CN211343627U - Pointed tail screw with cutting groove - Google Patents

Abstract

The utility model discloses a pointed tail screw with a cutting groove, which is mainly characterized in that a rod body is provided with a pointed end and defines a longitudinal axis passing through the pointed end, a plurality of screw teeth which are spirally arranged to the right are arranged on the rod body, and a first cutting groove and a second cutting groove which are mutually spaced are arranged on the rod body, one first cutting edge of the first cutting groove is parallel to one second cutting edge of the second cutting groove, and when the first cutting edge extends towards the screw head direction of the screw, the extending direction of the first cutting edge is opposite to the right-rotating direction of the screw teeth; the reverse extension of the cutting groove is beneficial to the initial cutting of the drill lock, so as to achieve the purposes of fast chip removal, material cracking prevention and chip pressing and strengthening.

Description

Pointed tail screw with cutting groove

Technical Field

The utility model relates to a screw especially relates to a pointed tail screw with grooving.

Background

Referring to fig. 1, a conventional screw 1 includes a rod 11, a screw head 12 disposed at one end of the rod 11, and a right-handed screw thread 13 spirally looped on the rod 11, wherein the other end of the rod 11 is tapered to form a tip 14, and the rod 11 is provided with a cutting groove 15; when in use, the screw head 12 is rotated by a tool (not shown) to drive the screw teeth 13 to drill and lock into an object (not shown), the cutting groove 15 cuts the object, and chips generated by cutting are contained in the cutting groove 15 to complete locking; however, the single cutting groove 15 is generally extended clockwise, and has the same rotating direction as the right-handed thread 13, but the cutting effect is limited and cannot effectively cut off wood fibers, and in addition, the chip removal effect and the chip containing space are limited, the chips are easily blocked in the cutting groove 15 due to the insufficient chip removal, so that the drilling and locking process has large locking resistance, and even the chips are easily extruded outwards due to excessive accumulation, so that the material cracking and locking speed are slowed down; even if the screw 1 can be screwed into the object, the cutting groove 15 extending in the same direction can not press the residual cutting chips downwards, so that the locking effect can not be improved relatively; furthermore, since the tip 14 is only abutted against the object, the force-bearing area is small, and the tip 14 is easily deflected due to improper force application during drilling and locking, so that the tip 14 is deviated from the original abutted position, and the user needs to re-guide the screw 1 to lock the object, which is time-consuming and labor-consuming, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

Therefore, the present invention is directed to a pointed tail screw with a cutting groove, which can achieve the effects of fast drilling and locking, preventing material from cracking, etc., and has more stable locking and anti-pulling effect after locking.

Therefore, the pointed tail screw with the cutting groove of the utility model comprises a rod body, a screw head arranged at one end of the rod body and a screw tooth part arranged on the rod body in a spiral ring way, wherein, the other end of the rod body at the opposite position of the screw head is gradually reduced to form a tip end, a longitudinal axis is defined through the tip end, the section of the outer peripheral surface of the rod body is further defined to form a first perimeter and a second perimeter which are in opposite directions, the screw tooth part is provided with a plurality of screw teeth which are spiral to the right, and any two adjacent screw teeth are in intervals to form a screw pitch; the rod body is provided with a first cutting groove and a second cutting groove which are mutually spaced, and the first cutting groove and the second cutting groove are positioned on the first perimeter to form a cutting groove group; the first cutting groove is provided with a first top end and a first bottom end which respectively face the screw head and the tip direction, at least one first wall surface extending between the first top end and the first bottom end, and a first cutting edge positioned at the joint of the at least one first wall surface, the outer peripheral surface of the rod body and the screw teeth, wherein the extending trend of the first cutting edge extending towards the screw head direction is opposite to the right-hand direction of the screw teeth; therefore, the first and second cutting grooves can enhance the initial cutting and chip guiding effects on the object in the initial stage of the drill lock, so as to facilitate quick chip removal, reduce locking resistance and avoid material cracking caused by excessive accumulation of chips.

Drawings

FIG. 1 is a schematic view of a conventional screw;

FIG. 2 is a schematic structural diagram of a first preferred embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the enclosure A of FIG. 2;

fig. 4 is a partial perspective view of a structural variation of the first preferred embodiment of the present invention;

FIG. 5 is a schematic view of FIG. 4 from another perspective;

fig. 6 is a partial perspective view of another structural variation of the first preferred embodiment of the present invention;

FIG. 7 is a schematic view of FIG. 6 from another perspective;

fig. 8 is a partial perspective view of another structural variation of the first preferred embodiment of the present invention;

FIG. 9 is a schematic view of FIG. 8 from another perspective;

FIG. 10 is a schematic view of a variation of FIG. 5;

FIG. 11 is a schematic view of a variation of FIG. 7;

FIG. 12 is a schematic view of a variation of FIG. 9;

FIG. 13 is a schematic diagram illustrating the operation of the first preferred embodiment of the present invention;

fig. 14 is a perspective view of the second preferred embodiment of the present invention;

fig. 15 is a schematic structural view of a third preferred embodiment of the present invention;

fig. 16 is a schematic structural view of a fourth preferred embodiment of the present invention;

fig. 17 is a schematic cross-sectional view of section a-a of fig. 16;

FIG. 18 is a schematic view of a variation of FIG. 17;

fig. 19 is a schematic structural view of a fifth preferred embodiment of the present invention;

fig. 20 is a schematic structural view of a sixth preferred embodiment of the present invention;

FIG. 21 is an enlarged schematic view of encircled portion C of FIG. 20;

fig. 22 is a schematic plan view of fig. 21.

Description of the symbols:

Prior Art

Screw, its manufacturing method and use

Rod body

Screw head

Screw tooth

A tip

Cutting a trench

The utility model discloses

Pointed screw with notch

Article of manufacture

Rod body

Screw head

Screw tooth part

A first cut groove

A second cut groove

Auxiliary cutting groove

Lower stalk region

Main pole area

A tip end

A lead region

Screw tooth 231

A first tip end

A first bottom end

243.. first wall surface

First edge margin

251

A second bottom end

253

A second lip

261

Auxiliary bottom end

263. auxiliary wall

264

2311

2312

2312'

2313

2313'

a1.. first baseline

a2

Distance between first edges

D2.. distance between second edges

Extension of the first incision

Angle of inclination

L1

L2

L3

TL. total length

OP.. outer peripheral surface of rod body

First perimeter

Second perimeter

Pitch of thread

Longitudinal axis

Baseline of

S1

S2. a second distance between the first cutting groove and the second cutting groove

S3

S4. a fourth distance between the second bottom end and the auxiliary bottom end

Detailed Description

These and other aspects, features and advantages of the present invention will become apparent from the following detailed description of preferred embodiments, which is to be read in connection with the accompanying drawings.

Referring to fig. 2, in a first preferred embodiment of the present invention, the pointed tail screw 2 with a cutting groove includes a rod 21, a screw head 22 disposed at one end of the rod 21, and a screw thread portion 23 spirally looped on the rod 21; wherein the thread portion 23 has a plurality of threads 231 (shown as right-handed threads 231), any two adjacent threads 231 are spaced to form a pitch P, the rod 21 can be round and has an outer circumferential surface OP, the other end of the rod 21 is tapered to form a tip 211 opposite to the screw head 22, the rod 21 defines a longitudinal axis R1 passing through the tip 211 and further defines a lower rod region 21a having a length and a main rod region 21b between the lower rod region 21a and the screw head 22, and the tip 211 is located in the lower rod region 21 a; in addition, the outer circumferential surface OP area has a first perimeter OP1 and a second perimeter OP2 (as shown in the cross-sectional view of fig. 5) facing opposite directions, for example, the cross-section of the rod 21 forms a base line R2, the outer circumferential surface OP area forms two perimeters OP1 and OP2 facing different directions through the base line R2, and the two perimeters OP1 and OP2 are preferably symmetrical if the base line R2 passes through the center of the rod 21; furthermore, at least one slot group G is arranged on the rod body 21; the groove group G includes a first groove 24 and a second groove 25 disposed at intervals, in this embodiment, a group G of grooves may be provided, wherein the first groove 24 is preferably disposed below the side of the second groove 25, for example, and the grooves 24, 25 are disposed on the same peripheral edge, i.e., on the first perimeter OP1 (as shown in fig. 4 to 9), so as to improve the efficiency of the cutting process, or two groups G of grooves may be provided, wherein the grooves 24, 25 of one group G of grooves are disposed on the first perimeter OP1, and the grooves 24, 25 of the other group G of grooves are disposed on the second perimeter OP2 (as shown in fig. 10 to 12); the operation of the screw 2 will be described below only with reference to the embodiment shown in fig. 4.

Referring to fig. 2 and 3, the first slot 24 includes a first top end 241 facing the screw head 22, a first bottom end 242 facing the tip end 211, and at least one first wall 243 extending between the first top end 241 and the first bottom end 242, and the second slot 25 includes a second top end 251 facing the screw head 22, a second bottom end 252 facing the tip end 211, and at least one second wall 253 extending between the second top end 251 and the second bottom end 252; wherein the number of the first wall 243 and the second wall 253 can be adjusted as required, so that the first slot 24 and the second slot 25 can present the same or different groove shapes, for example, the same groove shape is taken as an example, the first slot 24 and the second slot 25 can respectively have two or more first walls 243 and two or more second walls 253, so as to present groove shapes such as L-shaped groove (right angle), V-shaped groove (non-right angle), polygonal groove, etc., and only two connecting walls are shown as an example, or the first slot 24 and the second slot 25 can respectively have only a single first wall 243 and a single second wall 253, and the single walls 243 and 253 can preferably be in a concave arc shape, as shown in fig. 6 and 7; moreover, the first wall 243 and the second wall 253 can be different in number (as shown in fig. 8 and 9) or the same in number but different in included angle (as an L-shaped groove, a V-shaped groove, not shown), so that the first slot 24 and the second slot 25 can also be different in slot shape; regardless of whether the first slot 24 and the second slot 25 are the same or different slots, the reverse cutting, chip discharging, and chip containing and pressing can be achieved to enhance the locking effect, and the operation of the screw 2 will be described only with reference to the embodiment shown in fig. 4.

Furthermore, two first edge edges 244 are formed at the connection position of the first wall surface 243, the rod body outer peripheral surface OP and the threads 231, and when the first edge 244 extends towards the direction of the screw head 22, the extending direction E1 is opposite to the direction of the right rotation of the threads 231; two second edges 254 are formed at the connection part of the second wall 253 and the rod body outer peripheral surface OP and the threads 231, and a first edge 244 (e.g. the edge located on the right side in fig. 3) of the first slot 24 is parallel to a second edge 254 (e.g. the edge located on the left side in fig. 3) of the second slot 25, so that the second slot 25 extends in the direction opposite to the direction of the right hand of the threads 231.

As a further alternative, when the slot group G is disposed in the lower rod portion 21a, the first slot 24 and the tip 211 may be spaced apart from each other, i.e., a first distance S1 (i.e., an axial distance parallel to the longitudinal axis R1) is left between the first bottom end 242 and the tip 211 to form a leading portion 212, and the first distance S1 is preferably 1 to 1.5 times the pitch P; in addition, the first bottom end 242 and the first top end 241 are respectively located at the right side and the left side of the longitudinal axis R1, so that the extending direction E1 of the first blade edge 244 crosses from the right side of the longitudinal axis R1 to the left side of the longitudinal axis R1 (as shown in fig. 3), and the first blade edge 244 is inclined to the longitudinal axis R1 by an inclined angle θ, which may be 5 to 60 degrees, preferably 10 degrees, 15 degrees, 45 degrees, or 60 degrees, so that the extending direction E1 of the first slot 24 is opposite to the right-hand direction of the threads 231, so as to form an inclined reverse slot for better cutting and chip pressing effects; referring to fig. 5, the first slot 24 and the second slot 25 are spaced apart from each other, i.e., a second distance S2 is left between the first slot 24 and the second slot 25, and the second distance S2 is preferably 1/6 to 4/6 times the pitch P, which is advantageous for enhancing the anti-twisting torque capability of the blades 244 and 254.

Furthermore, the thread portion 23 of the screw ring disposed on the rod 21 extends axially toward the screw head 22 to have a total length TL, the first wall 243 extending between the first top end 241 and the first bottom end 242 has a first extension length L1, and the second wall 253 extending between the second top end 251 and the second bottom end 252 has a second extension length L2, which is used as the slot length of the first slot 24 and the second slot 25, respectively, and the extension lengths L1 and L2 are axial distances parallel to the longitudinal axis R1 between the respective top ends 241, 251 and the respective bottom ends 242, 252, respectively, and the extension lengths L1 and L2 can be adjusted as required, preferably one third of the total length TL; as further shown in fig. 5, the distance D1 between the first edges 244 (as the groove width of the first slot 24) and the distance D2 between the second edges 254 (as the groove width of the second slot 25) can be 0.5 to 1 times the pitch P, respectively, so that the first slot 24 and the second slot 25 can have appropriate groove lengths and widths for cutting, chip holding and chip discharging.

In addition, the screw thread 231 spiraling between the first bottom end 242 and the tip end 211 is configured as at least one complete spiral and connected to the tip end 211, i.e. the leading region 212 has at least one complete spiral of screw thread 231, which is beneficial to the initial cutting, chip guiding and occlusion positioning.

Referring to fig. 2 to 5 and 13, in use, the self-threading screw 2 can be used to drill and lock into a hard object 5, such as an object made of iron plate (e.g. less than 0.8 mm), hardwood or wood composite, and the tip 211 is firstly abutted against the surface of the object 5, and the screw head 22 is rotated in a clockwise screwing direction (as shown by an arrow in fig. 13) to link the rod body 21 to drill and lock into the object 5, at this time, the complete thread 231 of the ring can generate a pull-down force by utilizing the existence of the thread part 23 connected to the tip 211 and the leading region 212, and the object 5 can be rotated to progressively drive the rod body 21 to drill and lock into the object 5 and avoid the offset of the abutting position, so that the initial drilling and locking stages can be rapidly engaged and positioned; when the rod 21 is continuously drilled, the cutting operation is continued by the first edge 244 of a first wall 243 (for example, the wall on the right side as shown in fig. 13) and the second edge 254 of a second wall 253 (for example, the wall on the right side as shown in fig. 13), and the cutting grooves 24 and 25 are inclined, and the screw teeth 231 with proper length and inclination are left in the second distance S2 between the cutting grooves 24 and 25, so that the cutting and chip guiding effects are facilitated, the rod 21 is continuously drilled along the angle of the screw teeth 231, and the locking resistance is reduced to achieve rapid drilling; meanwhile, the space S2 supports the slots 24 and 25 to resist the force applied by the slots 24 and 25 during the cutting process, so as to prevent the first and second edges 244 and 254 from being broken due to the excessive force, which is beneficial to improving the anti-torsion capability of the screw 2.

A continuous section, chips generated by the cutting operation enter the first slot 24 and the second slot 25 along the threads 231 and then move toward the screw head 22 along the other first wall 243 and the other second wall 253, so as to guide the chips to be discharged rapidly; because the slots 24 and 25 have sufficient slot width and slot length to accommodate the remaining chips, and the slots 24 and 25 extend in opposite directions, the remaining chips are pressed downward into the slots 24 and 25 when the first and second edges 244 and 254 cut, so that the pointed tail screw 2 can be tightly locked in the object 5, thereby not only improving the locking effect, but also improving the pull-out resistance effect to prevent the screw 2 from being pulled out easily; therefore, through the first cutting groove 24 and the second cutting groove 25 which are arranged in the opposite directions, the cutting grooves 24 and 25 can be used for progressively cutting and drilling into the object 5 against locking resistance, chips can be discharged at a higher speed to avoid cracking caused by excessive accumulation of the chips, and the chips are also accommodated and pressed to improve the locking force, so that the anti-loosening effect is achieved.

Referring to fig. 14, the second preferred embodiment of the pointed tail screw 2 with a groove of the present invention still includes the same elements and effects as the first preferred embodiment, and will not be described again; in contrast, in the present embodiment, when the cutting groove group G is disposed in the lower rod region 21a, the first bottom end 242 of the first cutting groove 24 is connected to the tip end 211, which is also beneficial for achieving reverse cutting, chip discharging, and chip containing and pressing to improve the locking effect.

Referring to fig. 15, the third preferred embodiment of the pointed tail screw 2 with grooving of the present invention still includes the same components, connection relationships and efficacy of the achieved purpose as the first preferred embodiment, and will not be described again; in particular, in the present embodiment, a third distance S3 (i.e. the axial distance parallel to the longitudinal axis R1) is left between the first bottom end 242 of the first slot 24 and the second bottom end 252 of the second slot 25, and the third distance S3 is preferably 0.5 times to 2 times the pitch P, i.e. the opening positions of the first slot 24 and the second slot 25 have a proper height difference, so that the chips can be more easily moved along the thread portion 23 and the slots 24 and 25 toward the screw head 22 to be discharged outwards, and the chip removal effect can be further improved.

Referring to fig. 16, the fourth preferred embodiment of the pointed tail screw 2 with a cutting groove of the present invention still includes the same components, connection relationships and efficacy of the achieved purpose as the first preferred embodiment, and will not be described again; in particular, in the embodiment, the cutting groove group G further includes at least one auxiliary cutting groove 26 opened on the rod body 21 and spaced apart from the second cutting groove 25, and here, for example, an additional auxiliary cutting groove 26 is added, the auxiliary cutting groove 26 includes an auxiliary top end 261 facing the screw head 22, an auxiliary bottom end 262 facing the tip end 211, and at least one auxiliary wall 263 extending between the auxiliary top end 251 and the auxiliary bottom end 252, two auxiliary edges 264 are formed at the junction of the at least one auxiliary wall 263 and the outer peripheral surface OP of the rod body 21 and the screw teeth 231, and one auxiliary edge 264 is parallel to one second edge 254 of the second cutting groove 25, so that the extension direction of the auxiliary cutting groove 26 is opposite to the right-handed direction of the screw teeth 231; therefore, the reverse cutting and chip discharging can be achieved through the reverse grooves 24, 25 and 26, and the chip containing and pressing effects can be achieved to improve the locking effect.

In addition, in the fourth preferred embodiment, the auxiliary wall 263 extending between the auxiliary top end 261 and the auxiliary bottom end 262 has a third extension length L3 (i.e. the axial distance parallel to the longitudinal axis R1), which is preferably one third of the total length TL, and a fourth distance S4 is left between the second bottom end 252 of the second slot 25 and the auxiliary bottom end 262 of the auxiliary slot 26, wherein the fourth distance S4 is preferably 0.5 to 2 times the pitch P, so that not only cutting and chip-holding are possible, but also chips are easier to be guided to be discharged outwards; furthermore, in the present embodiment, a group of cutting groove groups G is taken as an example, that is, as shown in fig. 17, three cutting grooves 24, 25, 26 are all located on the same side peripheral edge of the rod body 21, i.e., on the first periphery OP1, or as shown in fig. 18, two groups of cutting groove groups G are provided, wherein the cutting grooves 24, 25, 26 of one cutting groove group G are located on the first periphery OP1, and the cutting grooves 24, 25, 26 of the other cutting groove group G are located on the second periphery OP2, so that the structural configuration not only improves the cutting and chip removal capability of the self-threading screw 2, but also improves the efficiency of the machining operation by one-time multi-groove cutting; furthermore, the second slot 25 can be preferably in a concave arc shape to increase the thickness of the slot bottom between the second slot 25 and the slots 24 and 26, thereby increasing the multi-slot structural strength.

Referring to fig. 19, the fifth preferred embodiment of the pointed tail screw 2 with a cutting groove of the present invention still includes the same components, connection relationships and efficacy of the purpose as the first preferred embodiment or the second preferred embodiment, and will not be described again; in particular, the slot groups G may be two or more, the slot groups G are spaced apart from each other, that is, the slot groups G are respectively disposed in the lower rod region 21a and the main rod region 21b, the slot groups G disposed in the lower rod region 21a are at least located on the first perimeter OP1 (as described above, referring to fig. 4 to 9), which may be located on the same or different perimeters as the slot groups G disposed in the main rod region 21a, or the slot groups G disposed in the main rod region 21a are located on two perimeters OP1, OP2, only the slot groups G of the lower rod region 21a and the main rod region 21b are shown as being located on the same perimeters and spaced apart; therefore, the cutting groove groups G arranged on different rod areas 21a and 21b are also beneficial to achieving reverse cutting and chip removal, and achieving chip containing and pressing to improve the locking effect.

Referring to fig. 20, the sixth preferred embodiment of the pointed tail screw 2 with grooving of the present invention still includes the same components, connection relationships and efficacy of the achieved purpose as the first preferred embodiment, and will not be described again; in particular, at least two of the screw threads 231 are serrated, and referring to fig. 21, each of the serrated screw threads 231 has a plurality of grooves 2311, a plurality of first tooth blocks 2312 and second tooth blocks 2313 are formed between the grooves 2311 in a staggered manner, the first tooth blocks 2312 and the second tooth blocks 2313 respectively have first crests 2312 'and second crests 2313' which are connected along the first crests 2312 'to form a first base line a1, and are connected along the second crests 2313' to form a second base line a2, the first base line a1 and the second base line a2 are located differently, as shown in fig. 22, the first base line a1 is located below the second base line a2, so that the first tooth blocks 2312 are inclined downward, and the second tooth blocks 2313 are inclined upward, thereby forming a serrated screw structure with an upper and lower staggered tooth block arrangement; therefore, the tooth blocks 2312 and 2313 are used for increasing cutting points, so that the cutting capability can be improved to achieve rapid cutting and reduce locking resistance, and the staggered arrangement is also used for improving the meshing positioning effect of the screw 2 after locking so as to achieve the anti-loosening effect.

Concluding up the aforesaid, the utility model discloses pointed tail screw of utensil grooving mainly has pointed end and defines a axis of ordinates in the body of rod, offer on this body of rod to be the interval setting and first grooving and the second grooving that is parallel to each other, and the extension trend of the first flange of this first grooving is opposite with the dextrorotation direction of these threads, so first grooving, the second grooving all become the opposite direction groove setting of the direction of rotation of these dextrorotation threads on the contrary, not only can promote cutting and chip removal ability, reduce the closure resistance, so as to avoid because of the excessive accumulation of smear metal leads to the material thing of splitting, the reverse extension of these grooving also is favorable to pressing in surplus smear metal makes in these grooving of its holding simultaneously, more promotes the locking effect.

However, the above description is only for the purpose of illustrating the preferred embodiments of the present invention, and the scope of the present invention should not be limited thereto, and all the simple equivalent changes and modifications made in the claims and the specification of the present invention should be covered by the present invention.

Claims (11)

1. A pointed tail screw with a cutting groove comprises a rod body with an outer peripheral surface, a screw head arranged at one end of the rod body and a screw tooth part which is spirally and annularly arranged on the rod body; wherein, the other end of the rod body opposite to the screw head is gradually reduced to form a tip, a longitudinal axis is defined by the tip, the rod body is defined with a lower rod area and a main rod area between the lower rod area and the screw head, the tip is positioned in the lower rod area, the screw tooth part is provided with a plurality of screw teeth which are screwed rightwards, and any two adjacent screw teeth are spaced to form a screw pitch, the screw head is characterized in that:

the outer peripheral surface is divided into a first periphery and a second periphery which are opposite in orientation, a cutting groove group positioned on the first periphery is arranged on the rod body, the cutting groove group comprises a first cutting groove and a second cutting groove which are arranged at intervals, the first cutting groove is provided with a first top end and a first bottom end which are respectively towards the screw head and the tip direction, at least one first wall surface extending between the first top end and the first bottom end is extended, and two first cutting edges positioned at the connection part of the at least one first wall surface, the outer peripheral surface of the rod body and the screw teeth are positioned, when the first cutting edge extends towards the screw head direction, the extension direction of the first cutting edge is opposite to the right-handed direction of the screw teeth, the second cutting groove is provided with a second top end and a second bottom end which are respectively towards the screw head and the tip direction, at least one second wall surface extending between the second top end and the second bottom end is positioned at the connection part of the at least one second wall surface, the outer peripheral surface of the rod body and the screw teeth One first edge of the first slot is parallel to one second edge of the second slot.

2. The pointed tail screw with flute according to claim 1, wherein the flute is assembled in the lower shank region, a first distance is left between the first bottom end and the tip end of the first flute, the thread part is spirally and circularly arranged from the tip end towards the screw head, the thread screwed between the first bottom end and the tip end is in at least one complete spiral configuration, and the first bottom end and the first top end are respectively positioned at the right side and the left side of the longitudinal axis, so that the extension of the first edge crosses from the right side to the left side of the longitudinal axis.

3. The slotted pointed tail screw of claim 1, wherein the slot is disposed within the lower shank region, and the first bottom end of the first slot is connected to the tip.

4. The slotted pointed tail screw of claim 1, wherein the distance between the first edges is 0.5 to 1 times the pitch, and the distance between the second edges is 0.5 to 1 times the pitch.

5. The pointed tail screw with slot of claim 1, wherein the thread portion of the screw ring disposed on the rod body extends axially to a total length, the at least one first wall extends to a third of the total length, and the at least one second wall extends to a third of the total length.

6. The pointed tail screw with slot of claim 1, wherein a third distance is left between the first bottom end of the first slot and the second bottom end of the second slot, and the third distance is 0.5 to 2 times of the pitch.

7. The pointed tail screw with the slot as claimed in claim 1, wherein at least two of the threads of the thread portion have a plurality of grooves, a plurality of second thread blocks and first thread blocks having peaks are formed between the grooves, and any two adjacent second thread blocks and first thread blocks are arranged in an up-and-down staggered manner.

8. The slotted pointed tail screw of claim 1, wherein the slot sets are disposed in the lower shank region, and the number of slot sets is two sets, which are disposed on the first perimeter and the second perimeter, respectively.

9. The pointed tail screw with flute according to claim 1, wherein the flute set comprises at least one auxiliary flute formed on the shank and spaced apart from the second flute, the at least one auxiliary flute having an auxiliary top end and an auxiliary bottom end respectively facing the direction of the screw head and the tip, at least one auxiliary wall extending between the auxiliary top end and the auxiliary bottom end, and two auxiliary edges located at the junction of the at least one auxiliary wall with the outer peripheral surface of the shank and the screw teeth, a second edge of the at least one auxiliary flute being parallel to an auxiliary edge of the auxiliary flute, and a fourth spacing being 0.5 to 2 times the pitch between the second bottom end of the at least one auxiliary flute and the auxiliary bottom end of the auxiliary flute.

10. The pointed tail screw with slots of claim 1, wherein the number of the slot sets is at least two sets, which are respectively disposed in the lower rod region and the main rod region, and the slot sets disposed in the lower rod region are at least located on the first perimeter.

11. The slotted pointed tail screw of claim 1, wherein a second distance is left between said first slot and said second slot, said second distance being 1/6 to 4/6 times said pitch.

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