JP3127534U7 - - Google Patents

Description

Adjusting screw for drilling metal objects

The present invention relates to a kind of screw, particularly an adjustment screw for tightening a metal object.

See FIG. The known self-drilling screw 1 has the following: a screw head 11, a screw rod 12 extending downward from the screw head 11, a screw thread 13 wound spirally around the screw rod 12, and a free end of the screw rod 12. The drill head 14 provided integrally. Therefore, when tightening, the drill head 14 makes a hole in a metal object (not shown in the drawing), and then the screw thread 13 enters, and the self-drilling screw 1 can be tightened and fixed. is there.

The self-drilling screw 1 has the effect of being directly screwed with a metal object, but after actual use, the material of the drill head 14 must be a hard steel material, otherwise it cannot be tightened with a drill. I know that. Further, the drill head 14 is relatively rusted and easily corroded, which impairs the beauty. In addition, the self-drilling screw 1 can only be tightened and extracted in a single direction. For this reason, when it is used for repair or replacement with a metal object such as a corrugated sheet for roofing, the extraction operation of the self-drilling screw 1 is always performed on the roof, so that the danger to the operator increases.

In view of these, there are those who have researched and developed the design of “stainless steel tapping bolts”. Referring to FIG. 2, the tapping bolt 2 includes a screw rod 21 having a thread 211 and a drill tip 22. Among them, the screw rod 21 is made of a stainless material, the rear end thereof is a screw head 212, and the front end is provided with a concave groove 213. The drill tip 22 is a steel metal material having high hardness. The front end forms a drill head 221 and the rear end is integrally formed with a polygonal fitting block 222. The fitting block 222 can be fitted into the concave groove 213. Therefore, as shown in FIG. 3, in use, the drill tip 22 first opens a hole 31 in the metal object 3 so that the thread 211 of the screw rod 21 enters and is fixed to the metal object 3. Finally, if the drill tip 22 is removed as necessary, the groove 213 of the screw rod 21 can be rotated and adjusted in addition to preventing rust and increasing aesthetics. When the worker uses it for repairing or replacing the metal object 3 with a roof plate or the like, the worker performs the operation of removing the self-drilling screw 2 on the roof, and this improvement can surely improve the work effect.

However, although the well-known stainless steel tapping bolt 2 wants to promote the above effect, a detailed analysis of its structural design reveals that the above effect cannot be achieved during use. That is, the drill tip 22 is mainly fitted directly into the screw rod 21, and the screw tip 211 and the thread 211 of the screw rod 21 are connected after being fitted. However, since the drill tip 22 and the threaded rod 21 are designed to be fitted and separated from each other, the drill tip 22 cuts the metal object 3 after the actual tightening operation. After drilling, it can be seen that the thread 211 of the screw rod 21 cannot be cut along the hole 31 formed in the drill tip 22. On the other hand, when the thread 211 is cut, the thread 211 made of stainless steel is forcibly cut, so that the thread is easily damaged. As a result, in addition to the drop-off phenomenon after tightening, if the thread 211 is a soft material, the thread 211 cannot be threaded at all, and the subsequent thread 211 cannot be rotated or tightened. It will be. This problem cannot be solved even after repeated tests, and is just waiting for improvement.

Therefore, an object of the present invention is to provide a kind of adjusting screw for fastening a metal object, which has an effect of being convenient for use and capable of being immediately tightened, inserted and fixed when the metal object is tightened. .

An adjustment screw for tightening a metal object according to the present invention includes a screw rod provided with a thread first portion, and a drill tip connected to the screw rod. Of these, the screw rod is provided with a concave groove on the end face, and the block for fitting at the tip of the drill can be fitted and fixed by the concave groove. At the same time, it is aligned with the second thread portion provided at the tip of the drill. The second thread portion and the first thread portion are connected to each other. Therefore, during the tightening operation, when the tip of the drill penetrates the metal object, the second thread portion is cut in conjunction with the drill so that the subsequent first thread portion can smoothly enter. Therefore, the damage of the first thread portion can be eliminated, and the effect of tightening and fixing can be easily achieved. Further, the user can remove the drill tip as required and insert the clamping tool directly into the concave groove in a metal object. The screw rod is rotated without passing through the screw head and the screw is rotated to adjust the tightening position, and the convenience of use can be further improved.

The invention of claim 1 is an adjustment screw for tightening a metal object, including a screw rod and a drill tip connected to the screw rod, wherein the screw rod and the drill tip are connected by different materials and integrated. The screw rod comprises a rod portion main body, a thread first portion provided on the rod portion main body, and screw heads and end surfaces provided on both ends of the rod portion main body, respectively, and the end surface is provided with a concave groove, The drill tip is provided between the main body, a drill head formed on the main body, a fitting block formed in the opposite direction of the drill head on the main body, and the drill head and the fitting block on the main body. A second part of the screw thread, and the above-mentioned block for fitting can be fitted and fixed in the groove, Connection is the threaded second portion and said threaded first portion, out of the threaded first and second portions to name an equal pitch, and an outer diameter D1 is threaded second portion of the threaded first portion An adjustment screw for tightening and drilling a metal object characterized by being capable of adjusting the distance movement by removing the drill tip and tightening the screw rod after drilling in a metal object because the diameter becomes larger than the diameter D2 .
The invention of claim 2 is characterized in that the peripheral wall of the concave groove is constituted by a polygonal plane, and at the same time, the fitting block has a polygonal column shape, and the fitting block can be fitted and fixed in the concave groove. adjustment screw for has been clamped metal object perforations according to claim 1.

The present invention is to provide an adjustment screw for tightening and drilling a metal object, which is convenient for use and has an effect that can be immediately tightened, inserted and fixed at the time of drilling and tightening a metal object.

FIG. 4 shows an adjustment screw 4 for tightening a metal object according to the present embodiment. This includes a screw rod 41 and a drill tip 42 connected to the screw rod 41. Among them, the screw rod 41 and the drill tip 42 are integrated by connecting different materials. The screw rod 41 described in the present embodiment is made of stainless steel, and the screw rod 41 includes the following: a rod portion main body 411, a thread first portion 412 provided on the rod portion main body 411, and the rod portion main body. Screw heads 413 and end surfaces 414 provided at both ends of 411, respectively. The end surface 414 is provided with a concave groove 415, and the peripheral wall 416 of the concave groove 415 is formed by a polygonal plane as shown by the hexagonal body in the figure.

Continuing the above description, the drill tip 42 is made of a carbon steel material (such as iron) having a high hardness. The drill tip 42 includes: a main body 421, a drill head 422 formed on the main body 421, a fitting block 423 formed on the main body 421 in a direction opposite to the drill head 422, and the main body 421. A thread second portion 424 located between the drill head 422 and the fitting block 423. The fitting block 423 has a polygonal column shape as shown by a hexagon in the drawing, and the fitting block 423 can be fitted and fixed in the concave groove 415. Therefore, the screw thread second portion 424 and the screw thread first portion 412 are connected, and the screw thread first and second portions 412 and 424 form an equal pitch. At the same time, the outer diameter D1 of the first thread portion 412 is larger than the outer diameter D2 of the second thread portion 424.

See FIG. When the adjustment screw 4 according to this embodiment is to be fastened to a metal object 5 such as a corrugated plate for roofing, the drill tip 42 is first fitted into the screw rod 41 and fixed. Thereafter, the screw head 413 is rotated by a tightening tool (not shown in the drawing), and the rotation of the drill tip 42 is promoted so that the hole 51 is first formed in the metal object 5. Thereafter, the second thread portion 424 is smoothly inserted and threaded in the hole 51. At this time, since the drill tip portion 42 is a material having high hardness, the thread cannot be damaged in the threading process. Moreover, since the locus | trajectory after fastening is made simultaneously, the said thread 1st part 412 is tightened smoothly and entered until the said adjustment screw 4 is fastened and fixed. In addition, with respect to the situation at this time, when the usage time of the adjustment screw 4 increases, a slight backlash occurs. At that time, the operator does not have to climb and turn the roof to tighten, and only needs to remove the drill tip 42 and expose the groove 415 of the screw rod 41 to the outside. Thereafter, the clamping tool 6 (as indicated by the broken line) is inserted into the concave groove 415 (that is, positioned in the metal object 5). Therefore, the operator can rotate the screw rod 41 without passing through the screw head 413. If the screw rod 41 is turned loosely and removed, or if the screw head 413 and the metal object 5 are further brought into close contact with each other by a method of turning and tightening, effects such as water leakage prevention and tightening position adjustment can be achieved. The convenience of use is further improved.

In summary, the present invention is adapted to a design in which the screw tip and the drill tip are alternately fitted and fixed, and at the same time the drill tip is provided with the second thread portion. Therefore, in the drilling process of the drill, it cuts in conjunction with the second thread portion, and the subsequent first thread portion can smoothly enter. Thus, the first thread portion can be easily tightened and fixed without any damage to the thread in the process of tightening. Of course, in order to adjust the screw rod, the tip of the drill can be removed, and the tightening adjustment can be performed by inserting a tightening tool into the concave groove. The convenience of use is further improved.

  It is a three-dimensional exploded view of a known self-drilling screw.   It is a three-dimensional exploded view of a known stainless steel tapping bolt.   It is sectional drawing of a well-known stainless steel tapping bolt.   1 is an exploded view illustrating a preferred embodiment of the present invention.   It is the display figure which showed the piercing | tightening tightening state of the said preferable Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Self-drilling screw 11 Screw head 12 Screw rod 13 Screw thread 14 Drill head 2 Tapping bolt 21 Screw rod 211 Screw thread 212 Screw head 213 Groove 22 Drill tip 222 Insertion block 3 Metal 31 Hole 4 Adjustment screw 41 Screw rod 42 Drill tip 411 Rod part main body 412 Thread first part 413 Screw head 414 End face 415 Recess tank 416 Peripheral wall 421 Main body 422 Drill head 423 Insertion block 424 Thread second part 5 Metal 51 Hole D1, D2 Outer diameter

Claims (2)

An adjustment screw for tightening a metal object includes a screw rod and a drill tip connected to the screw rod. The screw rod and the drill tip are connected to each other by different materials. A screw thread first portion provided on the rod portion main body, and screw heads and end surfaces provided on both ends of the rod portion main body, respectively, wherein the end surface is provided with a concave groove, and the drill tip portion is A main body, a drill head formed on the main body, a fitting block formed in a direction opposite to the drill head on the main body, and a second thread portion provided between the drill head and the fitting block on the main body. The above-mentioned block for fitting can be fitted and fixed in the groove, just the second part of the thread. Connection is the threaded first portion, to said threaded first and second portions name equal pitch, and the outer diameter D1 of the threaded first portion is larger than the outer diameter D2 of the threaded second portion, An adjustment screw for tightening and drilling a metal object, characterized in that after drilling a metal object, the tip of the drill is removed and the screw rod is turned and tightened to adjust the distance movement. 2. The metal according to claim 1, wherein the peripheral wall of the concave groove is formed by a polygonal plane, and at the same time the block for fitting is a polygonal column, and the block for fitting can be fitted and fixed in the groove. for tightening things drilling adjustment screws.