A traction apparatus (1) for propulsion along a bore comprises first and second traction members (6) having outwardly extending legs (14). A propulsion system for operating the traction members (6) comprises a turbine-driven shaft (7) which drives the traction members (6) by way of bearing members (
A traction apparatus (1) for propulsion along a bore comprises first and second traction members (6) having outwardly extending legs (14). A propulsion system for operating the traction members (6) comprises a turbine-driven shaft (7) which drives the traction members (6) by way of bearing members (15). In a first phase, one of the legs of the first traction member is moved in one direction whilst in contact with the traction surface to impart the propulsion force at the same time as one of the legs of the second traction member is moved in opposite direction whilst out of contact. In a second phase one of the legs of the second traction member is moved in said one direction whilst in contact with the traction surface to impart the propulsion force at the same time as one of the legs of the first traction member is moved in opposite direction whilst out of contact.
대표청구항▼
1. A traction apparatus comprising:a body incorporating at least two traction members spaced apart along the body for engaging an inner traction surface at locations spaced apart along the traction surface in the direction in which the apparatus is to be moved, each traction member having a pluralit
1. A traction apparatus comprising:a body incorporating at least two traction members spaced apart along the body for engaging an inner traction surface at locations spaced apart along the traction surface in the direction in which the apparatus is to be moved, each traction member having a plurality of outwardly extending legs substantially equiangularly distributed about a central axis, wherein: each traction member is mounted on an outer surface of a rotary bearing member which is rotatable to bias each of the legs in turn against the traction surface; and each rotary bearing member has a recess in one end for receiving an opposite end of an adjacent rotary bearing member; and propulsion means for operating the traction members to move the body along the traction surface, wherein: the propulsion means acts in a first phase to move one of the legs of the first traction member in one direction relative to the body whilst in contact with the traction surface to impart the required propulsion force at the same time as one of the legs of the second traction member is moved in the opposite direction relative to the body whilst out of contact with the traction surface, and the propulsion means acts in a second phase, which alternates with the first phase, to move one of the legs of the second traction member in said one direction whilst in contact with the traction surface to impart the required propulsion force at the same time as one of the legs of the first traction member is moved in said opposite direction whilst out of contact with the traction surface. 2. A traction apparatus according to claim 1, wherein each traction member comprises a sleeve from which the legs extend outwardly.3. A traction apparatus according to claim 1, wherein each traction member comprises resilient material.4. A traction apparatus according to claim 3, wherein each traction member is made of an elastomeric material.5. A traction apparatus according to claim 1, wherein each leg has an aerofoil cross-section.6. A traction apparatus according to claim 1, wherein each traction member has five outwardly extending legs.7. A traction apparatus according to claim 1, wherein the outer surface of the rotary bearing member is inclined relative to its axis of rotation so that outermost parts of the legs of the traction member are movable outwardly and inwardly relative to a central axis as the rotary bearing member rotates.8. A traction apparatus according to claim 1, wherein the rotary bearing member is in the form of a sleeve having a bore extending therethrough such that the bore is inclined at an angle relative to the outer surface of the rotary bearing member.9. A fraction apparatus according to claim 1, wherein the traction member is mounted on the rotary bearing member such that the traction member does not rotate with the rotary bearing member to any substantial extent.10. A traction apparatus according to claim 1, wherein the outer surfaces of the rotary bearing members are inclined relative to one another and relative to their axis of rotation.11. A traction apparatus according to claim 1, wherein the legs of the traction members are maintained in defined angular positions by axially extending cage members.12. A traction apparatus according to claim 1, wherein the traction members are driven by a common drive shaft.13. A traction apparatus according to claim 1, further comprising reversing means for moving the body along the traction surface in an opposite direction of the direction that the propulsion means moves the body along the traction surface.14. A traction apparatus according to claim 13, wherein the reversing means comprises a respective hub member carrying each traction member and mounted on the outer surface of a rotary bearing member which is inclined relative to its axis of rotation, the hub member being slidable along the bearing member between a first position on one side of a neutral point in which propulsion is caused to take place in one direction along the traction surface and a second position on the other side of the neutral point in which propulsion is caused to take place in the opposite direction along the traction surface.15. A traction apparatus according to claim 13, wherein the reversing means comprises pivoting means for pivoting the outer ends of the legs of the traction members between a first position on one side of a neutral point in which propulsion is caused to take place in one direction along the traction surface and a second position on the other side of the neutral point in which propulsion is caused to take place in the opposite direction along the traction surface.16. A traction apparatus according to claim 13, wherein the reversing means comprises eccentric cam means bearing each traction member and capable of limited rotation relative to the traction member so as to cause the contact points of the legs of the traction member with the traction surface to be moved between a first position on one side of a neutral point in which propulsion is caused to take place in one direction along the traction surface and a second position on the other side of the neutral point in which propulsion is caused to take place in the opposite direction along the traction surface.17. A traction apparatus according to claim 1, wherein the propulsion means incorporates an electric motor.18. A traction apparatus according to claim 1, wherein the propulsion means incorporates a turbine rotor to be driven by fluid flow.19. A traction apparatus, comprising:a body; at least two a bearing members for rotation about a longitudinal axis of the body; each bearing member providing an outer surface inclined relative to the axis, wherein each bearing member has a recess in one end for receiving an opposite end of an adjacent bearing member; means for rotating the bearing member; and a plurality of outwardly extending legs distributed about the outer surface of each bearing member, each leg having at least one end portion thereof for selectively engaging an inner traction surface as the bearing member rotates thereby alternating between an inward and first direction movement of the leg and an outward and second direction movement of the leg to provide a propulsion force. 20. The traction apparatus of claim 19, further comprising a hub member carrying the plurality of outwardly extending legs and mounted on the outer surface of the bearing member.21. The traction apparatus of claim 19, further comprising reversing means for reversing the propulsion force.22. The traction apparatus of claim 19, further comprising:reversing means for reversing the propulsion force; and a hub member carrying the plurality of outwardly extending legs and mounted on the outer surface of the bearing member. 23. A traction apparatus, comprising:a body having a longitudinal axis; a bearing member for rotation about the longitudinal axis of the body, the bearing member providing an outer surface inclined relative to the axis; means for rotating the beating member; a plurality of outwardly extending legs distributed about the outer surface of the bearing member, each leg having at least one end portion thereof for selectively engaging an inner traction surface as the bearing member rotates thereby alternating between an inward and first direction movement of the leg and an outward and second direction movement of the leg to provide a propulsion force; reversing means for reversing the propulsion force; and a hub member carrying the plurality of outwardly extending legs and mounted on the outer surface of the bearing member, wherein a portion of the bearing member that the hub member mounts to is at least twice the length of the hub member, the hub member moveable along the portion between a first position on one side of a neutral point in which the propulsion force is directed in the first direction and a second position on the other side of the neutral point in which the propulsion force is directed in the second direction.
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