RU110319U1 - PORTABLE MACHINE FOR THE PROCESSING OF LARGE-SIZED BEARINGS OF SLIDING BEARINGS - Google Patents

Abstract

 A portable machine for processing inserts of large-sized plain bearings, comprising a housing with supporting elements, a drive shaft and a working unit, the processing tool of which is kinematically connected with the main drive, characterized in that the housing consists of two flat frames connected in the upper part by a drive shaft, which is the final link of the crank-and-knee mechanism of the drive of the pendulum circular feed and resting on the bearing units of the flat frames, while the rocker is rigidly fixed to the drive shaft a frame, in the lower part of which a working unit is installed, made in the form of a movable carriage connected with a drive of longitudinal movement and carrying a processing blade tool.

Description

The portable machine for processing the bearings of large-sized plain bearings is intended for use during installation and repair work in the mining, cement industry and other industries in which rotating assemblies are used.

A known device used in the implementation of the method of scraping, "Automatic machine for scraper" on a. from. No. 49738 class 49c, 28 authors A. Korovin The disadvantage of this device is the low productivity due to the need for repeated application of paint on the surface to be treated, transfer of stains to paper and the operation of the machine according to the received copy.

The closest constructive technical solution chosen as a prototype is a device for grinding the inner surfaces of the shells on.with. SU 1315245, B24B 5/40 of the authors B.I. Nikulkin, A.I. Fedotov et al., Published 07.06.87. Bull. No. 21.

The device comprises a housing, a working unit, including a grinding head with track rollers, a drive to rotate the shell and a shaft with friction rollers.

The disadvantage of this device is not high enough productivity, as a flexible sanding belt is used as a tool. Surface treatment with sanding tape also does not allow to obtain the required accuracy of size and shape. Inserts of sliding bearings cannot be processed by the specified device, since they have an open profile around the circumference and rotation of these products like shells is impossible.

The following set of features of the prototype coincides with the design features of the utility model: there is a body with supporting elements, a drive shaft and a work unit, the processing tool of which is kinematically connected with the drive of the main movement.

The essence of the utility model lies in the fact that a portable machine for processing the inserts of large-sized sliding bearings is installed by the supporting elements of the housing on the workpiece. At the same time, the machine has a drive shaft and a working unit, the processing tool of which is kinematic connected with the drive of the main movement. The housing consists of two flat frames connected in the upper part by a drive shaft, which is the final link of the crank-knee drive mechanism of the pendulum circular feed. The drive shaft rests on the bearing units of the flat frames, and the swinging frame is rigidly fixed to the shaft. A working unit is installed in the lower part of the swinging frame, which carries a processing blade tool.

The problem the utility model aims to solve is to increase the productivity, accuracy, and quality of processing liners of large-sized sliding bearings due to the technical result, which is expressed in increasing the reliability of basing, in ensuring circular pendulum feed of the working unit, in the use of mechanized drives.

The problem is solved due to the fact that the machine body consists of two flat frames connected in the upper part by a drive shaft, which is the final link of the crank-knee drive mechanism of the pendulum circular feed and resting on the bearing units of the flat frames, while the swinging frame is rigidly fixed to the drive shaft , in the lower part of which a working unit is installed, made in the form of a movable carriage connected with a drive of longitudinal movement and carrying a processing blade tool.

In this case, the machine housing, made in the form of two flat frames with supporting elements, allows for reliable basing of the device on the workpiece, which greatly affects the accuracy of processing. A drive shaft with a crank-and-knee mechanism and a swinging frame provides a pendulum circular feed of the working unit, which allows surface treatment with the required radius and shape accuracy. The use of a blade tool allows to obtain higher machining accuracy in comparison with a flexible abrasive belt. The working unit with a movable carriage and a drive of longitudinal movement, in addition to the accuracy of the shape of the part in the cross section, the straightness of the generatrix of the cylindrical surface, also provide high processing productivity through the use of mechanized drives.

The design of the proposed portable machine is illustrated in graphic materials.

In figure 1. shows a general view of the machine; figure 2. - shows a cross section of the machine (section AA from figure 1)

The portable machine includes a housing 1, made in the form of two flat frames 2. Each flat frame 2 in the lower part has two supporting elements 3, made, for example, in the form of shoes. Supporting elements 3 are designed to install a portable machine on the workpiece 4.

In the upper part, the flat frames 2 are connected by a drive shaft 5, which rests on the bearing assemblies 6 of the flat frames 2. The drive shaft 5 is the final link of the crank-knee mechanism 7 of the drive of the pendulum circular feed. In addition, the drive includes a gearbox 8 and an electric motor 9. A swinging frame 10 is rigidly fixed to the drive shaft 5. A working unit is located at the bottom of the frame 10. 11. The working unit 11 has guides 12 on which the movable carriage 13 is mounted. The mobility of the carriage 13 is provided due to its kinematic connection with the longitudinal displacement drive 14. The movable carriage 13 is equipped with a processing blade tool 15, for example, a milling cutter. The processing tool 15 receives the working movement from the drive of the main movement 16.

The device is mounted and operates as follows. The portable machine is installed supporting elements 3, mounted on the flat frames 2 of the housing 1, on the existing annular grooves of the housing of the sliding bearing 4 and is fixed on it, for example, using bolts. Then, the drive of the main movement 16 of the processing blade tool 15 is turned on.

After turning on the drive of the pendulum circular feed, rotational movements from the electric motor 9 are transmitted through the gearbox 8 to the crank-knee mechanism 7 and converted by it into pendulum vibrations of the drive shaft 5. Since the swinging frame 10 is rigidly fixed to the drive shaft 5, it together with the working unit 11 and the processing blade tool 15 also receives pendulum vibrations. The swing amplitude of the working unit 9 with a pendulum circular feed must exceed the length of the workpiece surface 4.

Then, the drive 14 of the longitudinal displacements is turned on. As a result of these actions, the processing blade tool 15 performs pendulum rolling on the desired radius of the sliding bearing and moves along its axis along with the carriage 13 along the guides 12 at a speed determined by the drive of longitudinal displacements 14.

After the end of the treatment cycle, the radius of the bearing 4 is measured and, if necessary, after adjusting the position of the processing tool 15, the treatment is repeated.

Claims (1)

A portable machine for processing liners of large-sized plain bearings, comprising a housing with support elements, a drive shaft and a working unit, the processing tool of which is kinematically connected with the main drive, characterized in that the housing consists of two flat frames connected in the upper part by a drive shaft, which is the final link of the crank-and-knee mechanism of the drive of the pendulum circular feed and resting on the bearing units of the flat frames, while the rocker is rigidly fixed to the drive shaft a frame, in the lower part of which a working unit is installed, made in the form of a movable carriage connected with a drive of longitudinal movement and carrying a processing blade tool.