The present invention relates to a ratchet wrench and, in particular, to a ratchet wrench having a quick release structure, whereby a rotary head is released to rotate freely by rotating a turning element by a small angle.
The ratchet wrench is a common hand tool for tightening operations. The ratchet wrench can be used flexibly and can move back and forth freely to tighten or loosen blots, nuts, or the likes, so it replaces a traditional wrench in many situations.
The ratchet wrench includes a head portion, a bar extending outwardly from the head portion, and a drive head disposed on the head portion. The drive head is drivingly associated with objects, e.g. nuts and bolts, by means of a variety of sleeves in different sizes. A user simply needs to hold the bar to swing it, and the objects can be loosened or tightened. However, the conventional ratchet wrench is often limited by a dead corner or a tiny space, and thereby the drive head of the ratchet wrench cannot fasten the objects smoothly. In solution, there is a ratchet wrench with a drive head rotatable with respect to the bar. However, the ratchet wrench with the rotatable drive head has a complicated structure for fixing the drive head, and its inconvenient operations cannot meet the market's expectations.
It is an object of the present invention to provide a ratchet wrench having a quick release structure, which is easy to operate and has a simple structure.
Accordingly, the present invention provides a ratchet wrench having a quick release structure, comprising a drive bar, a rotary head, and a locking switch. The drive bar includes a fork arm, a fork opening formed at the fork arm, an axial hole communicating with the fork opening, and a radial hole communicating with the axial hole. The rotary head is pivotally connected to two ends of the fork arm. The rotary head includes a round housing, a ratchet apparatus disposed inside the round housing, a plurality of positioning recesses disposed on the round housing, and a pivot axis passing through the rotary head and the two ends of the fork arm. The pivot axis is perpendicular to the radial hole. The locking switch includes a turning element disposed in the radial hole and a latch element disposed in the axial hole. The turning element rotatably drives the latch element to move axially, and the latch element is engaged with or released from any of the positioning recesses.
The disclosure will become more fully understood from the detailed description, and the drawings given herein below is for illustration only, and thus does not limit the disclosure, wherein:
Detailed descriptions and technical contents of the present invention are illustrated below in conjunction with the accompany drawings. However, it is to be understood that the descriptions and the accompany drawings disclosed herein are merely illustrative and exemplary and not intended to limit the scope of the present invention.
Referring to
The drive bar 120 includes a fork arm 130, a fork opening 150 formed at the fork arm 130, an axial hole 160 communicating with the fork opening 150, and a radial hole 170 communicating with the axial hole 160. As shown in the drawing, the fork arm 130 includes two forks (not labelled); the fork opening 150 is formed between the two forks. The rotary head 200 is pivotally connected to two ends of the fork arm 130. The rotary head 200 includes a round housing 210 and a ratchet apparatus (not illustrated) disposed inside the round housing 210, a plurality of positioning recesses 220 disposed on the round housing 210, and a pivot axis 230 formed at the rotary head 200 and passing through the two ends of the fork arm 130, wherein the pivot axis 230 is perpendicular to the radial hole 170.
The rotary head 200 further includes an output element 240 in a rectangular shape protruding from one end of the round housing 210, a positioning ball 242 at one side surface of the output element 240, and a ratchet apparatus (not illustrated) connected to the rectangular output element 240. Moreover, the ratchet apparatus is disposed inside the round housing 210, and a variety of sleeves (not illustrated) in different sizes can be engagedly assembled by means of the positioning ball 242 of the output element 240, so that the object can be tightened or loosened. The ratchet apparatus is a conventional apparatus, so a detailed description thereof is omitted for brevity.
In the present embodiment, the drive bar 120 further includes two supporting bolts 132, an enlarged end 140 and a bar body 142. The supporting bolts 132 are inserted through the two ends of the fork arm 130 respectively and are fixed between the round housing 210 and the fork arm 130. The pivot axis 230 is an imaginary line passing through an axle center of each supporting bolt 132, so that the rotary head 200 is freely rotatable about the pivot axis 230 at the fork opening 150 to some certain angles, e.g. from 0 to 270 degrees. The enlarged end 140 is disposed between the fork arm 130 and the bar body 142. A size of the enlarged end 140 is greater than a size of the bar body 142. The axial hole 160 and the radial hole 170 are preferably disposed in the enlarged end 140. In other words, the locking switch 250 is also disposed in the enlarged end 140, and therefore the ratchet wrench 100 of the present embodiment has better strength and provides superior operation quality.
Furthermore, in the present embodiment, the positioning recesses 220 at least include a first positioning recess 222 disposed on a top of the round housing 210 and a second positioning recess 224 disposed at each of two opposite sides of the round housing 210. The first positioning recess 222 and the second positioning recess 224 preferably form an included angle of 90 degrees therebetween, so that a user can operate the ratchet wrench 100 in an upright state, i.e. a central axis 244 of the output element 240 is parallel to a rotation axis 144 of the drive bar 120, or alternatively in a horizontal state, i.e. the central axis 244 of the output element 240 is perpendicular to the rotation axis 144 of the drive bar 120. The rotation axis 144 is preferably a central line of the drive bar 120 and/or the operation handle 110.
The positioning recess 220 is preferably in a shape corresponding to the shape of a latch element 270, e.g. an arc shape or other suitable shape, so that the latch element 270 can be engaged with or released from any of the positioning recesses 220 easily.
The locking switch 250 includes a turning element 260 disposed in the radial hole 170 and a latch element 270 disposed in the axial hole 160. The turning element 260 rotatably drives the latch bar 270 to move axially, so that the latch element 270 is engaged with or released from any of the positioning recesses 220. In the present embodiment, the locking switch 250 includes a locking spring 280 connected to one end of the latch element 270, and the other end of the latch element 270 is axially movable with respect to the locking spring 280 to be engaged with or released from any of the positioning recesses 220. The locking spring 280 preferably includes, but is not limited to, a compression spring.
In the embodiment shown in
The radial hole 170 is preferably a blind hole, and the latch element 270 includes a bend portion 274, so that the latch element 270 is axially movable along a bottom of the blind hole by means of the bend portion 274, thereby enhancing stability and reliability of the latch element 270 during its movement. However, in other different embodiment, the latch element 270 can axially move in a straight line in the axial hole 160 and the accommodating recess 162.
Referring to
The turning element 260 includes a button 262 protruding out of the radial hole 170, a fixing axle 264 pivotally connected to the drive bar 120, and a drive portion 266 driving movement of the latch element 270. The latch element 270 includes an opening 272 for insertion of the drive portion 266. In the first preferable embodiment, several openings 272 are formed in the bend portion 274, wherein the number of the openings 272 is corresponding to and the same as the number of the drive portions 266. When the turning element 260 is rotated, each drive portion 266 is inserted into each opening 272, so as to drive the latch element 270 to move axially.
However, in a second preferable embodiment shown in
Referring to
Referring to
How to operate the ratchet wrench 100 having the quick release structure is more fully detailed as follows. As shown in
As shown in
In the third embodiment shown in
By rotating/moving the turning element 260 of the locking switch 250 by a small angle, the rotary head 200 can be released quickly. As a result, the locking switch 250 is easy to operate and has a simple structure. Furthermore, by rotating/moving the button 262 of the turning element 260, the rotary head 200 is rotated to the desired positioning recess 222, 224 (i.e. a work angle of the output element 240), and then the button 262 is released, and as a result, a purpose of quickly releasing and positioning the rotary head 200 can be achieved.
Moreover, the locking switch 250 can selectively be disposed with the locking spring 280. For example, the locking spring 280 in the first, the second, and the third embodiments can automatically drive movement of the latch element 270 and fasten the rotary head 200 to keep it in the locked state. At this point, the button 262 of the turning element 260 automatically returns to its original position, e.g. a central position. Thus, the locking switch 250 in the present embodiment is kept in a normal close state without the necessity of additional operations, so the rotary head 200 is kept locked in the locked state against free rotation, thereby achieving safety and convenience in operations.
It is to be understood that the above descriptions are merely the preferable embodiments of the present invention and are not intended to limit the scope of the present invention. Equivalent changes and modifications made in the spirit of the present invention are regarded as falling within the scope of the present invention.
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Number | Date | Country | |
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20170361436 A1 | Dec 2017 | US |