SU992172A1 - Method and apparatus for abrasive centrifugal planetary working of parts - Google Patents

Description

(54) METHOD OF ABRASIVE CENTRIFUGAL-PLANETARY

DETAIL HANDLING AND DEVICE

FOR ITS IMPLEMENTATION

one

The invention relates to the treatment of parts with a free abrasive and can be used in the engineering, foundry and other industries.

The known method of abrasive centrifugal-planetary machining of parts, implies that the working mixture, consisting of the workpieces and the abrasive medium, is placed in containers and rotated under the action of centrifugal-planetary forces.

The known method is carried out by a device for centrifugal-planetary processing of parts with an abrasive containing containers with the working mixture located on a rotating plate from the drive plate coaxially installed in the rotor 1.

This method does not provide intensive machining of parts, as the abrasive medium and parts move with a relatively small interaction.

The purpose of the invention is to achieve an intensification of the treatment process by reporting additional movement of the working mixture.

This goal is achieved by the fact that, according to the method of abrasive centrifugal-planetary machining of parts, the working mixture is cyclically subjected to angular swaying movements during the processing, the latter being made discretely. .

In the device for abrasive centrifugal-planetary processing, containing containers with the working mixture, located on a shaft receiving a rotation from the drive plan10, coaxially installed in the rotor, the rotor is mounted on an axis located perpendicular to the axis of rotation of the plate, and equipped with a mechanism for turning it relative to this axis, moreover, the latter is located between the drive and the face of the condition

 ensuring the balance of the plate weight.

FIG. 1 shows a device for carrying out the proposed method, general view; in fig. 2 - the same, top view;

20 in FIG. 3 - the movement of the medium in the drum at its angular displacement.

The proposed method is carried out by means of a centrifugal-planetary device comprising drums 1 mounted rotatably on faceplate 2 mounted rotatably on a rotor 3. The rotor 3 is provided with an axis 4 (axes) mounted perpendicular to the axis of rotation 5 of the plate. Through axis 4, the rotor 3 is mounted on the frame with the possibility of rotation in the vertical plane under the influence of the rotation mechanism 6, made in the form of, for example, a screw of a 7 wheel fixed on axis 4 and a screw 8 interacting with it, which is directly rotated the rotor 3 is equipped with a rotational drive 10, kinematically connected by means of a belt drive 11, a shaft 12 with a washer 2, and by means of gear wheels 13-15 with drums 1 so that when the plan washer 2 rotates and simultaneously the drums 1 are provided with a planetary The motion of the drum 1.

The plate 2 and the rotational drive 10 are located on the rotor 3 on opposite sides of the axis 4 to balance the weight of the plate 2 with the drums 1 and the weight of the rotational drive 10.

The drums 1 can be made removable, and the device can be equipped with two sets of drums 1 and a lift (not shown) by means of which the drums 1 with the processed parts are removed from the plate 2, and the set of drums 1 with the parts to be processed is placed on the plate 2

The processing method in the centrifugal planetary device is carried out as follows.

The drums 1 are loaded with medium 16, i.e. filler 17 (which usually use grinding wheel beatings, porcelain balls, triangular prisms, etc.), and parts 18, for example, massive rolling bearing cages, forgiving turning, windowing and burrs, as well as sharp edges at 70% of the volume of each drum 1.

Then the drums 1 are mounted on the plate 2, which is located at the moment of loading in a horizontal position (with a vertical axis), with the help of a lift.

After that, the plate 2 is turned by rotating the rotor 3 by the rotation mechanism 6 to a position in which its axis is horizontal, and the drive 10 is turned on the faceplate 2 and the drums 1, while the drums 1 are brought into planetary motion around the axis of rotation of the plate 2.

At the same time, by means of the rotation mechanism 6, the rotor 3, the plate 2 with its axis and the drums 1 cyclically undergo an angular swinging movement during processing, which leads to the appearance of a new component of the speed of movement of the parts 18 and the filler 17 due to the manifestation of a hydroscopic effect: medium 16 tends to maintain the direction of movement around the former axis of rotation of the plate 2, while the drums 1 take a different angular position as a result of the angular movement of the plate 2.

The path of the parts and the filler also lengthens when pouring, due to the fact that immediately after the angular displacement, the medium moves no longer along the shortest chord, which is in diametrical cross section, but at an angle to the axis of rotation of the drum 1, which differs from the straight line.

Angular rocking movements can be performed discretely, transferring the plate 2 from one angular position to another with greater speed. At the same time, the best results are achieved in order to increase the productivity of the process.

The proposed method and device for its implementation can improve processing performance by no less than. This effect is achieved through the use of a gyroscopic effect, which occurs when the rotating plate is angularly moved cyclically during the processing according to the method, so that the medium moving along the previous direction of the axis of rotation of the plate is rotated at an angle to the axis rotation of the drum, other than direct, and with increased speed, therefore, both the speed of the relative movement of the parts and the filler and the pouring path, in the continuation of which the coming off processing.

Claims (4)

1. The method of abrasive centrifugal-planetary machining of parts, namely, that the working mixture, consisting of the workpieces and the abrasive medium, is placed in containers and rotated under the action of centrifugal-planetary forces, in order to intensify the process by messages of additional displacement5 of the working mixture, the latter, in the course of processing, are cyclically subjected to angular swing movements. 2. A method according to claim 1, characterized in that the angular oscillatory movements are performed discretely. 3. Device for implementing the method according to claims. 1 and 2, containing containers with the working mixture, located on a rotation-drive-mounted plate, coaxially mounted in the rotor, characterized in that the rotor is mounted on an axis perpendicular to the axis of rotation 5992172 washers, and is equipped with a mechanism for turning it to ensure weight balancing relative to this axis. washers. 4. The device according to p. 3, different taken into account during the examination the fact that the axis of rotation of the rotor is located1. USSR author's certificate between the drive .and the face of condition No. 231338, cl. B 24 V 31/08 1967 Information sources, W .y / J FIG. 1