SU1544479A1 - Mill - Google Patents

Abstract

The invention relates to a grinding technique and can be used in the chemical, construction and other industries. The purpose of the invention is to increase the grinding efficiency. When the gear 10 rotates, the balls 12 roll over the outer end surface 13 of the upper disk 5, which interact with the loading nozzle 8 through a spherical section 9, makes periodic swing movements. Springs 7 prevent rotation of the upper disk 5. 1 sludge.

Description

(54) MILL (57) The invention relates to grinding technology and can be used in chemical, construction and other industries. The purpose of the invention is to increase the grinding efficiency. When the gear 10 rotates, the balls 12 roll over the outer end surface 13 of the upper disk 5, which interacts with the loading nozzle 8 through the spherical joint 9 and makes periodic rocking movements. Springs 7 impede the rotation of the upper disk 5. 1 ill.

The invention relates to grinding technology and can be used in chemical, construction and other industries for grinding materials of medium strength.

The purpose of the invention is to increase the grinding efficiency.

The drawing shows a mill, a General view.

The mill comprises a housing 1, a rotating lower disk 2, equipped with a separate drive, consisting of a belt drive 3 and an electric motor 4, and an upper disk 5 with a central hole 6, and the upper disk 5 is connected by means of springs. 7 with the housing 1. The upper disk 5 interacts with the loading nozzle 8 through a spherical joint 9. A gear 10 is rotatably mounted on the loading nozzle 8, on which no less than three, evenly spaced around the circumference of the yoke 11 are rigidly fixed, in the lower part of which are mounted rotatably balls 12 of various diameters. In this case, the balls 12 interact with the outer end surface 13 of the upper disk 5. The gear 10 is rotated by a drive consisting of an electric motor 14 and gear 15. The material is supplied through a feed funnel 16. The lower part of the mill body 1 is equipped with a discharge hole 17.

The mill operates as follows.

The lower disk 2 receives rotation from the electric motor 4 and the belt drive 3. The material to be crushed is fed into the loading funnel 16. Once on the rotating lower disk 2 under the action of centrifugal forces, the material is discarded in the direction of the discharge ring gap. The gear 10 is rotated from the electric motor 14 through the gear 15. When the gear 10 is rotated, the balls 12 roll over the outer end surface 13 of the upper disk 5, while the upper disk 5 interacts with the loading pipe 8 through the spherical joint 9 and makes periodic rocking movements. The springs 7 impede the rotation of the upper disk 5. The gap between the disks 5 and 2 thus varies from A to Ar. As a result of the rocking movement of the upper disk 5, the material in the working space undergoes periodic compression, which, in combination with the rotation of the lower disk 2, improves the grinding efficiency. The crushed material under the action of centrifugal forces is discharged through the discharge annular gap and, sprinkling along an inclined surface in the housing 1, is discharged from the mill through the discharge opening 17.

Claims (1)

20 claims A mill containing a housing and a rotating lower disk and an upper disk mounted therein, connected by means of ₂₅ springs to the housing and made with a central hole in which the lower part of the loading nozzle is located, characterized in that, in order to increase the grinding efficiency, it is equipped with an installed on the upper part of the loading nozzle, with the possibility of rotation of the gear, made with forks located around the circumference on its lower end surface and with rotatably mounted in the latter balls of different diameters, vzaimodeystvuyu35 conductive with the external end face of the upper disc surface, the upper disk is joined to the lower part of the loading pipe by means of spherical surfaces on them.