RU2275286C1 - Device for vibration working - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: device comprises container flexibly mounted on the base and provided with means for charging and discharging. The container is made of two or more screw tetrahedral columns connected in series. The columns are mounted one under the other. Three broken screw lines of the columns point in opposite directions.

EFFECT: improved structure.

6 dwg

Description

The invention relates to mechanical engineering and can be used for finishing and hardening of parts with granular medium.

A device for vibration processing (A. S. No. 1227434, class. 24 V 31/067, 1985), containing a horizontal rectilinear container elastically mounted on the base with transporting means for moving the working medium along the container cavity, made in the form of ribs, is known separately at its bottom and side walls.

A disadvantage of the known device is low productivity, limited technological capabilities due to insufficient intensity of mixing of the load mass and large dimensions along the length.

Closest to the proposed invention is a device for vibration processing (A.S. No. 1404296, class B 24 V 31/067, 1988), comprising a horizontal rectilinear container elastically mounted on the base with transporting means for moving the working medium along the container cavity, made in the form of ribs with screw surfaces located separately on its bottom and sides, the container is equipped with a storage chamber with a window and a removable dividing grid located at the end of the container, to the side which directed the helical surface of the ribs of the side walls.

A disadvantage of the known device is low productivity, limited technological capabilities due to insufficient intensity of mixing of the masses of the load and large dimensions along the length.

The technical solution to the problem is to increase productivity and expand technological capabilities by increasing the intensity of mixing of the masses of the load and reducing the overall length.

The task is achieved in that the container is mounted from the belt rigidly installed with the opposite direction of three broken helical lines under each other and connected into a single technological chain of two or more helical tetrahedral columns.

According to the scientific and 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 vibration processing.

The novelty of the invention lies in the fact that such a design of the container, the presence of three running lines along the perimeter allows not only to provide a longitudinal cascade movement of the masses of workpieces and particles of abrasive materials from loading to unloading, but also to provide intensive mixing with a large amplitude and complex trajectory , which improves processing performance.

The novelty of the invention also lies in the fact that a tiered rigid installation with the opposite direction of three broken helical lines under each other and connected in a single technological chain of two or more helical tetrahedral columns significantly reduces the overall length.

The novelty of the invention lies in the fact that when the vibrator is in operation, the workpieces and particles of abrasive media circulating inside the tetrahedral columns in planes perpendicular to the horizontal axis of the tetrahedral columns receive additional movement from the flat walls of the tetrahedral columns differently inclined to each other, which intensifies mixing mass loading and improves processing performance.

The novelty is also due to the fact that the cross-sectional shape of the tetrahedral columns is an irregular quadrangle, which along the length of the tetrahedral column changes not only the shape and dimensions of the sides of the quadrangles, but also their location relative to the axis of symmetry, which violates the stationary motion of the loading masses and contributes to an increase in processing productivity.

The novelty also lies in the fact that the direction of the helix lines for the even and odd helical tetrahedral columns is opposite, which ensures continuous transport of the loading masses in the tiered tetrahedral columns from loading to unloading.

The invention is illustrated by drawings, where figure 1 shows a device, General view; figure 2 is a section aa in figure 1; figure 3 is a view a in figure 1; figure 4 is a view of B in figure 1; figure 5 - tetrahedral column; 6 is a scan of the lateral surface of the tetrahedral column.

The device (Fig. 1, Fig. 2, Fig. 3, Fig. 4) consists of a loading device 1, a discharge device 2, a container 3, resiliently mounted on the base 4. Vibrators 5 are mounted in the lower part of the container. The container is made of rigidly rigid screw tetrahedral columns 6, 7 and 8. installed one above the other and connected into a single technological chain; The nozzle of the loading device 1 is mounted in the inlet of the tetrahedral column 6. The outlet of the tetrahedral column 6 is closed by a lid 9, which closes simultaneously about and the inlet of the tetrahedral column 7 and provides the movement of the masses of loading from the upper - the first tetrahedral column 6 to the underlying second tetrahedral column 7, namely from the outlet 10 of the tetrahedral column 6 into the inlet 11 of the tetrahedral column 7. Outlet 12 of the second tetrahedral column 7 closed by a lid 13, which simultaneously closes the inlet 14 of the underlying third tetrahedral column 8, ensuring the transfer of masses of loading from the second middle tetrahedral column 7 to the lower third a tetrahedral column 8. Under the outlet 15 of the third tetrahedral column 8, a discharge device 2 is mounted.

Tetrahedral columns of the first - 6, the second - 7, the third - 8 (Fig. 5) are mounted from tetrahedral voids. The vertices of the tetrahedra are 16, 17, 18, 19, 20; 21, 22, 23, 24, 25, 26, 27, 28, 29 form distinct three broken helical lines (shown in FIG. 5 by thickened lines) around the perimeter of the hollow tetrahedral columns, within which the loading masses move. The cross-sectional shape of the tetrahedral columns (FIG. 2) is an irregular quadrangle, while along the length of the tetrahedral column not only the shape and dimensions of the sides of the quadrangle change, but also their location relative to the axis of symmetry of the tetrahedral column. The device operates as follows.

By means of the loading device 1, the machined parts and particles of the working medium — the loading mass — are continuously loaded into the upper first tetrahedral column 6. Under the influence of the disturbing forces of the rotating vibrators, 5 disturbing forces are transferred to the loading masses through the walls of the Tatrahedral columns 6, 7, 8. The loading masses under the influence of vibration rotate in planes perpendicular to the axis of symmetry of the tetrahedral column 6. Flat multidirectional elements — the walls of the tetrahedral column 6 change and give additional movements to the loading masses, and also move them from the load to the outlet 10 of the column 6. Under the influence of vibration and using the cover 9, the loading masses are reloaded into the underlying tetrahedral column 7, along the perimeter of which there are three broken helical lines, the direction of which is opposite false to the direction of the helical lines of the upper tetrahedral column 6. With their help and under the influence of vibration, the masses of the load move to the outlet 12 of the tetrahedral column 7 and through the lid 13 are reloaded through the inlet 14 into the inner cavity of the tetrahedral column 8. Under the influence of vibration and flat multidirectional walls and helical lines around the perimeter of the mass of the load are moved along the horizontal axis and through the hole 15 and with the help of the unloading device 2 are displayed outside the vibrating device va. During the movement of the loading masses from the loading device 1 to the unloading device 2, the particles of the working media and the workpieces make a complex spatial movement, since the direction of their movement under the influence of vibration changes under the influence of flat differently inclined container walls in the form of tetrahedral columns 6, 7 and 8, which intensifies the mixing process and improves the performance of finishing and cleaning. The tiered arrangement of hollow tetrahedral columns not only intensifies the processing process, but also reduces the length of the device.

Claims (1)

A device for vibration processing, comprising a container elastically mounted on the base with means for loading and unloading, characterized in that the container is mounted from two or more screw tetrahedral columns connected in a single chain, half-rigidly rigidly mounted under each other with the opposite direction of three broken helical columns .

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