Knob structure

What is claimed is: 1. A knob structure comprising: a base; a rotational element rotatably disposed on the base and comprising inner peripheral surfaces; a clicking plate joined to the inner peripheral surfaces of the rotational element and comprising a plurality of first engaging members; and a clicking sheet joined to the base and comprising at least one second engaging member; wherein the clicking plate is held between the base and the clicking sheet to force the clicking sheet against the clicking plate, and the rotational element is configured to rotate the clicking plate with respect to the clicking sheet so that the second engaging member continuously engages with the first engaging members; wherein the first engaging members are bulge portions, and the second engaging member is a depressed portion; wherein the rotational element further comprises a flange extending from the inner peripheral surfaces, and the clicking plate is joined to the flange; wherein the rotational element further comprises a plurality of cavities corresponding to the bulge portions, and the cavities are formed on the flange and curved. 2. The knob structure as claimed in claim 1 , wherein the rotational element further comprises a plurality of recesses corresponding to the cavities, and the recesses are formed on the inner peripheral surfaces of the rotational element and oriented vertically with respect to the cavities. 3. The knob structure as claimed in claim 2 , wherein the clicking plate further comprises a plurality of protrusions corresponding to the recesses, and the clicking plate is joined to the flange by the protrusions engaging with the recesses. 4. The knob structure as claimed in claim 1 , wherein the bulge portions are harder than the depressed portion. 5. The knob structure as claimed in claim 1 , wherein the rotational element and the clicking plate are integrally formed as a continuous unitary piece. 6. A knob structure comprising: a base; a rotational element rotatably disposed on the base and comprising inner peripheral surfaces; a clicking plate joined to the inner peripheral surfaces of the rotational element and comprising a plurality of first engaging members; and a clicking sheet joined to the base and comprising at least one second engaging member which is a bulge portion; wherein the clicking plate is held between the base and the clicking sheet to force the clicking sheet against the clicking plate, and the rotational element is configured to rotate the clicking plate with respect to the clicking sheet so that the second engaging member continuously engages with the first engaging members; wherein the rotational element further comprises a plurality of third engaging members corresponding to the first engaging members and a plurality of recesses corresponding to the third engaging members, and the clicking plate further comprises a plurality of protrusions corresponding to the recesses. 7. The knob structure as claimed in claim 6 , wherein the rotational element further comprises a flange extending from the inner peripheral surfaces, and the clicking plate is joined to the flange. 8. The knob structure as claimed in claim 7 , wherein the third engaging members are formed on the flange. 9. The knob structure as claimed in claim 8 , wherein the recesses are formed on the inner peripheral surfaces of the rotational element and oriented vertically with respect to the third engaging members. 10. The knob structure as claimed in claim 9 , wherein the clicking plate is joined to the flange by the protrusions engaging with the recesses. 11. The knob structure as claimed in claim 6 , wherein the first engaging members define a plurality of through holes, the third engaging members are cavities, and the bulge portion extends through one of the through holes to engage with one of the cavities. 12. The knob structure as claimed in claim 6 , wherein the first engaging members are depressed portions, the third engaging members define a plurality of through holes, the depressed portions extend through the through holes, and the bulge portion engages with one of the depressed portions. 13. The knob structure as claimed in claim 12 , wherein the bulge portion is harder than the depressed portions. 14. The knob structure as claimed in claim 6 , wherein the first engaging members define a plurality of first through holes, the third engaging members define a plurality of second through holes, and the bulge portion extends through one of the first through holes and one of the second through holes. 15. The knob structure as claimed in claim 6 , wherein the rotational element and the clicking plate are integrally formed as a continuous unitary piece. 16. A knob structure comprising: a base; a rotational element rotatably disposed on the base and comprising inner peripheral surfaces, a flange extending from the inner peripheral surfaces, and a plurality of first engaging members formed on the flange; and a clicking sheet joined to the base and comprising a periphery and at least one second engaging member disposed on the periphery; wherein the rotational element is configured to rotate with respect to the clicking sheet so that the second engaging member continuously engages with the first engaging members, and the second engaging member is curved. 17. The knob structure as claimed in claim 16 , wherein the first engaging members are depressed portions, and the second engaging member is a bulge portion. 18. The knob structure as claimed in claim 17 , wherein the bulge portion is harder than the depressed portions. 19. The knob structure as claimed in claim 16 , wherein the first engaging members are bulge portions, and the second engaging member is a depressed portion. 20. The knob structure as claimed in claim 19 , wherein the bulge portions are harder than the depressed portion.