초록 ▼

An improved lifting device for a vacuum transfer system has an elastomeric gasket that provides a contact area which has a large cross-sectional area and is more stable and longer lasting than prior art devices. The elastomeric gasket is typically retained in a housing where vacuum can be supplied t

An improved lifting device for a vacuum transfer system has an elastomeric gasket that provides a contact area which has a large cross-sectional area and is more stable and longer lasting than prior art devices. The elastomeric gasket is typically retained in a housing where vacuum can be supplied to the inside thereof. The Elastomeric gasket, providing a contact surface that is flexible yet strong and having a larger contact area than the lip of a typical suction cup, provides an improved seal between the pick-up device and the article to be moved and a longer period of time before the contact surface needs to be replaced.

대표청구항 ▼

I claim: 1. A lifting device for use in transferring an article, comprising: a) an external housing including a passage, an inner surface, an inner wall and a distal end, the passage extending through the external housing for connection to a negative pressure supply source that applies a vacuum att

I claim: 1. A lifting device for use in transferring an article, comprising: a) an external housing including a passage, an inner surface, an inner wall and a distal end, the passage extending through the external housing for connection to a negative pressure supply source that applies a vacuum attachment force, the inner surface and inner wall defining a vacuum compartment in fluid communication with the passage; and b) an internal housing including an outer surface, the internal housing connected with the external housing within the vacuum compartment to form a groove circuit therebetween, the groove circuit defined by the inner wall of the external housing and the outer surface of the internal housing, and wherein at least one of the inner wall of the external housing or the outer surface of the internal housing includes a retaining member that extends into the groove circuit to retain an elastomeric gasket secured within the formed groove circuit, wherein the groove circuit positions a contact surface of the inserted elastomeric gasket, which makes contact with an article to be transferred under the vacuum attachment force, to protrude axially beyond the distal end of the external housing. 2. The lifting device of claim 1, wherein the inner wall of the external housing is perpendicular to the inner surface, and parallel with the outer surface of the internal housing. 3. The lifting device of claim 1, wherein the elastomeric gasket protrudes axially at least about 5%, and not more than about 40% of its cross-sectional diameter beyond the distal end of the external housing when retained within the groove circuit. 4. The lifting device of claim 1, wherein the groove circuit is circular and the elastomeric gasket is an O-ring. 5. The lifting device of claim 1, wherein the groove circuit has a non-circular shape, including a shape selected from the group consisting of a triangular shape, an L-shape, an ovular shape having a cutout portion, and a racetrack shape. 6. The lifting device of claim 5, further comprising the elastomeric gasket. 7. The lifting device of claim 1, wherein the internal housing includes the retaining member that includes an externally extending lip. 8. The lifting device of claim 1, wherein both the inner wall of the external housing and the outer surface of the internal housing include the retaining member that includes an extending lip. 9. The lifting device of claim 1, further comprising the elastomeric gasket. 10. The lifting device of claim 9, wherein the elastomeric gasket material is selected from the group consisting of natural rubber, natural polyisoprene, butadiene rubber, butyl rubber, chlorinated polyethylene, chlorosulfonated polyethylene, epichlorohydrin rubber, ethylene acrylic, ethylene propylene rubber, fluorocarbon rubber, fluorosilicone, synthetic isoprene rubber, neoprene rubber, nitrite rubber, phosphonitrilic fluoroelastomer, polyacrylate rubber, silicone rubber, polysulfide rubber, polyurethane rubber, buna, flexible polyvinyl chloride, and equivalent flexible materials. 11. The lifting device of claim 9, wherein deformation of the contact surface of the elastomeric gasket during contact with the article to be moved ranges from between about 1% to about 20% of the circumferential cross-section of the gasket. 12. A vacuum lifting device for use in transferring an article, comprising: a) an external housing including a passage extending therethrough for connection to a negative pressure supply source, an inner surface, an inner wall and a distal end, the negative pressure supply source adapted to apply a vacuum attachment force, the inner surface and inner wall defining a vacuum compartment in fluid communication with the passage; and b) an internal housing including an outer surface, the internal housing connected with the external housing within the vacuum compartment to form a groove circuit therebetween defined by the inner wall of the external housing and the outer surface of the internal housing, to retain an elastomeric gasket securable within the groove circuit and including a contact surface that protrudes axially beyond the distal end of the external housing for making contact with an article to be transferred under the vacuum attachment force, wherein the elastomeric gasket defines a vacuum area in response to application of the vacuum attachment force by the negative pressure supply source; and wherein the groove circuit has a non-circular shape, including a shape selected from the group consisting of a triangular shape, an L-shape, an ovular shape having a cutout portion, and a racetrack shape. 13. The lifting device of claim 12, wherein the vacuum area does not decrease under the pressure exerted by the vacuum attachment force. 14. The lifting device of claim 12, wherein the elastomeric gasket protrudes axially at least about 5%, and not more than about 40% of its cross-sectional diameter beyond the distal end of the external housing when retained within the vacuum compartment. 15. The lifting device of claim 12, wherein both the inner wall of the external housing and the outer surface of the internal housing include a retaining member that extends into the groove circuit, the retaining member including an extending lip. 16. The lifting device of claim 12, further comprising the elastomeric gasket. 17. The lifting device of claim 16, wherein the elastomeric gasket material is selected from the group consisting of natural rubber, natural polyisoprene, butadiene rubber, butyl rubber, chlorinated polyethylene, chlorosulfonated polyethylene, epichlorohydrin rubber, ethylene acrylic, ethylene propylene rubber, fluorocarbon rubber, fluorosilicone, synthetic isoprene rubber, neoprene rubber, nitrile rubber, phosphonitrilic fluoroelastomer, polyacrylate rubber, silicone rubber, polysulfide rubber, polyurethane rubber, buna, flexible polyvinyl chloride, and equivalent flexible materials. 18. The lifting device of claim 16, wherein deformation of the contact surface of the elastomeric gasket during contact with the article to be moved ranges from between about 5° to about 60° of a portion of the circumference of the gasket. 19. The lifting device of claim 16, wherein deformation of the contact surface of the gasket during contact with the article to be moved ranges from between about 1% to about 20% of the circumferential cross-section of the gasket.