The present invention relates to a part of a tool and more particularly to an anti-rolling socket for use with a hand tool.
Recently, the market has been supplied with a variety of sockets that are designed to facilitate hand tool operation, and most of these and other conventional sockets are cylindrical. When a hand tool is inserted into such a socket and placed on a flat surface along with the socket, the surface contour of the socket makes the socket prone to rolling on the flat surface. When intending to use the socket again, therefore, the user may have to pick up the socket from a farther place than where the socket was originally placed; in other words, the picking process could be time-consuming and hence lower work efficiency. If the flat surface is inclined or if the socket has been inadvertently kicked by the user, the socket may have rolled to a hidden corner or a place beneath a machine and in that case will be difficult to find. Should anyone step on the stray socket, the person could be at risk or hindered from doing their work.
In light of the aforesaid drawback of the conventional sockets, it has been a goal of research and development in the related industries to devise sockets that will not roll on a flat surface. Such sockets are also what the general public wish for.
One objective of the present invention is to provide an anti-rolling socket in which a stopper is disposed in the socket body to not only form a structure for engaging with a hand tool, but also provide a stop section protruding from the outer peripheral surface of the socket body to prevent the socket from rolling on a flat surface.
According to an embodiment of the present invention, an anti-rolling socket includes a socket body, at least one groove, at least one through hole, and at least one stopper. The socket body has an inner peripheral surface and an outer peripheral surface. The at least one groove is disposed in, and along the circumference of, the inner peripheral surface. The at least one through hole is disposed between the inner peripheral surface and the outer peripheral surface and communicates with the at least one groove. The at least one stopper includes a stop ring and a stop section, with the stop ring fitted in the at least one groove, and the at least one stop section connected to the stop ring, projecting from the at least one through hole, and protruding from the outer peripheral surface.
The anti-rolling socket of the present invention is so designed that the socket body is provided with the through hole, and that the stop section projects from the through hole, protrudes from the outer peripheral surface of the socket body, and can therefore abut against a flat surface to prevent the socket body from rolling on the flat surface.
According to another embodiment of the present invention, the number of the at least one groove is two, and the number of the at least one stopper is two. The two stoppers are disposed in the two grooves respectively.
According to another embodiment of the present invention, the number of the at least one groove is two, the number of the at least one stopper is one, and the anti-rolling socket further includes a C-clip. The stopper is disposed in one of the grooves, and the C-clip is fitted in the other groove.
According to another embodiment of the present invention, the number of the at least one through hole is plural, and the number of the at least one stop section is plural. The stop sections project from the through holes respectively.
According to another embodiment of the present invention, the stop ring has a wavy shape.
According to another embodiment of the present invention, the stop ring has a polygonal cross section.
According to another embodiment of the present invention, the stop ring is a closed stop ring.
According to another embodiment of the present invention, the stop ring is an open stop ring.
According to another embodiment of the present invention, the number of the at least one stop section is two, and the two stop sections are located at two ends of the stop ring respectively.
According to another embodiment of the present invention, the stop ring has two ends, and the stop ring surrounds a central axis of the socket body in such a way that the two ends define a reflex central angle θ satisfying the condition: 270°≤θ≤360°.
The above and other objectives, as well as the features, advantages, and following embodiments, of the present invention can be better understood by referring to the accompanying drawings, in which:
A number of embodiments of the present invention are described below with reference to the accompanying drawings. The following description will include many practical details in order to be clear and specific. The reader, however, should understand that those practical details are not intended to be restrictive of the scope of the invention; in other words, the practical details are not essential to some embodiments of the invention. Besides, for the sake of simplicity of the drawings, some conventional or commonly used structures and elements are drawn only schematically in the drawings, and repeated elements may be indicated by the same reference numeral or similar reference numerals.
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More specifically, the stop ring 131 is an open stop ring and has two ends. The stop ring 131 surrounds the central axis O of the socket body 100 in such a way that the two ends define a reflex central angle θ satisfying the condition: 270°≤θ≤360°. This configuration helps increase the smoothness of operation of fitting the stop ring 131 into the groove 110. The stop ring 131 is made of an elastic material such as rubber, plastic, or metal; the present invention has no limitation in this regard. In the first embodiment, the stop ring 131 is made of metal in order to have high wear resistance.
The anti-rolling socket 10 of the present invention is so configured that an engaging structure is formed by disposing the stop ring 131 of the stopper 130 in the groove 110. When a hand tool (not shown) is inserted into the socket body 100, the stop ring 131 is pressed by the hand tool such that the position of the hand tool is limited by engagement between the hand tool and the stop ring 131. One special feature of this embodiment is that the stop section 132 connected to the stop ring 131 extends through the through hole 120 and is exposed from the outer peripheral surface 102 of the socket body 100. When the anti-rolling socket 10 together with the hand tool inserted therein is placed horizontally on a flat surface, the hand tool, the outer peripheral surface 102 of the socket body 100, and the stop section 132 form three contact points on the flat surface. These contact points prevent the hand tool and the anti-rolling socket 10 from rolling. Thus, by performing such simple machining operations as connecting the stop section 132 to the stop ring 131 to form the stopper 130, and drilling the through hole 120 in the socket body 100 to allow the stop section 132 to protrude from the outer peripheral surface 102 by way of the through hole 120, the intended effect of preventing the socket body 100 from rolling is achieved, and the economic benefit and competitiveness of the end product are therefore enhanced. The aforesaid flat surface may be a floor, a tabletop, or any other surfaces where the anti-rolling socket 10 can be placed.
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One special feature of the second embodiment is that the anti-rolling socket 20 further includes a C-clip 240. The C-clip 240 is fitted in the groove 210 that does not communicate with the through hole 220. The C-clip 240 is made of an elastic material such as rubber, plastic, or metal; the present invention has no limitation in this regard. With both the stop ring 231 and the C-clip 240 engaged with the hand tool inserted in the socket body 200, the area of contact and engagement with the hand tool is increased as compared with when the C-clip 240 does not exist, and this helps increase the stability with which the hand tool can be operated. It is worth mentioning that a hand tool inevitably has dimensional errors within manufacturing tolerances, and that the dimensional errors may result in a mismatch in dimension when the hand tool is inserted into the socket, making the hand tool prone to falling off. The additional C-clip 240 of the anti-rolling socket 20 of the invention is intended to keep the hand tool effectively engaged in the socket body 200, thereby increasing the mechanical tolerance of the anti-rolling socket 20 and decreasing the difficulty of engagement attributable to dimensional errors of the hand tool.
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It is worth noting that unlike the second embodiment, the third embodiment includes not only the through hole 320a, which is disposed in the outer peripheral surface 302, but also the through hole 320b, which is 180 degrees apart from the through hole 320a along the circular contour of the outer peripheral surface 302, with the two stop sections 332 located on two opposite sides of the sectional line T of the socket body 300 respectively. When the anti-rolling socket 30 is placed horizontally on a flat surface, therefore, both stop sections 332 serve to prevent the socket body 300 from rolling on the flat surface, and the distance for which the socket body 300 may roll until one of the stop sections 332 abuts against the flat surface will be less than the distance for which the socket body 200 in the second embodiment may roll until the only stop section 232 abuts against the flat surface.
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The numbers and structures of the stoppers and grooves of the anti-rolling sockets in the first to the ninth embodiments disclosed above may be combined as needed to meet the requirements of, and produce the desired engaging effects on, different hand tools.
According to the above, the present invention has the following advantages: 1) the at least one stop section can abut against a flat surface to prevent the socket body from rolling on the flat surface; 2) by disposing a plurality of stop sections respectively at different positions on the outer peripheral surface, the anti-rolling effect can be enhanced, and the distance for which the anti-rolling socket may roll after falling onto a flat surface will be reduced; and 3) the anti-rolling socket may provide stop rings of different shapes to enable selection according to the structure of the hand tool to be used.
While the present invention has been disclosed through the foregoing embodiments, those embodiments are not intended to be restrictive of the scope of the invention. A person skilled in the art shall be able to make various changes and modifications to the embodiments without departing from the spirit or scope of the invention. The scope of the patent protection sought by the applicant is defined by the appended claims.
Number | Date | Country | Kind |
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110112780 | Apr 2021 | TW | national |
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Number | Date | Country | |
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20220324083 A1 | Oct 2022 | US |