RU2706399C1 - Device for finishing-cleaning and hardening treatment of machine parts - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to finishing-cleaning and hardening processing of parts in free granulated medium and can be used in machine building at dimensionless machining of parts. Device comprises a drum with end walls and a drive elastically installed on the bed with loading and unloading devices. Drum is made in the form of a screw inclined truncated cone with a wavy side surface along its perimeter and with flat bases in the form of ellipsoid face jaws, which are mounted at an acute angle to each other and at different acute angles to the drum rotation axis. Latter is installed at acute angle to rotation axis and is equipped with loading and unloading journals of conical shape with slope towards unloading. There are conic springs rigidly fixed on their inner diameters with coils of round cross-section and slope towards discharge side. Large axes of ellipses of end cheeks are turned relative to each other at acute angle.

EFFECT: as a result, the technological capabilities and reliability of the device are expanded and the processing efficiency is increased.

1 cl, 5 dwg

Description

The invention relates to a finishing-stripping and hardening processing of parts in a free granular medium, and can be used in mechanical engineering with dimensionless processing of parts.

Known tumbling drum (USSR AS No. 1310174, class B24B 31/02, 1987), comprising a drum mounted on a bed and equipped with a rotation drive with means for loading and unloading parts made of sections whose axes are parallel and coincide with the axis rotations and are mounted in the form of three polyhedra, the three faces of which are polygons, and the other two are triangles connected by lateral quadrangular faces so that the same edges of the triangular faces of adjacent polygons are located at an angle of 90 °.

The disadvantages of the tumbling drum are limited technological capabilities and lack of performance.

Closest to the proposed invention is a device for finishing and hardening processing (RF patent No. 2542222, class B24B 31/02, publ. 02/20/2015), containing a drum with a drive that is resiliently mounted on a bed with means for loading and unloading, made in the form inclined relative to the horizontal axis of the cylinder with end walls of elliptical shape, and the end wall of the drum at the means for loading is made flat and mounted at an angle to the axis of rotation of the drum, and the end wall of the drum at the means for p the load is placed perpendicular to the axis of rotation of the drum and made of conical shape, while along the entire length of the drum a cylindrical spring of a wave-like shape with a flat section of the coils and with a direction of coils, which is equipped with a device for changing the pitch of the coils due to its stretching, is mounted or compression.

The disadvantages of the known device for finishing, cleaning and hardening processing are limited technological capabilities and insufficient productivity.

The objective of the invention is to improve the device for finishing, cleaning and hardening processing of machine parts, which allows to improve its operational characteristics.

The technical result of the invention is the expansion of technological capabilities, improving the reliability and performance of the device.

The technical result is achieved by the fact that in the device for finishing, cleaning and hardening processing of machine parts, comprising a drum with end walls, resiliently mounted on a bed with means for loading and unloading, provided with a drive, the drum being made screw, in the form of a helical oblique truncated cone with wavy lateral surface around its perimeter and with flat bases, in the form of end cheeks of elliptical shape, mounted at an acute angle to one another and at different acute angles to the axis of rotation screw drum, while the screw drum is installed at an acute angle to the axis of rotation and is equipped with loading and unloading pins with a conical shape with a slope to one side of the discharge, and conical springs rigidly fixed along their inner diameters with round turns and a bias towards the discharge side, and the large axes of the end faces of the screw drum are turned along the axis of rotation relative to each other by an acute angle, while the wave-like side surface along its perimeter is bent to form screw turns Nost.

According to the patent technical literature, no technical solution was found that is similar to the claimed one, which allows one to judge the inventive step of the proposed design of the device for finishing, cleaning and hardening processing of machine parts.

The novelty lies in the fact that the drum is made screw in the form of a helical oblique truncated cone with a wavy side surface around its perimeter and with flat bases in the form of end cheeks mounted at an acute angle to one another and at different acute angles to the axis of rotation of the screw drum, which allows you to increase productivity and expand the technological capabilities of the device, including by giving an undulating lateral surface of a truncated cone (screw drum) additional transverse about the movement of the processed parts and particles of the working medium (load mass) inside the screw drum.

The novelty of the invention lies in the fact that the curved surfaces around the perimeter of the screw drum give additional movement to the masses of the load inside the screw drum, not only with a large amplitude and low frequency, but also with the imposition of these oscillations with a small amplitude and a high frequency created by unbalance of the screw drum, as well as wave-shaped surfaces, which increases productivity and expands technological capabilities.

The novelty lies in the fact that the centers of symmetry of the inner surface of the screw drum in each of its cross-sectional elements are displaced relative to the axis of rotation of the screw drum, which violates the speed and direction of movement of the loading masses, expands technological capabilities, and improves productivity.

The novelty also lies in the fact that due to the unbalance of the loading masses and the mass of the screw drum itself, which generates and gives the loading masses high-frequency oscillations with small amplitude that are superimposed on the low-frequency oscillations of the loading masses moving inside the screw drum with large amplitude and low frequency. Such combined influence of oscillations of different frequency and amplitude increases productivity, expands technological capabilities.

The novelty lies in the fact that the combined influence of the rotational motion of the screw drum and moving inside it with low-frequency oscillations and with a large amplitude of the masses of the load, and the combination with these movements of the oscillations of the platform with a screw drum fixed on it, as well as high-frequency oscillations with a small amplitude created for due to the unbalance of the drum, it gives the loading masses a complex spatial movement, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that along the entire length inside the trunnion from the loading side and the trunnion from the unloading side, a working element is fixed in the form of a spring with a circular cross-section of the coils, which violates the speed and direction of movement of the loading masses when they meet with the coils of these springs, which increases reliability , performance and expand technological capabilities.

The invention is illustrated by drawings, where in FIG. 1 shows a device for finishing, cleaning and hardening processing of machine parts, general view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 - screw drum, general view; in FIG. 4 is a section BB in FIG. 3; in FIG. 5 - screw drum, visual image.

A device for finishing, cleaning and hardening processing of machine parts (Fig. 1, Fig. 2) consists of a screw drum 1, means for loading 2, means for unloading 3 processed parts, means for unloading production waste 4 (burr, scale, burrs) and drive (not shown in the drawings). The screw drum 1 is equipped with a loading pin 5 and an unloading pin 6 with the possibility of rotation in the bearing bearings 7 and 8. The toe 9 of the means for loading 2 enters the hole of the sleeve 5 of the screw drum 1. Means for loading 2, bearing bearings 7 and 8 with mounted in them a screw drum 1 is mounted on a bed 10. The mill 10 is suspended on four springs 11, which are mounted on the base 12. To increase the speed of the longitudinal movement of the workpieces and particles of the working medium from loading to unloading device for finishing and cleaning and hardening the second machine parts is provided with a processing device (not shown) for imparting axial tilt screw drum 1 relative to the horizon. Along the entire length of the loading pin 5 and the unloading pin 6, conical springs 13 and 14 with a round coil section are fixed.

Drum 1 (Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5) is made screw in the form of a helical oblique truncated cone with a wavy side surface around its perimeter and with flat bases in the form of end cheeks of an elliptical shape 15 and 16 mounted at an acute angle β to one another and at different acute angles ψ and ϕ to the axis of rotation of the screw drum 1, while the screw drum 1 is installed at an acute angle α to the axis of rotation and is equipped with loading and unloading pins 5 and 6 of a conical shape with a bias towards unloading and rigidly fixed according to their inner diameters, with conical springs 13 and 14, with round turns and a slope towards the discharge side, the large axes i ₁ -i ₁ and i ₂ -i ₂ (Fig. 5) of the end cheeks 15 and 16 of the screw drum 1 are rotated along the axis its rotation relative to each other at an acute angle ω, while the wavy side surface along its perimeter bends with the formation of helical surfaces. Apertures 17 are made along the perimeter of the unloading pin 6, which allow separating production waste (burrs, flake, scale) into the waste product 14 from the processed parts that are unloaded into the unloading tool 3.

A device for finishing, cleaning and hardening processing of machine parts works as follows.

When the screw drum 1 rotates, the load masses (workpieces and particles of the working media) move along various elliptical trajectories, the dimensions of which vary along the length of the screw drum 1 in each cross section (Fig. 1, Fig. 2, Fig, 3, Fig. 4 , Fig. 5), while the centers of symmetry of the inner surface of the screw drum 1 in each of its cross-sectional elements are displaced relative to the axis of rotation of the screw drum 1, which violates not only the speed and direction of movement of the loading masses, but also contributes to the creation of an eccentric risiteta and loading masses disclosed low-frequency vibrations of large amplitude. This is facilitated by the wave-like side surface of the screw drum 1 and pockets of a curved shape along the inner perimeter of the screw drum 1, which capture portions of the loading mass during the rotation of the screw drum 1, raise above the angle of repose and throw on opposite walls of the screw drum 1, towards the rotating wave-like side surface of the screw 1 drum 1 and pockets of curved shape around the perimeter of the screw drum 1, thereby increasing the frequency and energy intensity of the interaction batyvaemyh parts and particles of working fluids that can improve performance, reliability and extends the technological capabilities.

In this case, due to the unbalance of the masses of the drum 1 and the machined parts and particles of the working media placed inside it, the frame 10, which is elastically mounted on the base 12, creates high-frequency oscillations with a small amplitude.

Therefore, the combined effect on the workpieces and particles of the working medium of low-frequency oscillations with a small amplitude and low-frequency oscillations with a large amplitude, as well as violations of the speed and direction of movement of the masses of the load increases productivity and expands technological capabilities.

The masses of loading make a complex spatial movement in the vertical plane — along elliptical trajectories, since the lateral helical surface of the wave-like shape of the screw drum 1 is made with the surface around the perimeter in the form of a wave-like surface and flat end walls of the elliptical shape 15 and 16 placed at an acute angle to each other and to the axis of rotation of the screw drum 1, placed obliquely at an acute angle α to the horizontal axis of rotation of the drum 1, and in the horizontal plane - reciprocating e, with the imposition of low-frequency vibrations on these movements excited by the asymmetric position of the screw drum 1 and the simultaneous action of vibrations on them in three mutually perpendicular directions, as well as alternating protrusions and depressions of the wave-like side surface of the screw drum 1. As a result, the flow of moving parts and particles of workers media is not stationary, and the size and location of their active mixing noticeably change during one revolution of the screw drum 1. As a result of a violation of order The process of movement of the load masses, their movement becomes more active, the zones of immobility are eliminated, the energy intensity of the collisions of the flows of the load masses (workpieces and particles of the working media) increases with each other and with the walls of the screw drum 1, as well as with the end walls 15 and 16, which provides an increase in productivity processing and expanding technological capabilities. The process of non-stationary motion of the loading masses is aggravated by the location of the end walls 15 and 16, the large axis of the ellipses of which are turned relative to each other by an acute angle с, which significantly changes the direction of motion of the loading masses along the rotation axis of the screw drum 1 and creates zones of different pressure of the end walls 15 and 16 by processed parts and particles of working environments. Therefore, the loading masses are able, under the influence of the geometric slope of the screw drum 1 and the pressure difference of the end walls 15 and 16 to each other and to the axis of rotation of the screw drum 1, not only to move along complex paths, but also to move in the axial direction from loading to unloading. The complexity of the trajectories of movement of the loading masses is facilitated by the coils of springs 13 and 14 of the conical shape and pockets of a wave-like shape along the inner perimeter of the screw drum 1, which capture portions of the load masses when the screw drum 1 rotates, raise above the angle of repose and throw it on opposite walls of the screw drum 1, towards rotating pockets around the perimeter of the screw drum 1, thus increasing the frequency and energy intensity of the interaction of the processed parts and particles of the working medium, which allows increase productivity, reliability and expand technological capabilities.

The speed of movement of the masses of the load from loading to unloading can be adjusted by changing the angle of inclination of the entire device for finishing, cleaning and hardening processing of machine parts.

The proposed design of the device for finishing, cleaning and hardening processing of machine parts allows to increase productivity, expand technological capabilities.

Advantages are provided due to the fact that the spiral drum 1 is made in the form of a wave along the perimeter, while the flat end walls are located at an angle to each other and to the axis of rotation of the screw drum 1, placed obliquely at an acute angle to the horizontal axis of rotation of the screw drum 1, rotated relative to each other at an acute angle, which allows to increase productivity, expand technological capabilities due to the simultaneous impact on the load mass of high-frequency oscillations with small amplitude and low large-amplitude oscillations, as well as violations of the speed and direction of movement of the masses of the load.

Technical and economic advantages are ensured by expanding technological capabilities, increasing grinding performance, as well as by creating unbalance in a rotating screw drum, which gives it and the device platform low-frequency vibrations due to giving the loading masses a complex spatial motion with compression of their flows and simultaneous impact on oscillations in three mutually perpendicular directions.

Claims (1)

A device for finishing, cleaning and hardening processing of machine parts, comprising a drum with end walls, resiliently mounted on a bed with means for loading and unloading, having a drive, characterized in that the drum is helical in the form of a helical oblique truncated cone with a wavy side surface around its perimeter and with flat bases in the form of end cheeks of an elliptical shape mounted at an acute angle to each other and at different sharp angles to the axis of rotation of the screw drum, while the screws the second drum is installed at an acute angle to the axis of rotation and is equipped with loading and unloading cones of a conical shape, arranged with a slope towards the unloading side, and conical springs rigidly fixed along their inner diameters with round turns and a slope towards the unloading side, with large axes of the end cheeks the screw drum is rotated along the axis of its rotation relative to each other by an acute angle, while the drum with a wavy side surface around its perimeter is bent to form screw surfaces on it s.

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