RU2457082C2 - Drill (versions) - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: drill consists of shank and working part comprising chip removal flutes. Note that drill end has cutting and drilling edges arranged in different planes. In compliance with first version, working part is composed of three and more screw rectangular strips twisted in vertical plane relative to proper axis of symmetry and bent in screw lines on cylindrical mandrel in transverse direction and sequentially interconnected over the entire length of working part by their lateral sides. 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 performances.

2 cl, 11 dwg

Description

The invention relates to machining, in particular to drilling materials, and can be used to open holes in a board of non-metallic material, for example, for processing deep holes.

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 limited technological capabilities in view of the lack of rigidity and vibration resistance.

Closest to the proposed invention is a tool for machining holes (AS USSR No. 1271677, class B23B 51/02, 1986), consisting of a shank and a working part attached to it, made of sheets in the form of equilateral triangles with the formation of a tetrahedral screw columns or of three sheets, rolled into a screw with the formation of a helical three-way columns, and containing grooves for removal of chips.

A disadvantage of the known tool is the limited technological capabilities due to the complexity of manufacturing, as well as due to the large friction forces and difficulties in drilling.

The technical solution to the problem is to expand technological capabilities by simplifying manufacturing, reducing friction forces and facilitating drilling.

The problem is achieved in that in the tool for processing holes, consisting of a shank and a working part attached thereto, containing grooves for removing chips, according to the invention according to the first embodiment, the working part is made of three or more twisted in a vertical plane relative to its own axis of symmetry and curved along helical lines on a cylindrical mandrel in the transverse direction and sequentially interconnected along the length of the working part of three or more helical rectangular strips connected with each other along the perimeter of the working part with its sides to form a hollow multi-way helical cylindrical surface along the entire length of the working part, equipped with three or more cylindrical helical lines along the outer diameter, and three or more cylindrical helical grooves along the entire length of the working part along the inner surface, moreover, on the front side of the working part there are made cutting and reaming edges located in different planes, according to the second variant, the working part is made, at at least three or more helical rectangular strips of curvilinear concave or convex shape described by curves of various orders and degrees of curvature with centers located outside or inside the cross section of the working part, and cutting and reaming edges located in different planes are made from the front side of the working part .

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 processing holes.

The novelty lies in the fact that according to the first embodiment, the working part is made of three or more twisted in a vertical plane relative to its own axis of symmetry and bent along helical lines on a cylindrical mandrel in the transverse direction and sequentially interconnected along the length of the working part of three or more helical rectangular strips connected to each other along the perimeter of the working part by their lateral sides with the formation of a hollow multi-pass helical cylindrical surface along the entire length of the working part Fitted on the outer diameter of three or more helical lines, and the inner surface of three or more helical grooves over the entire length of the working part, which reduces friction and facilitates the drilling process, expands technological possibilities.

The novelty also lies in the fact that the manufacture of the tool according to the first and second options is multi-pass, namely, not only with three or more helical lines on the outer surface, but also with three or more cutting and reaming edges, improves cutting conditions, increases tool life, expands technological capabilities.

The novelty is due to the fact that the working part is made according to the second embodiment of three or more helical strips of curved concave or convex shape, described by curves of various orders and degrees of curvature with centers located outside or inside the cross section of the working part, which reduces the friction forces and facilitates the drilling process expands technological capabilities.

The novelty also lies in the fact that due to the helical surfaces of the double curvature of the working part according to the first and second versions, the friction force is reduced and the drilling process is facilitated, which expands the technological capabilities.

The novelty is seen in the fact that the drum is made of at least three or more rectangular strips, which simplifies manufacture and expands technological capabilities.

The invention is illustrated by drawings, where figure 1 shows a tool for processing holes, General view; figure 2 - a view of figure 1; figure 3 is a section aa in figure 2; figure 4 - the working part of the tool, General view; in FIG. 5 is a section bB in figure 4; figure 6 is a view of a rectangular strip after twisting its ends relative to the horizontal axis O ₁ -O ₁ ; Fig.7 is a view of the strip after twisting it on the mandrel; on Fig - section bb in Fig.7; figure 9 is a section bb with the alignment of the edges of the two strips; figure 10 is a section bB in figure 4, the helical stripes are described by concave curves, in which the centers of curvature are located outside the cross section of the working part of the tool; 11 is a section bB, the helical stripes are described by convex curves in which the centers of curvature are located inside the cross section of the working part of the tool.

The tool for processing holes consists of a working part 1 and a shank 2 (figure 1), 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 as the tool deepens into the body of the part ( drill) increase the width of the drilled ring. The presence of edges 6, 7, 8 increases the length of the cutting contact, which, with the same width of the cut, ceteris paribus, increases the resistance of the cutting tool.

Sharpening angles can be different depending on specific processing conditions, for example, for cutting edges 3, 4, 5 (Fig. 3) rake angle J, rake angle α, cutting angle φ for reaming edges 6, 7, 8 rake angle J ₁ , back angle α ₁ , cutting angle φ ₁ .

The working part 1 of the tool for processing holes (Fig. 4, Fig. 5) according to the first embodiment is made of three or more strips, for example 9, 10, 11, twisted in longitudinal and transverse directions along helical lines, i.e. pre-twisted in the longitudinal direction of the strip relative to the axis O ₁ -O ₁ , for example 9 (Fig.6), is placed on the mandrel 12 (Fig.7, Fig.8) and bent so that the edges 13 and 14 of the strip 9 are folded along the screw lines. After that, the strip 9 is deformed and removed from the mandrel 12, or fixed on the mandrel 12. Similarly, the remaining strips 10 and 11 are processed in the same way. Then, the three strips 9, 10, 11 deformed in this way, after combining, for example, the edges 13 and 14 are connected, for example, by welding. As a result, three or more smooth helical lines, for example, three 15-16, 17-18, 19-20, and three internal smooth grooves 21, 22, 23 are formed along the perimeter of the working part 1 (Fig. 4) along the outer surface (Fig. 5). In FIG. 4 and FIG. 5, strips, for example three, made in the first embodiment, are indicated by 9, 10, 11, and those made in the second embodiment, 24, 25, 26, indicated in FIG. 4 and FIG. 5 in parentheses.

The working part 1 according to the second embodiment can be made of a hollow screw around the perimeter of three or more rolled up in a vertical plane and sequentially interconnected along the length of the working part of the strips 24, 25, 26 curved concave (figure 10) or convex (figure 11) forms relative to the axis of rotation of the working part 1, described by curves of various orders and degrees of curvature, for example, lines of the second order of curvature:

- an 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;

- Agnesi curl y = a ³ * (α ² + x ² );

- stanoid y ³ = x ² ( a + x) / ( a- x);

- Pascal's snail (x ² + y ² -2R * x) ² - a ² * (x ² + y ² ) = 0, etc.

and lines of the nth order of curvature - polynomials.

The connection lines of the bands rolled into a screw form a distinct multi-pass, for example, three-way or more, screw working part 1.

The proposed design of a tool for processing holes can be used not only for deep-hole drills, but also opening holes in plates of non-metallic materials, for example, fiberglass. Generated during drilling, the chips enter the hole of the internal channel. When drilling deep holes, coolant may be introduced into the internal cavity of the drill.

Technical and economic advantages arise due to the creation of inside and outside the working part of multi-pass (three or more) curved screw surfaces of double curvature and three or more screw grooves, which reduce the cutting forces and facilitate the drilling process, as well as by simplifying the manufacture of the tool.

Claims (2)

1. A tool for processing holes, consisting of a shank and a working part attached to it, containing grooves for removing chips, characterized in that the working part is made of three or more twisted in a vertical plane relative to its own axis of symmetry and curved along helical lines on a cylindrical mandrel in the transverse direction and sequentially interconnected along the entire length of the working part of three or more helical rectangular strips connected to each other along the perimeter of the working part with their side sides with the formation of a hollow multi-path helical cylindrical surface equipped with an outer diameter of three or more cylindrical helical lines, and on the inner surface with three or more cylindrical helical grooves along the entire length of the working part, with cutting and reaming edges located on the front side of the working part located in different planes. 2. A tool for processing holes, consisting of a shank and a working part attached to it, containing grooves for removing chips, characterized in that the working part is made of at least three or more helical rectangular strips 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, moreover, cutting and reaming edges located in different planes are made from the end side of the working part tyah.

Images