RU58385U1 - ROTOR CENTRIFUGAL-SHOCK MILL - Google Patents

Abstract

The utility model relates to centrifugal mills of rotary type for fine grinding of various materials and is intended for use mainly in wide-profile farming and individual farms.

The main objective is to increase work efficiency.

The problem is solved in that in a rotary centrifugal impact mill containing a cylindrical body, inside of which a rotor in the form of a disk is mounted on a vertical shaft, crushing organs, inlet and outlet, according to the solution, crushing organs are made in the form of dynamic and static beats, with dynamic beats are pivotally mounted on the rotor using eccentric rods, the diameter of which is less than the internal diameter of the beaters, dynamic beats are made in the form of rings with a corrugated outer surface, the rotor has the form a truncated cone, and static beats are made in the form of half cylinders with a diameter equal to the diameter of the dynamic beats, and the outlet is located between the rotor generatrix and the inner surface of the housing, the value of which determines the size of the converging particles and is made adjustable on the cylindrical surface of the housing. Centrifugal plates are mounted on the rotor, located symmetrically between the dynamic bills, and their vertical size is less than the gap between the lower edge of the static bills and the rotor.

Centrifugal plates are parabolic in shape.

Between the outer surface of the dynamic beat and static beat there is an adjustable gap, the value of which is 1-2 mm.

Description

The utility model relates to centrifugal mills of rotary type for fine grinding of various materials and is intended for use mainly in wide-profile farming and individual farms.

A centrifugal rotor mill is known, comprising a housing, in which two rotors with accelerating vanes, with loading nozzles on the lid and with actuators communicated with each other by a tangential channel formed in the housing, and an unloading nozzle in the bottom of the housing are rotatably disposed in one plane. . The mill is equipped with a third rotor with accelerating blades mounted in the same plane with two rotors and connected with each of them with a tangential channel, with a loading nozzle and with a drive for its rotation in the same direction, forming a module of three rotors, the axis of rotation of which are located at the vertices of an equilateral triangle , at the point of intersection of the three apofems of which an unloading nozzle is located, while vertical metal rods are installed on the central part of the rotors under the loading nozzles, and the loading pat the sleeves of all rotors are located opposite the axis of rotation, while an additional discharge nozzle with a replaceable conical sleeve is installed coaxially with the main discharge pipe on the housing cover, the smaller diameter of which is placed inside the main discharge pipe (see RF patent No. 2223823, IPC В 02 С 7 / 08).

Known impact mill containing a vertical body consisting of sections of shells forming vertical grinding chambers and arranged uniformly around the circumference of the bottom, a top cover with a central loading nozzle, shafts located in the grinding chambers, the horizontal surfaces of the beats of which are installed in the same plane, the finished selection system product from the grinding zone; an electric drive having a kinematic connection with the mill shafts installed on the bottom, in the geometric center of the grinding chambers of the mill there is a central shaft with chisels, the horizontal surfaces of which form a vertical clearance, with horizontal surfaces of the beater of adjacent shafts located in the grinding chambers, the grinding chambers are equipped with shapers material, providing acceleration of the crushed material, and its supply to the beats of the central shaft, and the system of selection of the finished product from the grinding zone It is made in the form of formers of air flows connecting grinding chambers with the atmosphere, and a vertical duct with a built-in

a classifier for the removal of the crushed material of the required grinding fineness from the grinding zones mounted on the top cover of the mill body (see application for invention No. 2003127376, IPC В 02 С 13/14).

However, this mill is energy-intensive, has large dimensions, which complicates its use in individual farming.

Closest to the proposed solution is a centrifugal impact mill, consisting of an inlet and an outlet neck, a housing, a rotor, booster channels, crushing plates (working bodies), means for oriented feeding of material to the crushing plate, consisting of interchangeable dividers installed in the channel in place of its expansion. In cross section, the profile of the divider can completely correspond to the internal profile of the channel, providing a constant gap between them, the angle of inclination of the crushing plates can be adjusted both in the vertical and horizontal directions, and the inner surface of the housing can be provided with corrugations, and the angle of the riffles is 45-90 ( see the patent for the invention of the Russian Federation No. 2232641, IPC B 02 C 13/18).

The disadvantage of this solution is the low efficiency of the destruction of the grains due to the smooth surface of the cylindrical body.

The main objective is to increase work efficiency.

The problem is solved in that in a rotary centrifugal impact mill containing a cylindrical body, inside of which a rotor in the form of a disk is mounted on a vertical shaft, crushing organs, inlet and outlet, according to the solution, crushing organs are made in the form of dynamic and static beats, with dynamic beats are pivotally mounted on the rotor using eccentric rods, the diameter of which is less than the internal diameter of the beaters, dynamic beats are made in the form of rings with a corrugated outer surface, the rotor has the form a truncated cone, and static beats are made in the form of half cylinders with a diameter equal to the diameter of the dynamic beats, and the outlet is located between the rotor generatrix and the inner surface of the housing, the value of which determines the size of the converging particles and is made adjustable on the cylindrical surface of the housing.

Centrifugal plates are mounted on the rotor, located symmetrically between the dynamic bills, and their vertical size is less than the gap between the lower edge of the static bills and the rotor.

Centrifugal plates are parabolic in shape.

Between the outer surface of the dynamic beat and static beat there is an adjustable gap, the value of which is 1-2 mm.

The utility model is illustrated by drawings, in Fig. 1 shows a general view of the mill - in Fig. 2 is a transverse dimension, in Fig. 3 is a fragment of the gap between the casing and the rotor plate for similar particles.

The mill consists of a cylindrical body 1, on which static beats 2 are fixed, and a rotor in the form of a truncated cone 3 with symmetrically dynamic beats 4 located on it, made in the form of rings with a corrugated outer surface, the radial and vertical movement of which is limited by eccentric rods 5, diameter which are smaller than the inner diameter of the dynamic beat. Centrifugal plates 6 are symmetrically fixed between the dynamic beams 4 on the rotor 3. On the cylindrical generatrix of the housing 1 there is a window 7 closed by a grid 8 and a pipe 9, and on the end surface of the housing 1 there is a loading hole 10. The gap between the inner surface of the housing 1 and the conical generatrix the rotor 3 can be changed using the screw 11 and the spring 12. The rotor mill operates as follows. Through the loading hole 10, the grain mass enters the working volume and falls into the gap between the dynamic beater 4 and the static beater 2 with a shock effect that destroys the casing of the grains. With subsequent exposure to beat 4 and 2, the inner and outer parts of the grains are crushed. The strength of the inner part of the endosperm caryopsis is much less than the strength of the shell and therefore, under the action of centrifugal plates, they are evacuated from the working volume through a window 7 closed by a grid 8 with a pipe 9. Larger particles of the shell under the influence of gravitational forces are removed from the working volume through the gap between the housing 1 and the rotor plate 3, which is regulated by means of a screw 11 and a spring 12, and the distance between the dynamic bills and static bills is established by eccentric rods 5.

Claims (4)

1. A rotary centrifugal impact mill containing a cylindrical body, inside of which a rotor in the form of a disk is mounted on a vertical shaft, crushing organs, an inlet and outlet, characterized in that the crushing organs are made in the form of dynamic and static bills, while the dynamic bills are articulated mounted on the rotor with the help of eccentric rods, the diameter of which is smaller than the internal diameter of the beat, the dynamic beads are made in the form of rings with a corrugated outer surface, the rotor has the shape of a truncated cone, and static The sludges are made in the form of smooth half-cylinders with a diameter equal to the diameter of the dynamic beaters, the outlet being located between the rotor generatrix and the inner surface of the housing, the value of which determines the size of the converging particles and is made adjustable. 2. The mill according to claim 1, characterized in that the rotor is fixed to centrifugal plates located symmetrically between the dynamic beaters, and their vertical size is less than the gap between the lower edge of the static beaters and the rotor. 3. The mill according to claim 1, characterized in that the centrifugal plates have a parabolic shape. 4. The mill according to claims 1 to 3, characterized in that there is an adjustable gap between the outer surface of the dynamic beaters and the static beaters, the size of which is 1-2 mm.