The present invention relates generally to a power tool, and more particularly to a protective device of a power tool, wherein an angle of a protective cover of the protective device could be adjusted.
A conventional power tool has an output shaft connected to a tool bit, wherein the output shaft can drive the tool bit to rotate, and a user can use the tool bit to process a workpiece. Taking a hand-held grinder as an example, the tool bit is a grinding wheel. The user holds a body of the grinder and contacts the workpiece with the high-speed rotating grinding wheel to grind the workpiece. However, when the grinding wheel is in contact with the workpiece, material on a surface of the workpiece will be brought out by the grinding wheel, so that the waste material is sprayed out at a high speed in a form of dust, particles or sparks.
For preventing the waste material from spraying everywhere, most of the conventional power tools will be disposed with a protective cover to block the waste material, thereby to prevent the user from injury due to the spraying waste material. However, the conventional protective cover is fixedly installed on the power tool, and the user cannot adjust an angle of the protective cover. Therefore, when the power tool is used to process the workpiece at certain angles, the waste material may still be sprayed to the user.
In view of the above, the primary objective of the present invention is to provide a protective device of a power tool, wherein a user could adjust an angle of a protective cover of the protective device depending on the required demand.
The present invention provides a protective device of a power tool, which includes a fixing base, a restricting ring, a plurality of springs, a protective cover, and a locking member, wherein the fixing base is adapted to be engaged with the power tool and has a tube portion and an abutting surface. The tube portion is adapted to be passed through by an output shaft of the power tool. The abutting surface is located on an outer periphery of the tube portion. The restricting ring fits around the tube portion and is movable in an axial direction of the tube portion, wherein the restricting ring has a first end and a second end which face opposite directions. The first end faces the abutting surface of the fixing base and has an abutting portion. The second end has a plurality of first projections which are arranged in an annular shape and are arranged at intervals and a plurality of first recesses which are arranged in an annular shape and are arranged at intervals. The first projections and the first recesses are arranged alternately. The springs are disposed between the abutting surface of the fixing base and the first end. The protective cover is rotatably disposed on the fixing base, wherein the restricting ring is located between the protective cover and the abutting surface of the fixing base. The protective cover has an engaging ring. The engaging ring has a plurality of second projections which are arranged in an annular shape and are arranged at intervals and a plurality of second recesses which are arranged in an annular shape and are arranged at intervals. The second projections and the second recesses are arranged alternately. Each of the second projections is disposed in one of the first recesses, and each of the first projections is disposed in one of the second recesses. The locking member is disposed between the restricting ring and the fixing base and has an operating portion and a blocking portion, wherein the operating portion is adapted to be operated by a user, thereby to move the blocking portion between a first position and a second position. When the blocking portion is located at the first position, the blocking portion is located between the abutting surface of the fixing base and the abutting portion of the first end of the restricting ring, thereby to restrict the restricting ring from moving toward the abutting surface of the fixing base. When the blocking portion is located at the second position, the blocking portion is not located between the abutting surface of the fixing base and the abutting portion of the first end of the restricting ring, so that when the protective cover is rotated, each of the second projections leaves the corresponding first recess to push the restricting ring toward the abutting surface of the fixing base.
With the aforementioned design, when the user operates the operating portion of the locking member to move the locking member to the second position, the angle of the protective cover could be adjusted by rotating the protective cover, which is easier to use and enhances security while using the power tool.
The present invention will be best understood by referring to the following detailed description of some illustrative embodiments in conjunction with the accompanying drawings, in which
A protective device 1 of a power tool according to an embodiment of the present invention is illustrated in
Referring to
The restricting ring 26 has a through hole 26a fitting around the tube portion 20, and could be moved along an axial direction of the tube portion 20, and has a first end 28 and a second end 30 which face opposite directions. The first end 28 faces the abutting surface 142 of the fixing base 10 and has an abutting portion 282. The second end 30 has a plurality of first projections 302 which are arranged in an annular shape and are arranged at intervals and a plurality of first recesses 304 which are arranged in an annular shape and are arranged at intervals. The first projections 302 and the first recesses 304 are arranged alternately. Each of two opposite sides of each of the first projections 302 has a first inclined surface 302a. The first end 28 of the restricting ring 26 has a plurality of recesses 284 recessed thereinto and corresponding to the abutting surface 142 of the fixing base 10.
The restricting ring 26 further has a notch 32 corresponding to the receiving recess 204 of the tube portion 20 in a radial direction of the restricting ring 26, wherein the notch 32 is recessed into a wall of the through hole 26a in the radial direction of the restricting ring 26 and forms a free end at the first end 28. In the radial direction of the restricting ring 26, the abutting portion 282 is located outside of the free end. The restricting ring 26 further has three positioning grooves 34, wherein each of the positioning grooves 34 communicates the first end 28 and the second end 30 in an axial direction of the restricting ring 26. The three positioning blocks 202 on the outer peripheral surface of the tube portion 20 are respectively disposed in the three positioning grooves 34 to restrict the restricting ring 26 from rotating. In practice, the restricting ring 26 could include at least one positioning groove 34, and the tube portion 20 of the fixing base 10 could include at least one positioning block 202, which could restrict the restricting ring 26 from rotating as well.
The springs 36 are disposed between the abutting surface 142 of the fixing base 10 and the first end 28 of the restricting ring 26. More specifically, an end of each of the springs 36 is disposed in one of the recesses 284 of the first end 28 and abuts against a bottom surface of the corresponding recess 284.
The protective cover 38 is rotatably disposed on the fixing base 10, wherein the restricting ring 26 is located between the protective cover 38 and the abutting surface 142 of the fixing base 10. More specifically, the protective cover 38 includes a cover body 40 and an engaging ring 42, wherein the cover body 40 fits around an outside of the grinding wheel 100. An end of the engaging ring 42 has a plurality of second projections 422 which are arranged in an annular shape and are arranged at intervals and a plurality of second recesses 424 which are arranged in an annular shape and are arranged at intervals, wherein the second projections 422 and the second recesses 424 are arranged alternately. Each of two opposite sides of each of the second projections 422 has a second inclined surface 422a. A plurality of protrusions 44 is formed by protruding inward from an inner peripheral surface 42a of the engaging ring 42 in a radial direction of the engaging ring 42. When the engaging ring 42 fits around the flange 22 of the second body 18 of the fixing base 10, the protrusions 44 enter the annular groove 222 respectively via the open ends 222a to move along the annular groove 222, thereby to rotate the protective cover 38 relative to the fixing base 10. Each of the second projections 422 of the engaging ring 42 is disposed in one of the first recesses 304 of the restricting ring 26, and each of the first projections 302 of the restricting ring 26 is disposed in one of the second recesses 424 of the engaging ring 42, wherein each of the first inclined surfaces 302a faces one of the second inclined surfaces 422a.
The locking member 46 is disposed between the restricting ring 26 and the fixing base 10 and has an operating portion 462 and a blocking portion 464, wherein the operating portion 462 is located outside the engaging plate 14 of the fixing base 10 for being operated by a user, thereby to move the blocking portion 464 between a first position P1 shown in
A restoring spring 48 is disposed in the notch 32 of the restricting ring 26, and abuts against the extending portion 466 of the locking member 46 to provide a reverse force for urging the blocking portion 464 to maintain at first position P1 in a normal state (i.e., without an external force). More specifically, the extending portion 466 of the locking member 46 has a protruding block 466a, wherein an end of the restoring spring 48 fits around the protruding block 466a and abuts against the extending portion 466, and another end of the restoring spring 48 abuts against a bottom surface of the receiving recess 204 of the tube portion 20 in the radial direction of the restricting ring 26.
Referring to
Referring to
After the user releases the operating portion 462 of the locking member 46, the restoring spring 48 pushes the extending portion 466 of the locking member 46 to move the blocking portion 464 back to the first position P1 shown in
In an embodiment, the restoring spring 48 could be omitted. More specifically, the user could manually pull out the operating portion 462 of the locking member 46 to move the blocking portion 464 back to the first position P1.
With the aforementioned design, the angle of the protective cover 38 could be adjusted by the user to meet various requirements, which makes the use of the power tool easier and more convenient and safe.
It must be pointed out that the embodiments described above are only some preferred embodiments of the present invention. All equivalent structures which employ the concepts disclosed in this specification and the appended claims should fall within the scope of the present invention.
Number | Date | Country | Kind |
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108130028 | Aug 2019 | TW | national |
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English abstract for CN103158071, Total of 1 page. |
English abstract for CN107553415, Total of 1 page. |
English abstract for CN109382798, Total of 1 page. |
English abstract for CN201711848, Total of 1 page. |
English abstract for CN201889718, Total of 1 page. |
English abstract for CN204565910, Total of 1 page. |
English abstract for CN207746863, Total of 1 page. |
English abstract for DE10115635, Total of 1 page. |
English abstract for DE102012112621, Total of 1 page. |
Search report for CN201910800248.9, dated Jul. 27, 2021, Total of 3 pages. |
Number | Date | Country | |
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20210053186 A1 | Feb 2021 | US |