The technical field relates to a hand tool, and more particularly relates to a hand tool with a rotary handle.
Generally, hand tools are mostly used in a fixed direction, for example, a flat-blade screwdriver or a right-angle ratcheting screwdriver (90 degrees), etc. Additionally, the fixed angle hand tool is applied in a specific direction. However, when the hand tool needs to change the direction in use or is applied in a constrained space, then the hand tool being used has to be replaced, and that results in inconvenience of use.
Furthermore, there are hand tools with a rotary handle on the market, in which the handle includes two grips that may rotate relative to each other, and the angle between two grips may be changed by pushing the push button. However, when using such a hand tool with a rotary handle, users often touch or push the push button accidentally during the operation. Thus, the handle may be rotated unexpectedly which results in instability in use and safety issues.
In view of the above drawbacks, the inventor proposes this disclosure based on his expert knowledge and elaborate researches in order to solve the problems of related art.
One object of this disclosure is to provide a hand tool with a rotary handle to prevent the user from activating the rotation of the first and second handles during the operation process to improve the stability and safety of use.
In the embodiment of this disclosure, a hand tool with a rotary handle includes a first handle, a second handle, a rotating locking set, a fastening set, and a spring. The first handle includes a first body and a first accommodating slot. The first body includes a first chamfered plane disposed on one end. The second handle is movably combined with the first handle. The second handle includes a second body and a second accommodating slot. The second body includes a second chamfered plane attached to the first chamfered plane correspondingly and disposed on one end. The rotating locking set includes a rotating block and a locking block. The rotating block is arranged in the first accommodating slot, and the locking block is arranged in the second accommodating slot. The fastening set includes a stud and a nut. The stud passes through the locking block and the rotating block. One end of the stud is fixed in the first accommodating slot and the other end is fastened with the nut and inserted in the second accommodating slot. The spring is mounted around the stud and elastically abuts against the rotating block. The locking block and the rotating block are engaged with each other when the spring is compressed and are disengaged from each other when the spring is stretched. The first handle or the second handle drives the rotating block to disengage from the locking block when being pulled by an external force. The first handle and the rotating block rotate with respect to the second handle by the stud as the center point. The rotating block and the locking block are locked with each other after rotating a specific angle, so as to position the first handle and the second handle.
In comparison with the related art, the hand tool with a rotary handle in this disclosure includes the first and second handles provided with chamfered planes respectively, and the rotating locking set is disposed between the first and second handles. Additionally, the stud passes through the rotating locking set, and the spring is mounted around the stud and elastically abuts against the rotating locking set. Accordingly, under an external force, the rotating locking set is engaged to position the first and second handles. Therefore, it is not necessary to arrange the push button in the related art to change the angle of the handle, so that the user may be prevented from touching or pushing the push button accidentally to change the angle of the handle during operation, so as to enhance the stability and safety of use.
The features of the disclosure believed to be novel are set forth with particularity in the appended claims. The disclosure itself, however, may be best understood by reference to the following detailed description of the disclosure, which describes a number of exemplary embodiments of the disclosure, taken in conjunction with the accompanying drawings, in which:
The technical contents of this disclosure will become apparent with the detailed description of embodiments accompanied with the illustration of related drawings as follows. It is intended that the embodiments and drawings disclosed herein are to be considered illustrative rather than restrictive.
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The first handle 10 includes a first body 11 and a first accommodating slot 12, and the first body 11 includes a first chamfered plane 13 disposed on one end. Additionally, the second handle is movably combined with the first handle 10. The second handle 20 includes a second body 21 and a second accommodating slot 22, and the second body 21 includes a second chamfered plane 23 attached to the first chamfered plane 13 correspondingly and disposed on one end. Specifically, the first chamfered plane 13 and the second chamfered plane 23 are respectively of an elliptical shape.
In this embodiment, the first handle 10 includes a lock cover 14 disposed on the opposite side of the first chamfered plane 13. Furthermore, the second handle 20 includes a tool head 24 disposed on the opposite side of the second chamfered plane 23.
The rotating locking set 30 includes a rotating block 31 and a locking block 32. The rotating block 31 is arranged in the first accommodating slot 12. The locking block 32 is arranged in the second accommodating slot 22, and one end of the rotating block 31 may be inserted to the locking block 32 to be selectively engaged with the locking block 32.
It should be noted that the total length of the first accommodating slot 12 and the second accommodating slot 22 is greater than the length of the stud 41. Accordingly, the first handle 10 or the second handle 20 may relatively move along an extension direction of the stud 41.
Specifically, the rotating block 31 includes a plurality of positioning ribs 311 and a hooking rib 312 disposed on the outer periphery. Moreover, the locking block 32 includes a plurality of locking ribs 321 disposed on the outer periphery and a plurality of locking grooves 322 disposed on the inner wall surface. Additionally, the first accommodating slot 12 includes a plurality of positioning grooves 121 corresponding to the plurality of positioning ribs 311 and disposed on the inner wall. The rotating block 31 is positioned in the first accommodating groove 12 through the positioning ribs 311 inserting to the positioning grooves 121.
Furthermore, the second accommodating slot 22 includes a plurality of locking grooves 221 corresponding to the plurality of locking ribs 321 and disposed on the inner wall. The locking block 32 is positioned in the second accommodating groove 22 through the locking ribs 321 inserting to the locking grooves 221.
Moreover, the fastening set 40 includes a stud 41 and a nut 42. The stud 41 passes through the locking block 32 and the rotating block 31. One end of the stud 41 is fixed in the first accommodating slot 12 and the other end is fastened with the nut 42 and inserted in the second accommodating slot 22.
In this embodiment, the stud 41 includes a bolt head 411 and a thread section 412. The bolt head 411 is positioned on the locking block 32, and the thread section 412 is combined with the nut 42.
The fastening set 40 further includes a first latch 43. Additionally, the first body 11 includes a first hole 110 communicating with the first accommodating slot 12. The first latch 43 is inserted in the first hole 110 to abut against the rotating block 31. In some embodiments, the rotating block 31 includes a rotation hole 310, and the first latch 43 is inserted in the rotation hole 310. The first latch 43 is inserted in the latching hole 310 to position the rotating block 31 in the first accommodating slot 12.
On the other hand, the fastening set 40 further includes a second latch 44. The second body 21 includes a second hole 220 communicating with the second accommodating slot 22. The second latch 44 is inserted in the second hole 220 to abut against the locking block 32. The locking block 32 includes a latching hole 320. The first latch 43 is inserted in the latching hole 320 to position the locking block 32 in the second accommodating slot 22.
It should be noted that the first latch 43 and the second latch 44 may be screws or nails, but they are not limited in the actual implementation.
Moreover, the spring 50 is mounted around the stud 41 and elastically abuts against the rotating block 31. When the first handle 10 and the second handle 20 move relatively to each other, the spring 50 may be stretched or compressed with respect to the movement of the first handle 10. In this embodiment, the rotating block 31 and the locking block 32 are engaged with each other when the spring 50 is compressed and disengaged from each other when the spring 50 is stretched.
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While this disclosure has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of this disclosure set forth in the claims.