1. Fields of the Invention
The present invention relates to a hand tool, and more particularly, to a ratcheting hand tool to rotate an object.
2. Descriptions of Related Art
U.S. Pat. No. 7,946,198 discloses a ratcheting tool wherein the handle is linearly movable so as to drive the driving rod to rotate in a tubular member and to be linearly retracted in the tubular member, such that the object (such as bolt) connected with the function end of the driving rod can be rotated to be tightened or loosened. The disadvantage of the invention is that the driving rod is moved back to its initial portion and to be ready for the next use by using a spring, and the driving rod has to rotate 360 degrees relative to the handle. When the driving rod is retracted, the driving rod has to rotate 360 degrees relative to the handle as well, so that when the driving rod is retracted, the object connected with the function end of the driving rod is rotated. Nevertheless, when the driving rod moves back to its initial position, the object has to be separated from the function end, this means that the user has to separate the object from the function end, and re-connect the object to the function end repeatedly.
The present invention intends to provide a hand tool that eliminates the shortcomings mentioned above.
The present invention relates to a hand tool and comprises a handle, a driving rod and a return unit. The handle has a passage, a pressing recess, a releasing recess, an engaging recess and a first hole. A tubular member has a through hole, a bead hole, an annular groove, a first wall and a second wall. The driving rod has a spiral groove and straight slots which communicates with the spiral groove. The depth of the straight slots is smaller than that of the spiral groove. A bead is located in the bead hole and magnetically attracted by a magnetic member located in the first hole. The return unit has a push member, a spring and an end member. A C-clip is movably mounted to the engaging recess. The handle is located at a release position or a release position relative to the tubular member when the C-clip respectively contacts the first wall and the second wall.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
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The tubular member 20 has a hexagonal cross section and is linearly and un-rotatably movable in the path 11. The tubular member 20 can be rotated by other hand tool such as a wrench. A through hole 21 is defined axially through the tubular member 20 and two bead holes 22 are defined through the wall of the tubular member 20. A bead 40 is engaged with each of the two bead holes 22 which are located corresponding to the two first holes 16. The beads 40 are magnetically attracted by the magnetic member 60. An annular groove 23 is defined in the outside of the tubular member 20 and located between a first wall 231 and a second wall 232. An inner threaded section 25 is formed in the inner periphery of the first end of the tubular member 20. A contact face 28 is formed at the second end of the tubular member 20. The tubular member 20 has a second hole 26 defined through the wall thereof. The tubular member 30 has a first snap groove 27 which is located close to the second hole 26 and between the annular groove 23 and the second hole 26. The first snap groove 27 is an annular groove.
The driving rod 30 is linearly and rotatably movable in the through hole 21 of the tubular member 20. Multiple spiral grooves 31 and multiple straight slots 32 are defined in the outside of the first end of the driving rod 30. Preferably, there are two spiral grooves 31 and two straight slots 32. The depth of the straight slots 32 is smaller than that of the spiral grooves 31, and the spiral grooves 31 communicate with the straight slots 32. A start point 33 and an end point 34 are respectively formed on the first and the last ridges of the spiral grooves 31. A flange 35 extends outward from the mediate portion of the outside of the driving rod 30. The flange 35 contacts the contact face 28, and a function end 36 formed on the second end of the driving rod 30. The function end 36 is a rectangular end to which a socket or an extension rod is connected. The driving rod 30 has an engaging slot 37 defined in one of the straight slots 32, and the second hole 26 is located corresponding to the engaging slot 37. As shown in
The return unit 50 is located in the through hole 21 of the tubular member 20 and has a push member 51, a spring 52 and an end member 53. The first end of the driving rod 30 contacts the push member 51. The spring 52 is biased between the push member 51 and the end member 53. The end member 53 has outer threads 532 on the outside thereof, and the outer threads 532 of the end member 53 are threadedly connected to the inner threaded section 25 of the tubular member 20. A second distance 72 is defined between two respective facing ends of the push member 51 and the end member 53. The first distance 71 is equal to the second distance 72.
A C-clip 62 is movably located within the engaging recess 14 and the annular groove 23. When the C-clip 62 contacts the first wall 231, the handle 10 is located at a release position relative to the tubular member 20. When the C-clip 62 contacts the second wall 232, the handle 10 is located at a press position relative to the tubular member 20.
The control unit 80 has a control collar 81 and an insertion member 82. The control collar 81 is rotatably mounted to the tubular member 20 and the insertion member 82 is inserted into the second hole 26. The first end of the insertion member 82 is located corresponding to the engaging slot 37. When the control collar 81 is rotated, the first end of the insertion member 82 is inserted into engaging slot 37, to secure the tubular member 20 with the driving rod 30 which cannot rotate and move in the tubular member 20. A resilient member 83 is mounted to the insertion member 82 and biased between the second end of the insertion member 82 and the outside of the tubular member 20. The control collar 81 has a control portion 811 formed in the inner periphery thereof. The control portion 811 has a first face 8111, a second face 8112 and a connection face 8113 which is connected between the first and second faces 8111, 8112. The curvature of the first face 8111 is different from that of the second face 8112. The diameter of the first face 8111 is larger than that of the second face 8112. The connection face 8113 is tangent to the first face 8111. The control collar 81 is a ring-shaped collar and has multiple slots defined in the outside thereof so that the user can easily rotate the control collar 80.
The insertion member 82 located in the second hole 26. The second end of the insertion member 82 contacts the control portion 811 and the first end of the insertion member 82 is located corresponding to the engaging slot 37. The control collar 81 has a second snap groove 812 which is located corresponding to the first snap groove 27. The control unit 80 has a clip 84 which is located in the first one snap groove 27 and the second snap groove 812. When the control collar 81 is rotated, the second end of the insertion member 82 contacts the first face 8111 and the resilient member 83 pushes the insertion member 82 to remove the first end of the insertion member 82 from the engaging slot 37. When the control collar 81 is continuously rotated, the second end of the insertion member 82 contacts the second face 8112 which pushes the insertion member 82, the resilient member 83 is compressed and the first end of the insertion member 82 is engaged with the engaging slot 37 so that the tubular member 20 is secured with the driving rod 30, the driving rod 30 cannot move and rotate in the tubular member 20.
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The advantages of the present invention are that the magnetic members 60 control the beads 40 to move between the straight slots 32 and the spiral grooves 31 to increase the operation efficiency.
The driving rod 30 linearly moves and rotates when retracting so as to rotate an object. When the driving rod 30 moves back to its initial position, the driving rod 30 does not rotate and the driving rod 30 does not need to be separated from the object.
The air in the through hole 21 can escape from the path 531 to allow the operation be smooth.
The control collar 81 is rotated to let the second face 8112 to push the insertion member 82 to be engaged with the engaging slot 37 so as to secure the tubular member 20 with the driving rod 30.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.