초록 ▼

A liquid dispensing valve includes a liquid dispensing portion with a liquid inlet, a liquid outlet, and a liquid passage communicating between the liquid inlet and liquid outlet. A valve member is mounted for movement relative to the liquid outlet between open and closed positions. An actuation por

A liquid dispensing valve includes a liquid dispensing portion with a liquid inlet, a liquid outlet, and a liquid passage communicating between the liquid inlet and liquid outlet. A valve member is mounted for movement relative to the liquid outlet between open and closed positions. An actuation portion is coupled with the liquid dispensing portion and includes an inflatable bladder structure. The inflatable bladder structure includes an interior adapted to be coupled in fluid communication with a source of positively pressurized air. The bladder structure may be expanded by the positively pressurized air to move the valve member to at least one of the open or closed positions from the other of the open or closed positions. Methods of dispensing liquid, such as hot melt adhesive, from the valve are also disclosed.

대표청구항 ▼

1. A hot melt adhesive dispensing valve, comprising: a hot melt adhesive dispensing portion including a hot melt adhesive inlet for receiving the hot melt adhesive, a hot melt adhesive outlet for discharging the hot melt adhesive and a hot melt adhesive passage communicating between said hot melt ad

1. A hot melt adhesive dispensing valve, comprising: a hot melt adhesive dispensing portion including a hot melt adhesive inlet for receiving the hot melt adhesive, a hot melt adhesive outlet for discharging the hot melt adhesive and a hot melt adhesive passage communicating between said hot melt adhesive inlet and said hot melt adhesive outlet;a valve member mounted for movement relative to said hot melt adhesive outlet between open and closed positions; andan actuation portion coupled with said hot melt adhesive dispensing portion and including an inflatable bladder structure, said inflatable bladder structure including an interior adapted to be coupled in fluid communication with a source of positively pressurized air and expanded by the positively pressurized air to move the valve member to at least one of the open or closed positions from the other of the open or closed positions, said inflatable bladder structure including a top, a bottom and a side wall extending between the top and the bottom, wherein the bottom is operatively coupled to the valve member and the side wall curves convexly toward the interior between the top and the bottom. 2. The hot melt adhesive dispensing valve of claim 1, further comprising a valve seat in said hot melt adhesive dispensing portion, wherein said valve member further comprises a valve stem having first and second ends, said first end engaged with said valve seat in the closed position, and said inflatable bladder structure further comprises an annular member positioned around the second end of the valve stem. 3. The hot melt adhesive dispensing valve of claim 1, further comprising a biasing return mechanism coupled with said valve member, wherein inflating said bladder structure moves said valve member from the closed position to the open position and said biasing return mechanism moves said valve member from the open position to the closed position when pressurized air is exhausted from the interior of the bladder structure. 4. The hot melt adhesive dispensing valve of claim 1, wherein said inflatable bladder structure further comprises: a first expandable portion having a first interior and configured to move said valve member from the open position to the closed position upon introduction of the positively pressurized air into the first interior; anda second expandable portion having a second interior and configured to move said valve member from the closed position to the open position upon introduction of the positively pressurized air into the second interior. 5. The hot melt adhesive dispensing valve of claim 4, wherein the first expandable portion has a first diameter and the second expandable portion has a second diameter, and the first diameter is different than the second diameter. 6. The hot melt adhesive dispensing valve of claim 4, further comprising a disc, and wherein the first and second expandable portions are spaced from one another by said disc. 7. The hot melt adhesive dispensing valve of claim 1, wherein said actuation portion further comprises a chamber and said inflatable bladder structure is mounted within said chamber, said chamber including an air inlet adapted to be coupled in fluid communication with the source of positively pressurized air, and said interior communicates with said air inlet, wherein pressurizing said interior with the positively pressurized air expands said bladder structure. 8. The hot melt adhesive dispensing valve of claim 1, further comprising a valve seat in said hot melt adhesive dispensing portion, wherein said valve member further comprises a valve stem having first and second ends and mounted for reciprocating movement to the open position with the first end disengaged from the valve seat and to the closed position with the first end engaged against the valve seat. 9. A hot melt adhesive dispensing valve, comprising: a hot melt adhesive dispensing portion including a hot melt adhesive inlet for receiving the hot melt adhesive, a hot melt adhesive outlet for discharging the hot melt adhesive, a hot melt adhesive passage communicating between said hot melt adhesive inlet and said outlet, and a valve seat located in the hot melt adhesive passage between said hot melt adhesive inlet and said hot melt adhesive outlet;a valve stem having first and second ends and mounted for reciprocating movement in the hot melt adhesive passage between open and closed positions, said first end engaging said valve seat in the closed position to prevent hot melt adhesive flow from said hot melt adhesive outlet and disengaging from said valve seat in the open position to allow hot melt adhesive flow from said outlet; andan actuation portion coupled with said hot melt adhesive dispensing portion and including an annular, inflatable bladder structure with a central opening receiving said second end of said valve stem, said bladder structure including an interior adapted to be coupled in fluid communication with a source of positively pressurized air, wherein introducing the positively pressurized air into the interior of said bladder structure expands the bladder structure and moves said valve stem from the closed position to the open position, said inflatable bladder structure including a top, a bottom and a side wall extending between the top and the bottom, wherein the bottom is operatively coupled to the valve member and the side wall curves convexly toward the interior between the top and the bottom. 10. The hot melt adhesive dispensing valve of claim 9, further comprising a spring return mechanism coupled with said valve stem, wherein said spring return mechanism moves said valve stem from the open position to the closed position when positively pressurized air is exhausted from the interior of said bladder structure. 11. The hot melt adhesive dispensing valve of claim 9, wherein said annular, inflatable bladder structure further comprises: a first annular, expandable portion having a first interior and configured to move said valve stem from the open position to the closed position upon introduction of the positively pressurized air into the first interior; anda second annular, expandable portion having a second interior and configured to move said valve stem from the closed position to the open position upon introduction of the positively pressurized air into the second interior. 12. The hot melt adhesive dispensing valve of claim 9, wherein said actuation portion further comprises a chamber and said inflatable bladder structure is mounted within said chamber, said chamber including an air inlet adapted to be coupled in fluid communication with the source of positively pressurized air, and said interior communicates with said air inlet, wherein pressurizing said interior with the positively pressurized air expands said bladder structure. 13. A method of dispensing hot melt adhesive from a valve including a hot melt adhesive dispensing portion with a hot melt adhesive inlet and a hot melt adhesive outlet, a valve member mounted for movement between open and closed positions, and an inflatable bladder structure with an interior, comprising the steps of: introducing pressurized hot melt adhesive through the hot melt adhesive inlet;introducing pressurized air into the interior of the bladder structure to cause the bladder structure to undergo expansion and thereby move the valve member from the closed position to the open position, the interior defined by a side wall of the bladder structure which extends from a top of the bladder structure to a bottom of the bladder structure and curves convexly toward the interior between the top and the bottom; anddispensing the pressurized hot melt adhesive from the hot melt adhesive outlet when the bladder structure is expanded and the valve member is in the open position. 14. The method of claim 13, wherein the valve further includes a spring return mechanism coupled with the valve member, and the method further comprises: exhausting the pressurized air from the interior of the bladder structure; andcontracting the bladder structure with the spring return mechanism when exhausting the pressurized air from the interior of the bladder structure to move the valve member from the open position to the closed position. 15. The method of claim 13, the method further comprising the step of: introducing pressurized air into a first interior of a first expandable portion to expand the first expandable portion;moving the valve member from the closed position to the open position while expanding the first expandable portion;dispensing the pressurized hot melt adhesive from the hot melt adhesive outlet when the first expandable portion is expanded and the valve member is in the open position;exhausting the pressurized air from the first interior;introducing pressurized air into a second interior of a second expandable portion to expand the second expandable portion;moving the valve member from the open position to the closed position while expanding the second expandable portion; andstopping the dispensing of the pressurized hot melt adhesive from the hot melt adhesive outlet when the second expandable portion is expanded and the valve member is in the closed position. 16. The method of claim 13, further comprising the step of: moving the valve member to the closed position with a spring. 17. The method of claim 13, further comprising: introducing positively pressurized air into the interior of the bladder structure through an air inlet to expand the bladder structure.