness is less than 20 percent of the disc diameter and less than the width of the rib.
a cap;
a generally circular inlet port extending from said cap, said inlet port defining a bore which extends through said inlet port;
a body defining a generally hemispherical internal opening and in peripheral engagement with said cap;
a generally circular outlet port extending from said body and defining a bore which extends through said outlet port;
a rib carried by and integral with said body and extending diametrically across said opening, said rib having its length longer than its width and substantially dividing the body recess into two substantially equal chambers, but defining a passage in communication with the outlet port bore;
and a flexible diaphragm within said opening and supported and urged against the cap by said rib substantially along the entire length of the rib, the compression on the diaphragm by the rib against the cap is such that the diaphragm at the diaphragm compression area maintains at least 30 percent of its original thickness, said diaphragm being engaged against the cap to close the valve with the peripheral edges of the diaphragm being adapted to bend away from the cap to open the valve when the opening pressure is positive, but which closes the valve when the back pressure under a flowing condition is less than 15 inches of water, said diaphragm being a disc of uniform thickness whose diameter is substantially equal to the length of the rib and diameter of the body opening and whose thickness is less than 20 percent of the disc diameter and less than the width of the rib.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA379,396A CA1130168A (en) | 1978-09-13 | 1981-06-09 | One-way flex valve |
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US05/942,076 US4222407A (en) | 1978-09-13 | 1978-09-13 | One-way flex valve |
| US942,076 | 1978-09-13 | ||
| CA327,088A CA1114717A (en) | 1978-09-13 | 1979-05-07 | One-way flex valve |
| CA379,396A CA1130168A (en) | 1978-09-13 | 1981-06-09 | One-way flex valve |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1130168A true CA1130168A (en) | 1982-08-24 |
Family
ID=27166224
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA379,396A Expired CA1130168A (en) | 1978-09-13 | 1981-06-09 | One-way flex valve |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1130168A (en) |
-
1981
- 1981-06-09 CA CA379,396A patent/CA1130168A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |