Fiber Optic Slip Ring With Through Bore

Abstract

The current disclosure shows a fiber optic slip ring with through bore, or an off-axis fiber optic rotary joint to provide transmission of optic data between mechanically rotational interface with a through bore. Said fiber optic slip ring with through bore may include a ring assembly and a brush block assembly within a rotor and a stator. Said ring assembly may include a ring, a ring holder and a fiber. Said brush block assembly may include a fiber brush, a brush block, an optic index matching fluid, and shaft seals. Said ring may be a donut-shaped waveguide with flat surface on one side. Said fiber brush may have an angled-surface, which is fully contacted with said flat surface on said ring at any time so that during the rotation of said rotor, the optic signal can be transmitted between said fiber and said fiber brush in either direction.

Claims

1. A single channel fiber optic slip ring comprising: a stationary part; a rotatable part with a through bore; said rotatable part is rotatable relative to said stationary part through bearings; a ring assembly mounted on said rotatable part, said ring assembly having an optic fiber; a brush block assembly mounted inside said stationary part, said brush block assembly having a fiber brush configured for optic communication with said optic fiber.

2. The single channel fiber optic slip ring according to claim 1, wherein said ring assembly further includes: a ring, and a ring holder, said ring includes a donut-shaped waveguide with a flat surface on one side; said optic fiber includes a cladding material, and said ring holder includes ring material, and wherein the ring material is the same material as the cladding material of said optic fiber; said ring holder has a ring groove with a shape that is the same shape as the donut-shaped waveguide so that said ring can fit into said ring groove in said ring holder; and said optic fiber is fused into said ring holder from one side of said ring holder.

3. The single channel fiber optic slip ring according to claim 2, wherein said brush block assembly further comprises: a brush block, an optic index matching fluid, and two shaft seals; said brush block has a block groove with the same donut-shape as said ring holder; said block groove on said brush block includes said optic index matching fluid and sealed by said two shaft seals; said fiber brush has an angled-surface on one end; said fiber brush includes a cladding material and said brush block includes a block material and wherein the block material is the same material as the cladding material of said fiber brush; said fiber brush is fused into said brush block from one side of said brush block; and said brush block assembly is fixed with said stationary part and has a clearance space relative to said rotatable part and said ring assembly respectively.

4. The single channel fiber optic slip ring according to claim 3, wherein said angled-surface on said fiber brush is fully contacted with said flat surface on said ring at so that during rotation of said rotatable part, an optic signal can be transmitted between said optic fiber in said ring assembly and said fiber brush in said brush block assembly.

5. A multi-channel fiber optic slip ring comprising: a stationary part; a rotatable part with a through bore; said rotatable part is rotatable relative to said stationary part through ball bearings; multiple ring-brush assemblies; said multiple ring-brush assemblies comprise: multiple ring assemblies mounted on said rotatable part, said ring assemblies each having an optic fiber; and multiple brush block assemblies, mounted inside said stationary part, said brush block assemblies each having a fiber brush configured for optic communication with said optic fiber.

6. The multi-channel fiber optic slip ring according to claim 5, wherein said multiple ring assemblies each further include: a ring, and a ring holder, said ring includes a donut-shaped waveguide with a flat surface on one side; said optic fiber includes a cladding material, and said ring holder includes ring material, and wherein the ring material is the same material as the cladding material of said optic fiber; said ring holder has a ring groove with a shape that is the same shape as the donut-shaped waveguide so that said ring can fit into said ring groove in said ring holder; and said optic fiber is fused into said ring holder from one side of said ring holder.

7. The multi-channel fiber optic slip ring according to claim 6, wherein said multiple brush block assemblies each further comprise: a brush block, an optic index matching fluid, and two shaft seals; said brush block has a block groove with the same donut-shape as said ring holder; said block groove on said brush block is filled up with said optic index matching fluid and sealed by said two shaft seals; said fiber brush has an angled-surface on one end; said brush block has the same material as the cladding material of said fiber brush; said fiber brush is fused into said brush block from one side of said brush block; and said brush block assembly is fixed with said stationary part and has a clearance space relative to said rotatable part and said ring assembly respectively.

8. The multi-channel fiber optic slip ring according to claim 7, wherein said angled-surface on said fiber brush is fully contacted with said flat surface on said ring so that during the rotation of said rotatable part, optic signals can be transmitted between each said optic fiber in said ring assemblies and each said fiber brushes in said brush block assemblies.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] FIG. 1 is an embodiment of a single channel fiber optic slip ring.

[0008] FIG. 2 shows the enlarged view of ring assembly and brush block assembly in FIG. 1.

[0009] FIG. 3 shows a perspective view of the optic ring assembly in FIG. 1.

[0010] FIG. 4 shows a perspective view of an embodiment of the optic ring.

[0011] FIG. 5 shows a perspective view of the optic brush assembly in FIG. 1.

[0012] FIG. 6 shows an embodiment of a multi-channel fiber optic slip ring.

DETAIL DESCRIPTION

[0013] Detailed explanation of some embodiments are disclosed as follows.

[0014] FIG. 1 shows an embodiment of a single channel fiber optic slip ring. Said slip ring assembly may include rotor 31 and stator 41. They may be relatively rotational through ball bearings 81 and 82. Said rotor 31 has a through bore 01. Inside said stator, there are a ring assembly (shown in FIG. 3) and a brush block assembly (shown in FIG. 5). Said ring assembly includes ring 71, ring holder 51 and optic fiber 11. Said brush block assembly includes fiber brush 21, brush block 42, optic index matching fluid 43, shaft seal 61 and 62. FIG. 2 is the enlarged view for ring assembly and brush block assembly.

[0015] FIG. 4 shows the perspective view of an embodiment of ring 71. Said ring 71 is a donut-shaped waveguide with a flat surface on one side. Said ring holder 51 may have a material that is the same material as the cladding material of said optic fiber 11. Said ring holder 51 has a ring groove with the same donut-shape as said ring 71 so that said ring 71 can fit into said ring groove in ring holder 51. Said optic fiber 11 can be fused into said ring holder 51 from one side of ring holder 51. Said ring assembly may be mounted on said rotor 31 as shown in FIG. 1.

[0016] Said brush block 42 may have a block groove with the same donut-shape as said ring holder 51. Said block groove may be filled up with said optic index matching fluid 43 and sealed by said shaft seals 61 and 62. Said fiber brush 21 may have an angled-surface on one end. Said brush block 42 may have a block material that is the same material as the cladding material of said fiber brush 21. Said fiber brush 21 can be fused into said brush block 42 from one side of brush block 42. Said brush block assembly may be fixed with said stator 41 and has the clearance space c relative to said rotor 31 and said ring assembly respectively.

[0017] Said angled-surface on said fiber brush 21 may be fully contacted with said flat surface on said ring 71 at any time. So during the rotation of said rotor 31, the optic signal can be transmitted between said optic fiber 11 and said fiber brush 21 and, in either direction, with either optic fiber 11 or the fiber brush 21 transmitting or receiving.

[0018] FIG. 6 shows an embodiment of a multi-channel fiber optic slip ring. The multi-channel fiber optic slip ring may include multiple ring assemblies and brush block assemblies, Ch1, Ch2, Ch3, Ch4, and more. The quantity of said assembly can be any number. All said ring assemblies may be mounted on the same rotor 31, and all said brush block assemblies may be mounted inside said the same stator 41. The optic fibers on rotor 31 are 11, 12, 13, 14, and more. The optic fibers on stator 41 side are 21, 22, 23, 24, and more. During the rotation of said rotor 31, the optic signal can be transmitted from said optic fibers 11, 12, 13, 14 and any other optic fibers on the rotor; to said optic fibers 21, 22, 23, 24, and any other optic fibers on the stator. With the same configuration the optic signal can be received by optic fibers 11, 12, 13, 14 and any other optic fibers on the rotor; and transmitted from optic fibers 21, 22, 23, 24, and any other optic fibers on the stator.