CN112121891A

CN112121891A - Two-stage cleaning and crushing equipment

Info

Publication number: CN112121891A
Application number: CN202010939386.8A
Authority: CN
Inventors: 张素银
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2020-12-25

Abstract

The invention relates to crushing equipment, in particular to two-stage cleaning crushing equipment which comprises a rack mechanism, a passive screening mechanism and a two-stage air box mechanism, wherein the equipment can clean raw materials, can intermittently feed and simultaneously crush the raw materials, can screen the raw materials, can collect particle dust in finished materials, and is connected with the passive screening mechanism which is connected with the two-stage air box mechanism.

Description

Two-stage cleaning and crushing equipment

Technical Field

The invention relates to crushing equipment, in particular to two-stage cleaning crushing equipment.

Background

In smashing, often can produce a lot of dusts, often utilize independent dust remover to remove dust, the big but not good effect of power consumption, also not thorough to the processing of raw materials, so designed this kind of two-stage clearance crushing apparatus.

Disclosure of Invention

The invention mainly solves the technical problem of providing two-stage cleaning and crushing equipment, the equipment can clean raw materials, the equipment can intermittently feed and simultaneously crush the raw materials, the equipment can sieve the raw materials, and the equipment can collect particle dust in finished materials.

In order to solve the technical problem, the invention relates to crushing equipment, in particular to two-stage cleaning crushing equipment which comprises a rack mechanism, a passive screening mechanism and a two-stage air box mechanism.

The frame mechanism is connected with the passive screening mechanism and is connected with the secondary air box mechanism.

As a further optimization of the technical scheme, the rack mechanism of the two-stage cleaning and crushing equipment comprises a stepped square column, a sliding long seat with a rack, double semicircular bulges, a stepped round seat, a waist groove, a special-shaped arm, a connecting shaft, a pulley, a hinged support, a force transmission arm, a motor seat, a bearing seat, an air suction opening, a feed inlet, a belt support box, a fixed block, a spring, a square hole, a gear, a movable plate with a shaft and a crushing wheel with a shaft, wherein the stepped square column is connected with the fixed block, the stepped square column is connected with the square hole in a sliding way, the square hole is arranged on the sliding long seat with the rack, the double semicircular bulges are arranged on the sliding long seat with the rack, the sliding long seat with the rack is connected with the stepped round seat in a sliding way, the waist groove is arranged on the special-shaped arm, the special-shaped arm is connected with the connecting shaft, the connecting shaft is connected with the belt support box in a rotating way, the transmission arm is hinged with the hinged support, the hinged support is arranged on the belt support box, the motor seat is connected with the belt support box, the bearing seat is connected with the belt support box, the suction opening is arranged on the belt support box, the feed inlet is arranged on the belt support box, the fixing block is arranged on the belt support box, the spring is sleeved on the step square column, two ends of the spring are abutted on the fixing block and the long sliding seat with the rack, the gear is meshed with the long sliding seat with the rack, the gear is connected with the crushing wheel with the shaft, and the crushing wheel with the shaft is rotatably connected with the belt support box.

As a further optimization of the technical scheme, the passive screening mechanism of the two-stage cleaning and crushing device comprises a support base with a support, a slide bar, a reset spring, a sliding frame, a vibrating screening plate, a pulley seat, a pulley a, a discharge box and an unthreaded hole, wherein the support base with the support is connected with the support base with the support, the support base with the support is connected with the slide bar, the reset spring is sleeved on the slide bar, the unthreaded hole is formed in the sliding frame and is in sliding connection with the slide bar, the sliding frame is connected with the vibrating screening plate and is connected with the pulley seat, the pulley seat is in rotating connection with the pulley a, the pulley a is in contact with a long sliding seat with a rack, the discharge box is connected with the vibrating screening plate and the sliding frame, and two ends of the reset spring are respectively abutted against the support.

As a further optimization of the technical scheme, the two-stage air box mechanism of the two-stage cleaning and crushing equipment comprises a finished product suction pipe, a connecting box, a first-stage filter box, a cam shaft, a bearing seat A, a transmission belt, a second-stage filter box, an air outlet, a filter plate box, a filter plate groove, a filter plate, a communication pipe, a main air outlet pipe, a motor belt pulley, a wind wheel, a transmission belt pulley and a wind wheel A, wherein the finished product suction pipe is connected and communicated with the connecting box, the connecting box is connected and communicated with the first-stage filter box, the first-stage filter box is connected with a belt supporting box, the first-stage filter box and the second-stage filter box are both provided with the bearing seat A, the bearing seat A is rotatably connected with the cam shaft, the cam is connected with a force transmission arm, the second-stage filter box is connected with the belt supporting box, the air outlet is connected and communicated, the filter plate case links to each other and is linked together with main play tuber pipe, communicating pipe links to each other and is linked together with the second grade filter box, the motor links to each other with the motor cabinet, the motor links to each other with motor pulley, motor pulley and driving belt friction coupling, driving belt and driving belt pulley friction coupling, driving belt pulley links to each other with the camshaft, the wind wheel, wind wheel A all links to each other with the camshaft, the wind wheel setting is in the one-level filter box, wind wheel A sets up in the second grade filter box.

As a further optimization of the technical scheme, the two-stage cleaning and crushing equipment provided by the invention adopts high manganese steel as the material of the crushing wheel with the shaft.

The two-stage cleaning and crushing equipment has the beneficial effects that:

according to the two-stage cleaning and crushing equipment, the equipment can clean raw materials, the equipment can intermittently feed and simultaneously crush the raw materials, the equipment can sieve the raw materials, and the equipment can collect particle dust in finished materials.

Drawings

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

FIG. 1 is a schematic structural diagram of a two-stage cleaning and pulverizing apparatus according to the present invention.

FIG. 2 is a schematic structural diagram of a two-stage cleaning and pulverizing apparatus according to the present invention.

FIG. 3 is a schematic structural diagram III of a two-stage cleaning and pulverizing apparatus according to the present invention.

FIG. 4 is a schematic structural diagram of a two-stage cleaning and pulverizing apparatus of the present invention.

Fig. 5 is a first structural schematic diagram of a frame mechanism 1 of a two-stage cleaning and crushing device of the invention.

Fig. 6 is a second structural schematic diagram of the frame mechanism 1 of the two-stage cleaning and crushing device of the invention.

Fig. 7 is a third schematic structural diagram of the frame mechanism 1 of the two-stage cleaning and crushing device of the invention.

Fig. 8 is a fourth schematic structural diagram of the frame mechanism 1 of the two-stage cleaning and crushing device of the invention.

Fig. 9 is a fifth structural schematic diagram of the frame mechanism 1 of the two-stage cleaning and crushing device of the invention.

Fig. 10 is a first structural schematic diagram of the passive screening mechanism 2 of the two-stage cleaning and crushing device of the invention.

Fig. 11 is a schematic structural diagram of a passive screening mechanism 2 of a two-stage cleaning and pulverizing apparatus according to the present invention.

FIG. 12 is a first schematic structural view of a second stage bellows mechanism 3 of a two stage clean-up comminution apparatus in accordance with the invention.

FIG. 13 is a second schematic structural view of a second stage bellows mechanism 3 of a two stage clean-up crushing apparatus of the present invention.

FIG. 14 is a third schematic structural view of a second stage bellows mechanism 3 of a two stage clean-up comminution apparatus in accordance with the invention.

In the figure: a frame mechanism 1; 1-1 of a stepped square column; a sliding long seat 1-2 with a rack; 1-3 of double semicircular bulges; 1-4 of a stepped round seat; 1-5 parts of a waist groove; 1-6 of special-shaped arms; connecting shafts 1-7; 1-8 of pulleys; hinged supports 1-9; 1-10 parts of a transmission arm; 1-11 of a motor base; 1-12 of a bearing seat; 1-13 parts of an air suction opening; feed ports 1 to 14; 1-15 parts of a supporting box; 1-16 parts of a fixed block; springs 1-17; 1-18 parts of square hole; gears 1-19; movable plates 1-20 with shafts; crushing wheel with shaft 1-21; a passive screening mechanism 2; a base 2-1 with support legs; 2-2 of a slide bar; 2-3 of a return spring; 2-4 of a sliding frame; 2-5 of a vibrating screening plate; 2-6 pulley seats; pulley A2-7; 2-8 parts of a discharging box; 2-9 of a light hole; a secondary bellows mechanism 3; a finished product suction pipe 3-1; a connecting box 3-2; 3-3 of a primary filter box; 3-4 of a cam; 3-5 parts of a camshaft; bearing seat A3-6; 3-7 parts of a transmission belt; 3-8 parts of a secondary filter box; 3-9 of air outlet; 3-10 parts of a filter plate box; 3-11 parts of filter plate grooves; 3-12 parts of filter plates; communicating pipes 3-13; 3-14 parts of a main air outlet pipe; 3-15 of a motor; 3-16 motor belt pulleys; 3-17 parts of wind wheel; drive pulleys 3-18; wind wheel A3-19.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present invention relates to a crushing apparatus, and more specifically, to a two-stage cleaning crushing apparatus, which includes a frame mechanism 1, a passive screening mechanism 2, and a two-stage bellows mechanism 3, and is capable of cleaning a raw material, intermittently feeding and simultaneously crushing the raw material, screening the raw material, and collecting particulate dust in a finished product.

The frame mechanism 1 is connected with the passive screening mechanism 2, and the frame mechanism 1 is connected with the secondary air box mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the rack mechanism 1 includes a stepped square column 1-1, a sliding long seat with a rack 1-2, a double semicircular projection 1-3, a stepped circular seat 1-4, a waist groove 1-5, a special-shaped arm 1-6, a connecting shaft 1-7, a pulley 1-8, a hinged support 1-9, a force transmission arm 1-10, a motor seat 1-11, a bearing seat 1-12, an air suction opening 1-13, a feed opening 1-14, a supporting box with a support 1-15, a fixed block 1-16, a spring 1-17, a square hole 1-18, a gear 1-19, a gear 1-12, a suction opening, A movable plate 1-20 with a shaft, a crushing wheel 1-21 with a shaft, a step square column 1-1 connected with a fixed block 1-16, a step square column 1-1 connected with a square hole 1-18 in a sliding way, a square hole 1-18 arranged on a long sliding seat 1-2 with a rack, a double semicircular bulge 1-3 arranged on the long sliding seat 1-2 with a rack, a long sliding seat 1-2 with a rack connected with a step round seat 1-4, a step round seat 1-4 connected with a waist groove 1-5 in a sliding way, a waist groove 1-5 arranged on a special-shaped arm 1-6, a special-shaped arm 1-6 connected with a connecting shaft 1-7, a connecting shaft 1-7 connected with a supporting box 1-15 in a rotating way, a pulley 1-8 connected with the special-shaped arm 1-6 in a rotating way, a pulley 1-8 contacted with a force transmission arm 1-10, the transmission arm 1-10 is hinged with the hinged support 1-9, the hinged support 1-9 is arranged on the belt support box 1-15, the motor seat 1-11 is connected with the belt support box 1-15, the bearing seat 1-12 is connected with the belt support box 1-15, the air suction opening 1-13 is arranged on the belt support box 1-15, the feed opening 1-14 is arranged on the belt support box 1-15, the fixed block 1-16 is arranged on the belt support box 1-15, the spring 1-17 is sleeved on the step square column 1-1, the two ends of the spring 1-17 are supported on the fixed block 1-16 and the sliding long seat 1-2 with the rack, the gear 1-19 is meshed with the sliding long seat 1-2 with the rack, the gear 1-19 is connected with the crushing wheel 1-21 with the shaft, the crushing wheel 1-21 with the shaft is rotatably connected with the belt support box 1-15, the cam shaft 3-5 can drive the cam 3-4 to rotate, the cam 3-4 can drive the transmission arm 1-10 to reciprocate, the transmission arm 1-10 can drive the special-shaped arm 1-6 to reciprocate through the pulley 1-8, the special-shaped arm 1-6 can drive the long sliding seat 1-2 with the rack to reciprocate up and down through the waist groove 1-5, the long sliding seat 1-2 with the rack can drive the gear 1-19 to reciprocate, the gear 1-19 can drive the crushing wheel 1-21 with the shaft to reciprocate, the crushing wheel 1-21 with the shaft can crush the materials above, the materials can fall onto the movable plate 1-20 with the shaft after being added from the feed port 1-14, and the special-shaped arm 1-6 can drive the connecting shaft 1-7 to reciprocate during reciprocating swing, the connecting shaft 1-7 drives the movable plate 1-20 with the shaft to swing back and forth, so that the materials fall down intermittently for crushing.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the passive screening mechanism 2 includes a support box 2-1 with legs, a slide rod 2-2, a return spring 2-3, a sliding frame 2-4, a vibrating screening plate 2-5, a pulley seat 2-6, a pulley a2-7, a discharge box 2-8, and an optical aperture 2-9, the support box 1-15 is connected to the support box 2-1 with legs, the support box 2-1 with legs is connected to the slide rod 2-2, the return spring 2-3 is sleeved on the slide rod 2-2, the sliding frame 2-4 is provided with an optical aperture 2-9, and the optical aperture 2-9 is slidably connected to the slide rod 2-2, a sliding frame 2-4 is connected with a vibrating screening plate 2-5, a sliding frame 2-4 is connected with a pulley seat 2-6, the pulley seat 2-6 is rotatably connected with a pulley A2-7, the pulley A2-7 is contacted with a long sliding seat 1-2 with a rack, a discharge box 2-8 is connected with the vibrating screening plate 2-5 and the sliding frame 2-4, two ends of a return spring 2-3 are respectively supported on a base 2-1 with a supporting leg and the sliding frame 2-4, when the long sliding seat 1-2 with the rack reciprocates up and down, a double semicircular bulge 1-3 moves along with the return spring, the double semicircular bulge 1-3 pushes a pulley A2-7, the pulley A2-7 drives the sliding frame 2-4 to move, the sliding frame 2-4 extrudes the return spring 2-3 and then resets under the reset action of the return spring 2-3, this causes the vibrating sieving plate 2-5 to be in a reciprocating state, thereby completing sieving.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the present embodiment, where the secondary air box mechanism 3 includes a finished product suction pipe 3-1, a connection box 3-2, a primary filter box 3-3, a cam 3-4, a cam shaft 3-5, a bearing seat A3-6, a drive belt 3-7, a secondary filter box 3-8, an air outlet 3-9, a filter plate box 3-10, a filter plate tank 3-11, a filter plate 3-12, a communication pipe 3-13, a main air outlet pipe 3-14, a motor 3-15, a motor pulley 3-16, a wind wheel 3-17, a drive pulley 3-18, and a wind wheel A3-19, the finished product suction pipe 3-1 is connected and communicated with a connecting box 3-2, the connecting box 3-2 is connected and communicated with a primary filter box 3-3, the primary filter box 3-3 is connected with a supporting box 1-15, the primary filter box 3-3 and a secondary filter box 3-8 are both provided with a bearing seat A3-6, the bearing seat A3-6 is rotatably connected with a cam shaft 3-5, the cam shaft 3-5 is connected with a cam 3-4, the cam 3-4 is contacted with a transmission arm 1-10, the secondary filter box 3-8 is connected with the supporting box 1-15, an air outlet 3-9 is connected and communicated with a filter plate 3-10, the filter plate box 3-10 is provided with a filter plate groove 3-11, the filter plate groove 3-11 is connected with a filter plate 3-12 in a sliding way, the filter plate box 3-10 is connected and communicated with a main air outlet pipe 3-14, the communicating pipe 3-13 is connected and communicated with the main air outlet pipe 3-14, the communicating pipe 3-13 is connected and communicated with the secondary filter box 3-8, the motor 3-15 is connected with the motor base 1-11, the motor 3-15 is connected with the motor belt pulley 3-16, the motor belt pulley 3-16 is connected with the transmission belt 3-7 in a friction way, the transmission belt 3-7 is connected with the transmission belt pulley 3-18 in a friction way, the transmission belt pulley 3-18 is connected with the cam shaft 3-5, the wind wheel 3-17 and the wind wheel A3-19 are both connected with the cam shaft 3-5, the wind wheel 3-17 is arranged in the primary filter box 3-3, the wind wheel A3-19 is arranged in the secondary filter box 3-8, and the motor 3-15 operates to drive the motor belt pulley 3-16 to rotate, the motor belt pulley 3-16 drives the transmission belt pulley 3-18 to rotate through the transmission belt 3-7, the transmission belt pulley 3-18 drives the cam shaft 3-5 to rotate, the cam shaft 3-5 drives the wind wheel A3-19 to rotate, the wind wheel A3-19 forms negative pressure, under the drive of the negative pressure, impurities contained in materials fed from the feed inlet 1-14 are sucked into the secondary filter box 3-8 from the suction inlet 1-13, and then are filtered through the filter plate 3-12 from the communicating pipe 3-13 and the air outlet 3-9 and then are discharged.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes the first embodiment in which the material of the crushing wheel with shaft 1 to 21 is high manganese steel.

The working principle of the device is as follows: the equipment can clean raw materials, the motor 3-15 runs to drive the motor belt pulley 3-16 to rotate, the motor belt pulley 3-16 can drive the transmission belt pulley 3-18 to rotate through the transmission belt 3-7, the transmission belt pulley 3-18 can drive the cam shaft 3-5 to rotate, the cam shaft 3-5 can drive the wind wheel A3-19 to rotate, the wind wheel A3-19 can form negative pressure, under the drive of the negative pressure, impurities contained in materials fed from the feed inlet 1-14 can be sucked into the secondary filter box 3-8 from the suction inlet 1-13, and then are discharged from the communicating pipe 3-13 and the air outlet 3-9 after being filtered by the filter plate 3-12; the equipment can crush while feeding intermittently, a cam shaft 3-5 can drive a cam 3-4 to rotate, the cam 3-4 can drive a transmission arm 1-10 to swing in a reciprocating manner, the transmission arm 1-10 can drive a special-shaped arm 1-6 to swing in a reciprocating manner through a pulley 1-8, the special-shaped arm 1-6 can drive a long sliding seat 1-2 with a rack to move in a reciprocating manner up and down through a waist groove 1-5, the long sliding seat 1-2 with the rack can drive a gear 1-19 to rotate in a reciprocating manner, the gear 1-19 can drive a crushing wheel 1-21 with a shaft to rotate in a reciprocating manner, the crushing wheel 1-21 with the shaft can crush materials coming from the upper part, the materials can fall onto a movable plate 1-20 with the shaft after being added from a feeding port 1-14, and the special-shaped arm 1-6 can drive a connecting shaft 1-7 to rotate in a reciprocating manner, the connecting shaft 1-7 can drive the movable plate 1-20 with the shaft to do reciprocating swing, so that the materials fall down intermittently for crushing; the equipment can be used for screening, when the long sliding seat 1-2 with the rack reciprocates up and down, the double semicircular bulges 1-3 move along with the long sliding seat, the double semicircular bulges 1-3 push the pulley A2-7, the pulley A2-7 drives the sliding frame 2-4 to move, the sliding frame 2-4 extrudes the return spring 2-3 and then resets under the resetting action of the return spring 2-3, and thus the vibrating screening plate 2-5 can be in a reciprocating motion state, and screening is completed; the device can collect particle dust in finished product materials, negative pressure can be formed when the wind wheels 3-17 rotate to suck dust generated in finished product screening into the primary filter box 3-3 from the finished product suction pipe 3-1, and then the dust is collected into the main air outlet pipe 3-14 and discharged after being filtered.

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

1. The utility model provides a two-stage clearance crushing apparatus, includes rack mechanism (1), passive screening mechanism (2), second grade bellows mechanism (3), its characterized in that: the frame mechanism (1) is connected with the passive screening mechanism (2), and the frame mechanism (1) is connected with the secondary air box mechanism (3).

2. A two stage cleaning mill apparatus according to claim 1 characterised in that: the rack mechanism (1) comprises a step square column (1-1), a sliding long seat (1-2) with a rack, double semicircular bulges (1-3), a step round seat (1-4), a waist groove (1-5), special-shaped arms (1-6), a connecting shaft (1-7), pulleys (1-8), hinged supports (1-9), transmission arms (1-10), a motor seat (1-11), a bearing seat (1-12), an air suction opening (1-13), a feed inlet (1-14), a belt support box (1-15), a fixed block (1-16), springs (1-17), square holes (1-18), gears (1-19), a movable plate (1-20) with a shaft and a crushing wheel (1-21) with a shaft, wherein the step square column (1-1) is connected with the fixed block (1-16), the step square column (1-1) is connected with the square hole (1-18) in a sliding way, the square hole (1-18) is arranged on the long sliding seat (1-2) with the rack, the long sliding seat (1-2) with the rack is provided with double semicircular bulges (1-3), the long sliding seat (1-2) with the rack is connected with the step circular seat (1-4), the step circular seat (1-4) is connected with the waist groove (1-5) in a sliding way, the waist groove (1-5) is arranged on the special-shaped arm (1-6), the special-shaped arm (1-6) is connected with the connecting shaft (1-7), the connecting shaft (1-7) is rotationally connected with the supporting box (1-15) with the rack, the pulley (1-8) is rotationally connected with the special-shaped arm (1-6), the pulley (1-8) is contacted with the force transmission arm (1-10), the transmission arm (1-10) is hinged with the hinged support (1-9), the hinged support (1-9) is arranged on the belt support box (1-15), the motor seat (1-11) is connected with the belt support box (1-15), the bearing seat (1-12) is connected with the belt support box (1-15), the air suction opening (1-13) is arranged on the belt support box (1-15), the feed opening (1-14) is arranged on the belt support box (1-15), the fixed block (1-16) is arranged on the belt support box (1-15), the spring (1-17) is sleeved on the ladder square column (1-1), two ends of the spring (1-17) are propped against the fixed block (1-16) and the sliding long seat (1-2) with the rack, the gear (1-19) is meshed with the sliding long seat (1-2) with the rack, the gears (1-19) are connected with the crushing wheels (1-21) with shafts, and the crushing wheels (1-21) with shafts are rotationally connected with the supporting boxes (1-15).

3. A two stage cleaning mill apparatus according to claim 1 characterised in that: the passive screening mechanism (2) comprises a base (2-1) with supporting legs, a sliding rod (2-2), a reset spring (2-3), a sliding frame (2-4), a vibration screening plate (2-5), a pulley seat (2-6), a pulley A (2-7), a discharge box (2-8) and a unthreaded hole (2-9), wherein the base (2-1) with supporting legs is connected with the supporting box (1-15), the base (2-1) with supporting legs is connected with the sliding rod (2-2), the reset spring (2-3) is sleeved on the sliding rod (2-2), the sliding frame (2-4) is provided with the unthreaded hole (2-9), the unthreaded hole (2-9) is connected with the sliding rod (2-2) in a sliding manner, and the sliding frame (2-4) is connected with the vibration screening plate (2-5), the sliding frame (2-4) is connected with the pulley seat (2-6), the pulley seat (2-6) is rotatably connected with the pulley A (2-7), the pulley A (2-7) is in contact with the sliding long seat (1-2) with the rack, the discharging box (2-8) is connected with the vibrating screening plate (2-5) and the sliding frame (2-4), and two ends of the reset spring (2-3) are respectively abutted to the base (2-1) with the supporting leg and the sliding frame (2-4).

4. A two stage cleaning mill apparatus according to claim 1 characterised in that: the secondary air box mechanism (3) comprises a finished product suction pipe (3-1), a connecting box (3-2), a primary filter box (3-3), a cam (3-4), a cam shaft (3-5), a bearing seat A (3-6), a transmission belt (3-7), a secondary filter box (3-8), an air outlet (3-9), a filter plate box (3-10), a filter plate groove (3-11), a filter plate (3-12), a communicating pipe (3-13), a main air outlet pipe (3-14), a motor (3-15), a motor belt pulley (3-16), a wind wheel (3-17), a transmission belt pulley (3-18) and a wind wheel A (3-19), wherein the finished product suction pipe (3-1) is connected and communicated with the connecting box (3-2), the connecting box (3-2) is connected and communicated with the primary filter box (3-3), the primary filter box (3-3) is connected with the support box (1-15), the primary filter box (3-3) and the secondary filter box (3-8) are respectively provided with a bearing seat A (3-6), the bearing seats A (3-6) are rotatably connected with a cam shaft (3-5), the cam shaft (3-5) is connected with a cam (3-4), the cam (3-4) is contacted with a force transmission arm (1-10), the secondary filter box (3-8) is connected with the support box (1-15), an air outlet (3-9) is connected and communicated with the filter plate box (3-10), the filter plate box (3-10) is provided with a filter plate groove (3-11), the filter plate groove (3-11) is connected with a filter plate (3-12) in a sliding manner, the filter plate box (3-10) is connected and communicated with a main air outlet pipe (3-14), a communicating pipe (3-13) is connected and communicated with the main air outlet pipe (3-14), the communicating pipe (3-13) is connected and communicated with a secondary filter box (3-8), a motor (3-15) is connected with a motor base (1-11), the motor (3-15) is connected with a motor belt pulley (3-16), the motor belt pulley (3-16) is in friction connection with a transmission belt (3-7), the transmission belt (3-7) is in friction connection with a transmission belt pulley (3-18), the transmission belt pulley (3-18) is connected with a cam shaft (3-5), a wind wheel (3-17) and a wind wheel A (3-19) are both connected with the cam shaft (3-5), the wind wheel (3-17) is arranged in the primary filter box (3-3), the wind wheel A (3-19) is arranged in the secondary filter box (3-8).

5. A two stage cleaning and comminution apparatus as claimed in claim 2 in which: the material of the crushing wheel with the shaft (1-21) is high manganese steel.