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1. Field of the Invention
The present invention relates generally to a ratchet screwdriver, and more particularly to a ratchet screwdriver with a rotary positioning structure.
2. Description of Related Art Including Information Disclosed Under 37 CFR 1.97 and 37 CFR 1.98
The ratchet screwdriver is exclusively designed such that the shaft lever could be positively driven (otherwise in an idle state), or reversely driven (otherwise in an idle state), or driven in both directions. The multiple drive modes are implemented through a rotary positioning structure for the ratchet screwdriver.
For the rotary positioning structure of a typical ratchet screwdriver, Taiwanese patent bulletin No. 500022 refers to “an improved structure of a ratchet screwdriver (one)” by the present inventor.
The following problem is observed from such typical structure during applications. The shaft lever 10 is fixed by two stop plates 19 and a spacing board 16. Yet, these two stop plates 19 are laterally placed at the gear 14 of the shaft lever 10, and the stop plates 19 are abutted with the gear 14 only through a flange of the plate. Thus, another spacing board 16 shall be designed, and an embedding groove 15 shall be placed at the bottom of the body 11 for insertion of the spacing board 16. But, the shaft lever 10 cannot be fixed stably. So, the positioning structure of shaft lever 10 for the typical ratchet screwdriver still lacks robustness.
Another problem is that the switching of a typical ratchet screwdriver is achieved through the slide of the toggle block 22 in order to control the swaying state of two stop plates 19. However, the switching distance of three modes (positive, reverse and bi-directional) is extremely short (approx. 5 mm) due to the short motion of brake disc 23 of toggle block 22 on the stop plate 19. In such case, it often leads to stronger application of force and excessive toggling, so the user has to adjust its force to achieve the switching.
Thus, to overcome the aforementioned problems of the prior art, it would be an advancement in the art to provide an improved structure that can significantly improve efficacy.
To this end, the inventor has provided the present invention of practicability after deliberate design and evaluation based on years of experience in the production, development and design of related products.
The enhanced efficacy of the present invention is the innovation of two -shaped snappers 70 of the present invention that two vertical racks 72 of -shaped snappers 70 penetrate through two radial grooves 50. These two vertical racks 72 are placed securely at front and rear edges of the gear 41 of shaft lever 40, thereby offering higher robustness and durability of shaft lever 40.
In addition, the rotating drum 90 is rotated in collaboration with the retaining block 61 of the lower rivet holder 60 and troughs 91, 92 of the rotating drum 90 as well as the rotating drum positioning member 100. The drive mode of the shaft lever 40 can be controlled. Thus, it makes it possible for more accurate manual control, offering greater ease-of-operation and user-friendliness.
It is also worthy to note that, a ring flange 34 is provided at a front end of the body 30 for fixation of the rotating drum 90. So, the spacer 93 may be designed with a C-shaped snap ring, which is locked into a ring groove 35 at rear end of the body 30 for fixation of the rotating drum 90. As such, unlike a typical ratchet screwdriver, the present invention enables a unique assembly that the rotating drum 90 is screwed into the rear end of the body 30 when the body 30 is not yet mated with the handle of the ratchet screwdriver. Then, one end of rotating drum 90 is first positioned by stopping the ring flange 34 onto the rear end of the rotating drum 90, and the other end is fixed through screwing of the spacer 93.
With the adjusting and positioning member, B1 and B2 of the flexible joint B, being folded, the relative angle of the shaft lever 40 of ratchet screwdriver A versus the handle 301 can be adjusted (e.g. 180°, 90°) to meet the diversified requirements of the users.
Although the invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
The features and the advantages of the present invention will be more readily understood upon a thoughtful deliberation of the following detailed description of a preferred embodiment of the present invention with reference to the accompanying drawings.
The rotary positioning structure comprises two radial grooves 50, which are penetrating radially between the body 30 and central axle hole 31. These two radial grooves 50 are arranged in parallel, while an upper transverse slot 51, two vertical slots 52 and a lower transverse slot 53 are formed at the cross portion of the said radial groove 50. Two vertical slots 52 penetrate radially the central axle hole 31 oppositely to the front and rear edges of the gear 41 of shaft lever 40.
Two lower rivet holders 60 are placed separately within the lower transverse slot 53 of two radial grooves 50 for sliding flexibly. A retaining block 61 is placed at the bottom of two lower rivet holders 60 such that it could protrude from the body 30 to a preset height when the lower rivet holder 60 slides downwards to a preset stop position.
Two -shaped snappers 70 are comprised of a transverse rack 71 and two vertical racks 72. The -shaped snapper 70 is mounted separately into two radial grooves 50, and two vertical racks 72 of the -shaped snapper 70 can be inserted into two vertical slots 52 of two radial grooves 50. The bottom of two vertical racks 72 stops at the top of lower rivet holder 60. The transverse rack 71 of two -shaped snappers 70 is placed oppositely to the top flange of gear 41 of the shaft lever 40.
A flexible locker 80 is mounted onto upper part of two -shaped snappers 70 of the body 30, thereby pressing flexibly the -shaped snapper 70. The flexible locker 80 of the preferred embodiment comprises two springs 81 and a cover 82. Two chambers 32 are arranged at a top flange of the body 30 opposite to two radial grooves 50 for limiting of two springs. A recessed portion 33 is placed at a top of the body for insertion of cover 82.
A rotating drum 90 is mounted externally at the body 30 and is limited by a spacer 93. Two troughs 91, 92 are arranged at intervals onto an inner wall of the rotating drum 90 opposite to the lower rivet holder 60, making it possible to insert the retaining block 61 of lower rivet holder 60.
A rotating drum positioning member 100 is mounted onto the rotating drum 90 opposite to the body 30, serving the purpose of positioning when the rotating drum 90 rotates to a preset angle.
The retaining block 61 of the lower rivet holder 60 is designed with a projecting semicircular cross-portion, such that two troughs 91, 92 on an inner wall of rotating drum 90 are fabricated into a curved semicircular portion.
A ring flange 34 is provided at a front end of the body 30 for fixation of the rotating drum 90. The spacer 93 may be designed with a C-shaped snap ring, which is locked into a ring groove 35 at a rear end of the body 30 for fixation of the rotating drum 90.
The rotating drum positioning member 100 comprises a flexible bead 104, a positive positioning edge 101, a reverse positioning edge 102 and a bi-directional positioning edge 103. The flexible bead 104 can be mounted into a chamber 36 at top of the body 30, and a spring 105 is used to push it normally towards the inner wall of rotating drum 90. The positive positioning edge 101, reverse positioning edge 102 and bi-directional positioning edge 103 are arranged at intervals at an inner wall of rotating drum 90 opposite to the flexible bead 104. Thus, when the rotating drum 90 is rotated to different angles, it is locked separately by the flexible bead 104 onto the said positive positioning edge 101, or reverse positioning edge 102, or bi-directional positioning edge 103 for desirable positioning effect.
The adjusting and positioning member comprises a ratchet 201, which is mounted onto first end B1 of the flexible joint B.
There is also a spacing groove 202, which is mounted onto the other end B2 of the flexible joint B, of which a through-hole 203 is laterally placed on the spacing groove 202 oppositely to the ratchet 201.
A damper 204 is mounted into the spacing groove 202. The damper 204 comprises a push portion 205 and a snap edge 206, of which the push portion 205 protrudes from the spacing groove 202 to a preset height. The snap edge 206 is placed opposite to the through-hole 203 of spacing groove 202, so it can be released from or mated with the ratchet 201 when the damper 204 is in a recessed or protruding state.
A flexible resetter 207 is designed into a spring mounted within the spacing groove 202 for pushing out flexibly the damper 204.
Based upon above-specified structural design for the “rotary positioning structure of a ratchet screwdriver” of the present invention, the gear 41 of the shaft lever 40 could be mounted into the central axle hole 31 of the body 30.
Two -shaped snappers 70 are mounted into radial groove 50 of the body 30. The two vertical racks 72 are inserted into two vertical slots 52 of two radial grooves 50. And, the transverse rack 71 of two -shaped snappers 70 is placed opposite to the top flange of gear 41 of the shaft lever 40.
Two lower rivet holders 60 are separately placed into lower transverse slot 53 of two radial grooves 50, such that the bottom of two vertical racks 72 of two -shaped snappers 70 stops at the top flange of two lower rivet holder 60.
The spring 81 and cover 82 of the flexible locker 80 is separately placed into the radial groove 50 and recessed portion at top of the body 30. The flexible bead 104 and spring 105 of the rotating drum positioning member 100 is mounted into the chamber 36 on top of the body 30.
The rotating drum 90 is mounted externally at the body 30, such that the spring 81 and cover 82 of the said flexible locker 80 as well as the flexible bead 104 and spring 105 of the rotating drum positioning member 100 could be limited. Then a spacer 93 (a C-shaped snap ring in the preferred embodiment) is locked into the ring groove 35 at rear end of the body 30 for fixation of the rotating drum 90. So, the entire rotary positioning structure of the ratchet screwdriver is assembled.
The switching behavior of the present invention is performed as follows:
Referring to
Referring also to
Referring also to
The adjusting and positioning member is operated as follows:
Referring to
Referring also to
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