RU2185243C2 - Grinder - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: grinder for nonmetallic materials has casing, rotor and splitting plate positioned above rotor so as to define angle of α=60 deg with tangent to rotor generatrix at point of intersection with straight line making continuation of splitting plate. Roll is positioned on spring-loaded lever behind splitting plate. Tray and detachable cover are positioned for relative displacement one with respect to another. Windows in tray side walls are axially aligned with windows in casing. Tray sloping wall and opposite detachable cover are converging toward rotor and are equipped with teeth inclined in material supplying direction. Grinder allows materials with different physicomechanical properties to be ground. EFFECT: increased efficiency and simplified construction. 2 cl, 3 dwg

Description

 The grinder is designed for grinding non-metallic materials and can be used in industry, in the manufacture of building materials, in the processing of household waste, in agriculture and in other sectors of the national economy.

 Known rotary-type shredders are not intended for processing and separation of various materials and do not provide reliable separation of foreign inclusions, both large and small.

 Known shredder clay raw materials by as 1166815, B 02 C 4/02 of 09/21/83, containing a frame, a fleecy rotor, a movable plate mounted above the roll.

 The closest in technical essence is a shredder of clay raw materials by as 1276360, В 02 С 4/02 of 02.21.85, containing a loading chute, a fleecy rotor deflecting a roller, a plate above the roller mounted on a lever and a separator.

 The objective of the proposed technical solution is to create a grinder of materials with various physical and mechanical properties, such as clay raw materials, paper, plant stem material, poultry bat, household waste, preventing the capture of large non-crushed inclusions, breakage of nodes and parts, avalanche-like emissions of unprocessed raw materials.

The problem is solved due to the fact that the chopper contains a housing, a tray, a fleecy rotor, a roller, a plate-cutter and a separator. Above the rotor fleecy is placed, with the possibility of moving "up and down", the cut-off plate, forming with the tangent to the circumference of the rotor fleecy at the point of intersection with the straight line continuing the plate, the angle α = 60-90 ^° . Behind the shut-off plate, with an adjustable gap, on a spring-loaded lever, with the possibility of changing the fitting density to the rotor fleecy and with the possibility of changing the direction of rotation, a roll is placed. The tray is equipped with a removable cover, they are made movable relative to each other. On the side walls of the tray there are windows arranged coaxially with the windows in the housing, with the possibility of installing a guide in them, made, for example, in the form of a 1/4 hollow truncated cone. The gutter wall of the tray and the opposite removable lid are made convergent to the rotor fleecy and provided with teeth inclined towards the material supply.

Figure 1 shows a General view;
figure 2 - the position of the plate-cutter relative to the rotor fleecy and the guide in the windows of the housing and the tray;
figure 3 - shows the guide.

 The chopper contains: frame 1, body 2, tray 3, windows 4, fluffy rotor 5, cut-off plate 6, roll 7, spring-loaded lever, divider 9, guide 10, removable cover for tray 11, teeth 12.

In Fig. 1, on the frame 1, the chopper body 2 is mounted with a fleecy rotor 5. A cut-off plate 6 is placed above it, so that the straight line, which is a continuation of the plate, and the tangent drawn at this point to the circumference of the fleecy rotor form an angle α = 60-90 ^° Behind the plate 6, with a gap, a roll 7 is mounted on the spring-loaded levers 8, with the possibility of changing the contact density to the rotor fleecy 5 and with the possibility of changing the direction of rotation.

 The tray 3 is equipped with a removable cover 11 and they are made movable, making alternating reciprocating or circular motion relative to each other. On the side walls of the tray 3 there are windows 4 arranged coaxially to the windows in the housing 2, with the possibility of installing a guide 10 in them, made, for example, in the form of a 1/4 hollow truncated cone or truncated pyramid. The shallow wall of the tray 3, passing into the bottom, and the opposing removable cover 11 are made converging to the fleecy rotor 5 and provided with teeth 12 inclined towards the material supply side.

 Behind the rotor fleecy 5 and the roller 7 is installed divider 9.

 The material through the tray 3 enters the fleecy rotor 5 and is carried away between the cut-off plate 6 and the surface of the fleecy rotor 5, where the material is preliminarily ground. Large foreign inclusions accumulate in the tray 3 on the surface of the rotor 5 and are periodically removed through the windows 4 in the walls of the housing 2 and the tray 3. Pre-crushed material flows under the roller 7 and is pulled into the grinding zone between the roller 7 and the fluffy rotor 5, rotating at different peripheral speeds where it is intensively chopped. This relative position of the rotor of the plate and the roll allows for a stable quality of processing of materials by double grinding between the rotor and the plate-cutter and the rotor and the roll.

 When feeding materials that are light in bulk density, such as paper, straw, the flat wall of the tray 3, passing into the bottom, and the opposite removable cover 11, with their teeth 12, inclined towards the material supply, due to the convergence of the wall and cover 11 to the fluffy rotor and return - translational movements made alternately by the tray and the removable lid, compact the mass. The roller 7 rotates in the opposite direction to the rotation of the rotor, which contributes to a more intensive tedding in the tray and a more thorough separation of foreign inclusions.

 Behind the rotor with a fleecy 5 and the roller 7, a divider 9 is installed. Leaving their grinding zone from under the roller, the crushed material held by the pile of the rotor 5 flies by inertia along a path close to the circumference of the rotor under the grinder. Foreign and non-crushable inclusions due to centrifugal forces fly off tangentially from the point of contact of the roll and rotor. A flow divider 9, mounted with height adjustment, separates solid foreign inclusions from the crushed material, directing them into the side channel.

Placement of the cut-off plate above the rotor in such a way that the straight line, which is a continuation of the plate, and the tangent drawn at this point to the circumference of the fluffy rotor, form an angle α = 60-90 ^° , eliminates the ingress of large non-crushed inclusions into the grinding zones between the rotor and the roller and between the rotor and the plate and allow grinding materials with different physical and mechanical properties.

The execution of the corner. . . less than 60 ^o leads to an increase in the pulling force on the rotor and the capture of large non-crushable inclusions that raise the roller, which leads to intensive wear of the rotor pile and an avalanche-like discharge of unprocessed raw materials / Fulfillment of the angle ... more than 90 ^o leads to the release of non-crushed inclusions from the tray.

 The ability to move up and down the cutter plate and back and forth of the roll, placing it behind the plate on spring-loaded levers, the ability to change the direction of rotation of the roll allows the chopper to be configured to process materials with different physical and mechanical properties, and to adjust as the pile wears out rotor roll.

 Changing the density of the roll against the fluffy rotor makes it possible to grind materials of mixed density, for example, beaten poultry, household waste.

 Changing the rotation of the roll in the opposite direction relative to the rotor contributes to a more intensive grinding of raw materials, tedding it in the roll and the separation of foreign inclusions.

 The ability to change the direction of rotation of the roll, the implementation of the gently sloping wall and the removable lid of the tray converging, equipped with teeth, inclined towards the supply of materials and moving relative to each other, provide compaction of light materials with a bulk density, such as paper, straw, and prevent arching in the tray.

Claims (2)

1. A shredder comprising a housing, a tray, a fluffy rotor, a roller, a cut-off plate and a separator, characterized in that a cutter plate is arranged above the rotor with a fleecy shape, with the possibility of moving up and down the shutter plate, forming with a tangent to the circumference of the rotor of the fleecy at the intersection with straight continuation-plate, the angle α = 60-90 ^°, behind the plate-shut off, with an adjustable gap in a spring-loaded lever, to vary the density of hairiness fit to the rotor and to vary the direction of rotation shaft disposed a tray provided with a removable cover, they are movable relative to each other, and the sloping tray wall opposite the removable cover are made convergent to the rotor pile, are provided with teeth which are inclined towards the feed material.  2. The chopper according to claim 1, characterized in that on the side walls of the tray there are windows arranged coaxially with the windows in the housing, with the possibility of installing a guide therein, made, for example, in the form of a 1/4 hollow truncated cone.

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