KR20110006908U - Screw for a woodwork - Google Patents

Abstract

The present invention relates to a screw for woodworking, according to one aspect of the present invention, a screw for woodworking having a head portion and a threaded portion extending from the head portion, a drill blade formed by a blade groove formed at the distal end of the threaded portion Includes, there is provided a woodworking screw, characterized in that the friction reducing groove is formed in at least a portion of the thread formed in the threaded portion.

Woodworking Screws, Drill Bits, Friction Reduction Grooves

Description

Woodworking Screws {SCREW FOR A WOODWORK}

The present invention relates to a screw for woodworking, and more particularly to a screw that can be used for woodworking.

Screw is a kind of fastening means widely used to fasten two members, various types of screws are used according to the type and shape of the base material to be fastened.

In these screws, woodworking screws for wood are generally used screws having a triangular cross section in consideration of material properties, and these screws are generally used to increase the fastening force in consideration of the hardness of wood. It is larger than the screws for different height materials.

On the other hand, in the case of fastening wood using a screw, generally a hole having a diameter smaller than the diameter of the screw is pre-drilled to the joint part of the wood in advance. Such a hole is also called a pilot-hole. . If the screw is tightened in the state of pre-processing the pilot-hole, it is possible to prevent the situation that the wood does not split or the wood is too hard during the screw tightening screw screw can not enter. In addition, the pilot-hole serves to guide the direction in which the screw is to proceed, not only helps to fasten the screw correctly, but also prevents the side of the tree from bulging due to the insertion of the screw.

However, such a pilot-hole machining operation is required to be processed in advance using a drill or the like before screwing, which may cause cumbersome work and prolong the working time. Therefore, recently, a type of screw has been used so that the screw can proceed while drilling by fastening the screw without a separate drilling operation.

Such a screw has a drill blade formed at the tip of the screw, and self-drilling is performed by the drill blade, thereby reducing the effort of pre-forming the pilot-hole. An example 10 of such a self-drilling screw is shown in FIG. 1. Referring to FIG. 1, a pair of blade grooves 16 are symmetrically disposed on the tip portion 12 of the screw 10, and a drill blade 18 is formed at an end of the blade groove 16. Therefore, when the screw is tightened, the drill blade is to process the hole in the wood, the thread 14 is inserted into the inside of the processed hole so that the fastening can be made.

Through this, since the hole is processed before the screw advances, the fastening operation can be facilitated. However, in the case of this type of screw, the diameter of the hole formed by the self-drilling is too large, and the fastening force is lowered. That is, as shown in Figure 2, due to the diameter of the hole by the drill blade 18 formed in the tip portion, the depth that can be inserted into the base material 14 is lowered, leading to a decrease in the fastening force by that much .

In order to solve this problem, only one drill blade may be formed, but in this case, a larger torque must be applied to the driver for drilling and inserting the thread. There is also a risk of screw breakage during fastening.

The present invention has been made in order to overcome the disadvantages of the prior art as described above, it is a technical problem to provide a screw that does not have a great force for fastening, but the fastening force for woodworking.

According to one aspect of the present invention for achieving the above technical problem, a screw for woodworking having a head portion and a threaded portion extending from the head, including a drill blade formed by a blade groove formed on the end of the threaded portion; And, there is provided a woodworking screw, characterized in that the friction reducing groove is formed in at least a portion of the thread formed in the threaded portion.

In this aspect of the present invention, the friction reducing groove reduces the area of contact between the thread and the wood, the friction force is reduced by this reduced area to reduce the force required for fastening.

Here, the friction reducing groove may extend to the bottom of the thread.

In addition, the friction reducing groove may be formed over the entire thread, or may be formed only on a part of the thread. In this case, the friction reducing grooves may be continuously formed to form a spiral or may be made discontinuously.

In addition, the blade groove and the friction reducing groove may be connected to each other. In this case, the friction reducing groove may also function as a chip outlet for discharging chips generated by the friction reduction and the drill blade.

In this case, the friction reducing groove may extend to rotate at least one time along the threaded portion.

According to the aspects of the present invention having the configuration as described above, it is possible to significantly improve the ease of use because it reduces the force required for fastening without lowering the fastening force. Due to this, it is possible to apply regardless of the material, it is possible to prevent the screw broken due to excessive force in the fastening process.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of a screw for woodwork according to the present invention.

Figure 3 is a side view showing an embodiment of a screw for woodwork according to the present invention. Referring to FIG. 3, the embodiment includes a head portion 110 having a dish head shape and a thread portion 120 extending from the head portion 110 and having a substantially cylindrical cross section similar to a general screw.

The tip portion of the threaded portion 120 is formed in a needle shape, the threaded portion 130 having a substantially triangular cross section is formed on the outer peripheral surface while forming a spiral. Here, the shape of the screw thread, screw thread and head in the present invention is not necessarily limited to the illustrated and may include all of the general type of screw that can be used for woodworking.

A blade groove 140 is formed at the tip of the threaded portion 120. The blade groove 140 is formed by cutting a part of the screw thread 130 and the screw thread 120 through a machining process, and extends in a spiral along the screw thread 120. In addition, a drill blade 140a is formed at an edge portion located at an upper side of both edge portions of the blade groove 140.

Here, the position where the drill blade 140a is formed may vary depending on the type of the screw. That is, since the screw shown in FIG. 3 is a right screw, that is, a screw configured to move forward when rotated clockwise, in FIG. 3, a drill blade may be cut only when a drier is positioned at an edge portion positioned at an upper portion thereof. In the case of the left screw, the drill blade should be located at the edge located at the bottom opposite to FIG.

On the other hand, the friction reducing groove 142 is formed in the screw thread 130 is connected to the blade groove 140 is formed in the screw thread. The friction reducing groove 142 is formed by cutting a portion of the thread 130, the bottom surface of the friction reducing groove 142 extends to the surface of the threaded portion. Due to the presence of this friction reducing groove 142, the thread 130 is discontinuously extended throughout the threaded portion, whereby the thread 130 extends continuously throughout the threaded portion. Compared with the screw, the contact area with the base material is reduced by the sum of the cross-sectional areas of the friction reducing groove 142.

Due to this, the torque required for fastening the screw is reduced, and the effect of the torque reduction is further amplified due to the presence of the drill blade formed at the tip of the screw. In addition, since only one drill blade is formed, the diameter of the drill hole formed in the base material is also smaller than that when the two drill blades are included, so that the depth of the thread penetrating into the base material is also increased, thereby improving the fastening force.

Meanwhile, the blade groove and the friction reducing groove are distinguished for convenience of description, but are actually one groove connected to each other. As a result, the chip of the base material generated by the drill blade 140a positioned in the blade groove 140 is collected in the blade groove 140 and along the friction reducing groove 142 toward the head 110 of the screw. Can be transported.

In order to smoothly discharge the chip, the friction reducing groove 142 extends helically along the threaded portion, and the number of rotations thereof may be changed at least once or more depending on the length of the threaded portion. In the example shown there is approximately one revolution per 3 cm of the length of the threaded portion.

The above embodiment may be modified in various forms. For example, the blade groove and the friction reducing groove may be disposed separately from each other, and an example in which a plurality of friction reducing grooves are formed may be considered. In addition, the friction reducing groove may extend in a straight line instead of a spiral, and an example in which the bottom surface of the friction reducing groove is located above the threaded portion may be considered.

1 is a side view showing a conventional general screw for woodworking.

2 is a cross-sectional view showing a state in which the screw shown in FIG.

Figure 3 is a side view showing an embodiment of a screw for woodwork according to the present invention.

Claims (7)

A woodworking screw having a head portion and a threaded portion extending from the head portion, It includes a drill blade formed by a blade groove formed in the distal end of the threaded portion, Woodworking screw, characterized in that the friction reducing groove is formed in at least a portion of the thread formed in the threaded portion. The method of claim 1, The friction reducing groove is woodworking screw, characterized in that extending to the bottom of the thread. The method of claim 1, The friction reducing groove is a woodworking screw, characterized in that formed over the entire thread. The method of claim 1, The friction reducing groove is a woodworking screw, characterized in that formed on only a portion of the thread. The method of claim 3, Woodworking screw, characterized in that the blade groove and the friction reducing groove is connected. The method of claim 5, The friction reducing groove formed in each thread is a woodworking screw, characterized in that arranged to form a spiral. The method of claim 6, The friction reducing groove is a woodworking screw, characterized in that extending to rotate at least one time along the threaded portion.

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