RU122041U1 - DEVICE FOR ELECTRIC VIBRATION DYNAMIC GRINDING MATERIAL - Google Patents

Abstract

A device for electro-vibration dynamic grinding of material, consisting of a housing in which a shaft is located, a bowl-shaped rotor, a sieving surface, a loading funnel, an outlet funnel, screw jacks, bearing assemblies, a V-belt transmission, characterized in that the bowl-shaped rotor is equipped with a vibrator located under it, and the rotor shaft is equipped with a spring with a thrust nut and a splined mechanism.

Description

The utility model relates to crushing and processing equipment used in industrial and construction materials, mining, chemical and metallurgical industries.

A known dynamic self-grinding mill containing a housing in which a shaft, a cup-shaped rotor with radial ribs, screening surfaces, a removable and upper rings, a loading nozzle, a cover, a funnel, an unloading tray, screw jacks, bearing assemblies and a V-belt drive pulley (KHETAUROV V. H. Development and design of vertical-type centrifugal mills, Vladikavkaz, Terek, 1999, p.20, fig. 1.2).

The disadvantage of the mill is its high power consumption.

A known dynamic self-grinding mill, comprising a housing in which a shaft, a bowl-shaped rotor with radial ribs is located, screening surfaces, a removable and upper rings, a loading nozzle, a cover, a funnel, an unloading tray, screw jacks, bearing assemblies and a V-belt pulley, characterized in that the mill is equipped with a closing kinematic mechanism consisting of gears fixed in the upper and lower parts of the rotor shaft and engaged with coaxially arranged relative to each other gears, and a loading device that uses the closed loop circulating power created by immersion within the elastic torsion deformation of the shaft material with a moment equal to the moment at which the material is destroyed. [RU 2234373, C1, B02C 13/30 published on 08/20/2004] this device is selected for protopit.

However, this design does not provide proper grinding, since increasing the rotor speed increases the centrifugal force, but at the same time the rotor bowl slips over the material being ground.

The objective of the utility model is to create devices that allow efficient self-grinding of the material at various speeds with maximum performance.

This object is achieved in that the device for electrovibrational dynamic grinding of the material, consisting of a housing in which there is a shaft, a cup-shaped rotor, a screening surface, a loading funnel, an outlet funnel, screw jacks, bearing assemblies, a V-belt drive, a bowl-shaped rotor is equipped with a vibrator located under him, and the rotor shaft is equipped with a spring, with a thrust nut and a spline mechanism.

The vibrator can significantly reduce the time spent in the bowl of crushed material, which prevents the material from sticking to the working surface, thereby increasing productivity.

The presence of the food mechanism allows you to adjust the movement of the cup-shaped rotor, and the thrust nut fixes the position of the cup-shaped rotor.

The essence of the utility model is illustrated graphically.

The device consists of a housing 1, in which a shaft 2, a cup-shaped rotor 3, with a spline mechanism, bearing units 4, 5, a sifting surface in the form of an adjustable ring 6, a loading funnel 8, an outlet funnel 9, screw jacks 10, a V-belt drive 11, thrust nut 12, spring 13, vibrator 14, drive motor 15.

The principle of operation of the device electrovibratory dynamic grinding of the material is as follows:

Set the required grain size, using screw jacks 10 and adjust the installation of the bowl-shaped rotor 3, using the spline mechanism mounted on the shaft 2, fix with a thrust nut 12, a spring 13 located also on the shaft 2, and set the device in motion using an electric motor 15, through a V-belt drive 11. During operation of the device, the vibrator 14 acts on the bowl-shaped rotor 3, enhances the grinding of the material entering through the feed funnel 8, thereby preventing the material from sticking to the working drive ited, after which the crushed material is discharged through a discharge funnel 9.

The technical result is to significantly reduce the time spent in the bowl of crushed material, thereby increasing productivity and improving the grinding process, building the material in size, does not allow the material to stick to work surfaces.

Claims (1)

A device for electrovibrating dynamic grinding of material, consisting of a housing in which a shaft, a cup-shaped rotor, a screening surface, a loading funnel, an outlet funnel, screw jacks, bearing assemblies, a V-belt drive are located, characterized in that the cup-shaped rotor is equipped with a vibrator located under it and the rotor shaft is equipped with a spring with a thrust nut and a spline mechanism.