WHEEL SPEED SENSOR DRIVING MECHANISM

Abstract

A wheel speed sensor driving mechanism includes a motorcycle front wheel hub axle tube having chamfered driving blocks equiangularly spaced around an inner perimeter thereof, a follower unit concentrically mounted in the motorcycle front wheel hub axle tube and having chamfered ribs equiangularly arranged around the periphery of one end of the worm wheel and a mounting groove defined between each two adjacent ribs for receiving the chamfered driving blocks. Further, the number of the ribs of the follower unit is divisible by the number of the driving blocks of the motorcycle front wheel hub axle tube.

Claims

1. A wheel speed sensor driving mechanism, comprising a motorcycle front wheel hub axle tube, a follower unit, a meter gear housing having a central axle tube, and a wheel speed sensing unit, wherein: said follower unit is concentrically mounted on said central axle tube of said meter gear housing, comprising a worm wheel, a plurality of ribs equiangularly arranged around the periphery of one end of said worm wheel and a mounting groove defined between each two adjacent said ribs, each said rib having a chamfered edge at each of axial and radial ends thereof; said motorcycle front wheel hub axle tube comprises a plurality of driving blocks equiangularly spaced around an inner perimeter thereof and engaged into respective said mounting grooves of said follower unit, said motorcycle front wheel hub axle tube having a chamfered edge at a distal end thereof, each said driving block having a chamfered edge at a distal end thereof; the number of said ribs of said follower unit is divisible by the number of said driving blocks of said motorcycle front wheel hub axle tube.

2. The wheel speed sensor driving mechanism as claimed in claim 1, wherein the said chamfered edges of said motorcycle front wheel hub axle tube and said driving blocks are configured to mate with the said chamfered edges of said ribs of said follower unit for guiding said driving blocks of said driving member into the respective said mounting grooves of said follower unit.

3. The wheel speed sensor driving mechanism as claimed in claim 1, wherein said wheel speed sensing unit comprises a worm mounted in said meter gear housing and meshed with and rotatable by said worm wheel, a magnetic domain element fixedly connected to said worm for synchronous rotation, and a sensing element mounted in said meter gear housing and adapted for detecting changes in a magnetic domain around said magnetic domain element upon rotation of said magnetic domain element with said worm and outputting the detected data through a signal line to an electronic speedometer/tachometer for indicating the speed and distance.

4. The wheel speed sensor driving mechanism as claimed in claim 1, wherein said follower unit is fastened to said central axle tube of said meter gear housing with a C-shaped retainer.

5. A wheel speed sensor driving mechanism, comprising a motorcycle front wheel hub axle tube, a driving member, a follower unit, a meter gear housing having a central axle tube, and a wheel speed sensing unit, wherein: said motorcycle front wheel hub axle tube comprises two opposing protruding lugs axially forwardly extended from a distal end thereof, and two opposing recessed gaps defined between said two opposing protruding lugs at two opposite sides; said driving member is mounted in the distal end of said motorcycle front wheel hub axle tube, comprising a chamfered edge at one end thereof, a plurality of driving blocks equiangularly spaced around an inner perimeter thereof, each said driving block having a chamfered edge at a distal end thereof, and two arched driving blocks extended around an outer perimeter thereof and respectively inserted into said two opposing recessed gaps of said motorcycle front wheel hub axle tube; said follower unit is concentrically mounted on said central axle tube of said meter gear housing, comprising a worm wheel, a plurality of ribs equiangularly arranged around the periphery of one end of said worm wheel and a mounting groove defined between each two adjacent said ribs, each said rib having a chamfered edge at each of axial and radial ends thereof; the number of said ribs of said follower unit is divisible by the number of said driving blocks of said driving member.

6. The wheel speed sensor driving mechanism as claimed in claim 5, wherein the said chamfered edge of said driving member and the said chamfered edges of said driving blocks are configured to mate with the said chamfered edges of said ribs of said follower unit for guiding said driving blocks of said driving member into the respective said mounting grooves of said follower unit.

7. The wheel speed sensor driving mechanism as claimed in claim 5, wherein said wheel speed sensing unit comprises a worm mounted in said meter gear housing and meshed with and rotatable by said worm wheel, a magnetic domain element fixedly connected to said worm for synchronous rotation, and a sensing element mounted in said meter gear housing and adapted for detecting changes in a magnetic domain around said magnetic domain element upon rotation of said magnetic domain element with said worm and outputting the detected data through a signal line to an electronic speedometer/tachometer for indicating the speed and distance.

8. The wheel speed sensor driving mechanism as claimed in claim 5, wherein said follower unit is fastened to said central axle tube of said meter gear housing with a C-shaped retainer.

9. The wheel speed sensor driving mechanism as claimed in claim 5, wherein said motorcycle front wheel hub axle tube further comprises an annular locating groove defined in an inner perimeter thereof; said driving member further comprises a retaining flange extended around the outer perimeter at one side relative to said arched driving blocks and engaged into said annular locating groove of said motorcycle front wheel hub axle tube.

10. A wheel speed sensor driving mechanism, comprising a motorcycle front wheel hub axle tube, a driving member, a follower unit, a housing having a central axle tube, and a sensing unit, wherein: said motorcycle front wheel hub axle tube comprises two opposing protruding lugs axially forwardly extended from a distal end thereof, and two opposing recessed gaps defined between said two opposing protruding lugs at two opposite sides; said driving member is mounted in the distal end of said motorcycle front wheel hub axle tube, comprising a chamfered edge at one end thereof, a plurality of driving blocks equiangularly spaced around an inner perimeter thereof, each said driving block having a chamfered edge at a distal end thereof, and two arched driving blocks extended around an outer perimeter thereof and respectively inserted into said two opposing recessed gaps of said motorcycle front wheel hub axle tube; said follower unit is concentrically mounted on said central axle tube of said housing, comprising a tubular shaft, a plurality of ribs equiangularly arranged around the periphery of one end of said tubular shaft, a mounting groove defined between each two adjacent said ribs, and a magnetic domain element mounted around said tubular shaft at a front side relative to said ribs, each said rib having a chamfered edge at each of axial and radial ends thereof; the number of said ribs of said follower unit is divisible by the number of said driving blocks of said driving member; said sensing unit comprises a sensing element mounted in said housing and adapted for detecting changes in magnetic domains around said magnetic domain element upon rotation of said follower unit with said driving member and outputting the detected data through a signal line to a computer of an ABS (anti-lock brake system) control unit for indicating the speed and distance.

11. The wheel speed sensor driving mechanism as claimed in claim 10, wherein the said chamfered edge of said driving member and the said chamfered edges of said driving blocks are configured to mate with the said chamfered edges of said ribs of said follower unit for guiding said driving blocks of said driving member into the respective said mounting grooves of said follower unit.

12. The wheel speed sensor driving mechanism as claimed in claim 10, wherein said follower unit is fastened to said central axle tube of said meter gear housing with a C-shaped retainer.

13. The wheel speed sensor driving mechanism as claimed in claim 10, wherein said motorcycle front wheel hub axle tube further comprises an annular locating groove defined in an inner perimeter thereof; said driving member further comprises a retaining flange extended around the outer perimeter at one side relative to said arched driving blocks and engaged into said annular locating groove of said motorcycle front wheel hub axle tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is an exploded view of a wheel speed sensor driving mechanism in accordance with a first embodiment of the present invention.

[0016] FIG. 2 is an exploded view of a wheel speed sensor driving mechanism in accordance with a second embodiment of the present invention.

[0017] FIG. 3 is an exploded view of a wheel speed sensor driving mechanism in accordance with a third embodiment of the present invention.

[0018] FIG. 4 is an exploded view of a wheel speed sensor driving mechanism according to the prior art.

[0019] FIG. 5 is an exploded view of another design of wheel speed sensor driving mechanism according to the prior art.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0020] Referring to FIG. 1, a wheel speed sensor driving mechanism in accordance with a first embodiment of the present invention is shown. The wheel speed sensor driving mechanism comprises a motorcycle front wheel hub axle tube 1, a follower unit 2, a meter gear housing 3 and a wheel speed sensing unit 32. The follower unit 2 is mounted on a central axle tube 31 of the meter gear housing 3, and secured thereto with a C-shaped retainer 311. The follower unit 2 comprises a gear means, for example, worm wheel 21, a plurality of ribs 22 equiangularly arranged around the periphery of one end of the worm wheel 21, and a mounting groove 222 defined between each two adjacent ribs 22. Each rib 22 of the follower unit 2 has a chamfered edge 221 at each of axial and radial ends thereof. The motorcycle front wheel hub axle tube 1 comprises a plurality of driving blocks 12 equiangularly spaced around an inner perimeter thereof. The number of the ribs 22 of the follower unit 2 is divisible by the number of the driving blocks 12. The motorcycle front wheel hub axle tube 1 has a chamfered edge 11 at a distal end thereof. Each driving block 12 has a chamfered edge 121 at a distal end thereof. Further, a lock screw 35 is inserted through the central axle tube 31 of the meter gear housing 3 and threaded into the motorcycle front wheel hub axle tube 1 to lock the meter gear housing 3 in position. Further, the design of the chamfered edges 121 of the driving blocks 12 of the motorcycle front wheel hub axle tube 1 and the chamfered edges 221 of the ribs 22 enables the driving blocks 12 of the motorcycle front wheel hub axle tube 1 to be rapidly and accurately engaged into respective mounting grooves 222 of the follower unit 2, facilitating quick installation and assuring accurate concentric positioning of the follower unit 2 in the motorcycle front wheel hub axle tube 1.

[0021] When the motorcycle is running, the motorcycle front wheel hub axle tube 1 is rotated with the front wheel of the motorcycle, causing synchronous rotation of the ribs 22 and worm wheel 21 of the follower unit 2. During rotation of the worm wheel 21, a worm 321 and a magnetic domain element 322 of the wheel speed sensing unit 32 are driven by the worm wheel 21 to rotate in the meter gear housing 3 relative to a sensing element 33, causing the sensing element 33 to detect changes in the magnetic domain around the magnetic domain element 322 and to output the detected data through a signal line 34 to an electronic speedometer/tachometer for indicating the speed and distance.

[0022] Referring to FIG. 2, a wheel speed sensor driving mechanism in accordance with a second embodiment of the present invention is shown. As illustrated, the wheel speed sensor driving mechanism comprises an axle tube 41 of a conventional motorcycle front wheel hub 4, a driving member 44, a follower unit 2, a meter gear housing 3 and a wheel speed sensing unit 32. The follower unit 2 is mounted on a central axle tube 31 of the meter gear housing 3, and secured thereto with a C-shaped retainer 311. The follower unit 2 comprises a worm wheel 21, a plurality of ribs 22 equiangularly arranged around the periphery of one end of the worm wheel 21, and a mounting groove 222 defined between each two adjacent ribs 22. Each rib 22 of the follower unit 2 has a chamfered edge 221 at each of axial and radial ends thereof. The driving member 44 is mounted in a distal end of the axle tube 41 of the front wheel hub 4, comprising a chambered edge 442 at one end thereof, a plurality of driving blocks 443 equiangularly spaced around an inner perimeter thereof. The number of the ribs 22 of the follower unit 2 is divisible by the number of the driving blocks 443. Each driving block 443 has a chamfered edge 4431 at a distal end thereof. The axle tube 41 of the front wheel hub 4 comprises two opposing protruding lugs 42 axially forwardly extended from the distal end thereof, two opposing recessed gaps 421 defined between the two opposing protruding lugs 42 at two opposite sides, and an annular locating groove 43 defined in the inner perimeter thereof. The driving member 44 further comprises two arched driving blocks 441 extended around the outer perimeter thereof and respectively inserted into the two opposing recessed gaps 421 of the axle tube 41 of the front wheel hub 4, and a retaining flange 444 extended around the outer perimeter at one side relative to the arched driving blocks 441 and engaged into the annular locating groove 43 of the axle tube 41 of the front wheel hub 4. Further, a lock screw 35 is inserted through the central axle tube 31 of the meter gear housing 3 and threaded into the axle tube 41 of the front wheel hub 4 to lock the meter gear housing 3 in position.

[0023] Further, the design of the chamfered edge 442 of the driving member 44, the chamfered edges 4431 of the driving blocks 443 and the chamfered edges 221 of the ribs 22 enables the driving blocks 443 of the driving member 44 to be rapidly and accurately engaged into respective mounting grooves 222 of the follower unit 2, facilitating quick installation and assuring accurate concentric positioning of the follower unit 2 in the driving member 44.

[0024] When the motorcycle is running, the axle tube 41 of the front wheel hub 4 is rotated with the front wheel of the motorcycle, causing the driving member 44 to rotate the follower unit 2. At this time, the worm wheel 21 drive the worm 321 and magnetic domain element 322 of the wheel speed sensing unit 32 to rotate relative to the sensing element 33, causing the sensing element 33 to detect changes in the magnetic domain around the magnetic domain element 322 and to output the detected data through a signal line 34 to an electronic speedometer/tachometer for indicating the speed and distance.

[0025] Referring to FIG. 3, a wheel speed sensor driving mechanism in accordance with a third embodiment of the present invention is shown. This third embodiment is substantially similar to the aforesaid second embodiment with the exception that a magnetic domain element 211 of multiple magnetic domains is mounted around a tubular shaft 23 of the follower unit 2 to substitute for the worm wheel 21 and the wheel speed sensing unit 32. The follower unit 2 is mounted on a central axle tube 31 of a housing 3 and secured thereto by a C-shaped retainer 311. During operation, the sensing element 33 in the housing 3 detects changes in the magnetic domains around the magnetic domain element 211 and outputs the detected data through a signal line 34 to an electronic speedometer/tachometer or a computer of a ABS (anti-lock brake system) control unit for indicating the speed and distance.

[0026] In conclusion, the invention provides a wheel speed sensor driving mechanism for motorcycle, which facilitates mounting and dismounting, reduces friction between the center hole of the follower unit and the central axle tube of the meter gear housing, and assures accurate component positioning and synchronous concentric rotation of the follower unit with the axle tube of the motorcycle front wheel hub to enhance accurate signal detection.

[0027] Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.