RU2377114C1 - Method of oscillating round external plunge grinding with lengthwise feed of worktable - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to abrasive machining of workpieces. Workpiece is fixed on axially travelling centers. Workpieces and grinding wheel are rotated. Workpiece and worktable are continuously fed in lengthwise direction, while grinding wheel is intermittently fed radially per single or double stroke of workpiece and worktable. Workpiece is axially oscillated during the entire cycle of grinding with amplitude selected subject to grinding wheel abrasive grit limits.

EFFECT: higher quality and efficiency.

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Description

The invention relates to the metalworking industry, and more particularly to the finishing of workpieces with round external grinding.

The claimed invention is aimed at solving the problem of providing improved quality and productivity of processing workpieces during round external grinding with longitudinal table feed.

A known method of controlling circular grinding with a longitudinal feed table when working in a cycle containing the steps of cutting, roughing, finishing removal and nursing, including changing the value of the removal rate of the allowance and the corresponding change in the speed of the mortise feed (see. Manual technologist-machine builder. In 2 T. T.1 / Under the editorship of A.G. Kosilova and R.K. Meshcheryakova. - 4th ed., revised and enlarged. - M.: Mashinostroenie, 1985. 387 p.), and at the embedding stage processing is carried out with a constant accelerated lateral feed, causing continuous increase reduction of the depth of the cut layer as a result of an increase in the elastic interference in the technological system. When the specified maximum value of the depth of the cut layer is reached, the lateral feed of the circle is slowed down. The stage of rough removal begins, at which up to 60-70% of the total allowance is removed. Before the start of the finishing removal stage, the transverse feed of the circle decreases again, and the metal removal occurs at a continuously decreasing depth of the cut layer. At the stage of nursing, the lateral feed of the circle stops, the depth of the cut layer quickly decreases, reaching a minimum value. It should be noted that the mortise feed is carried out periodically, for each double stroke of the workpiece.

The disadvantages of this method include: firstly, the processing is carried out in rigid fixed centers, therefore, not enough high quality processing; secondly, due to premature greasing of the grinding wheel at the maximum removal rate of the allowance, the tool life period is reduced, as a result of which the productivity and quality of processing at the nursing stage decreases.

There is also known a method of circular external grinding with a longitudinal table feed with nursing (see, for example, the book A. N. Kovshov. Engineering technology. A textbook for students of engineering specialties of universities. - M .: Engineering, 1987, p. 158). The disadvantages of this method include the low quality and processing performance.

The closest in technical essence and the achieved result is a method of oscillating longitudinal grinding selected as a prototype, in which an additional axial oscillating movement with a small amplitude of up to 3 mm is communicated to the grinding wheel, and removal of the allowance is carried out with longitudinal table feed and periodic cut-in wheel feed (see , for example, the book A. N. Kovshov. Technology of mechanical engineering. A textbook for students of engineering specialties of universities. - M .: Mechanical Engineering, 1987, p. 158-159).

The disadvantages of this method include the following. Firstly, axial oscillating movements during such grinding are provided with the help of a grinding head, as a result of which the oscillations of the technological system are amplified due to the large masses and inertia of the system, therefore the accuracy of the workpieces being reduced. Secondly, the oscillating movements are carried out at amplitudes significantly exceeding the granularity of the circle, so the roughness decreases slightly, and in most cases even increases.

The technical task of the invention is to provide improved quality and productivity of workpieces during round external grinding with longitudinal table feed.

To solve this problem, we propose a method of oscillating circular external grinding with longitudinal table feed, including rotation of the workpiece and grinding wheel under conditions of axial oscillating movements, continuous longitudinal feeding of the workpiece with the table and periodic feeding of the grinding wheel in the radial direction to a single or double stroke of the table with the workpiece, characterized in that the workpiece is fixed in axially movable centers, and axial oscillating movements are applied to the workpiece for e total grinding cycle, the amplitude value which is selected within the grain of the grinding wheel.

The prototype and the claimed invention have the following similar essential features: the method of oscillating circular external grinding with longitudinal table feed includes rotating the workpiece and grinding wheel under conditions of axial oscillating movements, continuous longitudinal feeding of the workpiece with the table and periodic feeding of the grinding wheel in the radial direction is carried out on a single or double stroke of the table with the workpiece.

With respect to the prototype, the claimed invention has the following distinctive features: axial oscillating movements are superimposed on the workpiece, and not on the grinding wheel; the centers, in contrast to the traditional circular external grinding with longitudinal table feed, are not rigid, but movable (floating) in the axial direction; the oscillation amplitude is within the granularity of the circle.

Figure 1 shows a device for implementing the method, consisting of a back and front headstock of a grinding machine, a grinding wheel, a workpiece, front and rear centers, a drive for creating vibrations, a leash (not shown).

Installation works as follows. The workpiece is fixed in the centers, each of which consists of a fixed body 1, a floating center 2, a spring 3, an expansion ring 4, a screw 5. Due to the presence of floating centers 2 and springs 3, the workpiece is able to oscillate in the axial direction with a speed of V _OS with an amplitude of the limits of the graininess of the circle using electric, pneumatic, hydraulic and other drives. When the grinding wheel is connected to the workpiece with a radial feed tp, _{p p,} all the gaps in the centers are selected and an interference is formed in the technological system, which is partially selected at the reverse of the table with the workpiece and finally at the final stage of the grinding cycle. Moreover, after sampling small gaps in the centers, the axis of the centers is shifted and grinding is carried out on this fixed axis.

The advantages of the proposed method include the following: first, the axial oscillation of the workpiece allows you to get the same roughness of the workpiece surface when grinding without nursing, which is ensured by grinding this workpiece in hard centers with nursing, and therefore, the nursing stage can be excluded from the grinding cycle and as a result, grinding performance is improved; secondly, with the proposed method, axial oscillation allows you to choose an interference in the technological system during each oscillation period gradually, and when grinding in rigid centers, the interference is selected during carving at the end of the grinding cycle, as a result, the accuracy of the workpieces is slightly higher in the first than in the second case; thirdly, the axial oscillation of the workpieces is carried out for small masses of the system, in contrast to the oscillations, for example, of a grinding wheel or a workpiece table. Therefore, simple devices for oscillation will be required and in addition there will be less vibration and inertia of the technological system and the cost of the devices. Fourthly, with traditional mortise grinding, the workpiece is clamped in the left stationary center and in the right spring-loaded movable center, therefore, when an interference is formed in the system, gaps are selected only in the rear center. And when using floating centers, the axis of the centers is shifted parallel to the axis of the grinding wheel, therefore, the interference is selected in the front and rear centers, which eliminates the taper of the workpiece. Fifthly, the amplitude of vibrations in order to overlap the notches from the grains of the circle should be within the graininess of the circle, but not a multiple of it. Thus, in general, the effectiveness of the proposed method will be higher than when using existing methods, which is confirmed experimentally.

Claims (1)

A method of oscillating circular external grinding with longitudinal feed of the table, including rotation of the workpiece and the grinding wheel under conditions of axial oscillating movements, continuous longitudinal feed of the workpiece with the table and periodic feed of the grinding wheel in the radial direction to a single or double stroke of the table with the workpiece, characterized in that the workpiece fixed in axially moving centers, and axial oscillating movements are applied to the workpiece during the entire grinding cycle, the amplitude otorrhea selected within the grain of the grinding wheel.

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