RU2581487C1 - Disintegrator for uniform crushing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: disintegrator is intended for crushing, fine grinding, mixing, mechanically activation, surface mechanically modification materials in construction, metallurgy and other industries. Disintegrator comprises housing with top loading (15) and lower discharge (16) holes and working elements in the form of vertical counter-rotating cones. Cones are aligned at two supports each (7, 8, 13, 14). Working chamber is formed by gap between internal (6) and external (12) cone with toothed ribs on forming their sides surfaces. Inner cone is made in form of truncated cone. Outer cone is made in form of conical female. Stepping motor (2) is installed on body (1) cones. Step motor shaft each side is connected with drive spatial cranks through spatial rods with driven spatial bell cranks. Axes of hinged joints of master and slave cranks are crossed to revolve in opposite directions cones. Inner and outer cones are connected to the left and right ends of the step motor shaft by top and bottom anti-parallelogram mechanism respectively. Parallelogram mechanisms are formed by successive articulation of right (3) and left (9) of driving crank through right (5) and left (11) connecting rods with right (4) and left (10) driven cranks with positive and negative angles of crossing axes of hinges, respectively. Material is removed through chute (20) at angle to horizon to provide unloading in multimode operation. Angle of inclination angle of friction on 5-15°.

EFFECT: higher efficiency and reliability of disintegrator.

3 cl, 4 dwg

Description

The invention relates to devices for crushing, fine grinding, mixing, mechanical activation, surface mechanical modification of materials, can be used in various industries mainly in construction, metallurgy, and others where disintegrating equipment is used.

The well-known "Centrifugal crusher of multiple dynamic effects" (patent RU No. 2314874, publication date 01/20/2008, IPC В02С 13/20), containing a truncated cone and having an accelerating disc-distributor, fenders, fixed along the inclined generatrix. On the lower base of the working body there is a horizontal horizontal annular surface with guide ribs.

The main disadvantage of this crusher is the limited functionality of crushing (used mainly for crushing and grinding very fragile materials), which reduces the efficiency of the crusher.

The closest in technical essence to the claimed disintegrator of uneven crushing, taken as a prototype, is a "Centrifugal cone shredder" (patent RU No. 2193474, publication date 11.27.2002, IPC V02C 13/20). The centrifugal cone shredder includes a cylindrical body with vertically mounted upper and lower counter-rotating working bodies. The lower working body is a truncated cone, with V-shaped ribs installed along the generatrices of the conical surfaces, on the upper base of which there are accelerating ribs. The upper working body has the shape of a conical recess, the inner surface of which, like the conical part of the lower working body, is made of V-shaped ribs. The gap between the conical surfaces of the working bodies forms a working chamber.

This device has the following significant disadvantages:

1. The cantilever arrangement of the working bodies causes instability in terms of process dynamics and the emergence of large reaction forces of supports, which reduces productivity.

2. The occurrence of vibration at high speeds of the working bodies, which can lead to resonance and large destructive forces in the bearings, which reduces the reliability of the installation.

3. The impossibility of crushing hard rocks, not more than 4-5 scales on the Mohs, which limits the functionality of the installation.

4. The inability to change the frequency of rotation of the working bodies, which reduces the quality of mechanical activation. It leads to lower installation efficiency.

The solved problem of the invention is to increase the efficiency and reliability of the installation by increasing productivity, expanding functionality and improving the quality of mechanical activation.

The technical result from the use of the claimed invention is the creation of a highly efficient and reliable installation of the disintegrator, providing increased productivity, enhanced functionality, in particular the ability to crush solid materials, as well as improving its quality by changing the frequency of crushing.

The technical result is achieved by the fact that in the disintegrator of uneven crushing, comprising a housing, with upper loading and lower discharge openings, with vertically mounted working bodies in the form of truncated, internal and external counter-rotating cones mounted cantilever and aligned, and a working chamber formed in in the form of a gap between the inner and outer cone, and along the forming lateral surfaces there are serrated ribs, two pairs of cranks and a pair of connecting rods are introduced, and a step the gear is mounted on the housing of the inner and outer cones, each of which is mounted on two bearings, the shaft of the stepper motor, of each side being kinematically connected to its driving cranks through connecting rods with driven cranks, the hinge axes of the driving and driven cranks are made intersecting with the possibility of counter-rotating opposite directions of the cones, and the inner cone is connected to the right end of the shaft of the stepper motor through the upper parallelogram mechanism, images a series of articulated from the right leading spatial crank through the right spatial connecting rod with the right driven spatial crank, with a positive angle of intersection of the axes of its hinges, and the outer cone is connected to the left end of the shaft of the stepper motor through a lower antiparallelogram mechanism formed from a serial articulated joint of the left leading space crank through the left spatial connecting rod with the left driven spatial crank , with a negative angle of intersection of the axes of its hinges, while for the removal of the processed material, a gutter is introduced and installed in the lower part of the body, inclined to the horizon at a predetermined angle exceeding the material friction angle, depending on the properties of the particular material being processed, by 5-15 °, providing unloading in multi-mode operation.

The technical result is achieved by the fact that in the disintegrator of uneven crushing, the angles of intersection of the axes of the hinges of the leading and driven cranks are made the same, i.e. α _master = α _slave and within 15 ° ... 75 °, ensuring operability.

The technical result is achieved by the fact that in the disintegrator of uneven crushing, the angles of intersection of the axes of the hinges of the left and right cranks are made identical, but multidirectional, i.e. α _right = α _left .

To ensure multi-mode operation and expand the functionality of the disintegrator, it is possible to use a step electric motor through a computer-controlled controller as an electric drive.

To clarify the technical nature of the proposed disintegrator of uneven crushing, we consider the drawings: in FIG. 1 - presents a structural diagram of a disintegrator; in FIG. 2 - toothed ribs of the working surfaces of the cones along section AA; in FIG. 3 - frontal and profile projections of the hinge axes (here the points L and D are the geometric center of the crank joints 3, the points E and A are the geometric center of the crank joints 4); in FIG. 4 - frontal and profile projections of the hinge axes (here the points K and C are the geometric center of the hinges of the crank 9, the points F and B are the geometric center of the hinges of the crank 10); Where:

1 - housing; 2 - stepper motor; 3 - leading right spatial crank; 4 - driven right spatial crank; 5 - the right spatial connecting rod; 6 - inner cone; 7, 8 - bearing bearings of the inner cone; 9 - leading left spatial crank; 10 - driven left spatial crank; 11 - left spatial connecting rod; 12 - outer cone; 13, 14 - bearing bearings of the outer cone; 15 - loading hole; 16 - shipping hole; 17 - the gear rib of the inner cone; 18 - the gear rib of the outer cone; 19 - a working chamber; 20 - trough; 21 - hopper.

The non-uniform crushing disintegrator consists of: a housing 1, on which a stepper motor 2 is mounted, with two working ends of the shaft (right and left). The right end of the shaft is connected to the right leading spatial crank 3, pivotally connected to the driven right spatial crank 4, through the right spatial connecting rod 5. The right driven spatial crank 4 is kinematically connected to the inner cone 6, which is mounted on the bearings 7 and 8, which eliminates the occurrence high reaction forces of supports, reduces vibration and provides reliable uninterrupted operation dynamics.

The left end of the shaft is connected to the leading left spatial crank 9, pivotally connected to the driven left spatial crank 10, through the left spatial connecting rod 11. The driven left spatial crank 10 is kinematically connected to the outer cone 12, which is mounted on the bearings 13 and 14 of the lower drive, which excludes the occurrence of large reaction forces of supports, reduces vibration and provides reliable uninterrupted operation dynamics. On the upper and lower base of the outer cone 12, loading and unloading holes 15 and 16 are provided.

In this case, the inner cone 6 is located inside the outer cone 12. The inner cone 6 is made in the form of a truncated cone, along the generatrix of which there are toothed ribs 17 made of highly resistant material. The outer cone 12 is made in the form of a conical recess. Inside the outer cone 12 also along the generatrix, gear ribs 18 are made of a highly resistant material for crushing sand grains. The gap between the inner cone 6 and the outer cone 12 forms a working chamber 19. The size of this gap depends on the diameters of the bases of the cones and their relative location. This gap can be adjusted by changing the sizes of the cones (for example, replacing these cones with replaceable ones with other diameters) or by moving the inner cone 6 along its axis of rotation relative to the outer cone 12 before starting the disintegrator of uneven crushing, depending on the required quality of mechanical activation and the size of the crushed material ( fractions).

In the disintegrator of uneven crushing, the angles of intersection of the axes of the hinges of the left and right cranks are made the same, but multidirectional, i.e. α _right = α _left , block diagrams are shown in FIG. 3 and in FIG. four

In the lower part of the housing 1, under the outer cone 12 and the inner cone 6, a gutter 20 is installed at a predetermined angle exceeding the material friction angle, depending on the properties of the particular material being processed, by 5-15 °, which provides unloading in a multi-mode operation. On the chute 20, the activated material is discharged into the hopper 21.

The disintegrator of uneven crushing (Fig. 1) works as follows.

Material is fed into the disintegrator through the loading hole 15 into the working chamber 19, in which the process of crushing, mixing and activation of the surface of the crushed material, both brittle and hard, takes place. To increase the grinding speed, quality and intensity of mechanical activation of the material, the inner cone 6 and the outer cone 12 rotate in opposite directions. The crushed material from the working chamber 19 passes into the lower part of the housing 1 and through the discharge opening 16 enters the groove 20. As a result, the crushed, mixed activated material (processed) in the working chamber is shipped to the groove 20 at a predetermined angle exceeding the material friction angle by 5- 15 °, depending on the properties of the particular material being processed, and then enters the hopper 21.

It provides multi-mode operation and the prevention of energy loss at the start of startup, affecting the performance of the disintegrator, by smoothly regulating the speed of the working bodies due to the stepping motor of the disintegrator of uneven crushing, equipped with a controller controlled via a computer (not shown in the diagram).

Compared with the known world analogues, the claimed disintegrator of uneven crushing is highly efficient, reliable, providing, due to new design features, increasing productivity, expanding functionality and improving the quality of mechanical activation by changing the frequency of crushing.

Claims (3)

1. Disintegrator of uneven crushing, comprising a housing with upper loading and lower discharge openings, vertically mounted by the working bodies in the form of a truncated internal and external, in the form of a conical recess, counter-rotating cones mounted cantilevered and aligned, and a working chamber formed by a gap between the internal and an external cone, and along the forming lateral surfaces are gear ribs, an electric motor, characterized in that two pairs of cranks and a pair of connecting rods, and the stepper motor is mounted on the housing of the inner and outer cones, each of which is mounted on two supports, the shaft of the stepping motor being kinematically connected to each of the sides through the connecting rods with its driving cranks, the hinge axes of the driving and driven cranks are crossed with the possibility of oncoming rotation in opposite directions of the cones, the inner cone being connected to the right end of the shaft of the stepper motor by means of an upper parallelogram mechanism a, formed from the right leading spatial crank connected in series through the right spatial connecting rod with the right driven spatial crank with a positive angle of intersection of the axes of its hinges, and the outer cone is connected to the left end of the stepper motor shaft by means of a lower antiparallelogram mechanism formed from the serial left articulated joint spatial crank through the left spatial connecting rod with the left driven spatial a tongue with a negative angle of intersection of the axes of its hinges, in order to divert the processed material, a chute is inserted and installed in the lower part of the body inclined to the horizon at a predetermined angle exceeding the material friction angle, depending on the properties of the particular material being processed, by 5-15 °, providing unloading in multi-mode operation. 2. The non-uniform crushing disintegrator according to claim 1, characterized in that the angles of intersection of the axes of the hinges of the leading and driven cranks are made the same, i.e. α _master = α _slave and within 15 ° -75 °, ensuring operability. 3. The non-uniform crushing disintegrator according to claim 1, characterized in that the angles of intersection of the axes of the hinges of the left and right cranks are made identical, but multidirectional, that is, α _right = -α _left .

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