CN111389562A

CN111389562A - Lamination grinding crushing apparatus

Info

Publication number: CN111389562A
Application number: CN202010307714.2A
Authority: CN
Inventors: 张彩霞
Original assignee: Individual
Current assignee: Henan National Coal Quality Inspection Center
Priority date: 2020-04-17
Filing date: 2020-04-17
Publication date: 2020-07-10
Anticipated expiration: 2040-04-17
Also published as: CN111389562B

Abstract

The invention relates to crushing equipment, in particular to laminating grinding crushing equipment which comprises a grinding actuating mechanism, a machine body mechanism and a dust falling mechanism, wherein the equipment can carry out laminating crushing and secondary crushing, the equipment can feed during crushing, the equipment can synchronously realize source dust removal, the equipment can carry out spray dust falling, the grinding actuating mechanism is connected with the machine body mechanism, the machine body mechanism is connected with the dust falling mechanism, and the dust falling mechanism is in contact with the grinding actuating mechanism.

Description

Lamination grinding crushing apparatus

Technical Field

The invention relates to crushing equipment, in particular to laminating grinding crushing equipment.

Background

In the field of cosmetic raw material crushing and grinding, the traditional crushing and grinding equipment has high power consumption, and particularly, the application of a ball mill in a grinding part can consume extremely high electric energy, and grinding balls are seriously abraded, so the laminated grinding and grinding equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the laminating grinding and crushing equipment, which can carry out laminating crushing and secondary crushing, feed can be carried out during crushing, source dust removal can be synchronously realized by the equipment, and spray dust reduction can be carried out by the equipment.

In order to solve the technical problems, the invention relates to a crushing device, in particular to a laminating grinding crushing device which comprises a grinding executing mechanism, a machine body mechanism and a dust falling mechanism, wherein the device can perform laminating crushing and secondary crushing, the device can feed during crushing, the device can synchronously realize source dust removal, and the device can perform spray dust falling.

Grinding actuating mechanism link to each other with the fuselage mechanism, the fuselage mechanism links to each other with dust fall mechanism, dust fall mechanism contacts with grinding actuating mechanism.

As a further optimization of the technical scheme, the grinding actuating mechanism of the laminating grinding and pulverizing equipment comprises a negative pressure wind wheel shaft, a negative pressure wind wheel, a belt pulley I, a shaft I, a belt pulley II, a transmission belt, a crushing wheel, a cam, a grinding arc-shaped hole, a laminating seat, a square column, a spring I, a square seat, a belt pulley III, a cam A, a cam shaft I, a coupling and a motor, wherein the negative pressure wind wheel shaft is connected with the negative pressure wind wheel, the negative pressure wind wheel shaft is connected with the belt pulley, the belt pulley is in friction connection with the belt, the belt is in friction connection with the belt pulley I, the belt pulley I is connected with the shaft I, the shaft I is connected with the belt pulley II, the belt pulley II is in friction connection with the transmission belt, the shaft I is connected with the crushing wheel, the shaft I is connected with the cam, the transmission belt is in friction connection, cam A contacts with the square seat, and the square seat links to each other with the square column, and the square column links to each other with the lamination seat, grinds the arc hole and sets up on the lamination seat, and camshaft I passes through the shaft coupling with the motor and links to each other.

As a further optimization of the technical scheme, the machine body mechanism of the laminating grinding and crushing equipment comprises a base, a supporting leg I, a pressing sleeve, an air box, a crushing box, a passive crushing plate mechanism, an adjusting crushing plate mechanism, an embedded groove, a feeding hopper, a feeding hole, a matching square groove, a bearing seat I, a square hole, a secondary crushing box, a bearing seat II, an air suction pipe, a discharging pipe, a bearing seat A, a bearing seat B, a sliding square hole, a step groove I and a connecting port, wherein the base is connected with the supporting leg, the supporting leg is connected with the crushing box, the supporting leg I is connected with the base, the pressing sleeve is connected with the air box in a sliding manner, the supporting leg is connected with the crushing box, the crushing box is connected with the passive crushing plate mechanism, the passive crushing plate mechanism is connected with the adjusting crushing plate mechanism, the embedded groove is arranged on the feeding hole, the crushing box is provided with the matching square groove, bearing frame I links to each other with the crushing case, the square hole is opened on the crushing case, second grade crushing case is linked together through the connector with the crushing case, bearing frame II links to each other with second grade crushing case, axle I is connected for the bearing with bearing frame II's connected mode, the aspiration channel is linked together with the discharging pipe, the discharging pipe links to each other and is linked together with second grade crushing case, bearing frame A links to each other with bellows, negative pressure wind wheel axle is connected for the bearing with bearing frame A's connected mode, bearing frame B links to each other with bellows, the square hole that slides is opened on the crushing case, the square hole that slides is connected with passive crushing board mechanism sliding, ladder groove I is opened on the feeder hopper, square column and square hole sliding connection, spring I supports on the square seat, on the crushing case; the passive crushing plate mechanism comprises a passive sliding wedge block, a step groove II, a step groove III, a square column I, a spring A, a connecting seat I, a linkage door plate, a step strip sliding block and a step hole, wherein the passive sliding wedge block is arranged on the passive sliding wedge block, the step groove II is arranged on the passive sliding wedge block, the step groove III is arranged on the passive sliding wedge block, the square column I is connected with the passive sliding wedge block, the spring A is sleeved on the square column I, the spring A is abutted against the passive sliding wedge block and a crushing box, the sliding square hole is in sliding connection with the square column I, the passive sliding wedge block is arranged in the crushing box, the passive sliding wedge block is in sliding connection with the crushing box, the square column I is connected with the connecting seat I, the connecting seat I is connected with the linkage door plate, the step strip sliding block is arranged on the linkage door plate and is in sliding connection with the step groove I, the linkage door plate, the stepped hole is communicated with the stepped groove II; adjust broken plate mechanism and include that the ladder slides and supports, smash stripper plate, pneumatic cylinder, hydraulic stem, spacing slip ladder slider, the ladder slides and supports and smash the stripper plate and link to each other, smashes stripper plate and ladder groove III sliding connection, and the pneumatic cylinder setting is in the shoulder hole, and the hydraulic stem links to each other with the pneumatic cylinder, and the hydraulic stem links to each other with spacing slip ladder slider, spacing slip ladder slider and ladder groove II sliding connection.

As a further optimization of the technical scheme, the dust fall mechanism of the laminated grinding and crushing device comprises a water inlet, a water tank, a communicating pipe, a drawing box, a pressing seat, a sliding rod, a reset spring a, a unthreaded hole I, a water spraying pipe, a sprayer, a piston, a water inlet one-way valve and a water outlet one-way valve, wherein the water inlet is connected with the water tank, the water tank is connected with a secondary crushing box, the water tank is connected with the communicating pipe, the communicating pipe is connected with the drawing box, the pressing seat is connected with the sliding rod, the sliding rod is slidably connected with the unthreaded hole I, the unthreaded hole I is arranged on the drawing box, the reset spring a is sleeved on the sliding rod, the reset spring a abuts against the drawing box and the pressing seat, the drawing box is connected with the water spraying pipe, the water spraying pipe is connected with the sprayer, the water inlet one-way valve is arranged in the communicating pipe, the water outlet one-way valve is arranged.

As a further optimization of the technical scheme, when the piston of the laminating grinding and pulverizing equipment disclosed by the invention moves downwards, the water inlet one-way valve is closed, the water outlet one-way valve is opened, and when the piston moves upwards, the water inlet one-way valve is opened and the water outlet one-way valve is closed.

The laminating grinding and crushing equipment has the beneficial effects that:

according to the laminating grinding and crushing equipment, laminating crushing and secondary crushing can be performed, the equipment can feed materials during crushing, source dust removal can be synchronously realized, and spraying dust reduction can be performed.

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 a laminated grinding and pulverizing apparatus according to the present invention.

FIG. 2 is a schematic structural diagram of a laminating, grinding and pulverizing apparatus according to the present invention.

FIG. 3 is a third schematic structural view of a laminated abrasive pulverizing apparatus according to the present invention.

Fig. 4 is a first schematic structural diagram of a grinding actuator 1 of a laminated grinding and pulverizing apparatus according to the present invention.

Fig. 5 is a second schematic structural diagram of the grinding actuator 1 of the laminating grinding and pulverizing apparatus of the present invention.

Fig. 6 is a first structural schematic diagram of the body mechanism 2 of the laminated grinding and crushing device of the invention.

Fig. 7 is a second structural schematic diagram of the body mechanism 2 of the laminated grinding and pulverizing apparatus of the present invention.

Fig. 8 is a third schematic structural view of the body mechanism 2 of the laminated grinding and pulverizing apparatus of the present invention.

Fig. 9 is a fourth schematic structural view of the body mechanism 2 of the laminated grinding-pulverizing apparatus of the present invention.

FIG. 10 is a first schematic structural view of a passive crushing plate mechanism 2-7 of a laminated grinding and pulverizing apparatus according to the present invention.

FIG. 11 is a second schematic structural view of the passive crushing plate mechanism 2-7 of the laminated grinding and pulverizing apparatus of the present invention.

Fig. 12 is a schematic structural view of the adjusting crushing plate mechanism 2-8 of the laminated grinding and crushing equipment.

Fig. 13 is a schematic structural view of a dust fall mechanism 3 of a laminated grinding and pulverizing apparatus according to the present invention.

Fig. 14 is a schematic structural view of a dust fall mechanism 3 of a laminated grinding and pulverizing apparatus according to the present invention.

In the figure: a grinding actuator 1; 1-1 of a negative pressure wind wheel shaft; 1-2 parts of negative pressure wind wheel; 1-3 of belt pulleys; 1-4 parts of a belt; pulley I1-5; shaft I1-6; pulley II 1-7; 1-8 parts of a transmission belt; 1-9 parts of a crushing wheel; 1-10 parts of a cam; grinding the arc-shaped holes 1-11; 1-12 of a lamination base; 1-13 of square column; spring I1-14; 1-15 parts of square base; pulley III 1-16; cam a 1-17; a camshaft I1-18; 1-19 of a coupler; 1-20 of a motor; a body mechanism 2; a base 2-1; 2-2 parts of supporting legs; leg I2-3; 2-4 of a compression sleeve; 2-5 of an air box; 2-6 parts of a crushing box; a passive crushing plate mechanism 2-7; 2-7-1 of a passive sliding wedge block; a step groove II 2-7-2; the stepped groove III 2-7-3; square column I2-7-4; spring A2-7-5; connecting seat I2-7-6; 2-7-7 of a linkage door plate; 2-7-8 parts of a ladder bar sliding block; 2-7-9 of a stepped hole; adjusting the crushing plate mechanism 2-8; 2-8-1 of a ladder sliding support; crushing and extruding plates 2-8-2; 2-8-3 of a hydraulic cylinder; 2-8-4 parts of a hydraulic rod; 2-8-5 of a limiting sliding stepped sliding block; 2-9 of an embedded groove; 2-10 parts of a feed hopper; 2-11 parts of a feed inlet; 2-12 of a matching square groove; bearing seats I2-13; 2-14 parts of square holes; 2-15 parts of a secondary crushing box; bearing seats II 2-16; 2-17 parts of an air suction pipe; 2-18 parts of a discharge pipe; bearing seats A2-19; bearing seats B2-20; 2-21 parts of sliding square holes; the stepped groove I2-22; connecting ports 2-23; a dust falling mechanism 3; a water inlet 3-1; 3-2 of a water tank; communicating pipe 3-3; 3-4 of a drawing box; 3-5 of a pressing seat; 3-6 slide bars; a return spring A3-7; unthreaded hole I3-8; 3-9 parts of a water spraying pipe; 3-10 parts of a spray head; 3-11 parts of a piston; 3-12 parts of a water inlet one-way valve; and water outlet one-way valves 3-13.

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 laminated grinding and crushing apparatus, which includes a grinding actuator 1, a body mechanism 2, and a dust fall mechanism 3, and is capable of performing lamination crushing and secondary crushing, feeding during crushing, and simultaneously performing dust fall and dust removal from a source, and spraying.

Grind actuating mechanism 1 and fuselage mechanism 2 link to each other, fuselage mechanism 2 links to each other with dust fall mechanism 3, dust fall mechanism 3 contacts with grinding actuating mechanism 1.

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 grinding actuator 1 includes a negative pressure wind wheel shaft 1-1, a negative pressure wind wheel 1-2, a belt pulley 1-3, a belt pulley 1-4, a belt pulley I1-5, a shaft I1-6, a belt pulley II1-7, a driving belt 1-8, a crushing wheel 1-9, a cam 1-10, a grinding arc hole 1-11, a laminating seat 1-12, a square column 1-13, a spring I1-14, a square seat 1-15, a belt pulley III1-16, a cam a1-17, a cam shaft I1-18, a coupling 1-19, and a motor 1-20, the negative pressure wind wheel shaft 1-1 is connected with the negative pressure wind wheel 1-2, the negative pressure wind wheel shaft 1-1 is connected with the belt pulley 1-3, the belt pulley 1-3 is connected with the belt 1-4 in a friction mode, the belt 1-4 is connected with the belt pulley I1-5 in a friction mode, the belt pulley I1-5 is connected with the shaft I1-6, the shaft I1-6 is connected with the belt pulley II1-7, the belt pulley II1-7 is connected with the transmission belt 1-8 in a friction mode, the shaft I1-6 is connected with the crushing wheel 1-9, the shaft I1-6 is connected with the cam 1-10, the transmission belt 1-8 is connected with the belt pulley III1-16 in a friction mode, the belt pulley III1-16 is connected with the cam shaft I1-18, the cam shaft I1-18 is connected with the cam A1-17, the cam A1-17, the square base 1-15 is connected with the square column 1-13, the square column 1-13 is connected with the lamination base 1-12, the grinding arc-shaped hole 1-11 is arranged on the lamination base 1-12, and the cam shaft I1-18 is connected with the motor 1-20 through the coupler 1-19.

The third 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, fig. 14, and the present embodiment further describes the present embodiment, where the fuselage mechanism 2 includes a base 2-1, a leg 2-2, a leg I2-3, a pressing sleeve 2-4, a bellows 2-5, a crushing box 2-6, a passive crushing plate mechanism 2-7, an adjusting crushing plate mechanism 2-8, an embedded groove 2-9, a feed hopper 2-10, a feed inlet 2-11, a mating square groove 2-12, a bearing seat I2-13, a square hole 2-14, a secondary crushing box 2-15, a bearing seat II2-16, a suction pipe 2-17, a discharge pipe 2-18, a bearing seat a2-19, a bearing seat a, A bearing seat B2-20, a sliding square hole 2-21, a step groove I2-22 and a connecting port 2-23, wherein a base 2-1 is connected with a supporting leg 2-2, the supporting leg 2-2 is connected with a crushing box 2-6, a supporting leg I2-3 is connected with the base 2-1, a pressing sleeve 2-4 is connected with a bellows 2-5 in a sliding manner, the supporting leg 2-2 is connected with the crushing box 2-6, the crushing box 2-6 is connected with a passive crushing plate mechanism 2-7, the passive crushing plate mechanism 2-7 is connected with an adjusting crushing plate mechanism 2-8, an embedded groove 2-9 is arranged on a feed hopper 2-10, a feed port 2-11 is arranged on the crushing box 2-6, a matching square groove 2-12 is arranged on the crushing box 2-6, a laminating seat 1-12 is connected with a matching square groove 2-12 in a sliding manner, the bearing seat I2-13 is connected with the crushing box 2-6, the square hole 2-14 is opened on the crushing box 2-6, the second-stage crushing box 2-15 is communicated with the crushing box 2-6 through a connecting port 2-23, the bearing seat II2-16 is connected with the second-stage crushing box 2-15, the shaft I1-6 is connected with the bearing seat II2-16 by a bearing, the air suction pipe 2-17 is communicated with the air discharge pipe 2-18, the air discharge pipe 2-18 is connected and communicated with the second-stage crushing box 2-15, the bearing seat A2-19 is connected with the air box 2-5, the negative pressure air wheel shaft 1-1 is connected with the bearing seat A2-19 by a bearing, the bearing seat B2-20 is connected with the air box 2-5, the sliding square hole 2-21 is opened on the crushing box 2-6, the sliding square hole 2-21 is connected with the driven crushing plate mechanism 2-7 in a, the stepped groove I2-22 is arranged on the feed hopper 2-10, the square column 1-13 is connected with the square hole 2-14 in a sliding way, the spring I1-14 is abutted against the square seat 1-15 and the crushing box 2-6, the motor 1-20 is connected with the bearing seat I2-13, the belt pulley I1-5 is driven to rotate when the shaft I1-6 rotates, the belt pulley I1-5 rotates and drives the belt pulley 1-3 to rotate through the belt 1-4, the belt pulley 1-3 rotates and drives the negative pressure wind wheel 1-2 to rotate through the negative pressure wind wheel shaft 1-1, the negative pressure wind wheel 1-2 rotates to form negative pressure, the crushed material is discharged from the discharge pipe 2-18 under the driving of the negative pressure, and in the process, the dust contained in the material is directly sucked into the wind box 2-5 from the suction pipe 2-17, before the device is used, a cloth bag can be sleeved on the air box 2-5, and then the cloth bag is clamped on the air box 2-5 by the pressing sleeve 2-4, so that dust can be sucked into the cloth bag; the passive crushing plate mechanism 2-7 comprises a passive sliding wedge block 2-7-1, a step groove II2-7-2, a step groove III2-7-3, a square column I2-7-4, a spring A2-7-5, a connecting seat I2-7-6, a linkage door plate 2-7-7, a step strip sliding block 2-7-8 and a step hole 2-7-9, a passive sliding wedge block 2-7-1 is arranged on the passive sliding wedge block 2-7-1, a step groove II2-7-2 is arranged on the passive sliding wedge block 2-7-1, a step groove III2-7-3 is arranged on the passive sliding wedge block 2-7-1, a square column I2-7-4 is connected with the passive sliding wedge block 2-7-1, the spring A2-7-5 is sleeved on the square column I2-7-4, the spring A2-7-5 is abutted against the passive sliding wedge 2-7-1 and the crushing box 2-6, the sliding square hole 2-21 is in sliding connection with the square column I2-7-4, the passive sliding wedge 2-7-1 is arranged in the crushing box 2-6, the passive sliding wedge 2-7-1 is in sliding connection with the crushing box 2-6, the square column I2-7-4 is connected with the connecting seat I2-7-6, the connecting seat I2-7-6 is connected with the linkage door panel 2-7-7, the linkage door panel 2-7-7 is provided with the step bar sliding block 2-7-8, the step bar sliding block 2-7-8 is in sliding connection with the step groove I2-22, the linkage door plate 2-7-7 is connected with the embedded groove 2-9 in a sliding mode, the step hole 2-7-9 is formed in the driven sliding wedge block 2-7-1, and the step hole 2-7-9 is communicated with the step groove II 2-7-2; the adjusting crushing plate mechanism 2-8 comprises a step sliding support 2-8-1, a crushing extrusion plate 2-8-2, a hydraulic cylinder 2-8-3, a hydraulic rod 2-8-4 and a limiting sliding step slide block 2-8-5, wherein the step sliding support 2-8-1 is connected with the crushing extrusion plate 2-8-2, the crushing extrusion plate 2-8-2 is connected with a step groove III2-7-3 in a sliding manner, the hydraulic cylinder 2-8-3 is arranged in a step hole 2-7-9, the hydraulic rod 2-8-4 is connected with the hydraulic cylinder 2-8-3, the hydraulic rod 2-8-4 is connected with the limiting sliding step slide block 2-8-5, the limiting sliding step slide block 2-8-5 is connected with a step groove II2-7-2 in a sliding manner, the running motor 1-20 runs to drive the shaft coupling 1-19 to rotate, the shaft coupling 1-19 rotates to drive the cam shaft I1-18 to rotate, the cam shaft I1-18 rotates to drive the cam A1-17 to rotate, the cam A1-17 rotates to press the lower seat 1-15 downwards, the square seat 1-15 drives the square column 1-13 to move downwards, the square column 1-13 moves downwards to drive the laminating seat 1-12 to move downwards to drive the crushing and extruding plate 2-8-2 to slide relatively, meanwhile, the laminating seat 1-12 moves downwards to drive the driven sliding wedge block 2-7-1 to move towards two sides, the driven sliding wedge block 2-7-1 moves towards two sides to drive the connecting seat I2-7-6 to move through the square column I2-7-4, the connecting seat I2-7-6 moves to drive the linkage door plate 2-7-7 to move, the linkage door plate 2-7-7 moves outwards to enable the materials in the feed hopper 2-10 to lose the support of the linkage door plate 2-7-7, the materials move downwards to enter a sealing cavity formed by the laminating seat 1-12 and the crushing extrusion plate 2-8-2 from the feed inlet 2-11 to be subjected to extrusion laminating crushing, then rebound is performed under the rebound action of a spring I1-14, repeated laminating crushing is performed in the up-and-down reciprocating motion of the laminating seat 1-12, the crushing granularity can be adjusted through the hydraulic cylinder 2-8-3, hydraulic oil is injected into the hydraulic cylinder 2-8-3, and under the drive of the hydraulic oil, the hydraulic rod 2-8-4 pulls the limiting sliding stepped sliding block 2-8-5, the spacing sliding stepped slide block 2-8-5 can drive the crushing extrusion plate 2-8-2 to move, so that the distance between the crushing extrusion plate 2-8-2 and the laminating seat 1-12 is increased, thereby increasing the discharge particle size, the hydraulic oil is injected into the hydraulic cylinder 2-8-3 in reverse direction, so that the discharge particle size is reduced, as the driven sliding wedge block 2-7-1 moves towards two sides, the materials after the laminating crushing can slide out from the grinding arc-shaped holes 1-11 and enter the secondary crushing box 2-15 from the connecting port 2-23, the camshaft I1-18 can drive the belt pulley III1-16 to rotate when rotating, the belt pulley III1-16 can drive the belt pulley II1-7 to rotate through the transmission belt 1-8, the belt pulley II1-7 can drive the I moving shaft 1-6 to rotate, the rotation of the shaft I1-6 drives the crushing wheels 1-9 to rotate, and the crushing wheels 1-9 can perform secondary crushing on the materials entering the secondary crushing box 2-15 from the connecting ports 2-23 when rotating.

The fourth concrete implementation mode:

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 embodiment further describes the present embodiment, where the dust settling mechanism 3 includes a water inlet 3-1, a water tank 3-2, a communication pipe 3-3, a drawing tank 3-4, a pressing seat 3-5, a sliding rod 3-6, a return spring a3-7, a light hole I3-8, a water spray pipe 3-9, a nozzle 3-10, a piston 3-11, a water inlet check valve 3-12, and a water outlet check valve 3-13, the water inlet 3-1 is connected to the water tank 3-2, the water tank 3-2 is connected to the secondary crushing tank 2-15, the water tank 3-2 is connected to the communication pipe 3-3, the communicating pipe 3-3 is connected with the drawing box 3-4, the pressing seat 3-5 is connected with the sliding rod 3-6, the sliding rod 3-6 is connected with the unthreaded hole I3-8 in a sliding way, the unthreaded hole I3-8 is arranged on the drawing box 3-4, the reset spring A3-7 is sleeved on the sliding rod 3-6, the reset spring A3-7 is abutted against the drawing box 3-4 and the pressing seat 3-5, the drawing box 3-4 is connected with the spray pipe 3-9, the spray pipe 3-9 is connected with the spray head 3-10, the water inlet one-way valve 3-12 is arranged in the communicating pipe 3-3, the water outlet one-way valve 3-13 is arranged in the spray pipe 3-9, the piston 3-11 is connected with the sliding rod 3-6, the piston 3-11 is connected with the drawing box 3-4 in a sliding way, the cam 1-10 is driven to rotate in the rotating process of the shaft I1-6, the cams 1-10 rotate to drive the pressing seats 3-5 to reciprocate up and down through the cooperation with the return spring A3-7, the pressing seats 3-5 drive the sliding rods 3-6 to drive the pistons 3-11 to reciprocate up and down, when the piston 3-11 moves downwards, the pressure in the drawing box 3-4 is increased, so that the water inlet one-way valve 3-12 cannot be opened, water in the drawing box 3-4 can flush the water outlet one-way valve 3-13 and is sprayed out from the spray head 3-10, when the piston 3-11 moves upwards, the pressure in the drawing box 3-4 is reduced, the water outlet one-way valve 3-13 is closed, the water inlet one-way valve 3-12 is opened, water in the water tank 3-2 enters the drawing box 3-4, and the water inlet 3-1 of the device can be externally connected with a water pipe when the device is used.

The fifth concrete implementation mode:

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 embodiment further describes the present embodiment, in which the water inlet check valve 3-12 is closed and the water outlet check valve 3-13 is opened when the piston 3-11 moves downward, and the water inlet check valve 3-12 is opened and the water outlet check valve 3-13 is closed when the piston 3-11 moves upward.

The working principle of the device is as follows: the equipment can carry out lamination crushing and secondary crushing, the operation motor 1-20 operates to drive the shaft coupling 1-19 to rotate, the shaft coupling 1-19 rotates to drive the cam shaft I1-18 to rotate, the cam shaft I1-18 rotates to drive the cam A1-17 to rotate, the cam A1-17 rotates to press the lower base 1-15 downwards, the square base 1-15 drives the square column 1-13 to move downwards, the square column 1-13 moves downwards to drive the lamination base 1-12 to move downwards to drive the crushing extrusion plate 2-8-2 to slide relatively, meanwhile, the lamination base 1-12 moves downwards to drive the passive sliding wedge block 2-7-1 to move towards two sides, the passive sliding wedge block 2-7-1 moves towards two sides to drive the connecting base I2-7-6 to move through the square column I2-7-4, the connecting seat I2-7-6 moves to drive the linkage door plate 2-7-7 to move, the linkage door plate 2-7-7 moves outwards to enable the materials in the feed hopper 2-10 to lose the support of the linkage door plate 2-7-7, the materials move downwards to enter a sealing cavity formed by the laminating seat 1-12 and the crushing extrusion plate 2-8-2 from the feed inlet 2-11 to be subjected to extrusion laminating crushing, then rebound is performed under the rebound action of a spring I1-14, repeated laminating crushing is performed in the up-and-down reciprocating motion of the laminating seat 1-12, the crushing granularity can be adjusted through the hydraulic cylinder 2-8-3, hydraulic oil is injected into the hydraulic cylinder 2-8-3, and under the drive of the hydraulic oil, the hydraulic rod 2-8-4 pulls the limiting sliding stepped sliding block 2-8-5, the spacing sliding stepped slide block 2-8-5 can drive the crushing extrusion plate 2-8-2 to move, so that the distance between the crushing extrusion plate 2-8-2 and the laminating seat 1-12 is increased, thereby increasing the discharge particle size, the hydraulic oil is injected into the hydraulic cylinder 2-8-3 in reverse direction, so that the discharge particle size is reduced, as the driven sliding wedge block 2-7-1 moves towards two sides, the materials after the laminating crushing can slide out from the grinding arc-shaped holes 1-11 and enter the secondary crushing box 2-15 from the connecting port 2-23, the camshaft I1-18 can drive the belt pulley III1-16 to rotate when rotating, the belt pulley III1-16 can drive the belt pulley II1-7 to rotate through the transmission belt 1-8, the belt pulley II1-7 can drive the I moving shaft 1-6 to rotate, the shaft I1-6 rotates to drive the crushing wheels 1-9 to rotate, and when the crushing wheels 1-9 rotate, the materials entering the secondary crushing box 2-15 from the connecting ports 2-23 are crushed for the second time; the equipment can feed materials when the materials are crushed, the driven sliding wedge block 2-7-1 moves towards two sides and can drive the connecting seat I2-7-6 to move through the square column I2-7-4, the connecting seat I2-7-6 moves and can drive the linkage door plate 2-7-7 to move, the linkage door plate 2-7-7 moves towards the outside, so that the materials in the feed hopper 2-10 lose the support of the linkage door plate 2-7-7, and the materials move downwards and enter the crushing box 2-6 from the feed inlet 2-11 to be crushed; the equipment can synchronously realize source dust removal, a belt pulley I1-5 can be driven to rotate when a shaft I1-6 rotates, a belt pulley I1-5 can drive a belt pulley 1-3 to rotate through a belt 1-4, the belt pulley 1-3 can drive a negative pressure wind wheel 1-2 to rotate through a negative pressure wind wheel shaft 1-1, the negative pressure wind wheel 1-2 can rotate to form negative pressure, the crushed material can be discharged from a discharge pipe 2-18 outwards under the drive of the negative pressure, in the process, the negative pressure can directly suck dust contained in the material into an air box 2-5 from an air suction pipe 2-17, the equipment can sleeve a cloth bag on the air box 2-5 before use, and then the cloth bag is clamped on the air box 2-5 through a compression sleeve 2-4, so that dust can be sucked into the cloth bag; the device can perform spray dust settling, the cam 1-10 is driven to rotate in the rotation process of the shaft I1-6, the cam 1-10 rotates to drive the pressing seat 3-5 to reciprocate up and down through the cooperation with the reset spring A3-7, the pressing seat 3-5 drives the sliding rod 3-6 to drive the piston 3-11 to reciprocate up and down, the pressure in the drawing box 3-4 is increased when the piston 3-11 moves downwards, so that the water inlet one-way valve 3-12 cannot be opened, water in the drawing box 3-4 can flush the water outlet one-way valve 3-13 to be sprayed out from the spray head 3-10, the pressure in the drawing box 3-4 is reduced when the piston 3-11 moves upwards, the water outlet one-way valve 3-13 is closed, the water inlet one-way valve 3-12 is opened, water in the water tank 3-2 can enter the drawing tank 3-4, and the water inlet 3-1 of the equipment can be externally connected with a water pipe when the equipment is used.

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 lamination grinding crushing apparatus, includes grinding actuating mechanism (1), fuselage mechanism (2), dust fall mechanism (3), its characterized in that: grind actuating mechanism (1) and link to each other with fuselage mechanism (2), fuselage mechanism (2) link to each other with dust fall mechanism (3), dust fall mechanism (3) contact with grinding actuating mechanism (1).

2. A laminated abrasive comminution apparatus as claimed in claim 1 in which: the grinding actuating mechanism (1) comprises a negative pressure wind wheel shaft (1-1), a negative pressure wind wheel (1-2), a belt pulley (1-3), a belt (1-4), a belt pulley I (1-5), a shaft I (1-6), a belt pulley II (1-7), a transmission belt (1-8), a crushing wheel (1-9), a cam (1-10), a grinding arc-shaped hole (1-11), a laminating seat (1-12), a square column (1-13), a spring I (1-14), a square seat (1-15), a belt pulley III (1-16), a cam A (1-17), a cam shaft I (1-18), a coupler (1-19) and a motor (1-20), wherein the negative pressure wind wheel shaft (1-1) is connected with the negative pressure wind wheel (1-2), the negative pressure air wheel shaft (1-1) is connected with a belt pulley (1-3), the belt pulley (1-3) is connected with a belt (1-4) in a friction mode, the belt (1-4) is connected with a belt pulley I (1-5) in a friction mode, the belt pulley I (1-5) is connected with a shaft I (1-6), the shaft I (1-6) is connected with a belt pulley II (1-7), the belt pulley II (1-7) is connected with a transmission belt (1-8) in a friction mode, the shaft I (1-6) is connected with a crushing wheel (1-9), the shaft I (1-6) is connected with a cam (1-10), the transmission belt (1-8) is connected with a belt pulley III (1-16) in a friction mode, the belt pulley III (1-16) is connected with a cam shaft I (1-18), the cam shaft I (1-18) is connected with a cam A (1-17), the cam A (1-17) is in contact with the square base (1-15), the square base (1-15) is connected with the square column (1-13), the square column (1-13) is connected with the laminating base (1-12), the grinding arc-shaped hole (1-11) is formed in the laminating base (1-12), and the cam shaft I (1-18) is connected with the motor (1-20) through the coupler (1-19).

3. A laminated abrasive comminution apparatus as claimed in claim 1 in which: the machine body mechanism (2) comprises a base (2-1), supporting legs (2-2), supporting legs I (2-3), a pressing sleeve (2-4), an air box (2-5), a crushing box (2-6), a passive crushing plate mechanism (2-7), an adjusting crushing plate mechanism (2-8), an embedded groove (2-9), a feeding hopper (2-10), a feeding port (2-11), a matching square groove (2-12), a bearing seat I (2-13), a square hole (2-14), a secondary crushing box (2-15), a bearing seat II (2-16), an air suction pipe (2-17), a discharging pipe (2-18), a bearing seat A (2-19), a bearing seat B (2-20), a sliding square hole (2-21), a stepped groove I (2-22), A connecting port (2-23), a base (2-1) is connected with a supporting leg (2-2), the supporting leg (2-2) is connected with a crushing box (2-6), a supporting leg I (2-3) is connected with the base (2-1), a pressing sleeve (2-4) is connected with an air box (2-5) in a sliding manner, the supporting leg (2-2) is connected with the crushing box (2-6), the crushing box (2-6) is connected with a passive crushing plate mechanism (2-7), the passive crushing plate mechanism (2-7) is connected with an adjusting crushing plate mechanism (2-8), an embedded groove (2-9) is arranged on a feed hopper (2-10), a feed port (2-11) is arranged on the crushing box (2-6), a matching square groove (2-12) is arranged on the crushing box (2-6), the laminated seat (1-12) is connected with the matched square groove (2-12) in a sliding way, the bearing seat I (2-13) is connected with the crushing box (2-6), the square hole (2-14) is arranged on the crushing box (2-6), the secondary crushing box (2-15) is communicated with the crushing box (2-6) through a connecting port (2-23), the bearing seat II (2-16) is connected with the secondary crushing box (2-15), the shaft I (1-6) is connected with the bearing seat II (2-16) in a bearing way, the air suction pipe (2-17) is communicated with the discharge pipe (2-18), the discharge pipe (2-18) is connected and communicated with the secondary crushing box (2-15), the bearing seat A (2-19) is connected with the air box (2-5), the negative pressure air wheel shaft (1-1) is connected with the bearing seat A (2-19) in a bearing way, the bearing seat B (2-20) is connected with the air box (2-5), the sliding square hole (2-21) is formed in the crushing box (2-6), the sliding square hole (2-21) is connected with the passive crushing plate mechanism (2-7) in a sliding mode, the stepped groove I (2-22) is formed in the feeding hopper (2-10), the square column (1-13) is connected with the square hole (2-14) in a sliding mode, the spring I (1-14) abuts against the square seat (1-15) and the crushing box (2-6), and the motor (1-20) is connected with the bearing seat I (2-13); the passive crushing plate mechanism (2-7) comprises a passive sliding wedge block (2-7-1), a step groove II (2-7-2), a step groove III (2-7-3), a square column I (2-7-4), a spring A (2-7-5), a connecting seat I (2-7-6), a linkage door plate (2-7-7), a step strip sliding block (2-7-8) and a step hole (2-7-9), wherein the passive sliding wedge block (2-7-1) is arranged on the passive sliding wedge block (2-7-1), the step groove II (2-7-2) is arranged on the passive sliding wedge block (2-7-1), the step groove III (2-7-3) is arranged on the passive sliding wedge block (2-7-1), the square column I (2-7-4) is connected with the passive sliding wedge block (2-7-1), the spring A (2-7-5) is sleeved on the square column I (2-7-4), the spring A (2-7-5) is abutted against the passive sliding wedge block (2-7-1) and the crushing box (2-6), the sliding square hole (2-21) is connected with the square column I (2-7-4) in a sliding manner, the passive sliding wedge block (2-7-1) is arranged in the crushing box (2-6), the passive sliding wedge block (2-7-1) is connected with the crushing box (2-6) in a sliding manner, the square column I (2-7-4) is connected with the connecting seat I (2-7-6), the connecting seat I (2-7-6) is connected with the linkage door plate (2-7-7), the linkage door plate (2-7-7) is provided with a step bar sliding block (2-7-8), the step bar sliding block (2-7-8) is in sliding connection with a step groove I (2-22), the linkage door plate (2-7-7) is in sliding connection with an embedded groove (2-9), a step hole (2-7-9) is formed in a driven sliding wedge block (2-7-1), and the step hole (2-7-9) is communicated with a step groove II (2-7-2); the adjusting crushing plate mechanism (2-8) comprises a step sliding support (2-8-1), a crushing extrusion plate (2-8-2), a hydraulic cylinder (2-8-3), a hydraulic rod (2-8-4) and a limiting sliding step slider (2-8-5), the step sliding support (2-8-1) is connected with the crushing extrusion plate (2-8-2), the crushing extrusion plate (2-8-2) is connected with a step groove III (2-7-3) in a sliding manner, the hydraulic cylinder (2-8-3) is arranged in a step hole (2-7-9), the hydraulic rod (2-8-4) is connected with the hydraulic cylinder (2-8-3), the hydraulic rod (2-8-4) is connected with the limiting sliding step slider (2-8-5), the limiting sliding stepped sliding block (2-8-5) is connected with the stepped groove II (2-7-2) in a sliding manner.

4. A laminated abrasive comminution apparatus as claimed in claim 1 in which: the dust fall mechanism (3) comprises a water inlet (3-1), a water tank (3-2), a communicating pipe (3-3), a drawing box (3-4), a pressing seat (3-5), a sliding rod (3-6), a return spring A (3-7), a unthreaded hole I (3-8), a spray pipe (3-9), a spray head (3-10), a piston (3-11), a water inlet one-way valve (3-12) and a water outlet one-way valve (3-13), the water inlet (3-1) is connected with the water tank (3-2), the water tank (3-2) is connected with a secondary crushing box (2-15), the water tank (3-2) is connected with the communicating pipe (3-3), the communicating pipe (3-3) is connected with the drawing box (3-4), the pressing seat (3-5) is connected with the sliding rod (3-6), the sliding rod (3-6) is connected with the unthreaded hole I (3-8) in a sliding way, the unthreaded hole I (3-8) is arranged on the drawing box (3-4), the reset spring A (3-7) is sleeved on the sliding rod (3-6), the reset spring A (3-7) is propped against the drawing box (3-4), on the pressing seat (3-5), the drawing box (3-4) is connected with the spray pipe (3-9), the spray pipe (3-9) is connected with the spray head (3-10), the water inlet one-way valve (3-12) is arranged in the communicating pipe (3-3), the water outlet one-way valve (3-13) is arranged in the spray pipe (3-9), the piston (3-11) is connected with the sliding rod (3-6), and the piston (3-11) is connected with the drawing box (3-4) in a sliding way.

5. A laminating mill pulverizing apparatus according to claim 4, characterized in that: when the piston (3-11) moves downwards, the water inlet check valve (3-12) is closed, the water outlet check valve (3-13) is opened, when the piston (3-11) moves upwards, the water inlet check valve (3-12) is opened, and the water outlet check valve (3-13) is closed.