RU196262U1 - Combined grinding wheel - Google Patents

Abstract

The invention relates to the field of abrasive processing and can be used in grinding wheels with a peripheral working part. The circle contains an abrasive disk with a discontinuous surface, a bore hole and rectilinear grooves on the peripheral surface located at a constant angle to the axis of rotation of the circle. The grooves are made with an uneven angular step along the end of the abrasive disk, which is repeated at its semicircles and is determined by mathematical dependence. As a result, the manufacturing technology of the grinding wheel is simplified, and the fluctuations in cutting force during grinding are reduced. 1 s.p. f-ly, 2 ill.

Description

The proposed utility model relates to tools for grinding, in particular, to abrasive wheels for processing products with their peripheral part.

Combined grinding wheels differ from traditional wheels with a variable structure due to the use of elements with different properties (grain, hardness, etc.). Such grinding wheels perform a prefabricated structure (see, for example, patents RU 2252132, RU 2395381). A simpler variety of combination wheels are abrasive wheels with a discontinuous peripheral surface. In practice, flat and cup grinding wheels with an intermittent working surface on the periphery in the form of grooves, slots, notches, holes (see, for example, Abrasive and diamond processing of materials: reference book / edited by A.N. Reznikov. M.: Engineering, 1977). Creating a discontinuous surface on the grinding wheel provides the best supply of cutting fluid and waste during processing. This reduces the temperature in the cutting zone and creates favorable conditions for self-sharpening. As a result, the cutting properties of the wheel are improved and the quality of the machined surface is improved at the same time.

Known discrete grinding tool made in the form of a continuous grinding wheel with radial holes on the cutting surface, arranged in rows parallel to the axis of rotation of the tool (patent RU No. 2385216, publ. 03/27/2010). A circle is characterized by the fact that the radial holes are located in alternating long and short rows with an offset of half the axial pitch from their location in the direction of the rows. The main disadvantage of this device is the complexity of manufacture and, as a result, the high cost of the grinding wheel.

Known intermittent grinding wheel (patent RU No. 88600, publ. 20.11.2009), which contains an abrasive disk, on the peripheral surface of which grooves are made with a constant angle of inclination to the axis of rotation of the wheel, equal to from 10 ° to 80 °, and a constant angular step, equal from 10 ° to 80 °. A disadvantage of the known device is that there is a periodic change in cutting force, repeated at regular intervals, which leads to the occurrence of vibrations and the appearance of waviness on the treated surface.

By the set of similar essential features, the closest technical solution to the claimed device can be selected, for example, an grinding wheel with a discontinuous surface (patent RU No. 149877, publ. 16.12.2014). Known grinding wheel with a discontinuous surface contains an abrasive disk, on the peripheral surface of which there are made straight grooves with an angle of inclination to the axis of rotation of the circle from 10 ° to 80 ° and a constant angular step from 10 ° to 80 °. The angle of inclination to the axis of rotation of the circle of each subsequent groove α _{i + 1} with respect to the angle of inclination of the previous groove α _i is selected from the condition α _{i + 1} = α _i + (0.1 ÷ 0.2) α _i .

A disadvantage of the known device is the complex technology of applying grooves on the peripheral surface, which requires turning the tool after cutting through each groove. As a result, the complexity of manufacturing a combined circle and its cost increases.

The claimed utility model was tasked with reducing the cost of manufacturing a combined grinding wheel by simplifying the technology of applying grooves to the peripheral surface.

The technical result of the claimed device is to simplify the manufacturing technology of the combined grinding wheel by applying grooves with a constant angle of inclination to the axis of the wheel and uneven angular pitch on the semicircle.

The problem is solved in that a combined grinding wheel with a discontinuous surface is proposed, comprising an abrasive disk having a seating hole and straight grooves made on its peripheral surface at an angle to the axis of rotation, located with a constant angle α to the axis of rotation of the circle.

New in the proposed device is that the grooves are made with an uneven angular pitch β, selected from the condition:

where β _i is the angular pitch of the i-th groove; n is the number of grooves in the semicircle.

New in the proposed device is also the fact that the uneven angular step β is repeated on the semicircle of the peripheral surface of the grinding wheel.

New in the proposed device is also the fact that the grooves have a triangular profile with a constant angle γ and a different width h.

The proposed device is illustrated by drawings: in FIG. 1 is a drawing of a combined grinding wheel, the main view, in FIG. 2 is a drawing of a combined grinding wheel, side view.

Combined grinding wheel with a discontinuous surface contains an abrasive disk 1 with a bore hole 2 (Fig. 1). The abrasive disk 1 has an outer diameter D and a height B (FIG. 2). On the peripheral surface of the disk, rectilinear grooves 3 are made located at a constant angle α to the axis 4 of rotation of the circle. The grooves 3 are made with an uneven angular pitch β along the end face of the disk 1. The angular pitch of the grooves 3 is characterized by an angle β selected from the condition:

where β _i is the angular pitch of the i-th groove; n is the number of grooves in the semicircle.

An uneven angular step β is repeated on the semicircle of the peripheral surface of the grinding wheel to simplify the technology of grooving and subsequent control. This grooving technology is simpler than the technology with an uneven angle of inclination α to the axis of the circle. The adjustment on the machine of the angular pitch β is performed using a dividing head or a special device.

The choice of the non-uniformity of the angular pitch β _{i is} made from the following considerations. Having adopted a certain number n of grooves in a semicircle, a division into n + 1 parts is performed. The additional part of the angular step is divided unevenly into all the remaining parts. Then the angular step is calculated according to the law of arithmetic progression. In the specified range of non-uniform angular pitch, the best conditions are provided for damping periodic fluctuations in cutting force.

For ease of manufacture, the straight grooves have a triangular profile with a constant angle γ and a different width h. The different width h of the grooves is determined taking into account their mutual overlap, so that when the circle contacts the workpiece, there is always one groove.

Fulfillment of the above conditions simplifies the manufacturing technology of the combined grinding wheel.

The device operates as follows.

A combined grinding wheel with a discontinuous surface is mounted on the machine spindle using the bore 2. The grinding wheel rotates at a cutting speed around axis 4 and moves in the longitudinal and transverse directions with the feed speed.

Upon contact with the workpiece, the abrasive disk 1 removes the metal using cutting grains located on its peripheral surface. Due to the straight grooves 3 located with an uneven angular pitch β along the end of the disk, the cutting process will be intermittent, which reduces the cutting temperature. Also, grooves 3 are used to supply cutting fluid to the cutting zone and waste disposal during grinding.

The angular pitch of grooves β is selected from the condition:

where β _i is the angular pitch of the i-th groove; n is the number of grooves in the semicircle.

As an example, we consider the choice of angular steps β _i for a combined grinding wheel with a discontinuous peripheral surface with a diameter of D = 250 mm and a height of B = 20 mm. The number of grooves n at the periphery of the circle is determined depending on the diameter D. We accept the number of grooves n = 5.

Then we obtain the following angular steps β _i on the semicircle:

β ₁ = 30 °; β ₂ = 33 °; β ₃ = 36 °; β ₄ = 39 °; β ₅ = 42 °. On the second semicircle, the angular steps β _{i are} repeated.

Claims (6)

1. The combined grinding wheel with a discontinuous surface, containing an abrasive disk having a bore and straight grooves made on its peripheral surface at a constant angle α to the axis of rotation of the wheel, characterized in that the grooves are made with an uneven angular step β along the end of the abrasive disk, defined by the formula:

where β _i is the angular pitch of the i-th groove; n is the number of grooves on the semicircle of the abrasive disk, equal to 5, wherein the non-uniform angular pitch β is repeated on the second semicircle of the peripheral surface of the abrasive disk. 2. The grinding wheel according to claim 1, characterized in that the grooves have a triangular profile with a constant angle γ and a different width h.

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