1. Field of the Invention
The invention relates in general to a snare drum strainer, and more particularly to a snare drum strainer that can have an effortless and fluid movement, so as to effectively reduce a noise of the strainer.
2. Description of the Related Art
With reference to
With reference to
The switch stand 81 is of a hollow form with a circular hole on a top and a trough slot on a bottom.
The escalator 82 has a shaft 82 land an adjustment block 822. The shaft 821 forms a circular shape. An upper end of the shaft 821 is through the hole of the switch stand 81. A cross-section of the adjustment block 822 forms a T-shaped. An upper face of the adjustment block 822 is connected to a bottom end of the shaft 821, and a lower face of the adjustment block 822 is through the matching trough slot of the bottom of the switch stand.
The shaft 821 passes through the driven block 83 along a vertical direction. On the other hand, the driven block 83 is horizontally through an opening formed on a side wall of the switch stand 81.
The pull handle 84 includes a lower end pivoted on the sidewall of the switch stand 81. That is, the pull handle 84 is pivotally connected to the driven block 83 through the two driven buttons 85. Hence the two driven buttons 85, the driven block 83 and the pull handle 84 are pivotally coupled together.
The suspender steady base 86 is used to clip snares (not shown in the diagram). A body of the suspender steady base 86 is coupled to the adjustment block 822, so as to be ascending or descending along with the escalator 82.
When the pull handle 84 is pulled apart from the switch stand 81, the escalator 82 makes the suspender steady base 86 descend. At this moment the snares on the suspender steady base 86 is loose. When the pull handle 84 is pulled inward, the driven bock 83 is pushed upward by the driven buttons 85. Hence the driven block 83 drives the escalator 82 to ascend, so as to tighten the snares on the suspender steady base 86.
Although the aforesaid strainer 80 can be used to fasten the snares easily, the escalator 82 slides inside an unmatched space of the switch stand 81. In this way, the strainer can not have a fluid movement and also may produce a noise. Furthermore, the product value of the strainer may be reduced.
An objective of the present invention is to provide a snare drum strainer that has an effortless and fluid movement, so as to effectively reduce a noise of the strainer.
In order to achieve the above objective, the snare drum strainer in accordance with the present invention has a switch stand, a brake part, a suspender steady base and a pull handle driven part.
The switch stand forms a hollow cylindrical shape having a top of a closed end with an opening on the top and a bottom of an open form. A steady part extending outward is formed on a first external sidewall of the switch stand for fastening to a drum body. A second external sidewall opposite to the first external sidewall of the switch stand includes a long opening parallel to an axis and two opposite pivot parts extending outward. Each of the pivot parts comprises a pivot hole.
The brake part installed inside the switch stand includes a self-lubricating bearing, a shaft sleeve and a tie bar. The self-lubricating bearing includes an axial opening and a radial opening. The axial opening includes a circular opening section and a square opening section. An adjustment spiral pole is installed inside the axial opening. An upper end of the adjustment spiral pole is a non-spiral section passing through the circular opening section of the axial opening, and a lower end of the adjustment spiral pole is located inside the square opening section. The shaft sleeve is of a tubular shape mounted on the self-lubricating bearing to be fastened inside the switch stand. The tie bar is of a square pillar shape which matches the square opening section of the self-lubricating bearing. The tie bar is located inside the square opening section. The tie bar includes a third spiral opening through both ends of the tie bar along an axial direction. An upper end of the tie bar is spiral coupled to multiple screws of the adjustment spiral pole.
The suspender steady base includes a base body and a base clamp. The base body is spirally coupled to a bottom of the tie bar to be driven to ascend or descend by the brake part. The base body is spirally coupled to the base clamp for clipping the snares in-between the base body and the base clamp.
The pull handle driven part includes a pull handle, two driven buttons and a driven pole. One end of the driven pole inserts into the radial opening of the self-lubricating bearing through the opening of the switch stand, and the other end of the driven pole includes a pivotal hole to make the driven pole coupled to the two driven buttons. A first pivotal connection part and a second pivotal connection part are formed at a lower internal side of the pull handle. The first pivotal connection part at a lower end of the pull handle is pivotal coupled to the pivot part of the switch stand, and the second pivotal connection part is pivotal coupled to the other end of the two driven buttons.
The brake part makes use of the self-lubricating bearing and the shaft sleeve to generate a self-lubricating effect. In this way, when the suspender steady base is in use, friction can be reduced, so as to enhance the fluid movement and further reduce the noise. On the other hand, the pull handle driven part makes use of a bolt and a spacer to have the pull handle, the driven buttons and the driven pole pivotal coupled together. Therefore an operation for each component of the pull handle driven part can have an effortless and fluid movement, so as to effectively reduce the noise of the strainer.
With reference to
With reference to
The brake part 20 is installed inside the switch stand 10 including a self-lubricating bearing 21, a shaft sleeve 22 and a tie bar 23. The self-lubricating bearing 21 forms a circular tubular shape having a vertical opening and a horizontal opening 210. The vertical opening passes through two ends of the self-lubricating bearing 21 along an axial direction and includes an upper circular opening 211 and a lower square opening 212 communicating with the upper circular opening. Moreover, an adjustment spiral pole 24 is installed inside the vertical opening and has an upper non-spiral section and a lower spiral section. The upper non-spiral section is passing through the circular opening section 211 of the vertical opening. The lower spiral section is located inside the lower square opening 212, so as to be spiral coupled with the tie bar 23. Further, the shaft sleeve 22 includes a second spiral opening 220 laterally defined through a sidewall of the shaft sleeve 22 opposite to the first spiral opening 16 of the steady part 12 of the switch stand 10. The second spiral opening 220 is corresponding to the first spiral opening 16 on the steady part 12, so as to make a spiral pole 17 fixed inside the switch stand 10.
Further, the tie bar 23 is of a square pillar shape which matches the lower square opening 212. The tie bar 23 passes through the lower square opening 212 without arbitrarily rotation. The tie bar 23 includes a third spiral opening 230 through both ends of the tie bar 23 along an axial direction. An upper end of the tie bar 23 is spiral coupled to multiple screws of the adjustment spiral pole 24 through the third spiral opening 230. The shaft sleeve 22 is of a tubular shape which forms a C-shape from a top view. An internal diameter of the shaft sleeve 22 matches an external diameter of the self-lubricating bearing 21, so that the self-lubricating bearing 21 goes through the shaft sleeve 22. Moreover, a lower end of the self-lubricating bearing 21 is mounted with a tubular ring 25. The tubular ring 25 is also fixed inside the switch stand 10.
The suspender steady base 30 includes a base body 31 and a base clamp 32. The base body 31 forms a chunk shape having two ends, each of which defines a fourth spiral opening 311. The base body 31 is spirally coupled to the base clamp 32 by a first spiral pole passing through the spiral opening 311 respectively on the two ends of the base body 31. Hence the snares can be clipped by the base body 31 and the base clamp 32. Moreover, a positing hole 312 is formed on a center of the base body 31. A second spiral pole can be used to make the base body 31 spirally coupled to a bottom of the tie bar 23, so that the base body 31 can be driven to ascend or descend by the brake part 20.
The pull handle driven part 40 has a pull handle 41, two driven buttons 42 and a driven pole 43. One end of the driven pole 43 inserts into the horizontal opening 210 of the self-lubricating bearing 21 through the long opening 14 of the switch stand 10. A radial hole 431 formed at the end of the driven pole 43 is passed through by the upper non-spiral section of the adjustment spiral pole 24 inside the self-lubricating bearing 21. Moreover, the driven pole 43 defines a pivotal hole 432. A bolt 44 is pivotal coupled inside the pivotal hole 432. Two buckling troughs 440 are respectively formed on corresponding end of the bolt 44. A spacer 441 is mounted on each buckling trough 440. In this way, each end of the two driven buttons 42 is mounted on the bolt 44 with the pivotal hole 432, so as to make an E-shaped buckling ring 45 buckled with the buckling trough 440 of the bolt 44. Hence the driven pole 43 is coupled to the two driven buttons 42. Further, a cushion pad 433 is formed on an external side of the driven pole 43 to absorb a shock when the pull handle 41 contacts the driven pole 43, so as to avoid noise.
A first pivotal connection part 411 and a second pivotal connection part 412 of a ring shape are formed at a lower internal side of the pull handle 41. The first pivotal connection part 411 at a lower end of the pull handle 41 is pivotal coupled to the two opposite pivot parts 15 of the switch stand 10 with a pivotal pole 46. On the other hand, the second pivotal connection part 412 is pivotal coupled to the other end of the two driven buttons 42 by the bolt 44, the spacer 441 and the E-shaped buckling ring 45. The pull handle driven part 40 makes use of the bolt 44 and the spacer 441 to have the pull handle 41, the driven buttons 42 and the driven pole 43 pivotal coupled together. Therefore an operation for each component of the pull handle driven part 40 can have an effortless and fluid movement, so as to effectively reduce a noise of the strainer.
A preferred embodiment structure of the snare drum strainer in accordance with the present invention can be understood based on the foregoing description. An operation of the present invention is further described, with reference to
When the pull handle 41 of the pull handle driven part 40 is pulled outward, the brake part 20 is descending. At this moment, the suspender steady base 30 coupled with the brake part 20 is also descending. Hence suspenders of the snares can be clipped on the suspender steady base 30. At this moment the snares on the suspender steady base 30 is loose. When the pull handle 41 is pulled inward, the pull handle 41 pushes the driven pole 43 upward by the driven buttons 42, so as to drive the brake part 20 to push upward. Since the suspender steady base 30 is also moved upward along with the brake part 20, the snares on the suspender steady base 30 is tightened.
According to the aforesaid structure of the present invention, the brake part 20 makes use of the self-lubricating bearing 21 and the shaft sleeve 22 to generate a self-lubricating effect. In this way, when the suspender steady base 30 is in use, friction can be reduced, so as to enhance the fluid movement and further reduce the noise. On the other hand, the pull handle driven part 40 makes use of the bolt 44 and the spacer 441 to have the pull handle 41, the driven buttons 42 and the driven pole 43 pivotal coupled together. Therefore an operation for each component of the pull handle driven part 40 can have an effortless and fluid movement, so as to effectively reduce the noise of the strainer.
Therefore the snare drum strainer of the present invention improves the convention snare drum strainer, which can not have a fluid movement and also may produce a noise. Furthermore, the product value of the strainer may be reduced. Hence the snare drum strainer of the present invention indeed includes features of good utility and unobviousness to meet the requirements of a patent.
While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.