RU2009850C1 - Vibration machine - Google Patents

Abstract

FIELD: vibratory working of parts. SUBSTANCE: container is provided with cylindrical branch pipes surrounded in their middle part by electromagnet thus increasing interaction contacts between working medium and part being worked. EFFECT: improved efficiency. 1 dwg

Description

 The invention relates to vibration processing of parts with a free working medium and can be used in various industries as a grinding machine.

 A device is known consisting of an elastically mounted container and a vibration exciter.

 The disadvantages of this device are low productivity and processing quality due to the presence of various zones of the dynamic impact of abrasive particles on the workpiece located in the container.

 Also known installation for vibration processing of parts containing a container, inside of which is located a tedder with blades, a vibration exciter and an elastic suspension system.

 The disadvantage of this installation is the low productivity due to the low efficiency of the agitator.

 As a prototype, the UVD-1 vibrating machine was selected, which contains an elastically mounted container and a crank-type vibration exciter.

 The disadvantage of this machine is its low productivity due to the small contact forces created by the working medium when interacting with the part.

 The purpose of the invention is to increase processing productivity by increasing the force exerted by the working medium on the workpiece.

 The goal is achieved in that in a vibrating machine containing an elastically mounted container, guide columns and a vibration exciter, the container is equipped with cylindrical nozzles connecting the upper and lower internal volumes of the container. In the middle part, each pipe is covered by an electromagnet connected to a power source.

 Cylindrical nozzles are used to select part of the working medium (steel balls) and direct them through an electromagnet to provide them with magnetic properties.

 The drawing shows the kinematic diagram of the machine.

 The vibrating machine consists of an elastically mounted container 1 with a working medium 2 (steel balls) and cylindrical nozzles 3, which are in the middle part covered by an electromagnet 4. The workpieces 5 are mounted on the wall of the container 1 using means 6 and are not shown.

 The vibrating machine operates as follows.

 After starting the exciter, the container 1 with the working medium 2 acquire a linear alternating movement. Part of the steel balls enters the pipe 3 and, passing through the electromagnet 4, acquires magnetic properties. After that, the balls again enter the container. In the container, magnetized balls attract other balls to themselves, and a composite granule of considerable mass is formed. In the process of its interaction with the part, large contact forces take place, which guarantees high hardening performance. Then the granule is destroyed into separate balls due to a decrease in the magnetization of the central ball. Thus, periodic destruction and the formation of granules occurs.

 Technical advantages of the proposed technical solution over the prototype: the selection of part of the working environment due to the use of nozzles; magnetization of the balls due to electromagnets is achieved. (56) Babichev A.P. et al. Vibration machines for processing parts. M.: Mechanical Engineering, 1984, p. 115, fig. 87.

Claims (1)

 A VIBRATION MACHINE containing a flexibly mounted container with a vibration exciter, characterized in that the machine is equipped with cylindrical nozzles and electromagnets covering them in the middle with a power source, while the bottom of the container with its upper part is connected to the inside of the cavity machine tool for fixing parts.

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