CN113399095A

CN113399095A - Mining quarrying crushing apparatus

Info

Publication number: CN113399095A
Application number: CN202110945583.5A
Authority: CN
Inventors: 董燕璇
Original assignee: Nantong Fleck Fluid Equipment Co ltd
Current assignee: Nantong Fleck Fluid Equipment Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-09-17
Anticipated expiration: 2041-08-18
Also published as: CN113399095B

Abstract

The invention relates to the technical field of mining equipment, in particular to mining quarrying crushing equipment. Including casing, logical material pipe and a plurality of abrasive plate, have one-level grinding chamber and second grade grinding chamber in the casing, the abrasive plate includes sheet frame, rotor plate and rhombus seat, is provided with interior sword on the inboard rhombus seat, is provided with outer sword on the rhombus seat in the outside. When the primary grinding cavity is blocked, the inner cutter drives the rhombic seat to drive the rotating plate to rotate synchronously, the area of a part of material passing holes is increased, and meanwhile, the shape enclosed by the grinding plate tends to be regular dodecagon, so that the volume of the primary grinding cavity is increased; when the second grade grinding cavity block hinders, the outer sword makes the rhombus seat rotate for the rotor plate, and partial punishment in advance hole area reduces, and the shape that the grinding plate encloses simultaneously tends to regular hexagon to make the second grade grinding cavity increase to this grinding intensity of adjusting one-level grinding cavity and second grade grinding cavity by oneself through grinding resistance avoids taking place the windrow block, and the motor drives grinding by force when avoiding taking place the block simultaneously, the energy saving.

Description

Mining quarrying crushing apparatus

Technical Field

The invention relates to the technical field of mining equipment, in particular to mining quarrying crushing equipment.

Background

Ore refers to rock containing certain valuable minerals extracted from mines, and also refers to mineral aggregates from which useful components can be extracted or which themselves have certain utilizable properties, and can be classified as metallic minerals and non-metallic minerals. The unit content of useful components (elements or minerals) in the ore is called ore grade, the precious metal ore such as gold and platinum is expressed in grams/ton, and other ores are expressed in percentage. After being collected from a mine, the ore can be applied to engineering fields such as metallurgical industry, chemical industry, building industry, railway (public) construction units, cement industry, sandstone industry and the like after being processed by crushing, grinding and the like step by step, so that crushing equipment is essential in mining.

Most of the existing ore crushing equipment has a single structure, only through once crushing and grinding, the grinding cavity is extremely easy to block stacking, serious people can also cause equipment damage, the crushing and grinding efficiency is not high, and the energy waste is serious.

Disclosure of Invention

According to at least one defect of the prior art, the invention provides mining quarrying crushing equipment, which aims to solve the problems that the existing crushing device is easy to stack and block and high in energy consumption.

The mining quarrying crushing equipment adopts the following technical scheme: the method comprises the following steps:

the upper end of the shell is provided with a feeding hole, the interior of the shell is provided with a circular grinding space, and the lower end of the grinding space is provided with a filter plate;

the material passing pipe vertically extends and is rotatably arranged in the center of the shell, the upper end of the material passing pipe is communicated with the feeding hole, and stone from the feeding hole enters the grinding space through the material passing pipe and the material guide channel on the inner wall of the grinding space;

the grinding plates are positioned in the grinding space, are connected end to end and surround the periphery along the circumferential direction so as to divide the grinding space into a primary grinding cavity and a secondary grinding cavity, and the upper ends of the grinding plates are connected with the material passing pipe through a connecting structure so as to rotate in a preset direction under the driving of the material passing pipe to grind stone; each grinding plate comprises a plate frame, a plurality of rotating plates and a rhombic seat; the rotating plates are arranged on the plate frame and are sequentially densely arranged along the horizontal direction and the vertical direction, the rotating plates are rhombic, long diagonal lines of the rotating plates extend vertically, short diagonal lines of the rotating plates extend horizontally, stone in the primary grinding cavity enters the secondary grinding cavity through material passing holes formed between adjacent rotating plates, the rotating plates can rotate in a single direction around a horizontal axis by a preset angle, and the rotating directions of the two adjacent rotating plates are opposite; the rhombic seat is provided with two rotating plates corresponding to each rotating plate and can be synchronously and rotatably arranged on the inner side and the outer side of each rotating plate, the projection of the rhombic seat on the orthographic projection surface is the same as that of each rotating plate, the rotating plates are driven to rotate when the rhombic seat rotates in the first direction, and the rhombic seat rotates by a preset angle relative to the rotating plates when rotating in the second direction; and is

The inner cutter is arranged on the rhombic seat positioned on the inner side, the outer cutter is arranged on the rhombic seat positioned on the outer side, and the inner cutter and the outer cutter are configured in such a way that when the primary grinding cavity is blocked, the inner cutter drives the rotary plate to synchronously rotate under the resistance of stone materials, so that the area of part of material passing holes is increased, and the area of the rest of material passing holes is reduced; and when the secondary grinding cavity is blocked, the outer cutter enables the rhombic seat to rotate relative to the rotating plate under the resistance of stones, so that the area of partial material passing holes is reduced.

Optionally, two adjacent grinding plates are mutually hinged around a vertical axis, the connecting structure comprises a control ring, a plurality of connecting rods and an elastic piece, the control ring is sleeved on the material passing pipe in a vertically sliding manner, the upper end of each connecting rod is hinged to the control ring, the lower end of each connecting rod is hinged to the upper end of the hinge shaft of the adjacent grinding plate, two grinding plates are arranged between the two adjacent connecting rods at intervals, N is an even number, one end of each elastic piece is connected with the lower end face of the control ring, the outer peripheral wall of the material passing pipe is connected with one end of each elastic piece, the elastic piece enables the control ring to be at a preset height in an initial state, and then the initial state of the shape surrounded by the plurality of grinding plates is between a positive N-edge shape and a positive N/2-edge shape.

Optionally, the inner cutters are arranged on the upper half part or the lower half part of each inner side rhombic seat, the inner cutters on any two inner side rhombic seats which are adjacent left and right are respectively arranged on the upper half part and the lower half part of the two rhombic seats, the inner cutters on any two inner side rhombic seats which are adjacent up and down are respectively arranged on the upper half part and the lower half part of the two rhombic seats, and in the inner cutters on the two layers of the upper and lower adjacent rhombic seats, the front one of the lower layer is the same as the rear one of the upper layer in position and shape;

the outer cutters are arranged on the upper half part or the lower half part of each outer side rhombic seat, the outer cutters on any two outer side rhombic seats which are adjacent left and right are respectively arranged on the upper half part and the lower half part of the two rhombic seats, the outer cutters on any two outer side rhombic seats which are adjacent up and down are respectively arranged on the upper half part and the lower half part of the two rhombic seats, and in the outer cutters on the two layers of the upper and lower adjacent rhombic seats, the front cutter on the lower layer is the same as the rear cutter on the upper layer in position and shape;

the inner cutter and the outer cutter are obliquely arranged, the directions of the inner cutter and the outer cutter are triangular pyramid and are opposite, the cutter point of the inner cutter is far away from the short diagonal line of the rotating plate, the cutter point of the outer cutter is close to the short diagonal line of the rotating plate, and the inner cutter and the outer cutter which are arranged on the rhombic seat on the same rotating plate extend outwards to the other end of the rotating plate from the end close to the short diagonal line of the rotating plate along the direction opposite to the rotating direction of the material passing pipe.

Optionally, the sheet frame includes outline and a plurality of horizontal pole, the horizontal pole is along even interval setting inside the outline about the horizontal direction, the inside of rotor plate is provided with the mounting groove of horizontal extension, the last confining surface and the lower confining surface of mounting groove all have horizontal plane and inclined plane, the inclined plane of last confining surface upwards extends from the crossing department with the horizontal plane, the inclined plane of lower confining surface downwards extends from the crossing department with the horizontal plane, the horizontal pole inserts in the mounting groove, and the width of horizontal pole equals the distance between two horizontal planes of confining surface and lower confining surface on the mounting groove.

Optionally, the rotating plate is rotatably installed on the cross rod through a pin shaft, the two rhombic seats are respectively installed at two ends of the pin shaft, an arc-shaped guide groove is formed in the rotating plate, limiting protrusions are respectively arranged on the two rhombic seats, and the limiting protrusions are located at one end of the arc-shaped guide groove in an initial state.

Optionally, a storage cavity is arranged below the filter plate, and a material is arranged on the side wall of the storage cavity.

Optionally, the below of storage cavity is provided with the drive chamber, is provided with the motor in the drive chamber, and the output shaft of motor is connected with the material pipe that leads to the drive leads to the material pipe and rotates.

Alternatively, the number of the grinding plates is 12 and the number of the links is 6.

Optionally, the inner and outer circumferential walls of the grinding space are each provided with vertically extending grinding posts.

The invention also provides a using method of the mining quarrying crushing equipment, which comprises the following steps:

(1) starting the motor, so that the motor drives the grinding plate to rotate along the anticlockwise direction through the material passing pipe;

(2) the method comprises the following steps that stone to be crushed is thrown into a feeding hole, the stone firstly enters a primary grinding cavity through a material passing pipe to be crushed and ground, and the stone with smaller volume and the stone ground by the primary grinding cavity enter a secondary grinding cavity through a material passing hole between adjacent rotating plates to be ground;

(3) when the stockpile blockage occurs in the primary grinding cavity or the secondary grinding cavity, the smooth work of the equipment is ensured through the switching of the grinding intensity of the primary grinding cavity and the secondary grinding cavity;

(4) during the grinding process, the ground stone and stone powder particles which have small volume and do not need to be ground fall to a storage cavity through a filter plate below the grinding space and are discharged through a discharge port;

(5) and after the crushing is finished, the motor is turned off, the power supply is cut off, and the equipment is checked.

The invention has the beneficial effects that: the mining quarrying crushing equipment provided by the invention has the advantages that the grinding space is divided into the primary grinding cavity and the secondary grinding cavity by arranging the grinding plate. When the first-stage grinding cavity is blocked, the inner cutter drives the rotating plate to synchronously rotate under the resistance of stones, so that the area of part of material passing holes is increased, the area of the rest of material passing holes is reduced, the maximum volume of stones which can pass through the material passing holes is increased, the material discharging time of stones with the same volume is reduced, and the resistance of the first-stage grinding cavity is reduced; when the second grade grinds the chamber card and hinders, the outer sword makes the rhombus seat rotate for the rotor plate under the resistance of building stones, and then makes partial material passing hole area reduce, and the row's of material passing hole discharge volume reduces and the row's of the building stones of the same volume discharge time increase, reduces the resistance that the second grade ground the chamber. With this grinding resistance through grinding the grinding intensity that the one-level ground chamber and second grade grinding chamber were adjusted by oneself to the resistance, avoid taking place the windrow card and hinder, improve grinding efficiency, the motor drives by force when avoiding taking place the card simultaneously and smashes, and the energy saving avoids equipment to damage.

In the invention, when the first-stage grinding cavity is blocked, the inner cutter tends to be horizontal along with the rotation of the rhombic seat, and the outer cutter tends to be vertical, so that the resistance of the first-stage grinding cavity is further reduced, and the resistance of the second-stage grinding cavity is increased; when the second grade grinds the chamber card and hinders, the outer sword tends to the level along with the rotation of rhombus seat, and the inner sword tends to vertical, further reduces the resistance that the second grade ground the chamber, and the resistance that the chamber was ground to the increase one-level further ensures that one-level grinds chamber and second grade and grinds the smooth conversion of chamber when being hindered.

According to the invention, two adjacent grinding plates are hinged with each other around a vertical axis, the grinding plates are connected with a material passing pipe through connecting rods, two grinding plates are arranged between the two adjacent connecting rods at intervals, the shape enclosed by the grinding plates is between a regular hexagon and a regular dodecagon in an initial state, and when a primary grinding cavity is blocked, the shape enclosed by the grinding plates tends to the regular dodecagon, so that the volume of the primary grinding cavity is increased, and the grinding pressure of the primary grinding cavity is reduced; when the second grade grinds the chamber card and hinders, the shape that the grinding plate encloses tends to regular hexagon and makes the volume increase in second grade grinding chamber, reduces the grinding pressure in second grade grinding chamber. Further ensuring the smooth switching of the primary grinding cavity and the secondary grinding cavity when being blocked.

Drawings

In order to illustrate more clearly the embodiments of the invention or the solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained by those skilled in the art without inventive exercise from these drawings, it being understood that these drawings are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of a mining quarrying crushing apparatus of the present invention;

FIG. 2 is a schematic view of the polishing plate in the initial state of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a schematic structural view of the rhombic seat and the rotating plate in the initial state of the present invention;

FIG. 5 is a schematic view of the structure of the polishing plate when the primary polishing chamber is jammed according to the present invention;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

FIG. 7 is a schematic structural view of a diamond seat and a rotating plate when a primary grinding chamber is blocked according to the present invention;

FIG. 8 is a schematic view of the structure of the polishing plate when the secondary polishing chamber is jammed in the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at C;

FIG. 10 is a schematic structural view of a diamond seat and a rotating plate when the secondary grinding chamber is blocked according to the present invention;

FIG. 11 is a schematic view of the installation of the rotating plate and the plate frame in the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11 at D;

FIG. 13 is an exploded view of the diamond seat and the rotating plate of the present invention.

In the figure: 11. a motor; 12. a discharge outlet; 13. a feed inlet; 14. a housing; 15. an elastic member; 21. an output shaft; 22. a material passing pipe; 23. filtering the plate; 24. a material storage cavity; 30. a grinding plate; 31. a control loop; 32. a connecting rod; 33. a plate frame; 331. a cross bar; 34. a diamond-shaped seat; 35. an outer cutter; 36. inner cutter; 37. a rotating plate; 371. mounting grooves; 38. and (7) a pin shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 13, the mining quarrying equipment of the present invention includes a housing 14, a material passing pipe 22 and a plurality of grinding plates 30.

The upper end of the shell 14 is provided with a feeding hole 13, the inside of the shell is provided with a circular grinding space, the inner side peripheral wall and the outer side peripheral wall of the grinding space are both provided with vertically extending grinding columns, the lower end of the grinding space is provided with a filter plate 23, and ground stone and stone powder particles which are originally small in volume and do not need to be ground fall through the filter plate 23 and are discharged.

The material passing pipe 22 extends vertically and is rotatably arranged in the center of the shell 14, the upper end of the material passing pipe 22 is communicated with the feeding port 13, and stone materials from the feeding port 13 enter the grinding space through the material passing pipe 22 and a material guide channel on the inner wall of the grinding space.

A plurality of lapping plates 30 are located and grind the space and end to end and enclose a week along the circumferencial direction to grind the space and divide into one-level grinding chamber and second grade grinding chamber, the upper end of lapping plates 30 is connected with logical material pipe 22 through connection structure, rotates with the direction of predetermineeing under the drive that leads to material pipe 22 and grinds the building stones. Each grinding plate 30 comprises a plate frame 33, a plurality of rotating plates 37 and a diamond seat 34; the plurality of rotating plates 37 are arranged on the plate frame 33 and are sequentially densely arranged along the horizontal direction and the vertical direction, the rotating plates 37 are rhombic, long diagonal lines of the rotating plates extend vertically, short diagonal lines of the rotating plates extend horizontally, so that stones in the primary grinding cavity enter the secondary grinding cavity through material passing holes formed between the adjacent rotating plates 37, the rotating plates 37 can rotate in a single direction around a horizontal axis by a preset angle, and the rotating directions of the two adjacent rotating plates 37 are opposite; the rhombic seat 34 is provided with two rotating plates 37 corresponding to each rotating plate 37, the two rotating plates are synchronously and rotatably arranged on the inner side and the outer side of each rotating plate 37, the projection of the rhombic seat 34 on the orthographic projection surface is the same as that of each rotating plate 37, the rotating plates 37 are driven to rotate when the rhombic seat 34 rotates in the first direction, and the rhombic seat 34 rotates in the second direction by a preset angle relative to the rotating plates 37.

An inner knife 36 is arranged on the diamond seat 34 positioned on the inner side, an outer knife 35 is arranged on the diamond seat 34 positioned on the outer side, the inner knife 36 and the grinding column on the peripheral wall of the inner side of the grinding space grind stones in the primary grinding cavity, the outer knife 35 and the grinding column on the peripheral wall of the outer side of the grinding space grind stones in the secondary grinding cavity, and the inner knife 36 and the outer knife 35 are configured in such a way that when the primary grinding cavity is blocked, the inner knife 36 enables the diamond seat 34 to drive the rotating plate 37 to synchronously rotate under the resistance of the stones, so that the area of part of material passing holes is increased, the area of the rest part of material passing holes is reduced, the maximum volume of the stones which can pass through the material passing holes is increased, the discharging time of the stones with the same volume is reduced, and the resistance of the primary grinding cavity is reduced; and when the secondary grinding cavity is blocked, the outer cutter 35 enables the diamond seat 34 to rotate relative to the rotating plate 37 under the resistance of stones, so that the area of a part of material passing holes is reduced, the discharge amount of the material passing holes is reduced, the discharge time of stones with the same volume is prolonged, and the resistance of the secondary grinding cavity is reduced.

In this embodiment, two adjacent grinding plates 30 are hinged to each other around a vertical axis, the connection structure includes a control ring 31, a plurality of connecting rods 32 and an elastic member 15, the control ring 31 is slidably sleeved on the material passing pipe 22 up and down, the upper ends of the connecting rods 32 are hinged to the control ring 31, the lower ends of the connecting rods 32 are hinged to the upper ends of the hinge shafts of the adjacent grinding plates 30, two grinding plates 30 are spaced between the two adjacent connecting rods 32, the number N of the grinding plates 30 is an even number, and is at least 6, one end of the elastic member 15 is connected to the lower end face of the control ring 31, and the other end is connected to the outer peripheral wall of the material passing pipe 22, the elastic member 15 causes the control ring 31 to be at a preset height in an initial state, so that a shape initial state surrounded by the plurality of grinding plates 30 is between a positive N-side shape and a positive N/2-side shape. In the preferred embodiment of the invention, the number of the grinding plates 30 is 12, the number of the corresponding connecting rods 32 is 6, the shape enclosed by the grinding plates 30 is between a regular hexagon and a regular dodecagon in the initial state, and when the primary grinding cavity is blocked, the shape enclosed by the grinding plates 30 tends to the regular dodecagon, so that the volume of the primary grinding cavity is increased, and the grinding pressure of the primary grinding cavity is reduced; when the second-stage grinding cavity is blocked, the shape enclosed by the grinding plate 30 tends to be a regular hexagon, so that the volume of the second-stage grinding cavity is increased, and the grinding pressure of the second-stage grinding cavity is reduced.

In this embodiment, as shown in fig. 4, the inner cutters 36 are disposed on the upper half portion or the lower half portion of each inner diamond seat 34, the inner cutters 36 on any two left and right adjacent inner diamond seats 34 are disposed on the upper half portion and the lower half portion of the two diamond seats 34, the inner cutters 36 on any two up and down adjacent inner diamond seats 34 are disposed on the upper half portion and the lower half portion of the two diamond seats 34, and in the inner cutters 36 on two up and down adjacent layers of diamond seats 34, the former of the lower layer is the same as the latter of the upper layer in position and shape.

The outer cutters 35 are arranged on the upper half portion or the lower half portion of each outer side diamond seat 34, the outer cutters 35 on any left and right adjacent two outer side diamond seats 34 are respectively arranged on the upper half portion and the lower half portion of the two diamond seats 34, the outer cutters 35 on any upper and lower adjacent two outer side diamond seats 34 are respectively arranged on the upper half portion and the lower half portion of the two diamond seats 34, in the outer cutters 35 on the upper and lower adjacent two layers of diamond seats 34, the former of the lower layer is the same as the latter of the upper layer in position and shape.

The inner knife 36 and the outer knife 35 are obliquely arranged, the inner knife 36 and the outer knife 35 are triangular-pyramidal and have opposite directions, the knife point of the inner knife 36 is far away from the short diagonal line of the rotating plate 37, the knife point of the outer knife 35 is close to the short diagonal line of the rotating plate 37, the inner knife 36 and the outer knife 35 which are arranged on the rhombic seat 34 on the same rotating plate 37 extend outwards from one end close to the short diagonal line of the rotating plate 37 to the other end along the direction opposite to the rotating direction of the material passing pipe 22, and the material passing pipe 22 rotates anticlockwise by combining the oblique directions of the inner knife 36 and the outer knife 35 in the invention.

In this embodiment, as shown in fig. 11, 12 and 13, the plate frame 33 includes an outer frame and several cross bars 331, the cross bars 331 are disposed inside the outer frame at an interval in the horizontal direction, the inside of the rotating plate 37 is provided with mounting grooves 371 extending in the horizontal direction, the upper and lower limiting surfaces of the mounting grooves 371 each have a horizontal surface and an inclined surface, the inclined surface of the upper limiting surface extends upward from the intersection with the horizontal surface, the inclined surface of the lower limiting surface extends downward from the intersection with the horizontal surface, the cross bars 331 are inserted into the mounting grooves 371, and the width of the cross bars 331 is equal to the distance between the two horizontal surfaces of the upper and lower limiting surfaces of the mounting grooves 371.

In this embodiment, as shown in fig. 13, the rotating plate 37 is rotatably mounted on the cross bar 331 through a pin 38, the two rhombic bases 34 are respectively mounted at two ends of the pin 38, an arc-shaped guide slot is formed on the rotating plate 37, and a limiting protrusion is respectively formed on the two rhombic bases 34, and in an initial state, the limiting protrusion is located at one end of the arc-shaped guide slot.

In the present embodiment, as shown in fig. 1, a storage chamber 24 is provided below the filter plate 23, a discharge opening 12 is provided on a side wall of the storage chamber 24, and the rock material from the filter plate 23 is finally discharged through the discharge opening 12.

In this embodiment, a driving cavity is arranged below the material storage cavity 24, a motor 11 is arranged in the driving cavity, and an output shaft 21 of the motor 11 is connected with the material passing pipe 22 to drive the material passing pipe 22 to rotate.

With the above embodiment, the use principle and the working process of the present invention are as follows:

in the initial position, the grinding plate 30 is enclosed in a shape between a regular dodecagonal shape and a regular hexagonal shape (as shown in fig. 2), and both the rhombic seat 34 and the rotating plate 37 are in a vertical state (as shown in fig. 4).

Starting motor 11, motor 11 drives and leads to material pipe 22 and rotates along anticlockwise, and then drives lapping plate 30 and rotate, building stones get into from feed inlet 13 and lead to material pipe 22, the back gets into the one-level through the guide passageway that leads to material pipe 22 and grind the space inner wall and grinds the chamber, the building stones that the less building stones of volume and the building stones that grind the chamber through the one-level enter into the second grade and grind the intracavity through the material passing hole between the adjacent rotor plate 37 and grind, building stones and the less stone dust granule that need not to grind of volume itself after grinding fall to storage cavity 24 through the filter plate 23 that grinds the space below, and discharge through bin outlet 12.

When the stones in the primary grinding cavity are piled, the primary grinding cavity is blocked and increased, the resistance of the stones on the inner knife 36 is increased, so that in two adjacent rhombic seats 34 on the uppermost layer, the rhombic seat 34 with the inner knife 36 on the lower side drives the rotating plate 37 to synchronously rotate clockwise, the rhombic seat 34 with the inner knife 36 on the upper side drives the rotating plate 37 to synchronously rotate anticlockwise, further, the upper ends of the two rhombic seats 34 and the rotating plate 37 are closed in a closed mode, the rotating directions of the two adjacent layers of rhombic seats 34 are opposite (as shown in fig. 7), at least part of material passing holes are increased in area, the size of the material capable of passing is increased, the stones in the primary grinding are discharged into the secondary grinding cavity in a fine mode without grinding, meanwhile, the material discharging time is shortened and the material discharging speed is increased under the condition of the same material feeding amount, and the load in the primary grinding cavity is reduced. Meanwhile, in the process of rotation of the diamond seat 34, the resistance of the stone material horizontally received by the inner knife 36 is reduced so as to further reduce the resistance received by the primary grinding cavity, and the resistance of the stone material vertically received by the outer knife 35 is increased so as to enhance the grinding effect of the secondary grinding cavity. In this state, the hinge shaft connected with the connecting rod 32 on the grinding plate 30 is subjected to the outward pushing force of the material, so that the graph surrounded by the grinding plate 30 tends to be a regular dodecagonal shape (as shown in fig. 5), the volume of the primary grinding cavity is increased, the resistance applied to the primary grinding cavity during grinding is further reduced, and the secondary grinding cavity bears the main grinding pressure.

When the stockpiling or blocking occurs in the secondary grinding cavity, the secondary grinding cavity is blocked and increased, the resistance of the stone material received by the outer cutter 35 is increased, so that in two adjacent diamond seats 34 on the uppermost layer, the diamond seat 34 with the outer cutter 35 on the upper side rotates anticlockwise relative to the rotating plate 37, the diamond seat 34 with the outer cutter 35 on the lower side rotates clockwise relative to the rotating plate 37, further the upper ends of the two diamond seats 34 are far away from each other, the rotating directions of the two adjacent layers of diamond seats 34 are opposite (as shown in figure 10), so that part of the material passing holes are blocked, the flow area is reduced, the stone material quantity sent from the primary grinding cavity is reduced, and the large-particle stone material is reduced, thereby the load of the secondary grinding cavity is lightened. Meanwhile, in the process of rotating the diamond seat 34, the resistance of the stone material horizontally received by the outer knife 35 is reduced so as to further reduce the resistance of the secondary grinding cavity, and the resistance of the stone material vertically received by the inner knife 36 is increased so as to enhance the grinding effect of the primary grinding cavity. In this state, because the device rotates counterclockwise, the outer knife 35 is subjected to resistance of stones, so that the hinge shaft between two adjacent connecting rods 32 on the grinding plate 30 moves outwards, the pattern enclosed by the grinding plate 30 tends to be regular hexagon (as shown in fig. 8), the volume of the secondary grinding cavity is increased, the resistance applied to the secondary grinding cavity during grinding is further reduced, and the primary grinding cavity bears main grinding pressure.

(1) starting the motor 11, so that the motor 11 drives the grinding plate 30 to rotate in the counterclockwise direction through the material passing pipe 22;

(2) stone to be crushed is thrown into the feeding hole 13, the stone firstly enters the primary grinding cavity through the material passing pipe 22 to be crushed and ground, and the stone with smaller volume and the stone ground by the primary grinding cavity enter the secondary grinding cavity through the material passing holes between the adjacent rotating plates 37 to be ground;

(4) during the grinding process, the ground stone and stone powder particles which have small volume and do not need to be ground fall to a storage cavity 24 through a filter plate 23 below the grinding space and are discharged through a discharge port 12;

(5) after the crushing is finished, the motor 11 is turned off, the power supply is cut off, and the equipment is checked.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a mining quarrying crushing apparatus which characterized in that: the method comprises the following steps:

2. The mining quarrying crushing apparatus of claim 1, wherein: two adjacent grinding plates are articulated each other around vertical axis, connection structure includes the control ring, a plurality of connecting rods and elastic component, the logical material pipe is located to control ring slidable ground cover from top to bottom, the upper end and the control ring of connecting rod are articulated mutually, the connecting rod lower extreme articulates in the upper end of the articulated shaft of adjacent grinding plate, and two grinding plates in interval between two adjacent connecting rods, the quantity N of grinding plate, N is the even number, the lower terminal surface of control ring is connected to the one end of elastic component, the periphery wall that leads to the material pipe is connected to one end, the elastic component makes the control ring be in when initial state and predetermines the height, and then make the shape initial state that a plurality of grinding plates enclose be in between positive N limit and positive N/2 limit.

3. The mining quarrying crushing apparatus of claim 1, wherein: the inner cutters are arranged on the upper half part or the lower half part of each inner side rhombic seat, the inner cutters on any two inner side rhombic seats which are adjacent left and right are respectively arranged on the upper half part and the lower half part of the two rhombic seats, the inner cutters on any two inner side rhombic seats which are adjacent up and down are respectively arranged on the upper half part and the lower half part of the two rhombic seats, and in the inner cutters on the two layers of the upper and lower adjacent rhombic seats, the front one of the lower layer is the same as the back one of the upper layer in position and shape;

4. The mining quarrying crushing apparatus of claim 1, wherein: the sheet frame includes outline and a plurality of horizontal pole, the horizontal pole is along even interval setting inside the outline about the horizontal direction, the inside of rotor plate is provided with the mounting groove of horizontal extension, the last plane of demarcation of mounting groove all has horizontal plane and inclined plane with lower plane of demarcation, the inclined plane of going up the demarcation upwards extends from the crossing department with the horizontal plane, the inclined plane of lower plane of demarcation is from crossing department downwardly extending with the horizontal plane, the horizontal pole inserts in the mounting groove, and the width of horizontal pole equals the distance between two horizontal planes of mounting groove upper demarcation and lower demarcation.

5. The mining quarrying crushing apparatus of claim 4, wherein: the rotating plate is rotatably arranged on the cross rod through a pin shaft, the two rhombic seats are respectively arranged at two ends of the pin shaft, the rotating plate is provided with an arc-shaped guide groove, the two rhombic seats are respectively provided with a limiting protrusion, and the limiting protrusion is positioned at one end of the arc-shaped guide groove in an initial state.

6. The mining quarrying crushing apparatus of claim 1, wherein: a material storage cavity is arranged below the filter plate, and the side wall of the material storage cavity is provided with material.

7. The mining quarrying crushing apparatus of claim 6, wherein: the below of storage cavity is provided with the drive chamber, is provided with the motor in the drive chamber, and the output shaft of motor is connected with logical material pipe to it rotates to drive logical material pipe.

8. The mining quarrying crushing apparatus of claim 2, wherein: the number of the grinding plates is 12, and the number of the connecting rods is 6.

9. The mining quarrying crushing apparatus of claim 1, wherein: the inner side peripheral wall and the outer side peripheral wall of the grinding space are both provided with vertically extending grinding columns.