A miter saw has a base, a working table arranged above the base and rotatably connected with the base around a pivoting axis, and a cutting assembly having a cutting blade arranged above the working table. A first locking assembly is arranged between the base and the working table for positioning th
A miter saw has a base, a working table arranged above the base and rotatably connected with the base around a pivoting axis, and a cutting assembly having a cutting blade arranged above the working table. A first locking assembly is arranged between the base and the working table for positioning the base and the working table at a certain angle. The first locking assembly includes an operating button rotating about a first pivoting shaft to force the first locking assembly to be in a locked state or an unlocked state, the working table has a shift position hole having a locked type shift position and a released type shift position for locking the rotation positions of the operating button, and the first pivoting shaft is parallel to the cutting blade.
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1. A miter saw, comprising: a base;a working table arranged above the base and rotatably connected with the base around a pivoting axis arranged in a vertical direction;a cutting assembly having a cutting blade arranged above the working table;a first locking assembly arranged between the base and t
1. A miter saw, comprising: a base;a working table arranged above the base and rotatably connected with the base around a pivoting axis arranged in a vertical direction;a cutting assembly having a cutting blade arranged above the working table;a first locking assembly arranged between the base and the working table for rotationally positioning the working table at a certain rotational angle relative to the base, the first locking assembly comprising: a locking pin having a longitudinal axis and extending radially from the pivoting axis, the locking pin being rotatably coupled to the working table to rotate about the longitudinal axis, and the locking pin being radially, slidably coupled to the working table to be slidable between an unlocked position wherein the locking pin is distally located from the base, and a locked position wherein the locking pin is in contact with the base;an operating button operably coupled to the locking pin to actuate the locking pin to rotate about the longitudinal axis and to actuate the locking pin to radially slide relative to the working table, the operating button extending through a shift position hole defined by the working table; andthe shift position hole comprising a wall to limit the rotational angle of the operating button and to contact the operating button to guide the locking pin between the locked position and the unlocked position as the operating button is rotated within the shift position hole, and wherein the wall defines a first section wherein the operating button is in the unlocked position, a second section wherein the operating button is in a locked position and a third section wherein the operating button is in the unlocked position, a first ramped section is arranged between the first section and the second section, a second ramped section is arranged between the second section and the third section, and the third section includes a stop to maintain the operating button in the unlocked position, andwherein the second section is closer to the pivoting axis than the first section and the third section. 2. The miter saw according to claim 1, wherein the miter saw comprises a second locking assembly arranged between the base and the working table and rotatable around a second pivoting axis for positioning the working table at any angle relative to the base, the working table further comprising a mounting mechanism for mounting the first locking assembly and the second locking assembly to the working table. 3. The miter saw according to claim 2, wherein the second locking assembly comprises a locking block for pressing and locking with a locking mechanism, a second locking pin for pushing the locking block to press the locking mechanism, a controlling handle for controlling the second locking pin and a cylindrical pin for mounting the controlling handle to the working table with the locking block being rotatably connected to the working table with a rotating shaft vertical to an axis of the cylindrical pin, the controlling handle being rotatably connected to the working table by the cylindrical pin, and the second locking pin being rotatably connected to the controlling handle with a rotating shaft parallel to but not superposed with the axis of the cylindrical pin. 4. The miter saw according to claim 3, wherein the locking block is provided with multiple arc teeth for pressing the locking mechanism and a restoring member for restoring the locking block when the second locking pin is released and the locking block is formed with a contacting groove opening for accommodating the second locking pin. 5. The miter saw according to claim 3, wherein the controlling handle is provided with a rotating base and a rotating shaft is rotatably connected into the rotating base and the rotating shaft is provided with a second internal thread hole, wherein the second locking pin is located on one end of the controlling handle and fixedly connected therewith by threading the second locking pin with an outer thread on an outside thereof into an internal thread hole and an end of the second locking pin with the outer thread is surrounded by a locking nut and a spacing sleeve. 6. The miter saw according to claim 3, wherein the axis of the cylindrical pin is the second pivoting shaft. 7. The miter saw according to claim 6, wherein an axis of the second locking pin is perpendicular to the axis of the cylindrical pin and parallel to the first pivoting shaft. 8. The miter saw according to claim 7, wherein the locking mechanism comprises an arc panel for locking with the locking block. 9. The miter saw according to claim 1, wherein the first locking assembly further comprises a mounting support for mounting the locking pin to the working table, and an operating rod for coupling the locking pin to the operating button and wherein the locking pin is slidably connected with the mounting support and the operating rod is fixedly connected with the locking pin. 10. The miter saw according to claim 9, wherein the operating button is arranged on a free end of the operating rod. 11. The miter saw according to claim 10, wherein the mounting support comprises multiple rings for the locking pin to pass through and a mounting portion arranged between the multiple rings and integrated therewith. 12. The miter saw according to claim 11, wherein the first locking assembly comprises an ejecting assembly for biasing the locking pin towards the base and the ejecting assembly comprises a stopping member arranged on a periphery of the locking pin and a helical spring arranged on the periphery of the locking pin with one end of the spring bearing against the stopping member and the other end bearing against the operating rod. 13. The miter saw according to claim 9, wherein the operating rod is comprises a connecting section co-axial with the longitudinal axis of the locking pin, a transition section perpendicular to the connecting section, and a mounting section for extending through the shift position hole and for mounting the operating button, wherein the transition section is at least partially surrounded by a friction spring. 14. The miter saw according to claim 9, wherein the operating rod is fixedly connected with the locking pin via a threaded connection. 15. The miter saw according to claim 9, wherein the base comprises a plurality of tapered grooves arranged on a periphery of the base for receiving the locking pin and preventing relative movement between the base and the working table when the locking pin is received within one of the plurality of tapered grooves. 16. The miter saw according to claim 9, wherein a free end of the locking pin is provided with a friction mat.
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