RU2449864C2 - Large diameter bore drill (versions) - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: drill consists of shank and working part made up of three sheets coiled to form hollow helical surface with chips removal flutes. Said sheets feature trapezoid shape and are coiled in lengthwise direction relative to proper axis of symmetry and bent in crosswise direction on tapered mandrel. Said sheets are jointed together to form hollow helical cavity along working length. Said working part is provided with conical screw lines made on its outer surface and conical helical lines on its inner surface, all over its length. Cutting and reaming edges are made on face side of larger-diameter working part in different planes. Note here that chamfer of 5-30° is made on every trapezoid sheet base. In compliance with another version, working part is made up of three and more helical trapezoid sheets of curvilinear convex or concave shape circumscribed by curves varying in order and degree of curvature with centers located inside and outside working part cross-section.

EFFECT: expanded operating performances.

2 cl, 9 dwg

Description

The invention relates to machining, in particular for opening holes of large diameters in boards of non-metallic material.

A well-known tool for processing holes (AS USSR No. 729006, class B23B 51/02, 1980), the working part of which is made of sheet and contains grooves for chip evacuation.

A disadvantage of the known tool is the lack of rigidity and vibration resistance, as well as the complexity of manufacturing a tool for opening holes of large diameters.

Closest to the proposed invention is a tool for processing a hole (AS USSR No. 1271677, class B23B 51/02, 1986), the working part of which is made of a sheet in the form of equilateral triangles, interconnected in the form of a tetrahedral helical column, or from sheets with the formation of a helical three-way column and containing grooves for removal of chips.

A disadvantage of the known tool is the limited technological capabilities due to insufficient rigidity and vibration resistance, as well as the complexity of manufacturing a tool for opening holes of large diameters.

The technical solution to the problem is the expansion of technological capabilities by increasing stiffness and vibration resistance and simplifying manufacturing.

The problem is achieved in that in the tool for opening holes of large diameters, consisting of a shank and a working part made of three sheets rolled into a screw with the formation of a hollow screw surface containing grooves for removing chips, according to the first embodiment, the working part is made of three or more sheets of trapezoidal shape, twisted in the longitudinal direction relative to its own axis of symmetry, curved along a helical line on a conical mandrel in the transverse direction and connected to each other by the perimeter of the working part with its sides to form a hollow helical conical surface along the entire length of the working surface, and is equipped with conical helical lines along the outer diameter, and conical helical grooves along the entire inner surface along the entire length of the working part, with larger diameter cutting and reaming edges located in different planes, while on each of the trapezoidal sheets in the base there is a bevel at an angle of 5-30 °, according to the second option in the tool for opening holes of large diameters, consisting of a shank and a working part made of three sheets rolled into a screw with the formation of a hollow screw surface containing grooves for removal of chips, the working part is made of at least three or more screw trapezoid sheets curved concave or convex shape described by curves of various orders and degrees of curvature with centers located outside and inside the cross section of the working part, and from the end side of the working part For larger diameters, cutting and reaming edges are made, located in different planes, with a bevel at each angle of 5-30 ° on each sheet of trapezoidal shape.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge about the inventive step of the proposed design of the tool for opening holes of large diameters.

The novelty lies in the fact that in the first embodiment, the working part is made of three or more trapezoidal sheets, twisted in the longitudinal direction relative to their own axis of symmetry, bent along a helical line on a conical mandrel in the transverse direction and connected to each other along the perimeter of the working part with their sides with the formation of a hollow helical conical surface along the entire length of the working surface, and is equipped with conical helical lines along the outer diameter, and with helical grooves along the entire length of the working surface, moreover, cutting edges and reaming edges located in different planes are made on the end side of the working surface, which extends technological capabilities by simplifying manufacturing, reducing friction forces and facilitating opening of large diameters, increasing rigidity and vibration resistance .

The novelty also lies in the fact that due to the screw surfaces of the double curvature of the working part according to the first and second options, the friction force is reduced and the process of opening holes of large diameters is facilitated, which expands the technological capabilities.

The novelty is also due to the fact that the working part is made according to the second variant of at least three or more helical trapezoidal sheets of curved concave or convex shape, described by curves of various orders and degrees of curvature with centers located outside and inside the cross section of the working part, and cutting and reaming edges located in different planes are made on the front side of the working part, which expands technological capabilities by simplifying manufacturing and reducing friction forces and facilitating the opening of large diameters, increasing rigidity and vibration resistance.

The novelty is seen in the fact that the working part according to the first and second options is made of at least three or more trapezoidal sheets, which simplifies manufacture and expands technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows a tool for opening holes of large diameters, General view; figure 2 is a view of figure 1; figure 3 is a section aa in figure 2; figure 4 - the working part of the tool, General view; figure 5 is a sheet of trapezoidal shape; Fig.6 is a sheet of trapezoidal shape after twisting in the longitudinal direction relative to its own longitudinal axis; 7 is a sheet of trapezoidal shape after bending in the transverse direction along a helical line on a conical mandrel.

The tool for opening holes of large diameters consists of a working part 1 and a shank 2 (figure 1, figure 2), which is attached rigidly from one end side of the working part. On the second end side of the working part 1, cutting edges 3, 4, 5 and three drilling edges 6, 7, 8 are made. The drilling edges 6, 7, 8 are a continuation of the cutting edges 3, 4, 5 and increase the length of the cutting contact, which at one and the same cutout width, ceteris paribus, increases the resistance of the cutting tool.

The sharpening angles can be different depending on the specific processing conditions: for example, for cutting edges 3, 4, 5 (Fig. 3), the rake angle j, the trailing angle α, the cutting angle φ; for drilling edges 6, 7, 8, the rake angle j ₁ , the trailing angle α ₁ , the cutting angle φ ₁ .

The working part 1 of the tool for opening holes of large diameters (figure 4) in the first embodiment is made of sheets 9, 10, 11, twisted in the longitudinal and transverse directions along helical lines. One of the sheets of trapezoidal shape 9 is shown in figure 5 with a bevel 12 at the base of the trapezoid 9 at an angle β = 5-30 °. Each of the sheets 9, 10, 11 is twisted in the longitudinal directions relative to its own axis of symmetry, for example as sheet 9 (Fig.6), in which one of its ends is fixed in a hot or cold state and the other end of the sheet is rotated in a given direction. The sheet 9 thus twisted is placed on a conical mandrel 13 (Fig. 7) and bent so that the edges 14, 15 of the sheet 9 are placed in the transverse direction along a helical line. When this sheet 9 is deformed and removed from the mandrel 13 or fixed on it in a deformed position. Similarly, the remaining sheets 10, 11 are deformed, forming the working part of the tool. Next, three or more sheets thus deformed 9, 10, 11 are connected by known methods along the lateral edges 14, 15. As a result, three smooth helical lines 15-16, 17-18 are formed along the perimeter of the working part 1 (Fig. 4) 19-20 and three inner smooth grooves 21, 22, 23 (FIG. 2). In Fig. 4, sheets made in the first embodiment are indicated by 9, 10, 11, and those made in the second embodiment, 24, 25, 26 and are indicated in brackets in Fig. 4.

The working part 1 according to the second variant can be made of a hollow screw around the perimeter of three or more vertically folded and serially connected along the length of the working part of the sheets 24, 25, 26 curved concave (Fig. 8) or convex (Fig. 9) forms relative to the axis of rotation of the working part 1 and described by curves of various orders and degrees of curvature, for example, lines of the second order of curvature:

- ellipse x ² / a ² + y ² / b ² = 1;

- parabola y ² = 2 · p · x;

- hyperbola y = k / x;

Lines of the third order of curvature and higher:

- Cartesian leaf x ³ + y ³ -3 · a · x · y = 0;

- Annezi curl y = a ³ · (α ² + x ² );

- stanoid y ³ = x ² (a + x) / (ax);

- Pascal snail (x ² + y ² -2R · x) -a ² · (x ² + y ² ) = 0, etc .;

and lines of the nth order of curvature - polynomials.

The connection lines of sheets rolled into a screw form a clearly defined unidirectional three-way and more screw working part 1.

The proposed design of a tool for opening holes of large diameters can be used to open holes in boards made of non-metallic materials, for example, fiberglass. The chips forming when opening the holes enter the hole of the internal channel and subsequently, when moving the tool to open another hole, it is removed outside the tool.

Technical and economic advantages arise due to the expansion of technological capabilities as a result of increased rigidity and vibration resistance when opening holes of large diameters, as well as simplifying the manufacture of tools for opening holes of large diameters.

Claims (2)

1. A tool for opening holes of large diameters, consisting of a shank and a working part made of three sheets rolled into a screw to form a hollow screw surface containing grooves for removing chips, characterized in that the working part is made of three or more sheets of trapezoidal shape, twisted in the longitudinal direction relative to its own axis of symmetry and curved in a helical line on a conical mandrel in the transverse direction and connected to each other along the perimeter of the working part by their side and sides with the formation of a hollow helical conical surface along the entire length of the working surface, and is equipped with conical helical lines along the outer diameter, and conical helical grooves along the entire length along the inner surface, with cutting and reaming edges located on the front side of the larger diameter working part in different planes, while on each of the trapezoidal sheets in the base there is a bevel at an angle of 5-30 °. 2. A tool for opening holes of large diameters, consisting of a shank and a working part made of three sheets rolled into a screw with the formation of a hollow screw surface containing grooves for removing chips, characterized in that the working part is made of at least three and more spiral trapezoidal sheets of curved concave or convex shape, described by curves of various orders and degrees of curvature with centers located outside and inside the cross section of the working part, and from the end side the working part of the larger diameter made cutting and reaming edges located in different planes, while on each of the sheets of trapezoidal shape in the base there is a bevel at an angle of 5-30 °.

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