WO2011140830A1 - Guiding composite cutting tap with different diameters - Google Patents
Guiding composite cutting tap with different diameters Download PDFInfo
- Publication number
- WO2011140830A1 WO2011140830A1 PCT/CN2011/000846 CN2011000846W WO2011140830A1 WO 2011140830 A1 WO2011140830 A1 WO 2011140830A1 CN 2011000846 W CN2011000846 W CN 2011000846W WO 2011140830 A1 WO2011140830 A1 WO 2011140830A1
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- WIPO (PCT)
- Prior art keywords
- wire
- edge
- cutting
- cutting edge
- tap
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23G—THREAD CUTTING; WORKING OF SCREWS, BOLT HEADS, OR NUTS, IN CONJUNCTION THEREWITH
- B23G5/00—Thread-cutting tools; Die-heads
- B23G5/02—Thread-cutting tools; Die-heads without means for adjustment
- B23G5/06—Taps
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23G—THREAD CUTTING; WORKING OF SCREWS, BOLT HEADS, OR NUTS, IN CONJUNCTION THEREWITH
- B23G2200/00—Details of threading tools
- B23G2200/04—Tools with negative cutting angles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23G—THREAD CUTTING; WORKING OF SCREWS, BOLT HEADS, OR NUTS, IN CONJUNCTION THEREWITH
- B23G2240/00—Details of equipment for threading other than threading tools, details of the threading process
- B23G2240/12—Means for cooling or lubrication
Definitions
- This invention relates to a tap, and more particularly to a split-diameter composite cutting tap, which is used for wire hole machining of a workpiece in machining. Background technique
- the spiral tap or straight groove tap used in machining is composed of a wire blade body and a wire shank
- the wire blade body is composed of a wire blade and a cutting edge face, a wire edge, a chamfering, a chamfering blade, etc.
- the cutting edge surface of the chamfering edge is substantially on a curved surface or the same spiral surface
- the wire bottom connection of each wire edge strip is substantially in a straight line or a spiral, because the distance from the top of the wire to the bottom of the wire is too small at the chamfered portion As a result, the guiding effect is not achieved.
- the tapping becomes a reaming, which causes the workpiece to be scrapped.
- the wire surface of each group is composed of a single surface, when the angle between the cutting edge and the top of the wire is too sharp, the wire edge is easy. Fracture, such as cutting edge and overall fracture in the workpiece, causing damage or even scrapping of the workpiece, the content of the invention
- the present invention has been made in view of the above problems, and provides a split-direction guided composite cutting wire which is easy to position, has high heat dissipation efficiency, is resistant to abrasion, and has a long life.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface characterized by a chamfer at each wire edge
- the angle between the cutting edge and the tangent of the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire.
- the angle between the cutting edge of each of the wire edge strips of the split-direction composite cutting tap and the tangent of the concentric circle at the top of the wire is at least the wire edge at the chamfered portion of the front portion.
- the latter part of the wire blade is composed of two parts.
- the wire bottom diameter of the cutting wire edge of the split-directed composite cutting tap is formed by at least two different sized wire bottom diameters.
- the line of the wire bottom of the cutting wire edge of the split-direction composite cutting tap on the cutting edge is distributed over at least two different straight lines or spirals.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface, characterized in that a part or all of the cutting edge surface of each wire edge strip is machined into one piece to form a small wire blade face, and the wire edge face is not in the same direction as the cutting edge face or the connected chip groove wall Surface or spiral surface.
- the cutting edge between the top of the split-guided composite cutting tap and the bottom of the wire is formed by at least two different cutting face faces.
- the angle between the cutting edge surface at the chamfered portion of the cutting wire edge of the split-direction composite cutting tap and the tangent of the concentric circle on the same side is greater than the tangent of the cutting edge surface and the concentric circle on the same side The angle of the.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface, wherein at least a first wire cutting edge at a chamfered portion of each wire edge has a wire bottom diameter smaller than a wire bottom diameter of the other wire cutting edge,
- each wire edge strip is at least one stepped or spiral stepped arrangement with the other wire bottoms, and at least the first cutting wire edge is aligned with the other wire bottoms
- the lines on the cutting edge are not in a straight line or on a spiral.
- the wire bottom diameter of the cutting wire edge of the split-directed composite cutting tap is formed by at least two different sized wire bottom diameters.
- the line of the wire bottom of the cutting wire edge of the split-direction composite cutting tap on the cutting edge is distributed over at least two different straight lines or spirals.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, wherein: 1, each wire The diameter of the wire bottom of at least the first cutting edge at the chamfered portion of the blade strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the wire bottom of the wire cutting edge at the chamfered portion of each wire edge strip is at least equal to the other wire bottom a stepped arrangement of one stage or a spiral stepped arrangement, and at least the line connecting the bottom of the first cutting wire and the other wire on the cutting edge is not in a straight line or a spiral line; A part or all of the cutting face is machined into one, forming a ' ⁇ !, wire edge face, the wire edge face and the cutting edge face or the connected chip groove wall are not on a curved or spiral surface.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, wherein: 1, each wire The diameter of the wire bottom of at least the first cutting edge at the chamfered portion of the blade strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the wire bottom of the wire cutting edge at the chamfered portion of each wire edge strip is at least equal to the other wire bottom a stepped arrangement of a first step or a spiral stepped arrangement, and at least the line connecting the bottom of the first cutting wire and the other wire on the cutting edge is not in a straight line or a spiral line; 3.
- a split-diameter composite cutting tap comprises a wire blade body and a wire handle, the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, characterized in that: 2, each wire Part or all of the cutting edge of the blade is machined into a single piece to form a small wire face, and the wire face and the cutting edge or the connected chip wall are not on a curved or spiral surface; The angle between the cutting edge at the chamfered portion of the wire edge and the tangent to the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent to the concentric circle at the top of the wire.
- a split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and a plurality of wire blade bodies are connected or integrally connected to the wire handle, and the front surface of each wire blade body There is a cutting edge surface, which is characterized in that: 1.
- the diameter of the wire bottom of at least the first cutting wire edge at the chamfered portion of each wire edge strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the cutting edge of each wire cutting edge
- the wire bottom of the cutting wire at the corner portion is at least one stepped or spiral stepped arrangement with the other wire bottom, and at least the wire of the first cutting wire and the other wire are connected on the cutting edge.
- each wire edge strip is machined into one, forming a small wire face, the wire face and the cutting edge or the flutes connected to it.
- the wall is not on a curved surface or a spiral surface; 3.
- the angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the concentric circle at the cutting edge and the top of the wire at the rear The angle of the tangent; the above three different techniques A combination of programs.
- At least the first wire bottom diameter of the cutting wire edge is smaller than the other wire cutting edge at the chamfered portion of the cutting wire edge of the split diameter guiding composite cutting wire
- the cutting wire edge at the chamfered portion is at least one stepped arrangement or spiral stepped arrangement with the other wire bottoms, and a part or all of the cutting edge faces of each wire edge strip are processed into one piece.
- a small wire face is formed, and the wire edge of the wire and the cutting edge or the wall of the chip groove are not on a curved or spiral surface.
- At least the diameter of the first wire bottom of the cutting wire edge is smaller than the diameter of the wire bottom of the other cutting wire edge at the chamfered portion of the cutting wire edge of the split diameter guiding composite cutting tap, and the cutting wire edge at the chamfered portion
- the wire bottom and the other wire bottom are arranged at least one stepwise arrangement or spiral stepwise arrangement, and the angle between the cutting edge surface at the chamfered portion of each wire edge and the tangent of the concentric circle at the top of the wire is greater than The angle between the cutting edge of the part and the tangent of the concentric circle at the top of the wire.
- a part or all of the cutting edge surface of each of the wire edge strips of the split-diameter composite cutting tap is processed into one piece to form a 'j, a wire edge surface, a small wire blade face and a cutting edge surface there Or the connected chip flute walls are not on a curved or spiral surface; and the angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the cutting face and wire at the rear The angle between the tangent of the concentric circles at the top.
- each wire blade body Since the present invention employs a small wire face on the cutting face of each wire blade body to enhance the strength of the wire blade body; at least the first wire at the chamfered portion in the cutting direction of each wire blade body is employed Small bottom diameter
- the diameter of the wire bottom, and the bottom of the wire at the chamfered portion and the other wire bottom are at least one stepped arrangement or spiral stepped arrangement, which is equivalent to prolonging the chamfering and reducing the cutting.
- the amount of taps can be smoothly positioned on the workpiece, preventing the occurrence of chaotic yarns and improving the cutting efficiency; due to the tangent of the concentric circles at the chamfered portion and the top of the filament at the chamfered portion in the cutting direction of the wire blade body
- the angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire increases the heat dissipation function and enhances the strength.
- FIG. 1 is a schematic view showing a first embodiment of the present invention
- Fig. 2 is a view taken along line A-A of Fig. 1 of the present invention.
- Fig. 3 is a schematic view showing a second embodiment of the present invention
- Fig. 4 is a view taken along line A A of Fig. 3 of the present invention.
- Fig. 5 is a schematic view showing a third embodiment of the present invention
- Fig. 6 is a view taken along line A-A of Fig. 5 of the present invention.
- FIGS 7 and 8 particularly illustrate schematic views of a helical wire blade tap to which several features of the present invention are applied. detailed description
- the split-diameter composite cutting tap includes a wire blade body 1 and a wire handle 2, and the wire blade body 1 and the wire handle 2 are integrally formed, and a plurality of wires are integrally formed on the wire blade body 1.
- the blade 3, at least the end wire edge of the taper portion 4 of the tap or the diameter 02 of the wire bottom 10 of the first wire edge is smaller than the diameter 01 of the other wire cutting blade bottom 9, in other words, the chamfered portion 4
- the cutting wire edge 10 and the other wire bottoms 9 are arranged in a stepwise arrangement or a spiral step arrangement on the cutting edge surface 6, and the diameter 02 of the first wire bottom 10 is reduced to reduce the initial cutting amount.
- the split-diameter composite cutting tap is similar to the first embodiment, and includes a wire blade body 1 and a wire handle 2, and the wire blade body 1 and the wire handle 2 are integrally formed, and the wire blade body 1 is formed.
- a plurality of wire edge strips 3 are integrally provided.
- a platform 8" is formed on the cutting edge surface 6 of the front end face of each wire edge strip 3 in terms of the rotational cutting direction from the wire top 7 to the wire bottom 9, forming a relative to said
- the cutting edge surface 6 retreats in a direction opposite to the direction of rotation by a certain distance of the wire edge surface 5, the wire edge surface 5 and the corresponding cutting edge surface 6 or the chip removal hole wall are not in a plane or a curved surface or a spiral surface, the filament
- the blade face 5 has a heat dissipation function and an enhanced strength.
- the split-diameter composite cutting tap is similar to the embodiment 1, and includes a wire blade body 1 and a wire shank 2 which are integrally formed with the wire shank 2.
- the angle a between the wire edge of the chamfered portion 4 and the tangent of the concentric circle at the cutting edge is larger than the angle b between the cutting edge face 6 of the rear portion and the tangent of the concentric circle at the cutting edge.
- the wire edge surface extends rearward from the chamfer along the axis to form an angle of inclination with the axis, that is, the wire edge surface at the chamfer is slightly inclined toward the wire top direction, and the rear wire edge surface gradually passes from the wire top to the wire edge surface. Tilt in direction.
- the angle between the chamfer of the tap and the top of the tap is larger than the angle between the chamfer of the existing tap and the top of the wire, which increases the resistance of the wire edge surface 9 at the chamfer and prevents the tap blade The occurrence of disintegration.
- the features of the above three embodiments may be arbitrarily combined. That is, the split-directed composite cutting tap can simultaneously have any two or a combination of three of the following features: 1.
- the diameter of the wire bottom of at least the first cutting edge at the chamfered portion of each wire edge strip Less than the diameter of the wire bottom of the other cutting edge, the wire bottom of the wire at each chamfered portion of the wire edge is at least one stepped or spiral stepped arrangement with the other wire bottom, and at least first Cutting edge
- the line connecting the silk bottom with the other silk bottom on the cutting edge is not in a straight line or spiral line;
- each wire edge strip is machined into one piece to form a small wire blade surface, and the wire edge surface and the cutting edge surface or the connected chip flute wall are not on a curved surface or a spiral surface. 3.
- the angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire.
- Figures 7 and 8 particularly illustrate schematic views of a helical wire blade tap to which the above three features of the present invention are applied.
- the tap of the present invention may also have a plurality of stepped or spiral stepped arrangements of a plurality of different diameters of the wire edge of each of the wire edge strips 3, and the cutting edge is concentric with the top of the wire.
- a plurality of different angles of the circle, a part or all of the cutting edge faces of each wire edge strip are processed into one, and a plurality of different wire edge faces are formed in various combinations.
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Abstract
A guiding composite cutting tap with different diameters is disclosed. The composite cutting tap comprises a screw blade (1) and a screw shank (2). The screw blade (1) is connected with the screw shank (2), or the screw blade (1) and the screw shank (2) are integrally formed. The screw blade (1) is integrally provided with a plurality of screw blade strips (3). Each screw blade strip (3) is provided with a cutting edge surface (6) at the front surface. The angle between the cutting edge surface (6) on chamfer portion (4) of each screw blade strip (3) and a tangent of a concentric circle is larger than the angle between a back cutting edge surface (6) and the tangent of the concentric circle. The diameter of a screw blade bottom (10) at the chamfer portion (4) is less than the diameter of a back screw blade bottom (10). A radiating table (8'') is provided on the cutting edge surface (6) of each screw blade strip (3). In addition to the heat radiating function, the cutting edge surface (6) having the radiating table (8'') also improves the processing efficiency, increases the stability of the cutting and extends the service life of the tap.
Description
分径导向复合切削丝锥 技术领域 Split diameter guided composite cutting tap
本发明涉及一种丝锥, 具体地说涉及一种分径导向复合切削 丝锥, 本技术方案用于机械加工中对工件的丝孔加工。 背景技术 BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a tap, and more particularly to a split-diameter composite cutting tap, which is used for wire hole machining of a workpiece in machining. Background technique
目前, 机械加工中使用的螺旋丝锥或直槽丝锥是由丝刃体和 丝柄构成, 丝刃体又由丝刃条和切削刃面, 丝刃、 倒角、 倒角刃 等构成, 丝刃, 倒角刃的切削刃面大致在一个曲面或同一个螺旋 面上, 每个丝刃条的丝底连线大致在一条直线或螺旋上, 由于倒 角部分处丝顶到丝底距离过小起不到导向作用, 结果攻丝成了扩 孔, 造成工件报废, 并且, 由于每一组的丝刃面是由单一面组成, 当切削刃面与丝顶夹角过于锐利时则丝刃易断裂, 如切削刃面与 整体断裂在工件中致使工件质量受损甚至报废, 发明内容 At present, the spiral tap or straight groove tap used in machining is composed of a wire blade body and a wire shank, and the wire blade body is composed of a wire blade and a cutting edge face, a wire edge, a chamfering, a chamfering blade, etc. The cutting edge surface of the chamfering edge is substantially on a curved surface or the same spiral surface, and the wire bottom connection of each wire edge strip is substantially in a straight line or a spiral, because the distance from the top of the wire to the bottom of the wire is too small at the chamfered portion As a result, the guiding effect is not achieved. As a result, the tapping becomes a reaming, which causes the workpiece to be scrapped. Moreover, since the wire surface of each group is composed of a single surface, when the angle between the cutting edge and the top of the wire is too sharp, the wire edge is easy. Fracture, such as cutting edge and overall fracture in the workpiece, causing damage or even scrapping of the workpiece, the content of the invention
本发明就是鉴于上述的问题而提出的, 以提供一种分径导向 复合切削丝雉, 该种丝锥容易定位, 散热效率高, 耐磨损, 寿命 长。 SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and provides a split-direction guided composite cutting wire which is easy to position, has high heat dissipation efficiency, is resistant to abrasion, and has a long life.
为了达到上述目的, 本发明采用下述技术方案: 技术方案 1 : In order to achieve the above object, the present invention adopts the following technical solutions: Technical Solution 1:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄形成为一体, 丝刃体一体的设置有多个丝刃条, 每个丝刃条 的前面有一个切削刃面, 其特征在于, 每个丝刃条倒角部分处的 A split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface characterized by a chamfer at each wire edge
水
切削刃面与丝顶处的同心圆的切线的夹角大于后部的切削刃面与 丝顶处的同心圆的切线的夹角。 Water The angle between the cutting edge and the tangent of the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire.
优选地, 在所述的分径导向复合切削丝锥的每个丝刃条的切 削刃面与丝顶处的同心圆的切线的夹角至少是由前部的倒角部分 处的丝刃^ "和后面的丝刃条两部分一体的构成。 Preferably, the angle between the cutting edge of each of the wire edge strips of the split-direction composite cutting tap and the tangent of the concentric circle at the top of the wire is at least the wire edge at the chamfered portion of the front portion. And the latter part of the wire blade is composed of two parts.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的丝底 直径至少是由两种不同大小的丝底直径构成的。 Preferably, the wire bottom diameter of the cutting wire edge of the split-directed composite cutting tap is formed by at least two different sized wire bottom diameters.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的丝底 在切削刃面上的连线分布在至少两条不同的直线或螺旋线上。 技术方案 2: Preferably, the line of the wire bottom of the cutting wire edge of the split-direction composite cutting tap on the cutting edge is distributed over at least two different straight lines or spirals. Technical Solution 2:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄形成为一体, 丝刃体一体的设置有多个丝刃条, 每个丝刃条 的前面有一个切削刃面, 其特征在于, 每个丝刃条的切削刃面的 一部分或全部加工成一台, 形成一小丝刃面,小丝刃面与所在的切 削刃面或连接的排屑槽壁不在一个曲面或螺旋面上。 A split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface, characterized in that a part or all of the cutting edge surface of each wire edge strip is machined into one piece to form a small wire blade face, and the wire edge face is not in the same direction as the cutting edge face or the connected chip groove wall Surface or spiral surface.
优选地, 在所述的分径导向复合切削丝锥的丝顶至丝底间的 切削刃面是由至少两个不同的切削刃面构成。 Preferably, the cutting edge between the top of the split-guided composite cutting tap and the bottom of the wire is formed by at least two different cutting face faces.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的倒角 部分处的切削刃面与同一侧的同心圆的切线的夹角大于后面同侧 的切削刃面与同心圆的切线的夹角。 技术方案 3 Preferably, the angle between the cutting edge surface at the chamfered portion of the cutting wire edge of the split-direction composite cutting tap and the tangent of the concentric circle on the same side is greater than the tangent of the cutting edge surface and the concentric circle on the same side The angle of the. Technical solution 3
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄形成为一体, 丝刃体一体的设置有多个丝刃条, 每个丝刃条 的前面有一个切削刃面, 其特征在于, 每个丝刃奈的倒角部分处 的至少第一切削丝刃的丝底直径小于其他切削丝刃的丝底直径, A split-diameter composite cutting tap includes a wire blade body and a wire handle, the wire blade body and the wire handle are integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, and each of the wire edge strips has a cutting front a blade surface, wherein at least a first wire cutting edge at a chamfered portion of each wire edge has a wire bottom diameter smaller than a wire bottom diameter of the other wire cutting edge,
- 2 - - 2 -
氺
每个丝刃条的倒角部分处的切削丝刃丝底与其他丝底呈至少一级 的阶梯状的排列或螺旋阶梯状的排列, 且至少第一切削丝刃丝底 与其他丝底在切削刃面上的连线不在一条直线或螺旋线上。 氺 The cutting wire edge at the chamfered portion of each wire edge strip is at least one stepped or spiral stepped arrangement with the other wire bottoms, and at least the first cutting wire edge is aligned with the other wire bottoms The lines on the cutting edge are not in a straight line or on a spiral.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的丝底 直径至少是由两种不同大小的丝底直径构成的。 Preferably, the wire bottom diameter of the cutting wire edge of the split-directed composite cutting tap is formed by at least two different sized wire bottom diameters.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的丝底 在切削刃面上的连线分布在至少两条不同的直线或螺旋线上。 技术方案 4: Preferably, the line of the wire bottom of the cutting wire edge of the split-direction composite cutting tap on the cutting edge is distributed over at least two different straight lines or spirals. Technical Solution 4:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄连接或形成为一体, 丝刃体一体的设置多个丝刃条, 其特征 在于, 1、每个丝刃条的倒角部分处的至少第一切削丝刃的丝底直 径小于其他切削丝刃的丝底直径, 每个丝刃条的倒角部分处的切 削丝刃丝底与其他丝底呈至少一级的阶梯状的排列或螺旋阶梯状 的排列, 且至少第一切削丝刃丝底与其他丝底在切削刃面上的连 线不在一条直线或螺旋线上; 2、每个丝刃条的切削刃面的一部分 或全部加工成一台, 形成一'■!、丝刃面, 小丝刃面与所在的切削刃 面或连接的排屑槽壁不在一个曲面或螺旋面上。 技术方案 5: A split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, wherein: 1, each wire The diameter of the wire bottom of at least the first cutting edge at the chamfered portion of the blade strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the wire bottom of the wire cutting edge at the chamfered portion of each wire edge strip is at least equal to the other wire bottom a stepped arrangement of one stage or a spiral stepped arrangement, and at least the line connecting the bottom of the first cutting wire and the other wire on the cutting edge is not in a straight line or a spiral line; A part or all of the cutting face is machined into one, forming a '■!, wire edge face, the wire edge face and the cutting edge face or the connected chip groove wall are not on a curved or spiral surface. Technical solution 5:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄连接或形成为一体, 丝刃体一体的设置多个丝刃条, 其特征 在于, 1、每个丝刃条的倒角部分处的至少第一切削丝刃的丝底直 径小于其他切削丝刃的丝底直径, 每个丝刃条的倒角部分处的切 削丝刃丝底与其他丝底呈至少一级的阶梯状的排列或螺旋阶梯状 的排列, 且至少第一切削丝刃丝底与其他丝底在切削刃面上的连 线不在一条直线或螺旋线上; 3、每个丝刃条倒角部分处的切削刃
面与丝顶处的同心圆的切线的夹角大于后部的切削刃面与丝顶处 的同心圆的切线的夹角。 技术方案 6: A split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, wherein: 1, each wire The diameter of the wire bottom of at least the first cutting edge at the chamfered portion of the blade strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the wire bottom of the wire cutting edge at the chamfered portion of each wire edge strip is at least equal to the other wire bottom a stepped arrangement of a first step or a spiral stepped arrangement, and at least the line connecting the bottom of the first cutting wire and the other wire on the cutting edge is not in a straight line or a spiral line; 3. Each wire edge Cutting edge at the chamfered portion The angle between the face and the tangent of the concentric circle at the top of the wire is greater than the angle between the cutting edge of the back and the tangent of the concentric circle at the top of the wire. Technical solution 6:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄连接或形成为一体, 丝刃体一体的设置多个丝刃条, 其特征 在于, 2、每个丝刃条的切削刃面的一部分或全部加工成一台, 形 成一小丝刃面,小丝刃面与所在的切削刃面或连接的排屑槽壁不 在一个曲面或螺旋面上; 3、每个丝刃条倒角部分处的切削刃面与 丝顶处的同心圆的切线的夹角大于后部的切削刃面与丝顶处的同 心圆的切线的夹角。 技术方案 7: A split-diameter composite cutting tap comprises a wire blade body and a wire handle, the wire blade body and the wire handle are connected or integrally formed, and the wire blade body is integrally provided with a plurality of wire edge strips, characterized in that: 2, each wire Part or all of the cutting edge of the blade is machined into a single piece to form a small wire face, and the wire face and the cutting edge or the connected chip wall are not on a curved or spiral surface; The angle between the cutting edge at the chamfered portion of the wire edge and the tangent to the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent to the concentric circle at the top of the wire. Technical Solution 7:
一种分径导向复合切削丝锥包括丝刃体和丝柄, 该丝刃体和 丝柄连接或形成为一体, 丝柄上连接或一体的设置多个丝刃体, 每个丝刃体的前面有一个切削刃面, 其特征在于; 1、 每个丝刃条 的倒角部分处的至少第一切削丝刃的丝底直径小于其他切削丝刃 的丝底直径, 每个丝刃条的倒角部分处的切削丝刃丝底与其他丝 底呈至少一级的阶梯状的排列或螺旋阶梯状的排列, 且至少第一 切削丝刃丝底与其他丝底在切削刃面上的连线不在一条直线或螺 旋线上; 2、 每个丝刃条的切削刃面的一部分或全部加工成一台, 形成一小丝刃面,小丝刃面与所在的切削刃面或连接的排屑槽壁 不在一个曲面或螺旋面上; 3、每个丝刃条倒角部分处的切削刃面 与丝顶处的同心圆的切线的夹角大于后部的切削刃面与丝顶处的 同心圆的切线的夹角; 以上三种不同的技术方案的组合。 A split-diameter composite cutting tap includes a wire blade body and a wire handle, and the wire blade body and the wire handle are connected or integrally formed, and a plurality of wire blade bodies are connected or integrally connected to the wire handle, and the front surface of each wire blade body There is a cutting edge surface, which is characterized in that: 1. The diameter of the wire bottom of at least the first cutting wire edge at the chamfered portion of each wire edge strip is smaller than the diameter of the wire bottom of the other cutting wire edge, and the cutting edge of each wire cutting edge The wire bottom of the cutting wire at the corner portion is at least one stepped or spiral stepped arrangement with the other wire bottom, and at least the wire of the first cutting wire and the other wire are connected on the cutting edge. Not in a straight line or spiral line; 2. Part or all of the cutting edge of each wire edge strip is machined into one, forming a small wire face, the wire face and the cutting edge or the flutes connected to it. The wall is not on a curved surface or a spiral surface; 3. The angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the concentric circle at the cutting edge and the top of the wire at the rear The angle of the tangent; the above three different techniques A combination of programs.
优选地, 在所述的分径导向复合切削丝雉的切削丝刃的倒角 部分处至少切削丝刃的第一圏丝底直径小于其他切削丝刃丝底直 Preferably, at least the first wire bottom diameter of the cutting wire edge is smaller than the other wire cutting edge at the chamfered portion of the cutting wire edge of the split diameter guiding composite cutting wire
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径, 倒角部分处的切削丝刃丝底与其他丝底呈至少一级的阶梯状 的排列或螺旋阶梯状的排列, 且每个丝刃条的切削刃面的一部分 或全部加工成一台, 形成一小丝刃面,小丝刃面与所在的切削刃面 或连接的排屑槽壁不在一个曲面或螺旋面上。 氺 The cutting wire edge at the chamfered portion is at least one stepped arrangement or spiral stepped arrangement with the other wire bottoms, and a part or all of the cutting edge faces of each wire edge strip are processed into one piece. A small wire face is formed, and the wire edge of the wire and the cutting edge or the wall of the chip groove are not on a curved or spiral surface.
优选地, 在所述的分径导向复合切削丝锥的切削丝刃的倒角 部分处至少切削丝刃的第一圏丝底直径小于其他切削丝刃丝底直 径, 倒角部分处的切削丝刃丝底与其他丝底呈至少一级的阶梯状 的排列或螺旋阶梯状的排列, 且每个丝刃条倒角部分处的切削刃 面与丝顶处的同心圆的切线的夹角大于后部的切削刃面与丝顶处 的同心圆的切线的夹角。 Preferably, at least the diameter of the first wire bottom of the cutting wire edge is smaller than the diameter of the wire bottom of the other cutting wire edge at the chamfered portion of the cutting wire edge of the split diameter guiding composite cutting tap, and the cutting wire edge at the chamfered portion The wire bottom and the other wire bottom are arranged at least one stepwise arrangement or spiral stepwise arrangement, and the angle between the cutting edge surface at the chamfered portion of each wire edge and the tangent of the concentric circle at the top of the wire is greater than The angle between the cutting edge of the part and the tangent of the concentric circle at the top of the wire.
优选地, 在所述的分径导向复合切削丝锥的每个丝刃条的切 削刃面的一部分或全部加工成一台, 形成一' j、丝刃面,小丝刃面与 所在的切削刃面或连接的排屑槽壁不在一个曲面或螺旋面上; 且 每个丝刃条倒角部分处的切削刃面与丝顶处的同心圆的切线的夹 角大于后部的切削刃面与丝顶处的同心圆的切线的夹角 。 有益效果 Preferably, a part or all of the cutting edge surface of each of the wire edge strips of the split-diameter composite cutting tap is processed into one piece to form a 'j, a wire edge surface, a small wire blade face and a cutting edge surface there Or the connected chip flute walls are not on a curved or spiral surface; and the angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the cutting face and wire at the rear The angle between the tangent of the concentric circles at the top. Beneficial effect
由于本发明采用了每个丝刃体的切削刃面上加工一小丝刃面 增强了丝刃体的强度; 由于采用了每个丝刃体的切削方向上倒角 部分处的至少第一丝底直径小 Since the present invention employs a small wire face on the cutting face of each wire blade body to enhance the strength of the wire blade body; at least the first wire at the chamfered portion in the cutting direction of each wire blade body is employed Small bottom diameter
于其他切削丝刃丝底直径, 且倒角部分处的切削丝刃丝底与 其他丝底呈至少一级的阶梯状的排列或螺旋阶梯状的排列, 相当 于延长了倒角, 减少了切削量, 使丝锥在工件上能顺利定位, 防 止了乱丝的发生, 提高了切削效率; 由于采用了丝刃体的切削方 向上倒角部分处的切削刃面与丝顶处的同心圆的切线的夹角大于 后部的切削刃面与丝顶处的同心圆的切线的夹角, 提高散热功能 和增强强度的作用。
附图说明 For other wire cuttings, the diameter of the wire bottom, and the bottom of the wire at the chamfered portion and the other wire bottom are at least one stepped arrangement or spiral stepped arrangement, which is equivalent to prolonging the chamfering and reducing the cutting. The amount of taps can be smoothly positioned on the workpiece, preventing the occurrence of chaotic yarns and improving the cutting efficiency; due to the tangent of the concentric circles at the chamfered portion and the top of the filament at the chamfered portion in the cutting direction of the wire blade body The angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire increases the heat dissipation function and enhances the strength. DRAWINGS
本发明的技术方案和优点将通过结合附图进行详细的说明在 该附图中。 The technical solutions and advantages of the present invention will be described in detail in the accompanying drawings.
图 1是本发明的第一实施方式的示意图, 图 2是本发明图 1 的 A-A向视图。 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a first embodiment of the present invention, and Fig. 2 is a view taken along line A-A of Fig. 1 of the present invention.
图 3是本发明的第二实施方式的示意图, 图 4是本发明图 3 的 A A向视图。 Fig. 3 is a schematic view showing a second embodiment of the present invention, and Fig. 4 is a view taken along line A A of Fig. 3 of the present invention.
图 5是本发明的第三实施方式的示意图, 图 6是本发明图 5 的 A-A向视图。 Fig. 5 is a schematic view showing a third embodiment of the present invention, and Fig. 6 is a view taken along line A-A of Fig. 5 of the present invention.
图 7和图 8特别示出了应用了本发明若干特征的螺旋丝刃体 丝锥的示意图。 具体实施方式 Figures 7 and 8 particularly illustrate schematic views of a helical wire blade tap to which several features of the present invention are applied. detailed description
下面将结合附图详细说明本发明的分径导向复合切削丝锥的 技术方案及其优选实施方式。 The technical solution of the split-diameter composite cutting tap of the present invention and its preferred embodiment will be described in detail below with reference to the accompanying drawings.
实施方式 1 Embodiment 1
如图 1、 图 2所示, 该分径导向复合切削丝锥包括丝刃体 1 和丝柄 2, 该丝刃体 1和丝柄 2形成为一体, 丝刃体 1上一体的 设置多个丝刃条 3, 丝锥的倒角部分处 4的至少末端丝刃或者说 第一丝刃的丝底 10的直径 02小于其他切削丝刃丝底 9的直径 01, 换句话说,倒角部分处 4的切削丝刃丝底 10与其他丝底 9在切削 刃面 6上呈至少一级的阶梯状的排列或螺旋阶梯状的排列, 该第 一丝底 10的直径 02缩小减少了最初的切削量, 相当于延长了切 削丝刃的倒角, 由于丝锥倒角部分处 4过长时不利于加工丝孔, 故主切削处工作量过大因此费力, 通过倒角部分处 4第一丝底 10 直径 02的缩小延长主切削丝刃, 减少了切削量, 提高了效率。 As shown in FIG. 1 and FIG. 2, the split-diameter composite cutting tap includes a wire blade body 1 and a wire handle 2, and the wire blade body 1 and the wire handle 2 are integrally formed, and a plurality of wires are integrally formed on the wire blade body 1. The blade 3, at least the end wire edge of the taper portion 4 of the tap or the diameter 02 of the wire bottom 10 of the first wire edge is smaller than the diameter 01 of the other wire cutting blade bottom 9, in other words, the chamfered portion 4 The cutting wire edge 10 and the other wire bottoms 9 are arranged in a stepwise arrangement or a spiral step arrangement on the cutting edge surface 6, and the diameter 02 of the first wire bottom 10 is reduced to reduce the initial cutting amount. , equivalent to extending the chamfering of the cutting wire edge, because the taper portion of the tap is too long, it is not conducive to the processing of the wire hole, so the main cutting work is too large and therefore laborious, through the chamfered portion 4 at the first wire bottom 10 The reduction of the diameter of 0 2 extends the main cutting edge, which reduces the amount of cutting and improves the efficiency.
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实施方式 2 « Embodiment 2
如图 3、 图 4所示, 该分径导向复合切削丝锥与实施方式 1 类似, 包括丝刃体 1和丝柄 2, 该丝刃体 1和丝柄 2形成为一体, 丝刃体 1上一体的设置多个丝刃条 3。 根据该实施方式, 位于每 个丝刃条 3的就旋转切削方向而言的前端面的切削刃面 6上自丝 顶 7至丝底 9处加工出一平台 8", 形成一相对于所述切削刃面 6 沿旋转方向的相反方向后退一定距离的小丝刃面 5, 小丝刃面 5 与对应的切削刃面 6 或排屑孔壁不在一个平面或曲面或螺旋面 上, 该小丝刃面 5有散热功能和增强强度的作用。 As shown in FIG. 3 and FIG. 4, the split-diameter composite cutting tap is similar to the first embodiment, and includes a wire blade body 1 and a wire handle 2, and the wire blade body 1 and the wire handle 2 are integrally formed, and the wire blade body 1 is formed. A plurality of wire edge strips 3 are integrally provided. According to this embodiment, a platform 8" is formed on the cutting edge surface 6 of the front end face of each wire edge strip 3 in terms of the rotational cutting direction from the wire top 7 to the wire bottom 9, forming a relative to said The cutting edge surface 6 retreats in a direction opposite to the direction of rotation by a certain distance of the wire edge surface 5, the wire edge surface 5 and the corresponding cutting edge surface 6 or the chip removal hole wall are not in a plane or a curved surface or a spiral surface, the filament The blade face 5 has a heat dissipation function and an enhanced strength.
实施方式 3 Embodiment 3
如图 5、 图 6所示, 该分径导向复合切削丝锥与实施方式 1 类似, 包括丝刃体 1和丝柄 2, 该丝刃体 1和丝柄 2形成为一体。 才 据该实施方式, 倒角部分处 4的丝刃面与刃口处同心圆的切线 的夹角 a大于后部的切削刃面 6与刃口处同心圆的切线的夹角 b。 丝刃面从倒角处沿轴线向后延伸与轴线的夹角形成变角, 即倒角 处的丝刃面略向丝顶方向倾斜而后部的丝刃面逐渐由丝顶向丝刃 面的方向倾斜。 As shown in Figs. 5 and 6, the split-diameter composite cutting tap is similar to the embodiment 1, and includes a wire blade body 1 and a wire shank 2 which are integrally formed with the wire shank 2. According to this embodiment, the angle a between the wire edge of the chamfered portion 4 and the tangent of the concentric circle at the cutting edge is larger than the angle b between the cutting edge face 6 of the rear portion and the tangent of the concentric circle at the cutting edge. The wire edge surface extends rearward from the chamfer along the axis to form an angle of inclination with the axis, that is, the wire edge surface at the chamfer is slightly inclined toward the wire top direction, and the rear wire edge surface gradually passes from the wire top to the wire edge surface. Tilt in direction.
通过上述结构, 丝锥套丝时丝锥的倒角处与丝顶的夹角大于 现有的丝锥倒角处与丝顶的夹角,增加了倒角处丝刃面 9的抗力, 防止丝锥丝刃崩齿的发生。 Through the above structure, the angle between the chamfer of the tap and the top of the tap is larger than the angle between the chamfer of the existing tap and the top of the wire, which increases the resistance of the wire edge surface 9 at the chamfer and prevents the tap blade The occurrence of disintegration.
其他实施方式 Other embodiments
在未示出的实施方式中, 上述三个实施方式中的特征可以任 意进行组合。 也就是说, 该分径导向复合切削丝锥可以同时具有 如下特征中的任意两个或者三个的组合: 1、每个丝刃条的倒角部 分处的至少第一切削丝刃的丝底直径小于其他切削丝刃的丝底直 径, 每个丝刃条的倒角部分处的切削丝刃丝底与其他丝底呈至少 一级的阶梯状的排列或螺旋阶梯状的排列, 且至少第一切削丝刃
丝底与其他丝底在切削刃面上的连线不在一条直线或螺旋线上; In the embodiment not shown, the features of the above three embodiments may be arbitrarily combined. That is, the split-directed composite cutting tap can simultaneously have any two or a combination of three of the following features: 1. The diameter of the wire bottom of at least the first cutting edge at the chamfered portion of each wire edge strip Less than the diameter of the wire bottom of the other cutting edge, the wire bottom of the wire at each chamfered portion of the wire edge is at least one stepped or spiral stepped arrangement with the other wire bottom, and at least first Cutting edge The line connecting the silk bottom with the other silk bottom on the cutting edge is not in a straight line or spiral line;
2、每个丝刃条的切削刃面的一部分或全部加工成一台, 形成一小 丝刃面,小丝刃面与所在的切削刃面或连接的排屑槽壁不在一个 曲面或螺旋面上; 3、每个丝刃条倒角部分处的切削刃面与丝顶处 的同心圆的切线的夹角大于后部的切削刃面与丝顶处的同心圆的 切线的夹角。 2. Part or all of the cutting edge surface of each wire edge strip is machined into one piece to form a small wire blade surface, and the wire edge surface and the cutting edge surface or the connected chip flute wall are not on a curved surface or a spiral surface. 3. The angle between the cutting edge at the chamfered portion of each wire edge and the tangent to the concentric circle at the top of the wire is greater than the angle between the cutting edge of the rear portion and the tangent of the concentric circle at the top of the wire.
特别地, 图 7和图 8特别示出了应用了本发明上述三个特征 的螺旋丝刃体丝锥的示意图。 In particular, Figures 7 and 8 particularly illustrate schematic views of a helical wire blade tap to which the above three features of the present invention are applied.
另外, 本发明的丝锥也可具有每个丝刃条 3的多个直径不同 的切削丝刃丝底呈多级的阶梯状的排列或螺旋阶梯状的排列, 切 削刃面与丝顶处的同心圆的多个不同的夹角, 每个丝刃条的切削 刃面的一部分或全部加工成一台, 形成多个不同的小丝刃面的方 式进行多种组合。 In addition, the tap of the present invention may also have a plurality of stepped or spiral stepped arrangements of a plurality of different diameters of the wire edge of each of the wire edge strips 3, and the cutting edge is concentric with the top of the wire. A plurality of different angles of the circle, a part or all of the cutting edge faces of each wire edge strip are processed into one, and a plurality of different wire edge faces are formed in various combinations.
以上所述的优选实施方式是说明性的, 当然本技术方案还有 其他的实施方式, The preferred embodiments described above are illustrative, and of course there are other embodiments of the present technical solution.
本申请文件不再一一列举, 本发明权利要求所限定的具体实 施方式及其衍生方案, 均落入本发明的保护范围。 The present application is not limited to the specific embodiments and the derivatives thereof as defined in the claims of the present invention.
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Claims
1. 分径导向复合切削丝锥, 包括丝刃体和丝柄, 该丝刃体和 丝柄形成为一体, 丝刃体一体的设置有多个丝刃条, 每个丝刃条 的前面有一个切削刃面, 其特征在于具有如下特征中任一及其任 意组合: (1 )每个丝刃条倒角部分处的切削刃面与丝顶处的同心 圆的切线的夹角大于后部的切削刃面与丝顶处的同心圆的切线的 夹角; (2 )每个丝刃条的倒角部分处的至少第一切削丝刃的丝底 直径小于其他切削丝刃的丝底直径, 每个丝刃条的倒角部分处的 切削丝刃丝底与其他丝底呈至少一级的阶梯状的排列或螺旋阶梯 状的排列, 且至少第一切削丝刃丝底与其他丝底在切削刃面上的 连线不在一条直线或螺旋线上; (3 )每个丝刃条的切削刃面的一 部分或全部加工成一台, 形成一' j、丝刃面,小丝刃面与所在的切削 刃面或连接的排屑槽壁不在一个平面或曲面或螺旋面上。 1. A split-diameter composite cutting tap comprising a wire blade body and a wire handle, the wire blade body and the wire handle being integrally formed, the wire blade body being integrally provided with a plurality of wire edge strips, each of the wire edge strips having a front side The cutting edge surface is characterized by having any one of the following features and any combination thereof: (1) the angle between the cutting edge surface at the chamfered portion of each wire edge and the tangent of the concentric circle at the top of the wire is greater than that of the rear portion The angle between the cutting edge and the tangent of the concentric circle at the top of the wire; (2) the diameter of the wire bottom of at least the first cutting edge at the chamfered portion of each wire edge is smaller than the diameter of the wire bottom of the other cutting wire, The cutting wire edge at the chamfered portion of each wire edge strip is at least one stepped or spiral stepped arrangement with the other wire bottoms, and at least the first cutting wire edge is aligned with the other wire bottoms The line on the cutting edge is not on a straight line or spiral line; (3) part or all of the cutting edge of each wire edge is machined into one, forming a 'j, wire face, small wire face and The cutting edge or the connected chip flute wall is not in a plane or curved Face or spiral surface.
2. 如权利要求 1所述的分径导向复合切削丝锥,其特征在于, 丝锥的丝刃体为下述类型中的一种: 锥度丝刃体丝锥, 直丝刃体 丝锥, 螺旋丝刃体丝锥或其他多面体形丝锥。 2. The split-steering composite cutting tap according to claim 1, wherein the wire taper of the tap is one of the following types: a taper wire tap, a straight wire tap, a spiral blade Taps or other polyhedral taps.
氺 氺
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN201010171832.1 | 2010-05-14 | ||
CN2010101718321A CN102179576A (en) | 2010-05-14 | 2010-05-14 | Guiding compound cutting screw tap based on different diameters |
Publications (1)
Publication Number | Publication Date |
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WO2011140830A1 true WO2011140830A1 (en) | 2011-11-17 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/CN2011/000846 WO2011140830A1 (en) | 2010-05-14 | 2011-05-16 | Guiding composite cutting tap with different diameters |
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CN (1) | CN102179576A (en) |
WO (1) | WO2011140830A1 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103372692A (en) * | 2012-04-20 | 2013-10-30 | 李仕清 | Different-diameter guiding combined cutting tap or combined cutting cone |
CN108262537A (en) * | 2016-12-30 | 2018-07-10 | 李仕清 | Micro- chopping cone |
CN108262536A (en) * | 2016-12-30 | 2018-07-10 | 李仕清 | Micro- circle of contact cone |
Citations (6)
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---|---|---|---|---|
US2145819A (en) * | 1937-11-11 | 1939-01-31 | Winter Brothers Company | Thread cutting tool |
US5112168A (en) * | 1990-01-19 | 1992-05-12 | Emuge-Werk Richard Glimpel Fabrik Fur Prazisionswerkzeuge Vormals Moschkau & Glimpel | Tap with tapered thread |
CN2209235Y (en) * | 1993-09-08 | 1995-10-04 | 王庆堂 | Gradual change screw thread tooth type guide wimble |
DE19739125A1 (en) * | 1997-09-06 | 1999-03-18 | Fette Wilhelm Gmbh | Thread borer with swarf grooves |
CN201442135U (en) * | 2009-07-08 | 2010-04-28 | 李仕清 | Composite tool for machining blade-surface screw path |
CN201677101U (en) * | 2010-05-14 | 2010-12-22 | 李仕清 | Diameter guiding combined cutting screw tap |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3457248B2 (en) * | 2000-03-09 | 2003-10-14 | 株式会社田野井製作所 | Forming tap and screw processing method |
JP2004001103A (en) * | 2002-04-05 | 2004-01-08 | Yamawa Seisakusho:Kk | Thread forming tap |
CN101607327A (en) * | 2009-07-08 | 2009-12-23 | 李仕清 | Compound cutting face screw processing tool |
-
2010
- 2010-05-14 CN CN2010101718321A patent/CN102179576A/en active Pending
-
2011
- 2011-05-16 WO PCT/CN2011/000846 patent/WO2011140830A1/en active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2145819A (en) * | 1937-11-11 | 1939-01-31 | Winter Brothers Company | Thread cutting tool |
US5112168A (en) * | 1990-01-19 | 1992-05-12 | Emuge-Werk Richard Glimpel Fabrik Fur Prazisionswerkzeuge Vormals Moschkau & Glimpel | Tap with tapered thread |
CN2209235Y (en) * | 1993-09-08 | 1995-10-04 | 王庆堂 | Gradual change screw thread tooth type guide wimble |
DE19739125A1 (en) * | 1997-09-06 | 1999-03-18 | Fette Wilhelm Gmbh | Thread borer with swarf grooves |
CN201442135U (en) * | 2009-07-08 | 2010-04-28 | 李仕清 | Composite tool for machining blade-surface screw path |
CN201677101U (en) * | 2010-05-14 | 2010-12-22 | 李仕清 | Diameter guiding combined cutting screw tap |
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CN102179576A (en) | 2011-09-14 |
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