All The Claims

1. A sensor assembly (200) for a vibrating meter (50), comprising:
one or more conduits (103A, 103B);
one or more sensor components including one or more of a driver (104), a first pick-off sensor (105), and a second pick-off sensor (105\u2032) coupled to the one or more conduits (103A, 103B); and
a flexible circuit (201) including:
a body (202); and
one or more sensor component flexures (210-212\u2032) extending from the body (202) and coupled to a sensor component (104, 105, 105\u2032) of the one or more sensor components.
2. The sensor assembly (200) of claim 1, wherein the flexible circuit (201) provides electrical communication between a meter electronics (20) and the one or more sensor components.
3. The sensor assembly (200) of claim 1, wherein each of the sensor component flexures includes at least one coupling aperture (330, 330\u2032) adapted to receive at least a portion of a sensor component pin (312, 312\u2032).
4. The sensor assembly (200) of claim 3, further comprising a strain relief (440) coupled to a sensor component flexure such that a portion of the flexure coupled to the stain relief and the coupling aperture (330, 330\u2032) remains substantially stationary with respect to one another.
5. The sensor assembly (200) of claim 4, wherein the strain relief (440) is coupled to a sensor component (104, 105, 105\u2032).
6. The sensor assembly (200) of claim 5, wherein the strain relief (440) comprises a plate coupled to a conduit bracket (405A) of a sensor component (104, 105, 105\u2032) with at least a portion of the sensor component flexure positioned between the plate and the conduit bracket (405A).
7. The sensor assembly (200) of claim 3, further comprising a tubular rivet (331, 331\u2032) received in each of the coupling apertures (330, 330\u2032) of the sensor component flexure.
8. The sensor assembly (200) of claim 7, wherein the tubular rivet (331, 331\u2032) received in the coupling apertures (330, 330\u2032) is further coupled to the sensor component pin (312, 312\u2032).
9. The sensor assembly (200) of claim 1, wherein each of the sensor component flexures comprises one or more electrical traces (512, 512\u2032).
10. The sensor assembly (200) of claim 1, further comprising a redundant flexure (350) coupled to the at least one sensor component flexure.
11. The sensor assembly (200) of claim 10, wherein each of the sensor component flexures comprises a primary electrical trace (512A, 512\u2032A) and a redundant electrical trace (512B, 512\u2032B).

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A bicycle sprocket comprising:
a sprocket main body having a rotational axis;
a plurality of teeth disposed along a circumferential direction on a radially outer side of the sprocket main body, the plurality of teeth including at least one first tooth and at least one second tooth; and
at least one projecting member attached to an axial surface of the at least one first tooth such that the at least one projecting member overlaps the at least one first tooth in an axial direction as viewed parallel to the rotational axis, the at least one projecting member being a different material from the plurality of teeth,
the at least one projecting member and the at least one first tooth defining a first chain engaging tooth width for engaging with an outer link of a chain and the at least one second tooth defining a second chain engaging tooth width for engaging with an inner link of the chain, the first chain engaging tooth width being greater than the second chain engaging tooth width, the at least one second tooth being free of the at least one projecting member.
2. The bicycle sprocket according to claim 1, wherein
the at least one first tooth includes a plurality of the first teeth with each of the first teeth including the at least one projecting member.
3. The bicycle sprocket according to claim 1, wherein
the at least one second tooth includes a plurality of the second teeth.
4. The bicycle sprocket according to claim 1, wherein
the at least one first tooth includes a plurality of the first teeth with each of the first teeth including the at least one projecting member, and
the at least one second tooth includes a plurality of the second teeth.
5. The bicycle sprocket according to claim 4, wherein
the first teeth and the second teeth are alternately disposed in a circumferential direction.
6. The bicycle sprocket according to claim 5, wherein
a total number of the plurality of teeth is even.
7. The bicycle sprocket according to claim 4, wherein
the at least one projecting member does not extend below a root tooth radius of the first teeth such that the at least one projecting member includes a plurality of separate individual sections.
8. The bicycle sprocket according to claim 4, wherein
the at least one projecting member extends below a root tooth radius of the first teeth such that the at least one projecting member extends continuously between at least two of the first teeth and along a portion of the sprocket main body.
9. The bicycle sprocket according to claim 1, wherein
the at least one projecting member is made of a resin material, and the plurality of teeth are made of a metallic material.
10. The bicycle sprocket according to claim 1, wherein
the at least one first tooth has a first axial surface and a second axial surface that is opposite to the first axial surface, and
the at least one projecting member includes a first projecting member that is attached to the first axial surface of the at least one first tooth, and a second projecting member that is attached to the second axial surface of the at least one first tooth.
11. The bicycle sprocket according to claim 10, wherein
the at least one first tooth includes a plurality of the first teeth with each of the first teeth including the first and second projecting members, and
the at least one second tooth includes a plurality of the second teeth.
12. The bicycle sprocket according to claim 11, wherein
the first teeth and the second teeth are alternately disposed in a circumferential direction.
13. The bicycle sprocket according to claim 12, wherein
a total number of the plurality of teeth is even.
14. The bicycle sprocket according to claim 11, wherein
the first and second projecting members do not extend below a root tooth radius of the first teeth such that each of the first and second projecting members includes a plurality of separate individual sections.
15. The bicycle sprocket according to claim 11, wherein
the first and second projecting members extend below a root tooth radius of the first teeth such that the first and second projecting members extend continuously between at least two of the first teeth and along a portion of the sprocket main body.
16. The bicycle sprocket according to claim 1, wherein
the at least one projecting member is attached to the at least one first tooth by an integral molding process.
17. The bicycle sprocket according to claim 10, wherein
the first and second projecting members are attached to the at least one first tooth by an integral molding process.
18. A bicycle crank assembly including the bicycle sprocket according to claim 1, the bicycle crank assembly further comprising:
a crank arm including only the single sprocket attached to the crank arm.

1. A wrench comprising a rod and a casing, the rod having a driven portion, a driving tip, and a straight section therebetween;
the driven portion having a clamped section, a rotating section and a cantilever section therebetween;
the clamped section being securely clamped in the casing;
the rotating section being rotatable between a free position and a biased position;
wherein in the biased position, the rod closes an electric circuit, activating an indicator; and
wherein the rotating section is transverse to the straight section.
2. The wrench of claim 1, wherein the casing comprises a base and a cover secured together.
3. The wrench of claim 2, wherein in the free position the rotating section of the rod nests in a base channel in the base, substantially below a base inner face.
4. The wrench of claim 1, wherein the electric circuit includes a battery housed in the casing.
5. The wrench of claim 4, wherein the electric circuit comprises the rod and a terminal connected to the battery.
6. The wrench of claim 5, wherein the electrical circuit closes when the rod is in the biased position by a contact formed between the rod and the terminal.
7. The wrench of claim 6, further comprising an adjusting bolt threaded in an adjusting bore associated with the casing, the adjusting bolt operatively connected to the terminal and configured to adjust an amount of torque required to activate the indicator.
8. The wrench of claim 1, wherein the indicator is a Light Emitting Diode (LED).
9. The wrench of claim 1, wherein the indicator is a buzzer.
10. A wrench comprising a rod and a casing, the rod having a driven portion, a driving tip, and a straight section therebetween;
the driven portion having a clamped section, a rotating section and a cantilever section therebetween;
the clamped section being securely clamped in the casing;
the rotating section being rotatable between a free position and a biased position;
wherein in the biased position, the rod closes an electric circuit, activating an indicator;
wherein the casing comprises a base and a cover secured together;
wherein in the free position the rotating section of the rod nests in a base channel in the base, substantially below a base inner face; and
wherein in the biased position at least a portion of the rotating section of the rod is located above the base inner face in a rotation relief channel in a cover inner face.
11. The wrench of claim 10, wherein the cantilever section is substantially parallel to the straight section of the rod.
12. A wrench comprising a rod and a casing, the rod having a driven portion, a driving tip, and a straight section therebetween;
the driven portion having a clamped section, a rotating section and a cantilever section therebetween;
the clamped section being securely clamped in the casing;
the rotating section being rotatable between a free position and a biased position;
wherein in the biased position, the rod closes an electric circuit, activating an indicator;
wherein the driven portion is substantially U-shaped.
13. The wrench of claim 12, wherein the clamped section and the rotating section are substantially perpendicular to the cantilever section extending therebetween.
14. A wrench comprising:
a casing;
a rod at least partially housed in the casing, the rod having a driven portion connected to a driving tip, the driven portion including a clamped section clamped in the casing, and a rotating section connected to the clamped section; and
a battery-powered indicator;
wherein the rotating section is movable between a free position, and a biased position in which the rotating section closes an electric circuit to thereby activate the indicator; and
wherein at least a portion of the rotating section is urged in a direction of a casing cover to close said electric circuit.
15. The wrench according to claim 14, wherein the driven portion further comprises a cantilever section connecting the clamped section to the rotating section.
16. The wrench according to claim 15, wherein the driven portion is substantially U-shaped with the clamped section and the rotating section being parallel to one another.
17. The wrench according to claim 16, wherein the rod further comprises a straight section connecting the driven portion to the driving tip.
18. The wrench according to claim 14, wherein said at least a portion of the rotating section is urged from a channel formed in a casing base into a channel formed in the casing cover, to close said electric circuit.
19. A wrench comprising:
a casing;
a rod at least partially housed in the casing, the rod having a driven portion connected to a driving tip, the driven portion including a clamped section clamped in the casing, and a rotating section connected to the clamped section; and
a battery-powered indicator;
wherein the rotating section is movable between a free position, and a biased position in which the rotating section closes an electric circuit to thereby activate the indicator; and wherein:
the driven portion further comprises a cantilever section connecting the clamped section to the rotating section, the clamped section and the rotating section being substantially perpendicular to the cantilever section;
the rod further comprises a straight section connecting the driven portion to the driving tip; and
the cantilever section is substantially parallel to the straight section of the rod.
20. A wrench comprising:
a casing;
a rod at least partially housed in the casing, the rod having a driven portion connected to a driving tip, the driven portion including a clamped section clamped in the casing, and a rotating section connected to the clamped section; and
a battery-powered indicator;
wherein the rotating section is movable between a free position, and a biased position in which the rotating section closes an electric circuit to thereby activate the indicator; and
further comprising an adjusting bolt threaded in an adjusting bore associated with the casing, the adjusting bolt configured to adjust an amount of torque required to activate the indicator.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A grain unloading system for a combine harvester comprising:
a cylindrical unloading tube having a discharge outlet at the end of the tube,
a helical auger situated in the unloading tube and operable to convey grain towards and through the discharge outlet,
a dribble control door pivotally connected to the tube adjacent the discharge outlet so as to be pivotally moveable between a closed position and an open position,
a lever arm fixed at one end to the dribble control door,
a gas spring connected between the tube and the lever arm, the gas spring being pressurised so as to provide a closing moment to bias the dribble control door into the closed position, wherein the lever and gas spring are arranged such that the closing moment increases as the dribble control door moves from the open position to the closed position.
2. A grain unloading system according to claim 1, wherein the dribble control door is pivotally connected to the tube by a hinge mounted along, or proximate to, a bottom edge of the discharge opening.
3. A grain unloading system according to claim 1, wherein the lever extends downwardly from the dribble control door, and wherein the gas spring is mounted to the underside of the tube.
4. A grain unloading system according to claim 1, wherein the discharge opening is defined by a cut-out half-cylindrical segment in a lower part of the tube.
5. A grain unloading system according to claim 1, wherein the dribble door is shaped to provide a chute when in the open position.
6. A grain unloading system according to claim 1, wherein the gas spring and the level arm are substantially aligned when the dribble control door is in the open position.