CN209632043U - Seamless impulse- free robustness thread forming tap and its internal screw thread of production - Google Patents

Abstract

Seamless impulse- free robustness thread forming tap and its internal screw thread of production.It is related to a kind of machining tool more particularly to seamless impulse- free robustness thread forming tap and its internal screw thread of production.Provide it is a kind of thread forming tap tooth bottom is made into regulation r circular sliding slopes, eliminate the scarce seam and burr of previous thread forming tap molding internal screw thread, be precisely controlled the seamless impulse- free robustness thread forming tap of threaded engagement rate and its internal screw thread of production.Including Fang Bu ﹑ shank and threaded portion, the threaded portion includes crimping section and calibrated section, and the half of thread angle in the calibration portion is α, and the tooth form threaded engagement rate in calibration portion is δ, and the screw pitch of threaded portion is P；The radius of curvature at the tooth bottom of threaded portion is r；Radius of curvature r=(7-5 δ) P/ (16cos α)；Crimping section (the l₅) reach be 0.5P-25P.The utility model reduces the tapping torque of thread forming tap, improves the intensity and production efficiency of thread forming tap.

Description

Seamless impulse- free robustness thread forming tap and its internal screw thread of production

Technical field

The utility model relates to a kind of machining tool more particularly to seamless impulse- free robustness thread forming taps and its interior spiral shell of production Line.

Background technique

Existing forming internal threads technology is: first drilling or punching, then with following three kinds of methods: 1. tap tapping；2. vehicle Cut screw thread；3. milling thread.No matter first cutted thread and milling thread, because turning and milling thread belong to machining and office It is limited to process the biggish screw thread of nominal dimension, and it is more common with the method for screw tap processing screw thread.

Screw tap is to there is chipless to be classified as: having bits screw tap and chipless screw tap.

There is bits screw tap to be divided into chip removal direction: front clearance screw tap (spiral pointed tap, backpitch slot screw tap), rear chip removal screw tap (spiral fluted tap) holds bits in slot plug tap (straight slot screw tap), machine tap with internal swarf passage；Pass through the method for cut tap machining internal thread Tooth bottom is usually flat at the common triangle internal screw thread path processed, and has been easy burr.

Chipless screw tap common are thread forming tap.Thread forming tap machining internal thread using metal plastic deformation principle A kind of Novel threaded cutter, plasticity preferable copper alloy lower especially suitable for intensity and aluminium alloy, it can also be used to stainless steel and The material tapping that the hardness such as mild steel are low, plasticity is big, also has application in medium carbon steel and high-carbon steel and steel alloy.

With previous thread forming tap come machining internal thread, the higher any surface finish of the available screw thread than cut tap processing Degree, and the fibr tissue of metal is not destroyed when extrusion forming screw thread, improve the material density of internal screw thread toothed portion, screw thread Surface forms hardened layer, is added significantly to internal screw thread intensity, but internal screw thread path tooth bottom has and lacks seam and have burr.With Toward after the molding of thread forming tap tapping thread, since the flowing of workpiece material plastic deformation, final internal screw thread are small during thread forming Diameter tooth bottom middle, which is formed, lacks seam (such as Figure 21), and external screw thread tooth is often resulted in Screw assembly and is accidentally screwed into scarce seam, is caused External screw thread is possible to rotation not into the internal screw thread tooth form that should enter, and is unfavorable for threaded engagement, although having the characteristics of chipless and increasing The advantages of strong intensity of internal screw thread, but the occasion for not had high request to screw thread uses.

Tooth bottom is all flat at the internal screw thread path of usual 60 ° of angular threads, that is, straight line connection, tooth bottom and facing shape At two 120 ° or so of angle, and often there is burr, is unfavorable for Screw assembly.

Utility model content

The utility model in view of the above problems, provide it is a kind of thread forming tap tooth bottom is made into regulation r circular sliding slopes, eliminate The scarce seam and burr of previous thread forming tap molding internal screw thread, the seamless impulse- free robustness for being precisely controlled threaded engagement rate squeeze silk Cone and its internal screw thread of production.

The technical solution of the utility model is: including Fang Bu ﹑ shank and threaded portion, the threaded portion include crimping section and Calibrated section, the half of thread angle in the calibration portion are α, and the tooth form threaded engagement rate in calibration portion is δ, and the screw pitch of threaded portion is P；Spiral shell The radius of curvature at the tooth bottom in line portion is r；Radius of curvature r=(7-5 δ) P/ (16cos α)；

The screw thread original triangle height in the calibration portion is H, and the flat-top straight line of calibration portion crest is cut as low as it Height is using H/8 as the limit, and circular arc tooth bottom cuts height h at diameter of thread₂Less than H/4, and with predetermined size (b) from H/4 Decline.

The predetermined size (b) is 5 μm~45 μm.

The thread form angle of the threaded portion is 60 °, and the radius of curvature r and tooth bottom path at the tooth bottom cut height h₂It is equal.

The thread crest of the press section is in arc surface (r₁)

Crimping section (the l₅) reach be 0.5P-25P.

The path crest of the internal screw thread is in the arc surface of continuous closed state or in slit state.

The utility model is seamless impulse- free robustness thread forming tap, can be with because effectively controlling the tooth bottom r circular arc at diameter of thread Obtain continuous, smooth path tooth bottom R circular arc internal screw thread, and it made to connect to form smooth curve with facing, threaded engagement when Waiting tooth bottom circular arc portion plays the role of guiding, has guided and has screwed with externally threaded, is better than flat screw thread, more conducively Screw assembly. It solves the problems, such as the burr and scarce seam of previous thread forming tap molding internal screw thread, embodies extrusion forming screw thread and be better than cutting into The advantages of type screw thread, greatly improved the intensity and quality of threaded connection, improve internal screw thread production efficiency, and more adaptation height is wanted The threaded connection asked.Can also be by increasing tapping bottom outlet size, obtaining slit state, (tooth bottom middle is provided with slit, tooth bottom With facing or circular sliding slopes, such as Figure 22) internal screw thread, applied to the occasion of less demanding to path.

The utility model has the following characteristics:

1, the scarce seam and burr generated at internal screw thread path when solving previous thread forming tap molding internal screw thread.

2, threaded engagement rate (δ), r=(7- are relatively precisely controlled by control seamless impulse- free robustness thread forming tap tooth bottom r circular arc 5δ)P/(16cosα)。

3, the tapping torque for reducing thread forming tap, improves the intensity and production efficiency of thread forming tap.

Detailed description of the invention

Fig. 1 is the utility model thread forming tap calibrated section thread shape structural schematic diagram,

Fig. 2 is thread forming tap calibrated section helicitic texture schematic diagram,

Fig. 3 is thread forming tap calibrated section Bottom of Thread structural schematic diagram,

Fig. 4 is the structural schematic diagram of thread forming tap crimping section thread crest,

Fig. 5 is Class1: M7 with the structural schematic diagram of lower through-hole thread forming tap,

Fig. 6 is the structural schematic diagram of the following blind hole thread forming tap of type 2:M7,

Fig. 7 is type 3: structural schematic diagram of the blind hole with neck thread forming tap,

Fig. 8 is the structural schematic diagram of the above thread forming tap of type 4:M7,

Fig. 9 is type 5:M5 with the structural schematic diagram of lower nut thread forming tap,

Figure 10 is type 6: diameter d ∈ (5mm~30mm] circle handle (no square toes) nut thread forming tap structural schematic diagram,

Figure 11 is type 7: the structural schematic diagram of the nut thread forming tap of diameter d > 5mm,

Figure 12 is type 8: the structural schematic diagram of the thread forming tap with interior cold hole,

Figure 13 is 3 rib thread forming tap thread cross-section shape and structure schematic diagrames,

Figure 14 is 4 rib thread forming tap thread cross-section shape and structure schematic diagrames,

Figure 15 is 5 rib thread forming tap thread cross-section shape and structure schematic diagrames,

Figure 16 is 6 rib thread forming tap thread cross-section shape and structure schematic diagrames,

Figure 17 is the seamless impulse- free robustness thread forming tap tapping state thread forming structural schematic diagram of this case,

Figure 18 is common thread forming tap tapping state thread forming structural schematic diagram,

Figure 19 is cut tap tapping state thread forming structural schematic diagram,

Figure 20 is the molding internal screw thread path tooth underseal closed state tooth form figure of thread forming tap of the utility model；

Figure 21 is using the molding internal screw thread path tooth bottom tooth form figure of existing thread forming tap；

Figure 22 is the molding internal screw thread path tooth bottom slit state tooth form figure of thread forming tap of the utility model；

D is the nominal dimension of screw-tap threaded, d in figure₁It is handle diameter, d₂It is neck diameter, d₃It is interior cold aperture, L is screw tap edge to edge Overall length, l are reach, l₁It is neck length (withdrawing part), l₂It is screw tap square toes length, l₅Be crimping section reach, L subtracts l₅Part is screw thread calibrated section, K_rIt is crush cones tool cutting edge angle, R_kIt is thread forming tap rib top radius of curvature, 5 is oil groove, 2a It is square toes (square toes are in regular quadrangle or regular hexagon).

Specific embodiment

The utility model is as shown in Fig. 1-2 1；Including shank and threaded portion, the threaded portion includes crimping section and calibration Part, crimping section tooth form is that latter tooth is higher than previous tooth, and when thread forming tap forward travel, each rib of each tooth is squeezed One layer of flow of metal is pressed, the main extrusion forming work of thread forming tap is undertaken by crimping section.The tooth form of calibrated section has been Whole, it is mainly used to calibrate screw thread, and play the guiding role, and the half of thread angle in the calibration portion is α, the tooth form screw thread in calibration portion Rotation rate is δ, and the screw pitch of the screw thread of threaded portion is P；The radius of curvature at the tooth bottom of threaded portion is r；Radius of curvature r=(the 7-5 δ)P/(16cosα)；

The screw thread original triangle height in the calibration portion is H, and the flat-top straight line of calibration portion crest is cut as low as it Height is using H/8 as the limit, and circular arc tooth bottom cuts height h at diameter of thread₂Less than (shallow to be no more than) H/4, and from H/4 with Predetermined size (b) decline cuts height h with circular arc tooth bottom at diameter of thread₂Value is that radius makees seamless impulse- free robustness thread forming tap Tooth bottom r circular arc, and it is tangent with two facings.

The predetermined size (b) is 5 μm~45 μm.

The thread form angle of the threaded portion is 60 °, and the radius of curvature r and tooth bottom path at the tooth bottom cut height h₂It is equal.

The thread crest of the press section is in arc surface (r₁).Arc surface (r₁) with the points of tangency of facing at H/8.

Crimping section (the l₅) reach be 0.5P-25P.

Crest at the internal screw thread path is in continuous closed arc surface or is in slit state.

Threaded engagement rate (such as Fig. 2) is relatively precisely controlled by control seamless impulse- free robustness thread forming tap tooth bottom r circular arc value；

If: tooth bottom radius of curvature is r

Screw thread original triangle height is H

Theoretical thread height is h

Practical engagement height is h₁

Tooth bottom path cuts height h₂

Screw pitch is P

Half of thread angle α

Threaded engagement rate is δ (referring to h=5H/8=100%)

Known conditions: r=OC, AE=H, EF=P/2, h=H-H/8-H/4=5H/8, ∠ OAC=α

In △ ABC and △ AEF

∵ ∠ AEF=∠ ABC=90 °

∠ BAC=∠ EAF

∴ △ ABC~△ AEF

∴ AB/AE=BC/EF is 1.

H=H-H/8-H/4=5H/8

δ=h₁/ h × 100%=h₁/(5H/8)

H1=δ h=δ 5H/8

AB=H-H/8-h₁=H-H/8- δ 5H/8

AE=H

The ∠ OCB=∠ OAC=α in Rt △ OBC

OC=r

BC=OCcos α=rcos α

EF=P/2

1. back substitution aforementioned proportion formula obtains:

(H-H/8- δ 5H/8)/H=rcos α/P/2

Abbreviation obtains:

R=(7-5 δ) P/ (16cos α)

Radius of rounded root r and tooth bottom path cut height h in the screw thread of 60 ° of thread form angles (30 ° of half of thread angle)₂Phase Deng.

Such as Fig. 3, it is known that condition: ∠ QAJ=30 °, ∠ OCJ=∠ OQJ=90 °, OQ=OC=r, AQ=h₂

In △ OQJ and △ OCJ

∵ OQ=OC=r

OJ=OJ

∠ OCJ=∠ OQJ=90 °

∴△OQJ≌△OCJ(HL)

∴ ∠ QOJ=∠ COJ

∴ OJ divides ∠ AOC equally

∵ ∠ OAC=30 °

∠ OCA=90 °

∴ ∠ AOC=60 °

∵ OJ divides ∠ AOC equally again

∴ ∠ QOJ=30 °=∠ QAJ

∴ △ OAJ is isosceles triangle

∴ OQ=AQ

∴ r=OQ=AQ=h₂

∴ r=h₂

In the screw thread of 60 ° of thread form angles (30 ° of half of thread angle), the height h2 that cuts at circular arc tooth bottom is equal at diameter of thread When H/4, threaded engagement rate δ is 80%.

As shown in figure 3, known conditions: h₂=H/4；H=5H/8；δ=(h₁/ h) * 100%

h₁=h-QG

Front has been proven that r=OQ=OC=AQ=h₂, ∠ AOC=60 °,

∴ ∠ QOC=60 °

∴ △ QOC is equilateral triangle

∵ CG ⊥ OQ again

∴ CG divides ∠ OCQ equally

∴ QG=OG=(1/2) * OQ=(1/2) * h₂=(1/2) * (H/4)=H/8

∴h₁=h-QG=(5H/8)-(H/8)=4H/8

∴ δ=(h₁/ h) * 100%=(4H/8)/(5H/8)=80%

The tooth bottom r circular arc of strict control thread forming tap and the bottom outlet size before adjustment work-piece tapping are available comparatively ideal The tooth bottom R circular arc of angular thread internal screw thread, the extruding for effectively eliminating internal screw thread tooth bottom lack seam, avoid flying for internal screw thread tooth bottom Burr, and internal screw thread tooth bottom circular arc is made to smoothly transit, be conducive to guidance and screwed with externally threaded.Previous thread forming tap is due to lacking The generation of seam, it is very high to the bottom outlet dimension precision requirement before tapping, and the seamless impulse- free robustness that tooth bottom is made into regulation r circular arc squeezes silk Cone decreases to the bottom outlet required precision before tapping.The material appropriate adjustment bottom outlet size according to different workpieces is only needed, just The internal screw thread of the path tooth bottom R circular arc of available seamless non-trimming burr.

The stress that thread forming tap tooth bottom is made into the wedge angle that regulation circular arc also improves screw-tap threaded tooth bottom is concentrated, and is enhanced crowded The intensity of silk pressing cone, reduces machining allowance, improves thread forming tap production efficiency.

Crimping section (the l of thread forming tap₅) crest be also made into circular arc r₁, the points of tangency of crest circular arc and facing is in H/8 Place.

Compare: the thread forming tap of crimping section crest flat-top, the thread forming tap with crimping section crest dome are being attacked The plastic deformation that the thread forming tap of crest dome is more conducive to workpiece material during silk reduces convenient for the formation of internal screw thread The tapping torque of thread forming tap.

The type of thread forming tap

Such as Fig. 5, Class1: M7 is used with lower through-hole, l₅It is made into 2P~6P.

Such as Fig. 6, the following blind hole of type 2:M7 is used, l₅It is made into 0.5P~3P.

Such as Fig. 7, type 3: band neck blind hole is used, l₅It is made into 0.5P~3P.

Such as Fig. 8, type 4:M7 or more, l₅It is made into 0.5P~6P.

Such as Fig. 9, type 5:M5 is with lower nut thread forming tap, l₅It is made into 18P~25P.

Such as Figure 10, type 6: diameter d ∈ (5mm~30mm] circle handle (no square toes) nut thread forming tap, l₅Be made into 20P~ 25P。

Such as Figure 11, type 7: the nut thread forming tap of diameter d > 5mm, l₅It is made into 20P~25P.

Such as Figure 12, type 8: the thread forming tap with interior cold hole is generally used for blind hole, l₅It is made into 0.5P~3P.

The rib number of thread forming tap can be set as odd number and also be set as even number, can be set according to particular technique condition.R_kFor rib top Radius of curvature can be made according to different workpiece materials to adjust.5 for oil groove can also clamping rose reamer, thread forming tap can be set Oil groove can also be not provided with oil groove.

The thread forming tap of the utility model and the molding internal screw thread tooth form comparison of previous thread forming tap, previous thread forming tap Molding internal screw thread tooth bottom occurs lacking seam and burr, the thread forming tap of the utility model molding internal screw thread tooth bottom have been eliminated Seam is lacked, non-trimming burr, tooth bottom circular arc is smooth to be connect with two facings.

Being threadedly coupled intensity is the intensity of the rotation rate and thread by workpiece material and threaded connection to guarantee.

The internal screw thread of the existing 60 ° of angular threads of the utility model (half of thread angle is 30 °) connection is not to tooth bottom at path Make R circular arc requirement.

The utility model, which provides one kind, can eliminate scarce seam and burr, and can relatively be precisely controlled the extruding of threaded engagement rate Screw tap.In the screw tap tooth form of 60 ° of thread form angles, when it is P that screw thread original triangle height, which is H screw pitch, thread forming tap is calibrated Partially (such as Fig. 5) form of thread is set to: the flat-top straight line of thread crest cuts height as close possible to H/8 (as schemed as low as it 2).Circular arc tooth bottom cuts height h at diameter of thread₂Shallow arrive is no more than H/4, if cutting height h₂More than H/4, threaded engagement Rate δ will be less than 80%, reduce screw strength, and be unfavorable for the formation of internal screw thread path tooth bottom R circular arc.Cut height h₂Do not surpass H/4 is crossed, threaded engagement rate δ can be obtained and be more than 80% internal screw thread, and is conducive to the formation of internal screw thread path tooth bottom R circular arc, is obtained To high-intensitive screw thread.And with predetermined size (b) decline from H/4, with h₂Value is the tooth that radius makees seamless impulse- free robustness thread forming tap Bottom r circular arc (in 60 ° of angular thread tooth forms r=h₂), and it is tangent (see Fig. 3) with two facings.Crimping section (l₅) thread tip circle The points of tangency of arc and facing, (see Fig. 4), and is gradually reduced the diameter of thread of screw tap crimping section front end at H/8, small Circular arc crest diameter dimension to screw tap is less than tapping bottom outlet size.Predetermined size (b) is 5 μm~45 μm.

Example

Unleaded copper nut, material HB159-1.5Q/NPWZ004, screw thread specification M1*0.25, reach 2.8mm are wanted Seek to obtain 88% threaded engagement rate, existing technique is with previous thread forming tap tapping, and tapping bottom outlet size 0.88mm makes small Diameter is swollen to the path size less than threaded engagement rate 88%, and then bore hole removal lacks seam again and burr reaches threaded engagement rate 88% size, but the junction in the screw thread withdrawing face and tooth bottom when bore hole still generates burr, 40 power microscopes as it can be seen that Tapping difficulty is increased, screw tap service life is reduced, influences Screw assembly.

Utility model people is as follows with seamless impulse- free robustness thread forming tap test result: the threaded engagement rate (δ) 88% that will be required Formula r=(7-5 δ) P/ (16cos α)=0.0469mm is substituted into, by the control of thread forming tap tooth bottom r circular arc in r=0.0469mm, public affairs Difference ± 0.005mm, sufficiently, when tapping, is very smooth for lubricating oil supply, directly obtains 88% threaded engagement rate.It is general to process interior spiral shell Line requires chamfering in screw thread inlet and exit, and chamfering has and also has after tapping before tapping, and seamless impulse- free robustness squeezes silk Cone production internal screw thread, chamfering needs to arrange after tapping, and otherwise the spiral shell of the cutting direction of rose reamer and screw thread is on the contrary, be easy There is penetration of a cutting tool phenomenon, depth of chamfering need to reach 1P~1.25P, when removing at internal screw thread entrance and exit due to squeezing, squeeze The not full of molding internal screw thread path tooth bottom is formed by defect, can be obtained after chamfering close to perfect internal screw thread.At 100 times Microscope under have no burr at internal screw thread path and lack seam.Using seamless impulse- free robustness thread forming tap, reduce processing work Sequence improves production efficiency, improves and is threadedly coupled the smooth of intensity and Screw assembly.

The utility model is not limited to above scheme, in the range of not departing from the utility model aims, can carry out: 1. Screw pitch (P) or 2. half of thread angle (α) or the 3. various changes such as change of threaded engagement rate (δ).

Seamless impulse- free robustness thread forming tap is because effectively control the tooth bottom r circular arc at diameter of thread, available continuous, light Sliding path tooth bottom R circular arc internal screw thread, and it is made to connect to form smooth curve with facing, tooth bottom arc sections when threaded engagement Dividing plays the role of guiding, has guided and has screwed with externally threaded, is better than flat screw thread, more conducively Screw assembly.Solve previous squeeze The burr of silk pressing cone molding internal screw thread and scarce seam problem, it is excellent better than cutting forming screw thread to embody extrusion forming screw thread The intensity and quality of threaded connection greatly improved in point, improves internal screw thread production efficiency, and the screw thread of more adaptation high request connects It connects, such as: field of traffic, IT industry, the occasion that the needs such as industrial automation assembly line are threadedly coupled.

The stress that thread forming tap tooth bottom is made into the wedge angle for also improving screw-tap threaded tooth bottom of regulation circular arc is concentrated, and is enhanced The intensity of thread forming tap, and the grinding allowance of thread forming tap processing is reduced, improve processing efficiency.

It can by the bottom outlet size before the tooth bottom R circular arc and control work-piece tapping of the seamless impulse- free robustness thread forming tap of strict control To obtain the tooth bottom R circular arc of comparatively ideal angular thread internal screw thread, the extruding for having effectively eliminated internal screw thread tooth bottom lacks seam, and keeps away The burr at internal screw thread tooth bottom is exempted from.

For this case disclosure of that, need to illustrate there are also the following:

(1), this case the disclosed embodiments attached drawing relate only to structure involved by this case disclosed embodiment, His structure, which can refer to, to be commonly designed；

(2), in the absence of conflict, the feature in this case the disclosed embodiments and embodiment can be combined with each other with Obtain new embodiment；

More than, only specific embodiment disclosed in this case, but the protection scope of the disclosure is not limited thereto, this case Disclosed protection scope should be subject to the protection scope in claims.

Claims (6)

1. seamless impulse- free robustness thread forming tap, including shank and threaded portion, the threaded portion includes crimping section and calibrated section, It is characterized in that, the half of thread angle in the calibration portion is α, and the tooth form threaded engagement rate in the calibration portion is δ, and the screw pitch of threaded portion is P；The radius of curvature at the tooth bottom of threaded portion is r；Radius of curvature r=(7-5 δ) P/ (16cos α)；

The screw thread original triangle height in the calibration portion is H, and the flat-top straight line of calibration portion crest cuts height as low as it Using H/8 as the limit, circular arc tooth bottom cuts height h at diameter of thread₂Less than H/4, and with predetermined size (b) decline from H/4.

2. seamless impulse- free robustness thread forming tap according to claim 1, which is characterized in that the predetermined size (b) be 5 μm~ 45μm。

3. seamless impulse- free robustness thread forming tap according to claim 1, which is characterized in that the thread form angle in the calibration portion is 60 °, circular arc tooth bottom cuts height h at the radius of curvature r at the tooth bottom and diameter of thread₂It is equal.

4. seamless impulse- free robustness thread forming tap according to claim 1, which is characterized in that the thread crest of the press section is in Arc surface (r₁)。

5. seamless impulse- free robustness thread forming tap according to claim 1, which is characterized in that the crimping section (l₅) screw thread Length is 0.5P-25P.

6. a kind of internal screw thread, which is characterized in that it is made using seamless impulse- free robustness thread forming tap described in claim 1, it is described The path crest of internal screw thread is in the arc surface of continuous closed state or in slit state.