초록 ▼

A molding system for foam-in-bag cushions comprises a mold defining a mold cavity, an air plenum separate from the mold cavity, a plurality of air passages that connect the mold cavity to the air plenum, and at least one port connected to the air plenum. The mold cavity has an open side and the mold

A molding system for foam-in-bag cushions comprises a mold defining a mold cavity, an air plenum separate from the mold cavity, a plurality of air passages that connect the mold cavity to the air plenum, and at least one port connected to the air plenum. The mold cavity has an open side and the mold includes a door that is movable between a closed position closing the open side of the mold cavity and an open position allowing a cushion to enter and exit through the open side. The system further comprises a pneumatic vacuum/blowout system connected with the at least one port. The vacuum/blowout system comprises a vacuum source, an air tank containing pressurized air, and a vacuum/blowout valve structured and arranged to alternately couple the at least one port either to the vacuum source or to the air tank.

대표청구항 ▼

What is claimed is: 1. A molding system for molding foam-in-bag cushions each formed by dispensing a foam-forming composition into a bag of flexible film material, the molding system comprising: a mold defining a mold cavity configured for receiving a cushion placed in the mold cavity and allowed t

What is claimed is: 1. A molding system for molding foam-in-bag cushions each formed by dispensing a foam-forming composition into a bag of flexible film material, the molding system comprising: a mold defining a mold cavity configured for receiving a cushion placed in the mold cavity and allowed to expand to substantially fill the mold cavity, an air plenum separate from the mold cavity, a plurality of air passages that connect the mold cavity to the air plenum, and at least one port connected to the air plenum, the mold cavity having an open side to permit a cushion to enter the mold cavity and subsequently to exit the mold cavity after expansion of the cushion, the mold further comprising a door that is movable between a closed position closing the open side of the mold cavity and an open position allowing a cushion to enter and exit through the open side; and a pneumatic vacuum/blowout system connected with the at least one port, the vacuum/blowout system comprising a vacuum source, an air tank containing pressurized air, an air compressor coupled with the air tank for pressurizing the air tank, and a vacuum/blowout valve structured and arranged to alternately couple the at least one port either to the vacuum source such that air is evacuated from the mold cavity via the air passages and air plenum so as to suck a newly formed cushion into the mold cavity whereupon the door is closed and the cushion is allowed to expand to substantially fill the mold cavity, or to the air tank such that pressurized air is supplied from the air tank to the mold cavity via the air plenum and air passages to expel an expanded cushion from the mold cavity after the door is opened, wherein the vacuum/blowout valve is operable to open in response to pressure in the air tank reaching a predetermined value so as to couple the air tank to the at least one port of the mold. 2. The molding system of claim 1, further comprising a pneumatic cylinder connected with the door for opening and closing the door, the pneumatic cylinder being coupled with the air compressor via a controllable valve system. 3. The molding system of claim 1, wherein the vacuum/blowout system comprises an air chamber connected to the at least one port and having a first passage connected to the air tank and a second passage connected to the vacuum source, and wherein the vacuum/blowout valve comprises a shuttle valve having a valve member that shuffles between a vacuum position closing the first passage and opening the second passage such that the at least one port is coupled to the vacuum source, and a blowout position opening the first passage and closing the second passage such that the at least one port is coupled to the air tank. 4. The molding system of claim 3, wherein the shuttle valve comprises a magnetic shuttle valve. 5. The molding system of claim 4, wherein a magnet is arranged for exerting a magnetic attraction force on the valve member urging the valve member toward the vacuum position, and wherein the valve member is arranged such that air pressure within the air tank acts on the valve member to urge the valve member toward the blowout position, such that when sufficient pressure builds up in the air tank the air pressure overcomes the magnetic attraction force to move the valve member to the blowout position. 6. The molding system of claim 5, wherein the valve member is movable in a shuttle guide between the vacuum and blowout positions, the magnet is affixed to the shuttle guide, and at least a portion of the valve member is a magnetically permeable material attracted by the magnet. 7. The molding system of claim 5, wherein the air tank includes a valve cap that comprises the magnetic shuttle valve and defines at least part of the air chamber. 8. The molding system of claim 7, wherein the vacuum source comprises a vacuum motor coupled with the valve cap. 9. The molding system of claim 7, wherein the valve member of the shuttle valve includes a tubular portion, and wherein the valve cap defines a guide passage connected to the second passage in the air chamber, the guide passage receiving the tubular portion of the valve member at least in the blowout position. 10. The molding system of claim 9, wherein the tubular portion of the valve member has one or more apertures through a side wall of the tubular portion into an interior thereof, the valve member in the blowout position being disposed in the guide passage so as to substantially isolate the one or more apertures from the air chamber, and the valve member in the vacuum position being withdrawn sufficiently from the guide passage to expose the one or more apertures to the air chamber so as to conduct air from the air chamber through the one or more apertures into the guide passage. 11. The molding system of claim 1, further comprising a latch mechanism for latching the door in the closed position. 12. The molding system of claim 11, wherein the door is connected to the mold so as to pivot relative to the mold about a pivot axis remotely spaced from the open side of the mold cavity such that in the open position the door is remotely spaced from the open side of the mold cavity. 13. The molding system of claim 11, wherein the latch mechanism is movable between latched and unlatched positions. 14. The molding system of claim 13, further comprising a controllable actuator for moving the latch mechanism between latched and unlatched positions and moving the door between the closed and open positions. 15. The molding system of claim 14, wherein the actuator for the latch mechanism and door comprises a pneumatic cylinder. 16. The molding system of claim 13, wherein the latch mechanism comprises a latch mounted on the door adjacent one edge thereof such that the latch is pivotable relative to the door, and a catch affixed to the mold for being engaged by the latch in the latched position of the latch mechanism, the latch mechanism further comprising a lever having one end connected to the latch and an opposite end connected to the actuator, the lever being moved by the actuator to pivot the latch to the unlatched position disengaged from the catch and to open the door. 17. The molding system of claim 16, wherein the latch is pivotally connected to the lever and is biased by a spring to pivot in a first direction toward a latching position of the latch relative to the lever, and the catch is arranged such that as the door is moved to the closed position thereof, the catch urges the latch to pivot in a second direction, opposite to the first direction, out of the latching position until the latch clears the catch and then the spring urges the latch to pivot in the first direction back to the latching position to engage the catch and prevent the door from opening. 18. The molding system of claim 17, wherein the latch mechanism is configured such that the latch at all times is prevented from pivoting in the first direction past the latching position, and such that when the actuator begins to move the lever to open the door, the lever and latch pivot as a unit to disengage the latch from the catch before the door begins to open. 19. The molding system of claim 1, further comprising a frame supporting the mold and the pneumatic vacuum/blowout system. 20. The molding system of claim 19, further comprising a cushion-making apparatus supported on the frame and arranged to supply a cushion to the mold. 21. The molding system of claim 19, wherein the mold is releasably attached to the frame. 22. A molding system for molding foam-in-bag cushions each formed by dispensing a foam-forming composition into a bag of flexible film material, the molding system comprising: a mold defining a mold cavity configured for receiving an expanding foam-in-bag cushion placed in the mold cavity, the mold cavity having a length and a width, the mold further defining an air plenum separated from the mold cavity by a bottom wall of the mold cavity, the air plenum extending the length and width of the mold cavity, a plurality of air passages connecting the mold cavity to the air plenum, the air passages collectively having a total flow area and being spaced apart along the bottom wall of the mold cavity, and the mold further defining at least one port connected to the air plenum, the mold cavity having an open side opposite the bottom wall to permit a cushion to enter the mold cavity and subsequently to exit the mold cavity after expansion of the cushion, the mold further comprising a door that is movable between a closed position closing the open side of the mold cavity and an open position allowing a cushion to enter and exit through the open side; and a pneumatic vacuum/blowout system connected with the at least one port, the vacuum/blowout system comprising a vacuum source, an air tank containing pressurized air, and a vacuum/blowout valve structured and arranged to alternately couple the at least one port either to the vacuum source such that air is evacuated from the mold cavity via the air passages and air plenum so as to suck a newly formed cushion into the mold cavity whereupon the door is closed and the cushion is allowed to expand to substantially fill the mold cavity, or to the air tank such that pressurized air is supplied from the air tank to the air plenum via a flowpath, such that the pressurized air flows through the air passages into the mold cavity so as to expel an expanded cushion from the mold cavity after the door is opened; wherein the flowpath between the air tank and the air plenum is configured such that no portion of the flowpath is smaller than a predetermined value in flow area, and the total flow area of the air passages is also at least said predetermined value.