The present invention relates to a device for cutting steel wire ropes, and more particularly to a pair of single-blade-double-edged steel wire rope shears.
A pair of conventional steel wire rope shears 100A disclosed in Taiwan Patent No. M459957 is shown in
Another pair of conventional steel wire rope shears 200B disclosed in Taiwan Patent No. M427723 is shown in
Each of the pairs of the steel wire rope shears 100A and 200B is provided with two jaws 11A, 21A, 11B and 21B (as shown in
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
One objective of the present invention is to provide a pair of single-blade-double-edged steel wire rope shears capable of providing at least three cutting points in total, and as a result, the present invention can save 8-13% of cutting force, as compared with the conventional steel wire rope shears with two cutting points.
To achieve the above objective, a pair of single-blade-double-edged steel wire rope shears in accordance with the present invention comprises: a first cutting member and a second cutting member pivotally connected to each other by a pivot member, characterized in that:
the first cutting member includes a first grip and a first blade, the first blade is provided at one side of the first cutting member facing the second cutting member with a first cutting portion, the first cutting portion includes a first lateral cutting surface, a first lateral cutting edge, a first bottom cutting surface, and a first bottom cutting edge, the first bottom cutting edge is connected to the first bottom cutting surface, the first bottom cutting surface is inclined, the first lateral cutting edge is connected to the first lateral cutting surface, and the first lateral cutting surface is inclined;
the second cutting member includes a second grip and a second blade, the second blade is provided at one side of the second cutting member facing the first cutting member with a second cutting portion, the second cutting portion includes a second lateral cutting surface, a second lateral cutting edge a second bottom cutting surface and a second bottom cutting edge, the second bottom cutting surface is inclined and connected to the second bottom cutting edge, the second lateral cutting edge is connected to the second lateral cutting surface, and the second lateral cutting surface is inclined;
a first angle is defined between the first lateral cutting edge and the first bottom cutting edge, a second angle is defined between the second lateral cutting edge and the second bottom cutting edge, and the first and second angles are between 75 and 90 degrees;
when the first and second grips pivot toward each other, the first lateral cutting edge and the second lateral cutting edge cut a to-be-cut object which is inserted between the first and second lateral cutting edges, meanwhile, the first bottom cutting edge and the second bottom cutting edge also cut the to-be-cut object.
Preferably, wherein one surface of the first blade connected to the first bottom cutting edge is defined as a first lateral surface, one surface of the second blade connected to the second bottom cutting edge is defined as a second lateral surface, both the first lateral surface and the second lateral surface extend along the extending direction of an axis of the pivot member, an angle between the first lateral surface and the first bottom cutting surface is defined as a first inclination angle, an angle between the second lateral surface and the second bottom cutting surface is defined as a second inclination angle, and the first and second inclination angles are less than 90 degrees.
Preferably, a transverse direction, the first bottom cutting edge extends along the transverse direction, a surface of the first blade connected to the first lateral cutting edge is defined as a third lateral surface, a surface of the second blade connected to the second lateral cutting edge is defined as a fourth lateral surface, the third lateral surface and the fourth lateral surface all extend along the transverse direction, an angle defined between the third lateral surface and the first lateral cutting surface is defined as a third inclination angle, an angle between the fourth lateral surface and the second lateral cutting surface is defined as a fourth inclination angle, and the third and fourth inclination angles are less than 90 degrees.
Preferably, wherein the first bottom cutting edge extends along a transverse direction which is perpendicular to an axis of the pivot member, and when the first and second cutting members are opened, the axis separates the first lateral cutting edge and the second lateral cutting edge from each other at two different sides of a plane defined by the transverse direction and the axis.
Preferably, the first bottom cutting edge extends along a transverse direction which is perpendicular to an axis of the pivot member, and when the first and second cutting members are opened, the axis makes the first lateral cutting edge and the second lateral cutting edge located at a same side of a plane defined by along the transverse direction and the axis.
Preferably, the first lateral cutting surface is disconnected from the first bottom cutting surface, the second lateral cutting surface is disconnected from the second bottom cutting surface, the first lateral cutting edge is disconnected from the first bottom cutting edge, and the second lateral cutting edge is disconnected from the second bottom cutting edge.
Preferably, a groove is defined between the first lateral cutting surface and the first bottom cutting surface, the groove is also defined between the first lateral cutting edge and the first bottom cutting edge, and a groove is defined between the second lateral cutting surface and the second bottom cutting surface, the groove is also defined between the second lateral cutting edge and the second bottom cutting edge.
Preferably, a first clamping angle is defined between an imaginary extension line of the first lateral cutting edge and an imaginary extension line of the first bottom cutting edge, and a second clamping angle defined between an imaginary extension line of the second lateral cutting edge and the second bottom cutting edge, and the first clamping angle and the second clamping angle are between 75 and 90 degrees.
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.
Referring to
The first cutting member 1 includes a first grip 11 and a first blade 12. The first blade 12 is provided at one side thereof facing the second cutting member 2 with a first cutting portion 13, and the first cutting portion 13 includes a first lateral cutting surface 14, a first lateral cutting edge 141, a first bottom cutting surface 15 and a first bottom cutting edge 151. The first bottom cutting edge 151 is connected to the first bottom cutting surface 15, the first bottom cutting surface 15 is inclined, the first lateral cutting edge 141 is connected to the first lateral cutting surface 14, and the first lateral cutting surface 14 is inclined. In a specific embodiment, the first bottom cutting edge 151 is a cutting edge located at one side of the first bottom cutting surface 15, and the first lateral cutting edge 141 is a cutting edge located one side of the first lateral cutting surface 14. The first lateral cutting surface 14 connected with the first bottom cutting surface 15. As shown in
The second cutting member 2 includes a second grip 21 and a second blade 22. The second blade 22 is provided at one side thereof facing the first cutting portion 13 of the first cutting member 1 with a second cutting portion 23. The second cutting portion 23 includes a second lateral cutting surface 24, a second lateral cutting edge 241, a second bottom cutting surface 25, and a second bottom cutting edge 251. The second bottom cutting edge 251 is inclined and connected to the second bottom cutting surface 25. The second lateral cutting edge 241 is connected to the second lateral cutting surface 24, and the second lateral cutting surface 24 is inclined. In a specific embodiment, the second bottom cutting edge 251 is a cutting edge located at one side of the second bottom cutting surface 25, and the second lateral cutting edge 241 is a cutting edge located one side of the second lateral cutting surface 24. The second lateral cutting surface 24 connected with the second bottom cutting surface 25. As shown in
An elastic member 5 is connected between the first and second grips 11, 21, so that the first and second grips 11, 21 can be returned to their original positions after cutting operation.
Referring to
As further shown in
As shown in
Referring then to
two cutting points P1 and P2 formed by the first lateral cutting edge 141 and the second lateral cutting edge 241, and at least one cutting point P3 formed by the first bottom cutting edge 151 and the second bottom cutting edge 251. When the to-be-cut object 200 has a relatively large diameter, more than two cutting points (not shown in this embodiment) will be formed at the first bottom cutting edge 151 and the second bottom cutting edge 251. When the first and second angles B1, B2 are approximately 90 degrees, about four cutting points will be formed, namely, a cutting point will be formed at each of the first lateral cutting edge 141, the second lateral cutting edge 241, the first bottom cutting edge 151 and the second bottom cutting edge 251.
Please refer to the table 1 as below, which shows the cutting strength (kgf) comparison between the pair of single-blade-double-edged steel wire rope shears 100 of the invention and the conventional steel wire rope shears (HWC6):
Table 1
The average value of the above table 1 shows that the present invention saved 8% of the cutting force applied to the rope φ0.33×19×6, namely, (50.5−46.6)/46.6=0.08; saved 13% of the cutting force applied to the rope φ0.26×19×6, namely (32.2−28.5)/28.5=0.13; and saved 12% of the cutting force applied to the rope φ0.32×7×6, namely (21.9−19.6)/19.6=0.12. Namely, the pair of single-blade-double-edged steel wire rope shears 100 of the present invention can save 8-13% of cutting force, as compared with the conventional steel wire rope shears (HWC6).
In addition to the two cutting points formed by the first and second lateral cutting edges 141, 241, the first and second bottom cutting edges 151, 251 also further provide at least one cutting point, thus forming at least three cutting points in total, and as a result, the present invention can save 8-13% of cutting force, as compared with the conventional steel wire rope shears with two cutting points.
Besides, when the first and second lateral cutting edges 141, 241 pivot toward each other, as shown in
Referring then to
In the preferred embodiment, as shown in
As shown in
Referring then to
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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105215888 | Oct 2016 | TW | national |
This application is a continuation in part of U.S. patent application Ser. No. 15/638,272, which claims the earlier filing date of Jun. 29, 2017, the entire specification of which is incorporated herein by reference.
Number | Date | Country | |
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Parent | 15638272 | Jun 2017 | US |
Child | 16232019 | US |