The present invention relates to an open-ended wrench, and more particularly to an unsymmetrical structure for an open-ended wrench.
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Therefore, in order to overcome the aforementioned problem of easy cracking of sharp angles, an open-end wrench that prevents cracking was invented. Please refer to
The aforementioned two wrenches are actually the two most common types in the technical field of open-end wrenches. However, the force-applying surface 21 and the force-receiving surface 23 of the aforementioned two open-ended wrenches are parallel to each other. When the nut is engaged in the opening, the two parallel surfaces of the nut will be completely abutted against the force-applying surface 21 and the force-receiving surface 23, and each time the wrench is rotated, the torque is mainly transmitted from the force-applying surface 21 to the nut. Since the force-applying surface 21 contacts the nut in a large area, the torque of the wrench is perpendicular to the force-applying surface 21 and transmitted to the nut, resulting in the force being dispersed in a large area in each position where the force-applying surface 21 contacts the nut.
In view of this, it is indeed necessary to provide a new technical solution to solve the aforementioned problems.
One objective of the present invention is to solve the problem that the force will be dispersed by the force-applying surface of the open-end wrench.
To achieve the above objective, an unsymmetrical structure for an open-ended wrench provided by the invention comprises:
a handle;
a working head disposed on the handle, wherein the working head is provided with an opening, and a force-receiving surface, a force-applying surface, four round-angle surfaces and two fixing surfaces, which face the opening, the force-receiving surface is a flat surface facing the opening, the opening is used for engaging with a nut, a torque center of the nut defines an axial center in the opening, the axial center extends toward the force-receiving surface to define a horizontal axis perpendicular to the force-receiving surface, the force-applying surface protrudes toward the axial center, the axial center extends along the horizontal axis to the force-applying surface to define a force-applying point, the two round-angle surfaces are respectively connected to two ends of the force-applying surface, a tangent point is defined at each of the positions where the two round-angle surfaces are connected to the force-applying surface, and a force-applying distance is defined between the force-applying point and each of the tangent points along the horizontal axis.
In a preferred embodiment, the force-applying surface is an arc of a first imaginary circle with a diameter of 25.3 cm, and each of the round-angle surfaces is an arc of a second imaginary circle of 1.87 cm.
In a preferred embodiment, each of the tangent points defined at the positions where the force-applying surface and the two round-angle surfaces are connected is located at the position where the first imaginary circle and the two second imaginary circles are tangent to each other, the two tangent points extend along the horizontal axis to define two tangent lines, the centers of the two second imaginary circles extend along the horizontal axis to define two axes, the tangent lines are parallel to the axes, and the tangent lines are located between the two axes.
In a preferred embodiment, the working head further includes a clamping surface facing the opening, the clamping surface is connected to one of the round-angle surfaces, so that this one of round-angle surfaces is located between the clamping surface and the force-applying surface, the axial center defines a longitudinal axis perpendicular to the horizontal axis, and an intersection point where the longitudinal axis and the horizontal axis insect is the axial center, there is a first distance between the clamping surface and the longitudinal axis along the horizontal axis, a distance from the tangent point of the round-angle surface located between the clamping surface and the force-applying surface to the longitudinal axis along the horizontal axis is a second distance, and the first distance is smaller than the second distance.
In a preferred embodiment, the force-applying surface is provided with a plurality of teeth, and the force-applying point is located at a position wherein the force-applying surface intersects the horizontal axis.
In a preferred embodiment, the force-applying surface is provided with a plurality of teeth, tips of the teeth sequentially form an arc surface of the force-applying surface, and the force-applying point is located at a position wherein the force-applying surface intersects the horizontal axis.
In a preferred embodiment, a distance extending from the axial center along the horizontal axis to the force-receiving surface is equal to a distance extending from the axial center along the horizontal axis to the force-applying point, the two tangent points are connected to the axial center by two radial lines, a radial angle is sandwiched between the two radial lines, and the radial angle is 10 to 60 degrees.
In a preferred embodiment, the radial angle is between 20 degrees and 45 degrees.
In the present invention, by setting the force-applying surface of the wrench as an arc surface, the force-applying surface and the nut are contacted only by the force-applying point, so that the force of the torque can be transmitted to the nut only through the force-applying point, therefore the force is not dispersed and the user can turn the nut more easily.
More preferably, since the first distance is smaller than the second distance, when the wrench is rotated and the nut slightly deflects in the opening, the sharp angle of the nut can be located correspondingly in one of the round-angle surfaces, so that the round-angle surface can prevent the nut from coining out of the opening.
These together with other objects of the invention, along with the various features of novelty which characterize the invention, are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and the specific objects attained by its uses, reference should be had to the accompanying drawings and descriptive matter in which there are illustrated preferred embodiments of the invention.
The present invention will be clearer from the following description when viewed together with the accompanying drawings, which show, for purpose of illustrations only, the preferred embodiment in accordance with the present invention.
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The working head 32 is provided with an opening 321 that is open, and a force-receiving surface 322, a force-applying surface 323, four round-angle surfaces 324 and two fixing surfaces 325, which face the opening 321. The force-receiving surface 322 is a flat surface facing the opening 321. The opening 321 is used for engaging with a nut. When the nut is located in the opening 321, the torque center of the nut defines an axial center P1 in the opening 321, and the axial center P1 extends toward the force-receiving surface 322 to define a horizontal axis X perpendicular to the force-receiving surface 322. The force-applying surface 323 is an arc surface protruding toward the axial center P1, and the axial center P1 extends along the horizontal axis X to the force-applying surface 323 to define a force-applying point 3231. A distance extending from the axial center P1 along the horizontal axis X to the force-receiving surface 322 is equal to a distance extending from the axial center P1 along the horizontal axis X to the force-applying point 3231. Two of the four round-angle surfaces 324 are respectively connected to two ends of the force-applying surface 323, so that the force-applying surface 323 is located between the two round-angle surfaces 324. The positions where the two round-angle surfaces 324 are connected to the force-applying surface 323 respectively define a tangent point P2, and a force-applying distance T is defined between the force-applying point 3231 and each of the tangent points P2 along the extension direction of the horizontal axis X. The two tangent points P2 are connected to the axial center P1 by two radial lines L1, a radial angle θ is sandwiched between the two radial lines L1, and the radial angle θ is 10 to 60 degrees. In a preferred embodiment, when the radial angle θ is between 20 degrees and 45 degrees, the arc surface of the force-applying surface 323 can be made more arc and convex, and the contact between the force-applying point 3231 and the nut can be better, so that the torque force can be transmitted better. In addition, the other two round-angle surfaces 324 and two fixing surfaces 325 in the opening 321 of the working head 32 are arranged in such a way that the force-receiving surface 322 and the two fixing surfaces 325 are respectively connected to the two round-angle surfaces 324, that is, there is a round-angle surface 324 between the force-receiving surface 322 and a fixing surface 325, and another round-angle surface 324 is connected between the two fixing surfaces 325, so that when the nut enters the opening 321 of the working head 32, the force-receiving surface 322, the fixing surfaces 325, the force-applying surface 323 and the respective round-angle surfaces 324 can work together to achieve an anti-slip function.
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The above is the structural configuration and connection relationship of the present invention in a preferred embodiment, and the effects that the present invention can achieve are as follows:
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More preferably, when the nut is engaged in the opening 321, one of the sharp angles of the nut located correspondingly in the round-angle surface 324 between the clamping surface 326 and the force-applying surface 323. Since the clamping surface 326 is closer to the longitudinal axis Y in the extending direction of the horizontal axis X, when the nut is slightly deflected in the opening 321 and is about to come out, the sharp angle of the nut will be clamped between the clamping surface 326 and the round-angle surface 324 to prevent the nut from coining out of the opening 321.
In the present invention, by setting the force-applying surface 323 of the wrench as an arc surface, the force-applying surface 323 and the nut are contacted only by the force-applying point 3231, so that the force of the torque can be transmitted to the nut only through the force-applying point 3231, therefore the force is not dispersed and the user can turn the nut more easily.
More preferably, since the first distance L4 is smaller than the second distance L5, when the wrench is rotated and the nut slightly deflects in the opening 321, the sharp angle of the nut can be located correspondingly in one of the round-angle surfaces 324, so that the round-angle surface 324 can prevent the nut from coining out of the opening 321.
While we have shown and described various embodiments in accordance with the present invention, it is clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
Number | Date | Country | Kind |
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109101691 | Jan 2020 | TW | national |
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10953520 | Macor | Mar 2021 | B2 |
Number | Date | Country | |
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20210220971 A1 | Jul 2021 | US |