CN108714446B - Stone crushing device for ore factory - Google Patents

Abstract

the invention relates to a device for a factory, in particular to a stone crushing device for an ore factory, which comprises a box body, a screening box, a magnetic feeding box, a crushing box, an air discharging box, a filter box, a Y-shaped pipe and a crushing box, can solve the problems that the waste stone processing factory needs to process the waste stone into fine sand or small broken stones for use or sale, the prior waste stone crushing device has simple structure and poor crushing effect and uneven broken stone size, with current barren rock reducing mechanism can produce a large amount of dust operating personnel and inhale too much can cause the dangerous problem that harm still takes place dust explosion easily to the health when smashing, divide to be provided with on the sieve case and divide sieve case motor base, divide sieve case motor, divide sieve case pan feeding mouth, divide sieve bucket, divide sieve barrel hole, divide sieve case axis of rotation, divide sieve case spiral fan blade, big stone discharge gate, divide the spacing base of sieve case, little stone head discharge gate.

Description

Stone crushing device for ore factory

Technical Field

the invention relates to a device for a factory, in particular to a stone crushing device for an ore factory.

Background

The ore mill is the mill of the useless stone processing that produces when the coal mine factory mined the coal mine, and useless stone processing mill need process the useless stone into fine sand or little broken stone and use or sell, and the size of the not good rubble of current useless stone reducing mechanism simple structure rubble effect is inhomogeneous to current useless stone reducing mechanism can produce a large amount of dust operating personnel and inhale too much and can cause harm still to take place dust explosion's danger easily to the health when smashing.

Disclosure of Invention

The invention relates to a device for a factory, in particular to a stone crushing device for an ore factory. Can solve waste rock processing mill and need process into fine sand or little garrulous stone with waste rock and use or sell, the big or small inhomogeneous problem of the not good rubble of current waste rock reducing mechanism simple structure rubble effect with current waste rock reducing mechanism can produce a large amount of dust operating personnel and inhale too much can cause the dangerous problem that still takes place dust explosion easily to the health when smashing.

The invention relates to a device for a factory, in particular to a stone breaking device for an ore factory, which comprises a box body, a screening box, a magnetic feeding box, a breaking box, an air discharging box, a filtering box, a Y-shaped pipe and a breaking box, and can solve the problems that the waste stone processing factory needs to process the waste stone into fine sand or small broken stone for use or sale, the existing waste stone breaking device has a simple structure and is not good in stone breaking effect and uneven in size of broken stone, and the existing waste stone breaking device can generate a large amount of dust when being broken, operators suck the dust too much, and harm is caused to bodies, and the danger of dust explosion is easy to occur.

The screening box is provided with a screening box motor base, a screening box motor, a screening box feeding port, a screening barrel hole, a screening box rotating shaft, screening box spiral fan blades, a large stone discharge port, a screening box limiting base and a small stone discharge port, the screening box is welded inside the screening box and provided with a screening box motor base, the screening box is welded on the screening box and provided with a screening box feeding port, the screening box is welded inside the screening box and provided with a screening barrel, the screening barrel is welded on the screening barrel and provided with a screening barrel hole, the screening barrel is rotatably connected inside the screening barrel and provided with a screening box rotating shaft, the screening box rotating shaft is connected on the screening box motor and provided with a screening box rotating shaft, the right end of the screening barrel is welded with a large stone discharge port, the screening box is welded inside the screening box is provided with a screening box limiting base, and the lower end of the screening box is welded with a small stone discharge port.

Be provided with the electromagnetism case on the magnetism feeding case, electromagnetism case baffle, the iron core, the coil, magnetism feeding case feed inlet, the feeding spacing collar, rotate the roller, the switch plate, magnetism feeding case limit base, magnetism feeding case discharge gate, the inside welding of magnetism feeding case has the electromagnetism case, the inside welding of electromagnetism case has the electromagnetism case baffle, the inside welding of electromagnetism case has the iron core, the winding has the coil on the iron core, the last welding of magnetism feeding case feed inlet, the lower extreme welding of magnetism feeding case feed inlet has the feeding spacing collar, the inside rotation of magnetism feeding case is connected with rotates the roller, the welding has the switch plate on the rotation roller, the inside welding of magnetism feeding case has magnetism feeding case limit base, the lower extreme welding of magnetism feeding case has magnetism feeding case discharge gate.

The crushing box is provided with a crushing hammer, crushing teeth, a hinged disc, a supporting arm spring, a spring limiting block, a crushing box gear, a hinged arm, a crushing box base, a crushing box ash outlet, a crushing box limiting base, a crushing box discharge port and a crushing hammer supporting plate, the crushing box is internally welded with the crushing hammer supporting plate, the crushing hammer supporting plate is provided with a hole, the inner part of the hole of the crushing hammer supporting plate is slidably connected with the supporting arm, the supporting arm is provided with the supporting arm spring, the spring limiting block is welded on the supporting arm, the lower end of the spring limiting block is welded with the supporting arm spring, the lower end of the supporting arm is welded with the crushing hammer, the crushing teeth are welded on the crushing hammer, the hinged disc is welded with the hinged arm, the inner part of the crushing box is rotatably connected with the crushing box, the right-hand member welding of broken case has broken case ash hole, and the inside welding of broken case has broken case limit base, is provided with broken case discharge gate on the broken case limit base.

be provided with turbine, blast pipe, intake pipe, dust shower nozzle, filter screen support column, the case ash hole of airing exhaust on the exhaust case, the inside welding of exhaust case has the turbine, is connected with the blast pipe on the turbine, the left end of turbine is connected with the intake pipe, the welding has the dust shower nozzle on the blast pipe, the inside of the case of airing exhaust is provided with the filter screen, the welding has the filter screen support column on the filter screen, the lower extreme of exhaust case is provided with the case ash hole of airing exhaust.

The filter box is provided with a filter box ash outlet, a filter liquid, a filter box gas outlet and a filter liquid discharge port, the filter box ash outlet is welded inside the filter box, the filter liquid is arranged inside the filter box, the filter box ash outlet is immersed inside the filter liquid, the filter box gas outlet is welded on the filter box, and the filter liquid discharge port is welded at the lower end of the filter box.

Be provided with feed inlet I, feed inlet II, Y venturi tube discharge gate on the Y venturi tube, the left end of Y venturi tube is provided with feed inlet I, and the right-hand member of Y venturi tube is provided with feed inlet II, and the lower extreme of Y venturi tube is provided with Y venturi tube discharge gate.

The crushing box is provided with a crushing box slide way, a gear ring sliding column, a sector gear belt, a sector gear motor, a crushing box motor base, a crushing box motor, a crushing box rotating shaft, a crushing box spiral reamer, a crushing box limiting base, a crushing box feed inlet, a crushing box crushing cone, a crushing box discharge port and a crushing box filter plate, wherein the crushing box is internally provided with a crushing box slide way, the gear ring sliding column is welded on the gear ring, the crushing box is slidably connected with the gear ring sliding column, the inner part of the crushing box is rotatably connected with the sector gear, the sector gear is meshed with teeth on the inner side of the gear ring, the sector gear is provided with the sector gear belt, the left end of the crushing box is fixed with the sector gear motor, the sector gear motor is provided with a belt pulley, the sector gear belt is arranged on the sector, the left end welding of smashing case motor base has ring gear slip post, be provided with crushing case motor on the crushing case motor base, be connected with crushing case axis of rotation on the crushing case motor, the welding has crushing case spiral reamer in the crushing case axis of rotation, the right-hand member welding of crushing case axis of rotation has the broken awl of crushing case, the inside welding of crushing case has the spacing base of crushing case, the welding has the crushing case feed inlet on the crushing case, the right-hand member welding of crushing case has the crushing case discharge gate, the inside welding of crushing case discharge gate has the crushing case filter.

The inside welding of box has the branch sieve case, the inside welding of box has the magnetism feeding case, the welding has branch sieve case pan feeding mouth on the magnetism feeding case discharge gate, the inside welding of box has broken case base, the welding has broken case on the big stone discharge gate, the inside welding of box has the exhaust case, the welding has broken case ash outlet in the intake pipe, the inside welding of box has the rose box, the welding has the rose box ash outlet on the ash outlet of the case of airing exhaust, the inside welding of box has the Y venturi tube, the welding has the small stone head discharge gate on the feed inlet I, the welding has broken case discharge gate on the feed inlet II, the inside welding of box has crushing case, the welding has the Y venturi tube discharge gate on the.

as a further optimization of the technical scheme, the electromagnetic box baffle, the iron core, the coil, the support arm spring and the spring limiting block of the stone crushing device for the ore factory are respectively provided with two parts.

As a further optimization of the technical scheme, the motor of the crushing box, the rotating shaft of the crushing box, the spiral reamer of the crushing box and the crushing cone of the crushing box of the stone crushing device for the ore factory share the same central line.

As further optimization of the technical scheme, the box body, the screening box, the magnetic feeding box, the crushing box, the air discharging box, the filtering box, the Y-shaped pipe and the crushing box of the stone crushing device for the ore factory are made of stainless steel.

As a further optimization of the technical scheme, the rotary roller, the crushing box gear and the turbine of the stone crushing device for the ore factory are provided with matched motors.

As further optimization of the technical scheme, the sector gear belt of the stone crushing device for the ore factory is made of rubber.

The stone crushing device for the ore factory has the beneficial effects that:

The invention relates to a device for a factory, in particular to a stone crushing device for an ore factory. Can solve waste rock processing mill and need process into fine sand or little garrulous stone with waste rock and use or sell, the big or small inhomogeneous problem of the not good rubble of current waste rock reducing mechanism simple structure rubble effect with current waste rock reducing mechanism can produce a large amount of dust operating personnel and inhale too much can cause the dangerous problem that still takes place dust explosion easily to the health when smashing.

Drawings

the invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of a stone crushing device for an ore plant according to the present invention.

fig. 2 is a schematic diagram of the internal structure of a screening box of the stone crushing device for the ore plant.

FIG. 3 is a schematic structural diagram of a screening box of the stone crushing device for an ore plant.

FIG. 4 is a schematic view of a magnetic feeding box of the stone crushing device for ore plants according to the present invention.

FIG. 5 is a schematic diagram of an electromagnetic box of the stone crushing device for an ore plant according to the present invention.

Fig. 6 is a schematic structural diagram of a crushing box of the stone crushing device for the ore plant.

Fig. 7 is a schematic structural view of an exhaust box of the stone breaking device for the ore plant.

fig. 8 is a schematic structural diagram of a filter box of the stone crushing device for the ore plant.

FIG. 9 is a schematic structural view of a Y-shaped tube of the stone crushing device for an ore plant according to the present invention.

FIG. 10 is a schematic view of a crushing box of the stone crushing apparatus for an ore plant according to the present invention.

In the figure: a box body 1; a screening box 2; a motor base 2-1 of the screening box; a screening box motor 2-2; a material inlet 2-3 of the screening box; 2-4 parts of a screening barrel; 2-5 of screening bucket holes; a rotating shaft of the screening box is 2-6; 2-7 parts of spiral fan blades of the screening box; 2-8 of a discharge port of the large stone; a screening box limiting base 2-9; 2-10 parts of a small stone discharge port; a magnetic feed box 3; 3-1 of an electromagnetic box; electromagnetic box baffle 3-2; 3-3 of iron core; 3-4 of coils; a feed inlet of the magnetic feed box is 3-5; 3-6 parts of a feeding limiting ring; rotating the rollers 3-7; 3-8 parts of a kickoff plate; a magnetic feeding box limiting base 3-9; a discharge port of the magnetic feeding box is 3-10; a crushing box 4; 4-1 of a breaking hammer; 4-2 parts of crushing teeth; a hinged disk 4-3; 4-4 of a supporting arm; a support arm spring 4-5; 4-6 parts of a spring limiting block; 4-7 parts of a crushing box gear; articulated arms 4-8; 4-9 parts of a crushing box base; 4-10 of an ash outlet of the crushing box; 4-11 parts of a limit base of the crushing box; 4-12 parts of a discharge port of the crushing box; 4-13 of a breaking hammer support plate; an exhaust box 5; a turbine 5-1; 5-2 of an exhaust pipe; 5-3 of an air inlet pipe; 5-4 parts of a dust nozzle; 5-5 of a filter screen; 5-6 support columns of the filter screen; 5-7 of an ash outlet of the exhaust box; a filter tank 6; an ash outlet 6-1 of the filter box; 6-2 parts of filtrate; 6-3 of an air outlet of the filter box; 6-4 of a filtrate discharge port; a Y-shaped tube 7; a feed inlet I7-1; a feed inlet II 7-2; a discharge port 7-3 of the Y-shaped pipe; a crushing box 8; a crushing box slideway 8-1; a ring gear 8-2; a gear ring sliding column 8-3; 8-4 parts of sector gear; 8-5 of a sector gear belt; a sector gear motor 8-6; a motor base 8-7 of the crushing box; a crushing box motor 8-8; 8-9 parts of a rotating shaft of the crushing box; 8-10 parts of a spiral reamer of the crushing box; a crushing box limiting base 8-11; a feed inlet 8-12 of the crushing box; 8-13 parts of crushing cone of a crushing box; 8-14 parts of a discharge port of the crushing box; and 8-15 filtering plates of the crushing box.

Detailed Description

the first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the invention mainly solves the technical problem of providing a rock breaking device for an ore factory, which comprises a box body 1, a sieving box 2, a magnetic feeding box 3, a breaking box 4, an exhaust box 5, a filter box 6, a Y-shaped pipe 7, and a crushing box 8, and can solve the problems that a waste rock processing factory needs to process waste rocks into fine sand or small crushed rocks for use or sale, the existing waste rock crushing device has a simple structure, the crushed rock is not good in crushing effect, the size of the crushed rock is not uniform, and the existing waste rock crushing device can generate a large amount of dust when being crushed, an operator can inhale too much dust, and the risk of harm to the body and the risk of dust explosion can be easily caused.

The screening box 2 is provided with a screening box motor base 2-1, a screening box motor 2-2, a screening box feeding port 2-3, a screening barrel 2-4, a screening barrel hole 2-5, a screening box rotating shaft 2-6, a screening box spiral fan blade 2-7, a large stone discharging port 2-8, a screening box limiting base 2-9 and a small stone discharging port 2-10, the screening box motor base 2-1 is welded inside the screening box 2, the screening box motor base 2-1 is provided with a screening box motor 2-2, the screening box 2 is welded with a screening box feeding port 2-3, the screening box 2 is welded with a screening barrel 2-4, the screening barrel 2-4 is provided with a screening barrel hole 2-5, the screening barrel 2-4 is connected with a screening box rotating shaft 2-6 in a rotating mode, the screening box rotating shaft 2-6 is provided with a screening box spiral fan blade 2-7, the screening box motor 2-2 is connected with the screening box rotating shaft 2-6, the right end of the screening barrel 2-4 is welded with a large stone discharge port 2-8, the inside of the screening box 2 is welded with a screening box limiting base 2-9, and the lower end of the screening box 2 is welded with a small stone discharge port 2-10.

The magnetic feeding box 3 is provided with an electromagnetic box 3-1, an electromagnetic box baffle 3-2, an iron core 3-3, a coil 3-4, a magnetic feeding box feeding port 3-5, a feeding limiting ring 3-6, a rotating roller 3-7, a material shifting plate 3-8, a magnetic feeding box limiting base 3-9 and a magnetic feeding box discharging port 3-10, the electromagnetic box 3-1 is welded inside the magnetic feeding box 3, the electromagnetic box baffle 3-2 is welded inside the electromagnetic box 3-1, the iron core 3-3 is welded inside the electromagnetic box 3-1, the coil 3-4 is wound on the iron core 3-3, the magnetic feeding box feeding port 3-5 is welded on the magnetic feeding box 3, the feeding limiting ring 3-6 is welded at the lower end of the magnetic feeding box feeding port 3-5, the inside of the magnetic feeding box 3 is rotatably connected with rotating rollers 3-7, a material stirring plate 3-8 is welded on the rotating rollers 3-7, a magnetic feeding box limiting base 3-9 is welded inside the magnetic feeding box 3, and a magnetic feeding box discharging port 3-10 is welded at the lower end of the magnetic feeding box 3.

the crushing box 4 is provided with a crushing hammer 4-1, crushing teeth 4-2, a hinged disc 4-3, a supporting arm 4-4, a supporting arm spring 4-5, a spring limiting block 4-6, a crushing box gear 4-7, a hinged arm 4-8, a crushing box base 4-9, a crushing box ash outlet 4-10, a crushing box limiting base 4-11, a crushing box discharge outlet 4-12 and a crushing hammer supporting plate 4-13, wherein the crushing box 4 is internally welded with a crushing hammer supporting plate 4-13, the crushing hammer supporting plate 4-13 is provided with a hole, the inside of the hole of the crushing hammer supporting plate 4-13 is connected with the supporting arm 4-4 in a sliding manner, the supporting arm 4-4 is provided with a supporting arm spring 4-5, and the supporting arm 4-4 is welded with a spring limiting block 4-6, the lower end of the spring limiting block 4-6 is welded with a supporting arm spring 4-5, the lower end of the supporting arm 4-4 is welded with a breaking hammer 4-1, breaking teeth 4-2 are welded on the breaking hammer 4-1, a hinged plate 4-3 is welded on the breaking hammer 4-1, a hinged arm 4-8 is hinged on the hinged plate 4-3, a breaking box gear 4-7 is rotatably connected to the inside of the breaking box 4, a hinged arm 4-8 is hinged on the breaking box gear 4-7, a breaking box base 4-9 is welded on the breaking box 4, a breaking box ash outlet 4-10 is welded at the right end of the breaking box 4, a breaking box limiting base 4-11 is welded on the inside of the breaking box 4, and a breaking box discharge port 4-12 is arranged on the breaking box limiting base 4-11.

The exhaust box 5 is provided with a turbine 5-1, an exhaust pipe 5-2, an air inlet pipe 5-3, a dust nozzle 5-4, a filter screen 5-5, a filter screen support column 5-6 and an exhaust box ash outlet 5-7, the turbine 5-1 is welded in the exhaust box 5, the exhaust pipe 5-2 is connected on the turbine 5-1, the air inlet pipe 5-3 is connected at the left end of the turbine 5-1, the dust nozzle 5-4 is welded on the exhaust pipe 5-2, the filter screen 5-5 is arranged in the exhaust box 5, the filter screen support column 5-6 is welded on the filter screen 5-5, and the exhaust box ash outlet 5-7 is arranged at the lower end of the exhaust box 5.

The filter box 6 is provided with a filter box ash outlet 6-1, filter liquor 6-2, a filter box air outlet 6-3 and a filter liquor discharge port 6-4, the filter box ash outlet 6-1 is welded inside the filter box 6, the filter liquor 6-2 is arranged inside the filter box 6, the filter box ash outlet 6-1 is immersed inside the filter liquor 6-2, the filter box 6 is welded with the filter box air outlet 6-3, and the filter liquor discharge port 6-4 is welded at the lower end of the filter box 6.

The Y-shaped pipe 7 is provided with a feeding hole I7-1, a feeding hole II 7-2 and a Y-shaped pipe discharging hole 7-3, the left end of the Y-shaped pipe 7 is provided with the feeding hole I7-1, the right end of the Y-shaped pipe 7 is provided with the feeding hole II 7-2, and the lower end of the Y-shaped pipe 7 is provided with the Y-shaped pipe discharging hole 7-3.

The crushing box 8 is provided with a crushing box slide 8-1, a gear ring 8-2, a gear ring sliding column 8-3, a sector gear 8-4, a sector gear belt 8-5, a sector gear motor 8-6, a crushing box motor base 8-7, a crushing box motor 8-8, a crushing box rotating shaft 8-9, a crushing box spiral reamer 8-10, a crushing box limiting base 8-11, a crushing box feeding port 8-12, a crushing box crushing cone 8-13, a crushing box discharging port 8-14 and a crushing box filtering plate 8-15, the crushing box 8 is internally provided with a crushing box slide 8-1, the gear ring 8-2 is welded with the gear ring sliding column 8-3, the crushing box 8 is slidably connected with the gear ring sliding column 8-3, the crushing box 8 is internally rotatably connected with the sector gear 8-4, a sector gear 8-4 is meshed with teeth on the inner side of a gear ring 8-2, a sector gear belt 8-5 is arranged on the sector gear 8-4, a sector gear motor 8-6 is fixed at the left end of a crushing box 8, a belt pulley is arranged on the sector gear motor 8-6, a sector gear belt 8-5 is arranged on the belt pulley of the sector gear motor 8-6, a crushing box motor base 8-7 is connected on a crushing box slideway 8-1 in a sliding manner, a gear ring sliding column 8-3 is welded at the left end of the crushing box motor base 8-7, a crushing box motor 8-8 is arranged on the crushing box motor base 8-7, a crushing box rotating shaft 8-9 is connected on the crushing box motor 8-8, a crushing box spiral reamer 8-10 is welded on the crushing box rotating shaft 8-9, the right end of the crushing box rotating shaft 8-9 is welded with a crushing box crushing cone 8-13, the inside of the crushing box 8 is welded with a crushing box limiting base 8-11, the crushing box 8 is welded with a crushing box feeding hole 8-12, the right end of the crushing box 8 is welded with a crushing box discharging hole 8-14, and the inside of the crushing box discharging hole 8-14 is welded with a crushing box filtering plate 8-15.

The screening box 2 is welded inside the box body 1, the magnetic feeding box 3 is welded inside the box body 1, a screening box feeding port 2-3 is welded on a magnetic feeding box discharging port 3-10, a crushing box base 4-9 is welded inside the box body 1, a crushing box 4 is welded on a large stone discharging port 2-8, an air discharging box 5 is welded inside the box body 1, a crushing box ash discharging port 4-10 is welded on an air inlet pipe 5-3, a filtering box 6 is welded inside the box body 1, a filtering box ash discharging port 6-1 is welded on an air discharging box ash discharging port 5-7, a Y-shaped pipe 7 is welded inside the box body 1, a small stone head discharging port 2-10 is welded on a feeding port I7-1, a crushing box discharging port 4-12 is welded on a feeding port II 7-2, a crushing box 8 is welded inside the box body 1, and a Y-shaped pipe discharging port 7-3 is welded on the crushing box 8.

The second embodiment is as follows:

the following describes the embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the embodiment further describes the embodiment, where the number of the electromagnetic box 3-1, the electromagnetic box baffle 3-2, the iron core 3-3, the coil 3-4, the support arm 4-4, the support arm spring 4-5, and the spring stopper 4-6 is two.

The third concrete implementation mode:

The present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment will further describe the first embodiment in which the crushing box motor 8-8, the crushing box rotating shaft 8-9, the crushing box helical reamer 8-10 and the crushing box crushing cone 8-13 are concentric.

The fourth concrete implementation mode:

The present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the first embodiment will be further described, in which the box body 1, the sieving box 2, the magnetic feeding box 3, the crushing box 4, the exhaust box 5, the filtering box 6, the Y-shaped pipe 7, and the crushing box 8 are made of stainless steel.

the fifth concrete implementation mode:

The present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, in which the rotating rollers 3-7, the crushing box gears 4-7, and the turbine 5-1 are provided with a matching motor.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the first embodiment will be further described, in which the sector gear belt 8-5 is made of rubber.

The working principle of the invention is as follows:

A stone breaking device for an ore factory is characterized in that waste stones are thrown into and fall into a feeding limiting ring 3-6 through a feeding port 3-5 of a magnetic feeding box, a motor rotates to drive a rotating roller 3-7 to rotate, the rotating roller 3-7 rotates to drive a shifting plate 3-8 to rotate, the shifting plate 3-8 rotates to drive the waste stones which slide in to rotate, an iron core 3-3 is electrified to enable a coil 3-4 to generate magnetic force, the coil 3-4 generates magnetic force to suck out magnetic substances in the waste stones in the feeding limiting ring 3-6 through holes in the upper end of the feeding limiting ring 3-6, the influence of the magnetic substances on the crushing of the waste stones is avoided, the waste stones are prevented from entering too much when the waste stones are poor due to the rotation of the shifting plate 3-8, and the waste stones are driven by the shifting plate 3-8 to fall into the bottom of the magnetic feeding limiting ring 3-6 through a discharging port in the lower end of the feeding limiting ring 3-6 The waste rocks gather towards the middle through the limiting action of a limiting base 3-9 of the magnetic feeding box and slide to the inside of the screening box 2 through a discharging port 3-10 of the magnetic feeding box, the screening box motor 2-2 rotates to drive the rotating shaft 2-6 of the screening box to rotate, the rotating shaft 2-6 of the screening box drives the spiral fan blade 2-7 of the screening box to rotate, the spiral fan blade 2-7 of the screening box rotates to drive the sliding waste rocks to move rightwards to the inside of the screening barrel 2-4 and drive the waste rocks to rotate, small waste rocks are thrown out through the screening barrel holes 2-5 at the upper end of the screening barrel 2-4 when rotating and fall to the bottom of the screening box 2, slide out through a small stone head discharging port 2-10 and enter a feeding port I7-1 and slide to the inside of a crushing box 8 through a Y-shaped pipe 7-3 to be crushed, the spiral fan blades 2-7 of the screening box rotate to drive large waste stones to be pushed rightwards to push out the large waste stones to fall into the crushing box 4 through the large stone discharge port 2-8, the crushing box gears 4-7 are driven to rotate by the rotation of a motor, the hinged arms 4-8 are driven to rotate by the rotation of the crushing box gears 4-7, the crushing hammer 4-1 is driven to move downwards by the rotation of the hinged arms 4-8 under the limiting action of the supporting arms 4-4, the crushing hammer 4-1 moves downwards to drive the supporting arms 4-4 to move downwards and compress the supporting arm springs 4-5, when the supporting arms 4-4 rotate to the lowest point by the rotation of the crushing box gears 4-7, the crushing box gears 4-7 rotate to drive the supporting arms 4-4 to move upwards, the supporting arms 4-4 move upwards to pull, meanwhile, the spring limiting block 4-6 is pushed upwards under the action of the supporting arm spring 4-5, the spring limiting block 4-6 moves upwards to drive the supporting arm 4-4 to slide upwards on the breaking hammer supporting plate 4-13, the supporting arm 4-4 slides upwards to drive the breaking hammer 4-1 to move upwards, the supporting arm 4-4 and the supporting arm spring 4-5 play a role in assisting lifting and limiting, the breaking hammer 4-1 moves upwards and downwards to drive the breaking teeth 4-2 to break large broken stones in the breaking box 4, the broken small broken stones slide into the feeding hole II 7-2 through the discharging hole 4-12 of the breaking box and slide into the crushing box 8 through the discharging hole 7-3 of the Y-shaped pipe to be crushed, and the crushing box 4 can preliminarily break large waste stones to increase the crushing effect during crushing, the crushing box 4 can generate a large amount of dust when crushed gravels are smashed, the turbine 5-1 is driven to rotate by the rotation of the motor, the turbine 5-1 rotates to generate suction force to pump out the dust in the crushing box 4 through the ash outlet 4-10 of the crushing box and enter the turbine 5-1 through the air inlet pipe 5-3, the dust is discharged into the dust nozzle 5-4 through the exhaust pipe 5-2 by the rotation of the turbine 5-1, the dust is sprayed out through the dust nozzle 5-4, the dust is filtered by the filter screen 5-5 to remove larger particles and then discharged into the ash outlet 6-1 of the filter box through the ash outlet 5-7 of the exhaust box, the dust is sprayed out through the ash outlet 6-1 of the filter box and filtered by the filter liquid 6-2 to precipitate the dust to the bottom of the filter liquid 6-2, and the gas is discharged through the air outlet 6-3 of the filter box, when the filtered liquid 6-2 is saturated with dust, the filtered liquid 6-2 can be discharged through the filtered liquid discharge port 6-4 for replacement, thereby solving the problems that the dust generates a large amount of dust to affect the health of a user and the dust explosion is avoided, the sector gear motor 8-6 rotates to drive the sector gear belt 8-5 to rotate clockwise, the sector gear belt 8-5 rotates clockwise to drive the sector gear 8-4 to rotate clockwise, the sector gear 8-4 rotates clockwise to drive the meshed gear ring 8-2 to move rightwards, when the sector gear 8-4 rotates clockwise to separate and mesh with the teeth at the upper end of the gear ring 8-2, the sector gear 8-4 rotates to mesh with the teeth at the lower end of the gear ring 8-2, the sector gear 8-4 rotates to drive the gear ring 8-2 to move leftwards, the sector gear 8-4 continuously rotates to drive the gear ring 8-2 to reciprocate left and right, the gear ring 8-2 reciprocates left and right to drive the crushing box motor base 8-7 to slide left and right on the crushing box slideway 8-1, the crushing box motor 8-8 rotates to drive the crushing box rotating shaft 8-9 to rotate, the crushing box rotating shaft 8-9 rotates to drive the crushing box spiral reamer 8-10 to rotate, the crushing box spiral reamer 8-10 rotates to stir the small waste stone blocks which slide in into powder, the crushing box motor base 8-7 moves left and right to drive the crushing box motor 8-8 to move left and right, the crushing box motor 8-8 moves left and right to drive the crushing box rotating shaft 8-9 to move left and right, the crushing box rotating shaft 8-9 moves left and right to drive the crushing box crushing cone 8-13 to move, the crushing cone 8-13 of the crushing box moves left and right to continuously smash the small waste stone blocks into powder by the auxiliary spiral reamer 8-10 of the crushing box, the limit base 8-11 of the crushing box ensures that the waste stone blocks are continuously gathered towards the middle to be crushed more finely, the crushed stone powder is pushed rightwards by the spiral reamer 8-10 of the crushing box to be discharged after being filtered by the filter 8-15 of the crushing box welded inside the discharge port 8-14 of the crushing box, the finished product can be collected, the filter 8-15 of the crushing box plays a role in preventing the large crushed stone blocks which are not smashed into powder from being discharged through the discharge port 8-14 of the crushing box, the problem that the waste stone processing factory needs to process the waste stone blocks into fine sand or small crushed stone blocks for use or sale is solved, the existing waste stone crushing device has a simple structure and has poor crushing effect and uneven size of the crushed stone, and the problem that the existing waste rock crushing device can generate a large amount of dust when crushing, and operators can inhale too much dust to cause harm to bodies and also easily generate dust explosion danger.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides an ore mill uses rubble device, includes box (1), divides sieve case (2), magnetism feeding case (3), broken case (4), exhaust case (5), rose box (6), Y venturi tube (7), smashes case (8), its characterized in that: the screening box (2) is provided with a screening box motor base (2-1), a screening box motor (2-2), a screening box feeding port (2-3), a screening barrel (2-4), screening barrel holes (2-5), a screening box rotating shaft (2-6), screening box spiral fan blades (2-7), a large stone discharging port (2-8), a screening box limiting base (2-9) and a small stone discharging port (2-10), the screening box motor base (2-1) is welded inside the screening box (2), the screening box motor base (2-1) is provided with a screening box motor (2-2), the screening box feeding port (2-3) is welded on the screening box (2), the screening barrel (2-4) is welded inside the screening box (2), and the screening barrel holes (2-5) are arranged on the screening barrel (2-4), a screening box rotating shaft (2-6) is rotatably connected inside the screening barrel (2-4), a screening box spiral fan blade (2-7) is arranged on the screening box rotating shaft (2-6), a screening box rotating shaft (2-6) is connected on the screening box motor (2-2), a large stone discharge port (2-8) is welded at the right end of the screening barrel (2-4), a screening box limiting base (2-9) is welded inside the screening box (2), and a small stone discharge port (2-10) is welded at the lower end of the screening box (2);

An electromagnetic box (3-1), an electromagnetic box baffle (3-2), an iron core (3-3), a coil (3-4), a magnetic feeding box feeding port (3-5), a feeding limiting ring (3-6), a rotating roller (3-7), a material shifting plate (3-8), a magnetic feeding box limiting base (3-9) and a magnetic feeding box discharging port (3-10) are arranged on the magnetic feeding box (3), the electromagnetic box (3-1) is welded inside the magnetic feeding box (3-1), the electromagnetic box baffle (3-2) is welded inside the electromagnetic box (3-1), the iron core (3-3) is welded inside the electromagnetic box (3-1), the coil (3-4) is wound on the iron core (3-3), the magnetic feeding box (3) is welded with the magnetic feeding box (3-5), a feeding limiting ring (3-6) is welded at the lower end of a feeding hole (3-5) of the magnetic feeding box, a rotating roller (3-7) is rotatably connected inside the magnetic feeding box (3), a kickoff plate (3-8) is welded on the rotating roller (3-7), a limiting base (3-9) of the magnetic feeding box is welded inside the magnetic feeding box (3), and a discharging hole (3-10) of the magnetic feeding box is welded at the lower end of the magnetic feeding box (3);

The crushing box (4) is provided with a crushing hammer (4-1), crushing teeth (4-2), a hinged disc (4-3), a supporting arm (4-4), a supporting arm spring (4-5), a spring limiting block (4-6), a crushing box gear (4-7), a hinged arm (4-8), a crushing box base (4-9), a crushing box ash outlet (4-10), a crushing box limiting base (4-11), a crushing box discharge outlet (4-12) and a crushing hammer supporting plate (4-13), the crushing hammer supporting plate (4-13) is welded in the crushing box (4), a hole is formed in the crushing hammer supporting plate (4-13), the supporting arm (4-4) is connected in the hole of the crushing hammer supporting plate (4-13) in a sliding manner, the supporting arm spring (4-5) is arranged on the supporting arm (4-4), a spring limiting block (4-6) is welded on the supporting arm (4-4), a supporting arm spring (4-5) is welded at the lower end of the spring limiting block (4-6), a breaking hammer (4-1) is welded at the lower end of the supporting arm (4-4), breaking teeth (4-2) are welded on the breaking hammer (4-1), a hinged disc (4-3) is welded on the breaking hammer (4-1), a hinged arm (4-8) is hinged on the hinged disc (4-3), a breaking box gear (4-7) is rotatably connected inside the breaking box (4), a hinged arm (4-8) is hinged on the breaking box gear (4-7), a breaking box base (4-9) is welded on the breaking box (4), and a breaking box ash outlet (4-10) is welded at the right end of the breaking box (4), a crushing box limiting base (4-11) is welded inside the crushing box (4), and a crushing box discharging port (4-12) is arranged on the crushing box limiting base (4-11);

The exhaust box (5) is provided with a turbine (5-1), an exhaust pipe (5-2), an air inlet pipe (5-3), a dust nozzle (5-4), a filter screen (5-5), a filter screen support column (5-6) and an exhaust box dust outlet (5-7), a turbine (5-1) is welded inside the exhaust box (5), an exhaust pipe (5-2) is connected to the turbine (5-1), an air inlet pipe (5-3) is connected to the left end of the turbine (5-1), a dust nozzle (5-4) is welded on the exhaust pipe (5-2), a filter screen (5-5) is arranged inside the exhaust box (5), a filter screen support column (5-6) is welded on the filter screen (5-5), and an exhaust box dust outlet (5-7) is arranged at the lower end of the exhaust box (5);

The filter box (6) is provided with a filter box ash outlet (6-1), a filter liquid (6-2), a filter box air outlet (6-3) and a filter liquid discharge port (6-4), the filter box ash outlet (6-1) is welded inside the filter box (6), the filter liquid (6-2) is arranged inside the filter box (6), the filter box ash outlet (6-1) is immersed inside the filter liquid (6-2), the filter box air outlet (6-3) is welded on the filter box (6), and the filter liquid discharge port (6-4) is welded at the lower end of the filter box (6);

A feeding hole I (7-1), a feeding hole II (7-2) and a Y-shaped pipe discharging hole (7-3) are formed in the Y-shaped pipe (7), the feeding hole I (7-1) is formed in the left end of the Y-shaped pipe (7), the feeding hole II (7-2) is formed in the right end of the Y-shaped pipe (7), and the Y-shaped pipe discharging hole (7-3) is formed in the lower end of the Y-shaped pipe (7);

A crushing box slide way (8-1), a gear ring (8-2), a gear ring sliding column (8-3), a sector gear (8-4), a sector gear belt (8-5), a sector gear motor (8-6), a crushing box motor base (8-7), a crushing box motor (8-8), a crushing box rotating shaft (8-9), a crushing box spiral reamer (8-10), a crushing box limiting base (8-11), a crushing box feed inlet (8-12), a crushing box crushing cone (8-13), a crushing box discharge outlet (8-14) and a crushing box filter plate (8-15) are arranged on the crushing box (8), a crushing box slide way (8-1) is arranged inside the crushing box (8), and the gear ring sliding column (8-3) is welded on the gear ring (8-2), a gear ring sliding column (8-3) is connected on the crushing box (8) in a sliding manner, a sector gear (8-4) is rotatably connected inside the crushing box (8), the sector gear (8-4) is meshed with teeth on the inner side of the gear ring (8-2), a sector gear belt (8-5) is arranged on the sector gear (8-4), a sector gear motor (8-6) is fixed at the left end of the crushing box (8), a belt pulley is arranged on the sector gear motor (8-6), a sector gear belt (8-5) is arranged on the belt pulley of the sector gear motor (8-6), a crushing box motor base (8-7) is connected on the crushing box slide rail (8-1) in a sliding manner, the gear ring sliding column (8-3) is welded at the left end of the crushing box motor base (8-7), and a crushing box motor (8-8) is arranged on the crushing box motor base (8-7), a crushing box rotating shaft (8-9) is connected to a crushing box motor (8-8), a crushing box spiral reamer (8-10) is welded on the crushing box rotating shaft (8-9), a crushing box crushing cone (8-13) is welded at the right end of the crushing box rotating shaft (8-9), a crushing box limiting base (8-11) is welded inside the crushing box (8), a crushing box feeding hole (8-12) is welded on the crushing box (8), a crushing box discharging hole (8-14) is welded at the right end of the crushing box (8), and a crushing box filtering plate (8-15) is welded inside the crushing box discharging hole (8-14);

The inner welding of the box body (1) is provided with a sieve separating box (2), the inner welding of the box body (1) is provided with a magnetic feeding box (3), the discharge port (3-10) of the magnetic feeding box is provided with a sieve separating box feeding port (2-3), the inner welding of the box body (1) is provided with a crushing box base (4-9), the discharge port (2-8) of a large stone is provided with a crushing box (4), the inner welding of the box body (1) is provided with an air discharging box (5), the air inlet pipe (5-3) is provided with a crushing box ash outlet (4-10), the inner welding of the box body (1) is provided with a filter box (6), the ash outlet (5-7) of the air discharging box is provided with a filter box ash outlet (6-1), the inner welding of the box body (1) is provided with a Y-shaped pipe (7), the feed port I (, a crushing box discharge port (4-12) is welded on the feed port II (7-2), a crushing box (8) is welded inside the box body (1), and a Y-shaped pipe discharge port (7-3) is welded on the feed port (8-12) of the crushing box.

2. The stone crushing apparatus for an ore plant according to claim 1, wherein: the electromagnetic box comprises an electromagnetic box body (3-1), an electromagnetic box baffle (3-2), an iron core (3-3), a coil (3-4), a support arm (4-4), a support arm spring (4-5) and a spring limiting block (4-6).

3. The stone crushing apparatus for an ore plant according to claim 1, wherein: the crushing box motor (8-8), the crushing box rotating shaft (8-9), the crushing box spiral reamer (8-10) and the crushing box crushing cone (8-13) share the same center line.

4. The stone crushing apparatus for an ore plant according to claim 1, wherein: the box body (1), the screening box (2), the magnetic feeding box (3), the crushing box (4), the air exhaust box (5), the filter box (6), the Y-shaped pipe (7) and the crushing box (8) are made of stainless steel.

5. The stone crushing apparatus for an ore plant according to claim 1, wherein: the rotating rollers (3-7), the crushing box gears (4-7) and the turbine (5-1) are provided with matched motors.

6. The stone crushing apparatus for an ore plant according to claim 1, wherein: the sector gear belt (8-5) is made of rubber.