초록 ▼

A core for incorporation into a gliding board, such as a snowboard. The core includes longitudinal and transverse core segments with long grain configurations that are combined to adjust the edge hold and maneuverability of the board to accommodate particular riding characteristics. The core segment

A core for incorporation into a gliding board, such as a snowboard. The core includes longitudinal and transverse core segments with long grain configurations that are combined to adjust the edge hold and maneuverability of the board to accommodate particular riding characteristics. The core segments include anisotropic structures that are oriented relative to the orthogonal axes of the board to achieve the desired core characteristics. The transverse core segments are located along the side edges of the core and oriented to tune to the core edges for a particular edge hold and overall board maneuverability.

대표청구항 ▼

A core for incorporation into a gliding board, such as a snowboard. The core includes longitudinal and transverse core segments with long grain configurations that are combined to adjust the edge hold and maneuverability of the board to accommodate particular riding characteristics. The core segment

A core for incorporation into a gliding board, such as a snowboard. The core includes longitudinal and transverse core segments with long grain configurations that are combined to adjust the edge hold and maneuverability of the board to accommodate particular riding characteristics. The core segments include anisotropic structures that are oriented relative to the orthogonal axes of the board to achieve the desired core characteristics. The transverse core segments are located along the side edges of the core and oriented to tune to the core edges for a particular edge hold and overall board maneuverability. as claimed in claim 1 including a source of fluid. 6. The kit as claimed in claim 5 further including control means adapted in use to allow the entry of additional fluid from the source to the chamber during operation to maintain a constant fluid pressure in the chamber. 7. The kit as claimed in claim 6 wherein the control system is adapted to provide an alarm condition when the rate of entry of additional fluid exceeds a predetermined threshold. 8. The kit as claimed in claim 5 wherein the source of fluid is an air cylinder and a regulator. 9. The kit as claimed in claim 1 wherein the follower comprises: a first follower portion adapted to act against the packing, and a second follower portion, the two portions being held in spaced configuration by a biasing means urging the two portions apart. 10. The kit as claimed in claim 9 wherein there is provided: a forward fluid chamber between a pressure face of the first follower portion and a forward wall of the housing; a rear fluid chamber between a pressure face of the second follower portion and a rear wall of the follower housing; the forward and rearward chambers being interconnected for fluid flow therebetween and adapted to operate as a closed system in normal use, wherein the pressure face of the first follower portion is smaller than the pressure face of the second portion. 11. The kit as claimed in claim 10 wherein: the first follower portion is in the form of an annular body portion with an annular extension adapted to act against the primary sealing means, and the second follower portion is in the form of an annular piston. 12. The kit as claimed in claim 9 wherein the biasing means is a spring. 13. The kit as claimed in claim 1 wherein the follower housing includes an attachment to secure the follower housing to the machine housing. 14. The kit as claimed in claim 1 further comprising an attachment to secure the follower housing to a bearing bracket adjacent the machine housing. 15. A method of installing the kit as claimed in claim 1 by retro-fitting the kit about a rotatable member previously fitted with a conventional sealing device. 16. A method of upgrading a conventional sealing device for a rotatable member extending through a machine housing where the conventional sealing device includes a gland follower attached to the machine housing and packing disposed in a recess of the machine housing against the rotatable member, the method comprising: removing the gland follower of the conventionally sealing device; and installing a kit comprised of a follower and follower housing by attaching the follower housing to the machine housing, with the follower positioned to act against the packing, wherein the follower housing is of annular form for mounting about the rotatable member with an axial direction of the follower housing aligned wit the rotational axis of the rotatable member, wherein the follower housing includes spaced apart inner and outer annular walls encircling the rotatable member, with the follower having an annular body portion slidingly engageable with both the inner and outer annular walls of the follower housing, an annular chamber encircling the rotatble member, the annular chamber being at lest partially defined by the inner and outer annular walls of the follower housing and an annular pressure face of the follower, the chamber having means for receiving fluid, the follower being slidable within the follower housing generally in the axial direction and having sliding interfaces for interfacing with the inner and outer annular walls of the follower housing, there being further provided, secondary sealing means at the sliding interfaces for sealing against the egress of fluid from the chamber along the sliding interfaces of the follower. 17. A method of upgrading a conventional sealing device for a rotatable member extending through a machine housing where the conventional sealing device includes a gland follower attached to the ma chine housing and packing disposed in a recess of the machine housing against the rotatble member, with a bearing bracket positioned adjacent the machine housing, the method comprising: removing the gland follower of the conventional sealing device; and installing a kit comprised of a follower and follower housing by attaching the follower housing to the bearing bracket, with the follower positioned to act against the packing, wherein the follower housing is of annular form for mounting about the rotatable member with an axial direction of the follower housing aligned with the rotational axis of the rotatable member, wherein the follower housing includes spaced apart inner and outer annular walls encircling the rotatble member, with the follower having an annular body portion slidingly engageable with both the inner and outer annular walls of the follower housing, an annular chamber encircling the rotatable member, the annular chamber being at least partially defined by the inner and outer annular walls of the followed housing and an annular pressure face of the follower, the chamber having means for receiving fluid, the follower being slidable within the follower housing generally in the axial direction and having sliding interfaces for interfacing with the inner and outer annular walls of the follower housing, there being further provided, secondary sealing means at the sliding interfaces for sealing against the egress of fluid from the chamber along the sliding interfaces of the follower. 18. The method as claimed in claim 16 wherein the follower housing is installed by the use of an attachment plate forming part of the follower housing, the attachment plate being connected in place of the gland follower(s) with the remaining part of the housing being subsequently secured to the attachment plate. 19. The method as claimed in claim 17 wherein the follower housing is secured to the bearing bracket by the use of an adaptor device. 20. The method as claimed in claim 16 wherein an independent fluid supply is connected to the chamber. 21. A sealing device for sealing about a rotatable member extending through a machine housing, the sealing device comprising: primary sealing means disposed in a recess of the machine housing for sealing against the rotatable member; a follower for compressing the primary sealing means; a follower housing connected to the machine housing and of annular form for mounting about the rotatable member with an axial direction of the follower housing aligned with the rotational axis of the rotatable member, wherein the follower housing includes spaced apart inner and outer annular walls encircling the rotatable member, with the follower having an annular body portion slidingly engageable with both the inner and outer annular walls of the follower housing, an annular chamber encircling the rotatable member, the annular chamber being at least partially defined by the inner and outer annular walls of the follower housing and an annular pressure face of the follower, the chamber having means for receiving fluid; and the follower being slidable within the follower housing generally in the axial direction and having sliding interfaces for interfacing with the inner and outer annular walls of the follower housing, there being further provided, secondary sealing means at the sliding interfaces for sealing against the egress of fluid from the chamber along the sliding interfaces of the follower. 22. The sealing device as claimed in claim 21 wherein the follower is in the form of an annular piston. 23. The sealing device as claimed in claim 22 wherein the piston has an annular body portion received in the follower housing and an annular extension. 24. The sealing device as claimed in claim 21 wherein the secondary sealing means are in the form of piston rings incorporated into the follower. 25. The sealing device as claimed in claim 21 wherein the sealing device is adapted to operate as an open system whereby the chamber receives fluid from a source external to the sealing device. 26. The sealing device as claimed in claim 25 wherein the sealing device is adapted to receive air from a source of compressed air. 27. The sealing device as claimed in claim 25 further comprising control means adapted in use to allow the entry of additionally fluid from the source to the chamber to maintain a constant fluid pressure in the chamber. 28. The sealing device as claimed in claim 27 wherein the control system is adapted to provide an alarm condition when the rate of entry of additional fluid exceeds a predetermined threshold. 29. The sealing device as claimed in claim 21 wherein the follower comprises: a first follower portion adapted to act against the primary sealing means; and a second follower portion, the two portions being held in spaced configuration by a biasing means urging the two portions apart. 30. The sealing device as claimed in claim 29 wherein there is provided: a forward fluid chamber between a pressure face of the first follower portion and a forward wall of the housing; a rear fluid chamber between a pressure face of the second piston portion and a rear wall of the follower housing; the forward and rearward chambers being interconnected for fluid flow therebetween and adapted to operate as a closed system in normal use, wherein the pressure face of the first follower portion is smaller than the pressure face of the second portion. 31. The sealing device as claimed in claim 29 wherein the biasing means is a spring.