RU2165351C2 - Noncontinuous abrasive wheel - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: wheel may be used for machining of materials on grinding machines. Noncontinuous abrasive wheel has alternating projections and hollows on cylindrical operating surface. Hollows are shaped as straight line which connects arcs of operating surface circle of two adjacent projections. The invention makes it possible to decrease height of microroughness on machined surface. EFFECT: enhanced cutting capacity of wheel. 1 dwg, 1 ex

Description

 The invention relates to mechanical engineering and can be used in the processing of materials on grinding machines.

 A discontinuous abrasive wheel is known, on the cylindrical working surface of which protrusions and depressions are made along the generatrix [1, p. 288]. The protrusions have an arbitrary length.

 Work in such a circle is accompanied by thermal phenomena that significantly change the physical and mechanical state of the surface layer of the processed material and lead to defects such as burns.

 The closest technical solution to the proposed one is an intermittent abrasive wheel [2], containing alternating protrusions and depressions on the working surface, and the length of the protrusion is calculated according to a certain dependence. Each depression in the plane perpendicular to the axis of rotation of the circle has a bottom and two side surfaces, which when intersected with the working surface of the protrusion form a sharp edge. When working in a circle with a certain length of protrusions, the temperature in the cutting zone decreases and burns are excluded.

The disadvantages of the known design are:
- low cutting ability (resistance) of an intermittent abrasive wheel, because during its manufacture (for example, by cutting), the integrity of the base is violated;
- a significant height of microroughnesses on the treated surface, because during its operation, the protrusions hit the part, they generate dangerous bending stresses that reach a critical value, cause the destruction of the sharp edges formed by the intersection of the working surface of the protrusions with the side surface of the depressions, and worsen the geometric indicators of the shape of the working surface of the protrusions.

 The problem that this invention solves is to increase the cutting ability (resistance) of an intermittent abrasive wheel by maintaining the integrity of its base and reducing the height of microroughnesses on the treated surface by changing the profile of the cavity in a plane perpendicular to the axis of rotation of the circle.

 This problem is solved as follows.

In a known intermittent abrasive wheel containing alternating protrusions and depressions on a cylindrical working surface, according to the invention, in a plane perpendicular to the axis of rotation of the circle, depressions are described by a straight line connecting the arcs of the circumference of the working surface of two adjacent protrusions, the length l of which is determined by the dependence l = D _cr sin (180 ^o / n), where D _cr = diameter of a circle, mm; n is the number of depressions.

The description of the depressions in the plane perpendicular to the axis of rotation of the circle, in the form of a straight line connecting the arcs of the circumference of the working surface of two adjacent protrusions, allows for the manufacture of the circle
- to exclude two lateral surfaces of the cavity, to preserve the integrity of its base and thereby increase resistance;
- between the protrusion and the trench to create an edge that is not destroyed at critical bending stresses that occur when the protrusions hit the part during operation of the circle, and thereby reduce the height of microroughnesses on the treated surface.

 The invention is illustrated in the drawing, which shows the proposed intermittent abrasive wheel.

 The intermittent abrasive wheel contains a cylindrical working surface 1 on which alternating protrusions 2 and depressions 3 are located. In a plane AA, perpendicular to the axis of rotation of the circle, the depressions are described by a straight line connecting the arcs of the circumference of the working surface of two adjacent protrusions 4 and 5.

 The objective of the invention is implemented as follows. A discontinuous abrasive wheel is made with alternating protrusions 2 and depressions 3 on a cylindrical working surface 1, and depressions in a plane perpendicular to the axis of rotation of the circle describe a straight line connecting the circular arcs of the working surface of two adjacent protrusions, while the length of the straight line is determined by the above dependence. The circle is mounted on the spindle, brought into contact with the workpiece and grind it.

 Testing of intermittent abrasive wheels according to the known and proposed solutions.

The tests were carried out on a mod grinding machine. wsllh 150x8000 of the Waldrich Siegen company (Germany) when machining cold rolls with a diameter of 500 mm and a length of 3150 mm from 9x2MF steel hardened to a hardness of H _s = 95 ... 97 units (Shore).

 For grinding, discontinuous abrasive wheels with a diameter of 900 mm, a height of the working surface of 100 mm, and a characteristic of 91А40СМ2К8 were used.

According to the known technical solution, on the cylindrical working surface of the circle, alternating protrusions and depressions with an inclination angle of 20 ^{° are made} , the number of depressions is 20. In the plane perpendicular to the axis of rotation of the circle, each depression has a bottom and two side surfaces. The length of the protrusion is 10.65 mm.

According to the proposed technical solution, on the cylindrical working surface of the circle, alternating protrusions and depressions with an angle of inclination of 20 ^{° are made} , the number of depressions is 20. In a plane perpendicular to the axis of rotation of the circle, depressions are described by a straight line connecting the arcs of the circumference of the working surface of two adjacent protrusions, the length of which is determined by dependencies:
l = D _cr · sin (180 ^o / n) = 900 · sin (180 ^o / 20) = 900 · sin 9 ^o = 900 · 0.1564 = 140.76 mm.

Grinding rolls produced in the following modes:
circle rotation speed Y, m / s = 30
longitudinal feed S _ol , mm / min - 950
cutting depth t, micron - 50
removable allowance (per side), microns - 700.

 The durability of the circles was evaluated by the time of their work before editing.

 The height of microroughnesses on the treated surface was measured with a Surtrohic-3 profilometer from Taylor-Hobson (England).

 The test results are shown in the table.

 Thus, the use of the proposed circle in comparison with the known one provides an increase in resistance by 1.8 times due to the preservation of the integrity of its base and a decrease in the height of microroughnesses on the treated surface by 1.3 times due to a change in the profile of the depression in a plane perpendicular to the axis of rotation of the circle, this indicators of poor quality of the surface layer (burns and microcracks) were absent.

Sources of information used:
1. Lizard P.I. and others. Grinding metals. Minsk: "Belarus", 1963.

 2. USSR author's certificate N 200461, B 24 D 5/10, 1966 - prototype.

Claims (1)

Intermittent abrasive wheel containing alternating protrusions and depressions on a cylindrical working surface, characterized in that in a plane perpendicular to the axis of rotation of the circle, the depressions are described by a straight line connecting the arcs of the circumference of the working surface of two adjacent protrusions, the length l of which is determined by the dependence l = D _cr sin (180 ^o / n), where D _cr - the diameter of the circle, mm; n is the number of depressions.

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