The present invention relates to a screw with multiple cutting ridges defined in the end section to improve the efficiency of the screw.
A conventional screw 1 is disclosed in
However, it is noted that the end section 14 is formed by way of pressing by two press dies so that the end section 14 is formed with a little bit of flat so that the two cutting edges 161 are located on two ends of a diameter of the end section 14. The two cutting edges 161 bear all the torque when screwing into the object, so that the resistance is so large and the user has to use a lot of torque to rotate the screw 1.
Besides, The cutting edges 161 tend to be too thin by the way of pressing and are easily to be broken or damaged. If the cutting edges 161 are made to be thick which might be too dull to cut the fibers of the object. In other words, the precision of the dies is very important and the adjustment when installing the dies is time-consuming.
The present invention intends to provide a screw with multiple cutting ridges defined in the end section which is effort-saving and able to cut fibers of the object effectively.
The present invention relates to a screw that comprises a head and a shank Said shank includes a thread and a tapered end section. At least two grooves are defined in the end section so as to form at least two cutting units, and each cutting unit has a cutting edge and an extension portion. A cutting ridge extends from each of the at least two cutting units and an outer periphery of each of the cutting ridges intersects a circle whose diameter is composed of the cutting edges of the at least two cutting cutis.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to FIGS. 2 to 4, the screw 2 of the present invention comprises a head 21 and a shank 22 connected to the head 21. The shank 22 has a thread 23 defined in an outer periphery thereof and a tapered end section 223 which is connected to a distal end of the shank 22. Two grooves 224 (only one is shown) are defined in the end section 223 so as to form two cutting units 225, and each cutting unit 225 has a cutting edge 226 and an extension portion 227 which is connected with the cutting edge 226. A cutting ridge 228 extends from each of the two cutting units 225 and an outer periphery of each of the cutting ridges 228 intersects a circle whose diameter is composed of the cutting edges 226 of the two cutting units 225 as shown in
The screw 2, 4, 5 of the present invention can be easily screwed into objects by the cutting ridges 228, the ribs 424 or the elongate flanges 525 which share the torque so that they are not damaged by the resistance. The screw 2, 4, 5 do not need to rely on the sharpness of the cutting edges 226 due to the existence of the cutting ridges 228, the ribs 424 or the elongate flanges 525. In other words, the screws are effective even if the dies are not precise as desired.
As indicated above, the invention has the following advantages:
1. Because the cutting edges and cutting ridges cut the fiber of object together, the screwing becomes effort-saving and efficient. The cutting edges and cutting ridges share the torque to reduce the resistance.
2. Because the cutting ridges help cut the fiber of object, there is no great influence whether the cutting edges are shape or not.
3. Because the ribs help cut the fiber of object and share the torque, the cutting ridges become less possible to broke and damage.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.