CN111330707B - Feed crushing and processing equipment - Google Patents

Abstract

The invention relates to crushing equipment, in particular to feed crushing and processing equipment which comprises a feeding mechanism, a dust removing mechanism and a crushing mechanism, wherein the feeding mechanism can smoothly feed, the equipment can carry out multidimensional crushing, the equipment can carry out emergency stop, the equipment can remove dust, the equipment can be switched to an ash removal mode, the feeding mechanism is connected with the dust removing mechanism, and the feeding mechanism is connected with the crushing mechanism.

Description

Feed crushing and processing equipment

Technical Field

The invention relates to crushing equipment, in particular to feed crushing and processing equipment.

Background

In the preparation of fodder, crushing is a very important ring, and traditional crushing dimension is single, and the raise dust is big, so designed this kind of fodder crushing and processing equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing the feed crushing and processing equipment, the equipment can smoothly feed, the equipment can carry out multi-dimensional crushing, the equipment can carry out emergency stop, the equipment can remove dust, and the equipment can be switched to an ash removal mode.

In order to solve the technical problems, the invention relates to a crushing device, and particularly relates to a feed crushing processing device which comprises a feeding mechanism, a dust removal mechanism and a crushing mechanism, wherein the feeding mechanism can feed materials smoothly, the device can carry out multi-dimensional crushing, the device can carry out emergency stop, the device can remove dust, and the device can be switched to an ash removal mode.

The feeding mechanism is connected with the dust removal mechanism, and the feeding mechanism is connected with the crushing mechanism.

As a further optimization of the technical scheme, the feeding mechanism of the feed crushing processing equipment comprises a base, a supporting leg frame, a tail roller with a shaft, a conveyer belt, a supporting box, a sliding box, an inlet port, a driven roller with a shaft, a head roller with a shaft, a coupler, a motor, a sliding rod with a limiting head, a vibration spring, a middle boss, a sliding hole, a sliding box chute, a discharge hopper I and a conveyer frame, wherein the base is connected with the supporting leg frame, the supporting leg frame is connected with the supporting box, the tail roller with a shaft is flexibly connected with the conveyer belt, the tail roller with a shaft is connected with the conveyer frame in a bearing manner, the conveyer frame is connected with the base, the sliding box chute is arranged on the supporting box, the sliding box chute is connected with the sliding box in a sliding manner, the inlet port is arranged on the sliding box, the driven roller with a shaft is connected with the conveyer frame in a bearing manner, the driven roller with a conveyer belt is flexibly connected, the connection mode of head band spool roller and carriage is that the bearing is connected, head band spool roller and conveyer belt flexible connection, head band spool roller passes through the shaft coupling with the motor and links to each other, the motor links to each other with the carriage, take spacing first slide bar and slide opening sliding connection, the slide opening is opened on the supporting box, the shock spring overlaps on taking spacing first slide bar, middle boss links to each other with taking spacing first slide bar, the shock spring supports on middle boss, middle boss and slide opening sliding connection, go out hopper I and set up on the supporting box.

As a further optimization of the technical scheme, the dust removing mechanism of the feed crushing and processing equipment comprises a dust removing box mechanism, a cleaning mechanism, a wind wheel mechanism and an ash removal driving mechanism, wherein the dust removing box mechanism is connected with the cleaning mechanism, the dust removing box mechanism is connected with the wind wheel mechanism, and the ash removal driving mechanism is connected with the dust removing box mechanism; the dust removal box mechanism comprises a collecting pipe I, a filter plate, a unthreaded hole I, a bearing seat II, a motor base, a collecting pipe II and a collecting box body, wherein the collecting pipe I is connected with the collecting box body; the cleaning mechanism comprises a hammer head, a bent arm, a slide rod I, a return spring I, a limiting plate and a pulley I, wherein the hammer head is connected with the bent arm, the bent arm is connected with the slide rod I, the slide rod I is connected with the limiting plate, the return spring I is sleeved on the slide rod I, the return spring I is abutted against the limiting plate and the collection box body, the slide rod I is in sliding connection with the unthreaded hole I, and the pulley I is in bearing connection with the bent arm; the wind wheel mechanism comprises a wind wheel shaft, a wind wheel body, a transmission belt, a belt pulley I, a limiting disc I, a special-shaped shaft, a motor belt pulley and a wind wheel motor, wherein the wind wheel shaft is connected with the wind wheel body, the wind wheel shaft is connected with the wind wheel body in a bearing connection mode, the wind wheel shaft is connected with the wind wheel body, the wind wheel shaft is connected with the belt pulley I, the belt pulley I is flexibly connected with the transmission belt, the transmission belt is flexibly connected with the motor belt pulley, the motor belt pulley is connected with the wind wheel motor, the wind wheel motor is connected with a motor base, the wind wheel shaft is connected with the limiting disc I; the ash removal driving mechanism comprises a special-shaped shaft I, a special-shaped sleeve and a spline wheel, the special-shaped shaft I is in transition fit with the special-shaped sleeve, the special-shaped shaft I is connected with the spline wheel, and the special-shaped shaft I is connected with the bearing seat II through a bearing.

As a further optimization of the technical scheme, the crushing mechanism of the feed crushing processing equipment comprises a shell mechanism, a motor sliding seat mechanism, a stirring motor mechanism, a sliding bearing seat mechanism, a connecting rod, a pushing wheel arm, a hydraulic rod with a hinged seat, a hydraulic cylinder, a fixed hinged rod, a bevel gear, a stirring shaft, a wheel with a bulge, a stirring gear motor, a knife arm, a hinged seat I, a tensioning hole, a spring II, a rod with a limiting disc, a stirring knife, a disc hinged seat and a stirring wheel, wherein the shell mechanism is connected with the motor sliding seat mechanism, the motor sliding seat mechanism is connected with the sliding bearing seat mechanism, the sliding bearing seat mechanism is connected with the stirring motor mechanism, the sliding bearing seat mechanism is in contact with the pushing wheel, the pushing wheel is connected with the pushing wheel arm in a bearing manner, the pushing wheel arm is connected with the connecting rod, and the connecting rod is hinged with the hydraulic rod with the hinged seat, the hydraulic rod with the hinged seat is connected with the hydraulic cylinder, the hydraulic cylinder is hinged with the shell mechanism, the fixed hinged rod is connected with the pushing wheel arm, the fixed hinged rod is hinged with the shell mechanism, the bevel gear is meshed with the stirring motor mechanism, the bevel gear is connected with the stirring shaft, the stirring shaft is connected with the shell mechanism in a bearing mode, the stirring shaft is connected with the stirring wheel in a bearing mode, the stirring wheel is meshed with the stirring gear, the stirring gear is connected with the stirring gear motor, the stirring gear motor is connected with the disc hinged seat, the disc hinged seat is connected with the stirring shaft, the stirring wheel is hinged with the knife arm, the knife arm is hinged with the disc hinged seat, the hinged seat I is connected with the disc hinged seat, the hinged seat I is hinged with the rod with the limiting disc, the rod with the limiting disc is slidably connected with the tensioning hole, the tensioning hole is formed in the knife arm, the spring II is sleeved on the rod with the limiting disc, and abuts against the rod with the limiting disc, On the knife arm, the stirring knife is connected with the knife arm, and the stirring wheel is connected with the stirring shaft; the shell mechanism comprises shell supporting legs, a shell body, a stirring inlet, a hinging seat A, a stirring bearing seat and a stirring discharge port, wherein the shell supporting legs are connected with the base; the motor sliding seat mechanism comprises a stepped groove, a motor sliding seat body and a sliding hole I, wherein the stepped groove is formed in the motor sliding seat body, the motor sliding seat body is connected with the shell body, and the sliding hole I is formed in the shell body; the stirring motor mechanism comprises a motor bevel gear, a shaft B, a coupler I and a stirring motor, the motor bevel gear is meshed with the bevel gear, the motor bevel gear is connected with the shaft B, and the shaft B is connected with the stirring motor through the coupler I; slide bearing seat mechanism includes ladder pole I, slip reset spring, the motor sliding seat, the door template, bearing frame B, slip reset spring overlaps on ladder pole I, ladder pole I links to each other with the motor sliding seat, motor sliding seat and ladder groove sliding connection, slip reset spring supports at the motor sliding seat, on the motor sliding seat body inner wall, the motor sliding seat links to each other with stirring garrulous motor, axle B is connected for the bearing with bearing frame B's connected mode, bearing frame B links to each other with the door template, the door template contacts with the catch wheel.

As a further optimization of the technical scheme, the special-shaped shaft I and the special-shaped shaft of the feed crushing and processing equipment have the same shape and size.

As a further optimization of the technical scheme, the gear ring meshed with the mincing gear is arranged on the cam with the feed crushing and processing equipment.

The feed crushing and processing equipment has the beneficial effects that:

according to the feed crushing and processing equipment, the equipment can feed smoothly, the equipment can crush in multiple dimensions, the equipment can stop suddenly, the equipment can remove dust, and the equipment can be switched to an ash removal mode.

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 feed crushing and processing device of the invention.

Fig. 2 is a schematic structural diagram of a feed crushing and processing device of the invention.

Fig. 3 is a schematic structural diagram three of the feed crushing and processing equipment of the invention.

Fig. 4 is a first structural schematic diagram of a feeding mechanism 1 of the feed crushing and processing equipment of the invention.

Fig. 5 is a schematic structural diagram of a feeding mechanism 1 of the feed crushing and processing equipment of the invention.

Fig. 6 is a first structural schematic diagram of the dust removing mechanism 2 of the feed crushing and processing equipment.

Fig. 7 is a second structural schematic diagram of the dust removing mechanism 2 of the feed crushing and processing device of the invention.

Fig. 8 is a schematic structural diagram of a dust removal box mechanism 2-1 of the feed crushing and processing equipment.

Fig. 9 is a schematic structural diagram of a cleaning mechanism 2-2 of the feed crushing and processing equipment.

Fig. 10 is a schematic structural diagram of an air wheel mechanism 2-3 of the feed crushing and processing equipment.

FIG. 11 is a schematic structural view of the ash removal driving mechanism 2-4 of the feed crushing and processing equipment of the invention.

Fig. 12 is a first structural schematic diagram of a crushing mechanism 3 of the feed crushing and processing equipment.

Fig. 13 is a second structural schematic diagram of the crushing mechanism 3 of the feed crushing and processing device of the invention.

Fig. 14 is a third schematic structural diagram of a crushing mechanism 3 of the feed crushing and processing equipment of the invention.

Fig. 15 is a schematic structural view of a housing mechanism 3-1 of the feed crushing and processing device of the invention.

Fig. 16 is a schematic structural view of a motor sliding seat mechanism 3-2 of the feed crushing and processing device of the invention.

Fig. 17 is a schematic structural view of a mincing motor mechanism 3-3 of the feed crushing processing equipment.

Fig. 18 is a schematic structural view of a sliding bearing seat mechanism 3-4 of the feed crushing and processing device of the invention.

In the figure: a feeding mechanism 1; a base 1-1; a leg frame 1-2; a roller 1-3 with a shaft at the tail part; 1-4 parts of a conveying belt; 1-5 of a support box; 1-6 of a sliding box; inlet ports 1-7; passive belt shaft rollers 1-8; a roller 1-9 with a shaft at the head; 1-10 parts of a coupler; motors 1-11; 1-12 sliding rods with limiting heads; 1-13 of a vibration spring; 1-14 of middle boss; 1-15 of a slide hole; sliding chutes 1-16 of the sliding box; a discharge hopper I1-17; a carriage 1-18; a dust removal mechanism 2; a dust removal box mechanism 2-1; collecting tube I2-1-1; 2-1-2 of a filter plate; unthreaded hole I2-1-3; bearing seats I2-1-4; bearing seats II 2-1-5; 2-1-6 of a motor base; collecting tube II 2-1-7; 2-1-8 parts of a collecting box body; a cleaning mechanism 2-2; 2-2-1 parts of a hammer head; 2-2-2 of a bent arm; a slide bar I2-2-3; a return spring I2-2-4; 2-2-5 parts of a limiting plate; pulley I2-2-6; 2-3 of a wind wheel mechanism; 2-3-1 of a wind wheel shaft; 2-3-2 of a wind wheel body; 2-3-3 of a transmission belt; pulley I2-3-4; a limiting disc I2-3-5; 2-3-6 of a special-shaped shaft; 2-3-7 parts of a motor belt pulley; 2-3-8 parts of a wind wheel motor; 2-4 parts of ash removal driving mechanism; the special-shaped shaft I2-4-1; 2-4-2 of a special-shaped sleeve; 2-4-3 of a floral whorl; a crushing mechanism 3; a housing mechanism 3-1; the shell leg is 3-1-1; a housing body 3-1-2; a crushing inlet 3-1-3; the hinged seat A3-1-4; crushing 3-1-5 parts of a bearing seat; 3-1-6 of a material outlet is crushed; a motor sliding seat mechanism 3-2; a step groove 3-2-1; a motor sliding seat body 3-2-2; a slide hole I3-2-3; a mincing motor mechanism 3-3; a motor bevel gear 3-3-1; axis B3-3-2; a coupler I3-3-3; 3-3-4 parts of a mincing motor; a sliding bearing seat mechanism 3-4; the ladder bar I3-4-1; a sliding return spring 3-4-2; 3-4-3 parts of a motor sliding seat; 3-4-4 parts of a door template; bearing seat B3-4-5; 3-5 of a connecting rod; 3-6 of a pushing wheel; 3-7 of a push wheel arm; 3-8 of a hydraulic rod with a hinged seat; 3-9 parts of a hydraulic cylinder; 3-10 parts of a fixed hinge rod; bevel gears 3-11; 3-12 parts of a crushing shaft; 3-13 of a cam; 3-14 parts of a crushing gear; 3-15 parts of a gear motor; 3-16 parts of a cutter arm; hinge seats I3-17; 3-18 of a tensioning hole; springs II 3-19; 3-20 parts of a rod with a limiting disc; 3-21 parts of a mincing knife; 3-22 disc hinge seats; and 3-23 of a poking wheel.

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, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the present invention relates to a crushing apparatus, and more specifically to a feed crushing processing apparatus, including a feeding mechanism 1, a dust removing mechanism 2, and a crushing mechanism 3, which can smoothly feed, perform multi-dimensional crushing, perform emergency stop, remove dust, and switch to an ash removal mode.

The feeding mechanism 1 is connected with the dust removal mechanism 2, and the feeding mechanism 1 is connected with the crushing 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, fig. 15, fig. 16, fig. 17, fig. 18, and the embodiment is further described, and the feeding mechanism 1 includes a base 1-1, a leg support 1-2, a tail roller with a shaft 1-3, a conveyor belt 1-4, a support box 1-5, a slide box 1-6, an inlet port 1-7, a driven roller with a shaft 1-8, a head roller with a shaft 1-9, a coupler 1-10, a motor 1-11, a slide rod with a limit head 1-12, a vibrating spring 1-13, a middle boss 1-14, a slide hole 1-15, a slide box chute 1-16, a discharge hopper I1-17, a slide hole 1-, A conveying frame 1-18, a base 1-1 is connected with a supporting leg frame 1-2, the supporting leg frame 1-2 is connected with a supporting box 1-5, a tail shaft-provided roller 1-3 is flexibly connected with a conveying belt 1-4, the tail shaft-provided roller 1-3 is connected with the conveying frame 1-18 by a bearing, the conveying frame 1-18 is connected with the base 1-1, a sliding box sliding groove 1-16 is arranged on the supporting box 1-5, a sliding box sliding groove 1-16 is connected with a sliding box 1-6 in a sliding way, an inlet port 1-7 is arranged on the sliding box 1-6, a driven shaft-provided roller 1-8 is connected with the conveying frame 1-18 by a bearing, a driven shaft-provided roller 1-8 is flexibly connected with the conveying belt 1-4, a head shaft-provided roller 1-9 is connected with the conveying frame 1-18 by a bearing, the head roller with shaft 1-9 is flexibly connected with the conveyer belt 1-4, the head roller with shaft 1-9 is connected with the motor 1-11 through the coupling 1-10, the motor 1-11 is connected with the conveyer frame 1-18, the slide bar with limit head 1-12 is connected with the slide hole 1-15 in a sliding way, the slide hole 1-15 is opened on the support box 1-5, the vibration spring 1-13 is sleeved on the slide bar with limit head 1-12, the middle boss 1-14 is connected with the slide bar with limit head 1-12, the vibration spring 1-13 is propped against the middle boss 1-14, the middle boss 1-14 is connected with the slide hole 1-15 in a sliding way, the discharge hopper I1-17 is arranged on the support box 1-5, the material is put into the inlet port 1-7 by using the forklift, the instantaneously dropped material can impact downwards, the sliding boxes 1-6 are driven to move downwards, the vibrating springs 1-13 are compressed when the sliding boxes 1-6 move downwards, the sliding boxes 1-6 move downwards under the resilience action of the springs as the materials slide out from the inlet ports 1-7 downwards, so that the sliding boxes 1-6 float up and down, therefore, smooth downward movement of materials is guaranteed, the materials fall onto the conveying belts 1-4, the running motors 1-11 drive the couplers 1-10 to rotate, the couplers 1-10 rotate to drive the head shaft rollers 1-9 to rotate, the head shaft rollers 1-9 rotate to drive the conveying belts 1-4 to move, and the conveying belts 1-4 convey the materials into the crushing inlets 3-1-3 and then enter the shell bodies 3-1-2.

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, fig. 15, fig. 16, fig. 17, and fig. 18, and the embodiment further describes the embodiment, where the dust removal mechanism 2 includes a dust removal box mechanism 2-1, a cleaning mechanism 2-2, an air wheel mechanism 2-3, and an ash removal driving mechanism 2-4, the dust removal box mechanism 2-1 is connected to the cleaning mechanism 2-2, the dust removal box mechanism 2-1 is connected to the air wheel mechanism 2-3, and the ash removal driving mechanism 2-4 is connected to the dust removal box mechanism 2-1; the dust removal box mechanism 2-1 comprises a collecting pipe I2-1-1, a filter plate 2-1-2, a unthreaded hole I2-1-3, a bearing seat I2-1-4, a bearing seat II2-1-5, a motor seat 2-1-6, a collecting pipe II2-1-7, a collecting box body 2-1-8, a collecting pipe I2-1-1 is connected with the collecting box body 2-1-8, the filter plate 2-1-2 is connected with the collecting box body 2-1-8 through bolts, the unthreaded hole I2-1-3 is arranged on the collecting box body 2-1-8, the bearing seat I2-1-4 is connected with the collecting box body 2-1-8, the bearing seat II2-1-5 is connected with the collecting box body 2-1-8, the motor base 2-1-6 is connected with the collecting box body 2-1-8, the collecting pipe II2-1-7 is connected with the collecting box body 2-1-8, and the collecting box body 2-1-8 is connected with the base 1-1; the cleaning mechanism 2-2 comprises a hammer head 2-2-1, a bent arm 2-2-2, a sliding rod I2-2-3, a return spring I2-2-4, a limit plate 2-2-5 and a pulley I2-2-6, the hammer head 2-2-1 is connected with the bent arm 2-2-2, the bent arm 2-2-2 is connected with the sliding rod I2-2-3, the sliding rod I2-2-3 is connected with the limit plate 2-2-5, the return spring I2-2-4 is sleeved on the sliding rod I2-2-3, the return spring I2-2-4 abuts against the limit plate 2-2-5 and the collection box body 2-1-8, the sliding rod I2-2-3 is in sliding connection with a unthreaded hole I2-1-3, the pulley I2-2-6 is connected with the bent arm 2-2-2 in a bearing way; the wind wheel mechanism 2-3 comprises a wind wheel shaft 2-3-1, a wind wheel body 2-3-2, a transmission belt 2-3-3, a belt pulley I2-3-4, a limiting disc I2-3-5, a special-shaped shaft 2-3-6, a motor belt pulley 2-3-7 and a wind wheel motor 2-3-8, wherein the wind wheel shaft 2-3-1 is connected with the wind wheel body 2-3-2, the wind wheel shaft 2-3-1 is connected with a bearing seat I2-1-4 in a bearing manner, the wind wheel shaft 2-3-1 is connected with the wind wheel body 2-3-2, the wind wheel shaft 2-3-1 is connected with the belt pulley I2-3-4, the belt pulley I2-3-4 is flexibly connected with the transmission belt 2-3-3, the transmission belt 2-3-3 is flexibly connected with the motor belt pulley 2-3-7, the motor belt pulley 2-3-7 is connected with the wind wheel motor 2-3-8, the wind wheel motor 2-3-8 is connected with the motor base 2-1-6, the wind wheel shaft 2-3-1 is connected with the limiting disc I2-3-5, the limiting disc I2-3-5 is connected with the special-shaped shaft 2-3-6, the motor belt pulley 2-3-7 is driven to rotate through the operation of the wind wheel motor 2-3-8, the motor belt pulley 2-3-7 drives the belt pulley I2-3-4 to rotate, the belt pulley I2-3-4 rotates to drive the wind wheel body 2-3-2 to rotate through the wind wheel shaft 2-3-1 to form negative pressure, driven by negative pressure, the collecting pipe I2-1-1 sucks in dust generated during feeding, the collecting pipe II2-1-7 sucks in dust generated during crushed discharging, and then the dust is filtered by the filter plate 2-1-2 and then discharged; the ash cleaning driving mechanism 2-4 comprises a special-shaped shaft I2-4-1, a special-shaped sleeve 2-4-2 and a flower wheel 2-4-3, the special-shaped shaft I2-4-1 is in transition fit with the special-shaped sleeve 2-4-2, the special-shaped shaft I2-4-1 is connected with the flower wheel 2-4-3, the special-shaped shaft I2-4-1 is connected with a bearing seat II2-1-5 in a bearing mode, when dirt on a filter plate 2-1-2 needs to be cleaned, the special-shaped sleeve 2-4-2 is pulled downwards, the special-shaped sleeve 2-4-2 is sleeved on the special-shaped shaft 2-3-6, the special-shaped shaft I2-4-1 is connected with the special-shaped shaft 2-3-6, and the special-shaped shaft 2-3-6 can drive the flower wheel 2-4-3 to rotate, the pulley I2-2-6 is intermittently pushed by the pulley 2-4-3, the pulley I2-2-6 drives the hammer 2-2-1 to be away from the filter plate 2-1-2 and then reset, so that the filter plate 2-1-2 can be knocked, the sludge on the filter plate 2-1-2 is removed, and the bag can be prevented from being recovered at the filter plate 2-1-2.

The fourth 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, fig. 15, fig. 16, fig. 17, fig. 18, and the embodiment is further described as a first embodiment, and the crushing mechanism 3 includes a housing mechanism 3-1, a motor sliding seat mechanism 3-2, a crushing motor mechanism 3-3, a sliding bearing seat mechanism 3-4, a connecting rod 3-5, a pushing wheel 3-6, a pushing wheel arm 3-7, a hydraulic rod with an articulated seat 3-8, a hydraulic cylinder 3-9, a fixed articulated rod 3-10, a bevel gear 3-11, a crushing shaft 3-12, a cam with 3-13, a crushing gear 3-14, a crushing gear motor 3-15, a knife arm 3-16, a crushing gear motor 3-15, hinged seat I3-17, tensioning hole 3-18, spring II3-19, rod with limiting disc 3-20, mincing knife 3-21, disc hinged seat 3-22, dial wheel 3-23, shell mechanism 3-1 is connected with motor sliding seat mechanism 3-2, motor sliding seat mechanism 3-2 is connected with sliding bearing seat mechanism 3-4, sliding bearing seat mechanism 3-4 is connected with mincing motor mechanism 3-3, sliding bearing seat mechanism 3-4 is contacted with push wheel 3-6, the connection mode of push wheel 3-6 and push wheel arm 3-7 is bearing connection, push wheel arm 3-7 is connected with connecting rod 3-5, connecting rod 3-5 is hinged with hydraulic rod with hinged seat 3-8, hinged hydraulic rod with hinged seat 3-8 is connected with hydraulic cylinder 3-9, the hydraulic cylinder 3-9 is hinged with the shell mechanism 3-1, the fixed hinged rod 3-10 is connected with the pushing wheel arm 3-7, the fixed hinged rod 3-10 is hinged with the shell mechanism 3-1, the bevel gear 3-11 is meshed with the stirring motor mechanism 3-3, the bevel gear 3-11 is connected with the stirring shaft 3-12, the stirring shaft 3-12 is connected with the shell mechanism 3-1 by a bearing, the stirring shaft 3-12 is connected with the cam-carrying wheel 3-13 by a bearing, the cam-carrying wheel 3-13 is meshed with the stirring gear 3-14, the stirring gear 3-14 is connected with the stirring gear motor 3-15, the stirring gear motor 3-15 is connected with the disc hinged seat 3-22, the disc seat 3-22 is connected with the stirring shaft 3-12, the cutter comprises cutter arms 3-16, disk hinge seats 3-22, hinge seats I3-17, hinge seats I3-17, limit disk rods 3-20 and tensioning holes 3-18, wherein the cutter arms 3-16 are hinged with the cam seats I3-17, the spring II3-19 is sleeved on the limit disk rods 3-20, the spring II3-19 abuts against the limit disk rods 3-20 and the cutter arms 3-16, the stirring cutters 3-21 are connected with the cutter arms 3-16, and the stirring wheels 3-23 are connected with the stirring shafts 3-12; the shell mechanism 3-1 comprises shell supporting legs 3-1-1, a shell body 3-1-2, a stirring inlet 3-1-3, a hinged seat A3-1-4, a stirring bearing seat 3-1-5 and a stirring discharge port 3-1-6, the shell supporting legs 3-1-1 are connected with a base 1-1, the shell supporting legs 3-1-1 are connected with the shell body 3-1-2, the stirring inlet 3-1-3 is arranged on the shell body 3-1-2, the hinged seat A3-1-4 is connected with the shell body 3-1-2, the stirring bearing seat 3-1-5 is connected with the stirring shaft 3-12 in a bearing manner, the stirring discharge port 3-1-6 is arranged on the shell body 3-1-2; the motor sliding seat mechanism 3-2 comprises a stepped groove 3-2-1, a motor sliding seat body 3-2-2 and a sliding hole I3-2-3, wherein the stepped groove 3-2-1 is formed in the motor sliding seat body 3-2-2, the motor sliding seat body 3-2-2 is connected with the shell body 3-1-2, and the sliding hole I3-2-3 is formed in the shell body 3-1-2; the stirring motor mechanism 3-3 comprises a motor bevel gear 3-3-1, a shaft B3-3-2, a coupler I3-3-3 and a stirring motor 3-3-4, wherein the motor bevel gear 3-3-1 is meshed with a bevel gear 3-11, the motor bevel gear 3-3-1 is connected with the shaft B3-3-2, and the shaft B3-3-2 is connected with the stirring motor 3-3-4 through a coupler I3-3-3; the sliding bearing seat mechanism 3-4 comprises a step rod I3-4-1, a sliding reset spring 3-4-2, a motor sliding seat 3-4-3, a door-shaped plate 3-4-4 and a bearing seat B3-4-5, the sliding reset spring 3-4-2 is sleeved on the step rod I3-4-1, the step rod I3-4-1 is connected with the motor sliding seat 3-4-3, the motor sliding seat 3-4-3 is connected with the step groove 3-2-1 in a sliding way, the sliding reset spring 3-4-2 is propped against the motor sliding seat 3-4-3 and the inner wall of the motor sliding seat body 3-2-2, the motor sliding seat 3-4-3 is connected with the mincing motor 3-3-4, the shaft B3-3-2 is connected with the bearing seat B3-4-5 through a bearing, the bearing seat B3-4-5 is connected with the door-shaped plate 3-4-4, the door-shaped plate 3-4-4 is contacted with the push wheel 3-6, the synchronous operation is carried out on the mincing gear motor 3-15 and the mincing motor 3-3-4, the mincing motor 3-3-4 can drive the coupler I3-3-3 to rotate, the coupler I3-3-3 rotates to drive the motor bevel gear 3-3-1 to rotate through the shaft B3-3-2, the motor bevel gear 3-3-1 rotates to drive the bevel gear 3-11 to rotate, the bevel gear 3-11 rotates to drive the mincing shaft 3-12 to rotate, the stirring shafts 3-12 rotate to drive the disc hinged seats 3-22 to rotate, the disc hinged seats 3-22 rotate to drive the cutter arms 3-16 to do circular motion, the cutter arms 3-16 do circular motion to drive the stirring cutters 3-21 to do circular motion, the stirring cutters 3-21 do circular motion to stir in a first dimension, meanwhile, the stirring gear motor 3-15 operates to drive the stirring gears 3-14 to rotate, the stirring gears 3-14 rotate to drive the cam wheels 3-13 to do differential rotation relative to the stirring shafts 3-12, the cam wheels 3-13 intermittently push the cutter arms 3-16, the cutter arms 3-16 drive the stirring cutters 3-21 to swing around the hinged points with the disc hinged seats 3-22, so that the stirring in a second dimension is performed, therefore, the stirring effect is good, meanwhile, the stirring wheel 3-23 can push materials to the stirring knife 3-21, the stirring frequency is enhanced, when the stirring device needs to be stopped suddenly, hydraulic oil is injected into the hydraulic cylinder 3-9, the hydraulic rod 3-8 with the hinged seat can push the connecting rod 3-5 under the driving of the hydraulic oil, the connecting rod 3-5 can drive the pushing wheel 3-6 to push the door-shaped plate 3-4-4 through the pushing wheel arm 3-7, the door-shaped plate 3-4-4 can drive the motor bevel gear 3-3-1 to be separated from the meshing with the bevel gear 3-11, and the stirring can be stopped.

The fifth concrete implementation mode:

the present embodiment will be 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, fig. 15, fig. 16, fig. 17, and fig. 18, and the present embodiment further describes the first embodiment, in which the shaped shaft I2-4-1 is the same as the shaped shaft 2-3-6 in shape and size.

The sixth specific implementation mode:

the present embodiment will be 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, fig. 15, fig. 16, fig. 17, and fig. 18, and the present embodiment further describes the first embodiment, in which the cam wheel 3-13 is provided with a ring gear that meshes with the mincing gears 3-14.

The working principle of the device is as follows: the device can feed materials smoothly, materials are placed into the inlet 1-7 by a forklift, the instantly falling materials are impacted downwards to drive the sliding box 1-6 to move downwards, the sliding box 1-6 moves downwards to compress the vibration spring 1-13, the sliding box 1-6 moves downwards under the resilience of the spring along with the downward sliding of the materials from the inlet 1-7, the sliding box 1-6 floats up and down under the resilience of the spring, so that the smooth downward movement of the materials is ensured, the materials fall onto the conveyer belt 1-4, the running motor 1-11 drives the shaft coupling 1-10 to rotate, the shaft coupling 1-10 rotates to drive the head shaft roller 1-9 to rotate, the head shaft roller 1-9 rotates the conveyer belt 1-4 to move, and the conveyer belt 1-4 conveys the materials into the stirring inlet 3-1-3 and then enters the shell In the body 3-1-2; the equipment can carry out multidimensional crushing, synchronously operates a crushing gear motor 3-15 and a crushing motor 3-3-4, the crushing motor 3-3-4 can drive a coupler I3-3-3 to rotate, the coupler I3-3-3 rotates and drives a motor bevel gear 3-3-1 to rotate through a shaft B3-3-2, the motor bevel gear 3-3-1 rotates and drives a bevel gear 3-11 to rotate, the bevel gear 3-11 rotates and drives a crushing shaft 3-12 to rotate, the crushing shaft 3-12 rotates and drives a disc hinged seat 3-22 to rotate, the disc hinged seat 3-22 rotates and drives a knife arm 3-16 to carry out circular motion, the knife arm 3-16 carries out circular motion and drives the crushing knife 3-21 to carry out circular motion, the stirring blades 3-21 perform circular motion to stir in a first dimension, meanwhile, the stirring gear motor 3-15 operates to drive the stirring gears 3-14 to rotate, the stirring gears 3-14 rotate to drive the lug bosses 3-13 to perform differential rotation relative to the stirring shaft 3-12, the lug bosses 3-13 intermittently push the knife arms 3-16, the knife arms 3-16 drive the stirring blades 3-21 to swing around hinge points with the disc hinge seats 3-22, and thus, second-dimension stirring is performed, so that the stirring effect is good, meanwhile, the stirring wheels 3-23 push materials to the stirring blades 3-21, and the stirring frequency is increased; the device can perform emergency stop, when the emergency stop is needed, hydraulic oil is injected into the hydraulic cylinder 3-9, the hydraulic rod 3-8 with the hinged seat pushes the connecting rod 3-5 under the driving of the hydraulic oil, the connecting rod 3-5 drives the pushing wheel 3-6 to push the door-shaped plate 3-4-4 through the pushing wheel arm 3-7, and the door-shaped plate 3-4-4 drives the motor bevel gear 3-3-1 to be disengaged from the bevel gear 3-11, so that the crushing can be stopped; the device can remove dust, the motor belt pulley 2-3-7 is driven to rotate by the operation of the wind wheel motor 2-3-8, the motor belt pulley 2-3-7 rotates to drive the belt pulley I2-3-4 to rotate, the belt pulley I2-3-4 rotates to drive the wind wheel body 2-3-2 to rotate through the wind wheel shaft 2-3-1 to form negative pressure, under the drive of the negative pressure, the collecting pipe I2-1-1 sucks dust generated during feeding, the collecting pipe II2-1-7 sucks dust generated by crushed discharging, and then the dust is discharged after being filtered by the filter plate 2-1-2; the device can be switched to a dust cleaning mode, when the dirt on the filter plate 2-1-2 needs to be cleaned, the special-shaped sleeve 2-4-2 is pulled downwards, the special-shaped sleeve 2-4-2 is sleeved on the special-shaped shaft 2-3-6, the special-shaped shaft I2-4-1 is connected with the special-shaped shaft 2-3-6, so that the special-shaped shaft 2-3-6 rotates to drive the flower wheel 2-4-3 to rotate, the flower wheel 2-4-3 intermittently pushes the pulley I2-2-6, the pulley I2-2-6 drives the hammer head 2-2-1 to be far away from the filter plate 2-1-2 and then reset, and thus the filter plate 2-1-2 can be knocked to remove the dirt on the filter plate 2-1-2, the bag can be prevented from becoming clogged at the filter sheet 2-1-2.

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 (3)

1. The utility model provides a fodder shredding equipment, includes feed mechanism (1), dust removal mechanism (2), rubbing crusher constructs (3), its characterized in that: the feeding mechanism (1) comprises a base (1-1), a leg support (1-2), a tail roller with a shaft (1-3), a conveyer belt (1-4), a support box (1-5), a sliding box (1-6), an inlet (1-7), a driven roller with a shaft (1-8), a head roller with a shaft (1-9), a coupler (1-10), a motor (1-11), a sliding rod with a limit head (1-12), a vibration spring (1-13), a middle boss (1-14), a sliding hole (1-15), a sliding box chute (1-16), a discharge hopper I (1-17) and a conveying frame (1-18), wherein the base (1-1) is connected with the leg support (1-2), the leg support (1-2) is connected with the support box (1-5), the tail shaft-equipped roller (1-3) is flexibly connected with the conveyer belt (1-4), the tail shaft-equipped roller (1-3) is connected with the conveyer frame (1-18) by a bearing, the conveyer frame (1-18) is connected with the base (1-1), the sliding box sliding groove (1-16) is arranged on the supporting box (1-5), the sliding box sliding groove (1-16) is connected with the sliding box (1-6) in a sliding way, the inlet port (1-7) is arranged on the sliding box (1-6), the driven shaft-equipped roller (1-8) is connected with the conveyer frame (1-18) by a bearing, the driven shaft-equipped roller (1-8) is flexibly connected with the conveyer belt (1-4), the head shaft-equipped roller (1-9) is connected with the conveyer frame (1-18) by a bearing, the head belt shaft roller (1-9) is flexibly connected with the conveyer belt (1-4), the head belt shaft roller (1-9) is connected with a motor (1-11) through a coupler (1-10), the motor (1-11) is connected with a conveying frame (1-18), a slide bar (1-12) with a limiting head is slidably connected with a slide hole (1-15), the slide hole (1-15) is arranged on a support box (1-5), a vibration spring (1-13) is sleeved on the slide bar (1-12) with the limiting head, a middle boss (1-14) is connected with the slide bar (1-12) with the limiting head, the vibration spring (1-13) is abutted against the middle boss (1-14), the middle boss (1-14) is slidably connected with the slide hole (1-15), and a discharge hopper I (1-17) is arranged on the support box (1-5);

the dust removal mechanism (2) comprises a dust removal box mechanism (2-1), a cleaning mechanism (2-2), a wind wheel mechanism (2-3) and an ash removal driving mechanism (2-4), the dust removal box mechanism (2-1) is connected with the cleaning mechanism (2-2), the dust removal box mechanism (2-1) is connected with the wind wheel mechanism (2-3), and the ash removal driving mechanism (2-4) is connected with the dust removal box mechanism (2-1); the dust removing box mechanism (2-1) comprises a collecting pipe I (2-1-1), a filter plate (2-1-2), a unthreaded hole I (2-1-3), a bearing seat I (2-1-4), a bearing seat II (2-1-5), a motor seat (2-1-6), a collecting pipe II (2-1-7) and a collecting box body (2-1-8), wherein the collecting pipe I (2-1-1) is connected with the collecting box body (2-1-8), the filter plate (2-1-2) is connected with the collecting box body (2-1-8) through bolts, the unthreaded hole I (2-1-3) is arranged on the collecting box body (2-1-8), the bearing seat I (2-1-4) is connected with the collecting box body (2-1-8), the bearing seat II (2-1-5) is connected with the collecting box body (2-1-8), the motor seat (2-1-6) is connected with the collecting box body (2-1-8), the collecting pipe II (2-1-7) is connected with the collecting box body (2-1-8), and the collecting box body (2-1-8) is connected with the base (1-1); the cleaning mechanism (2-2) comprises a hammer head (2-2-1), a bent arm (2-2-2), a sliding rod I (2-2-3), a return spring I (2-2-4), a limiting plate (2-2-5) and a pulley I (2-2-6), the hammer head (2-2-1) is connected with the bent arm (2-2-2), the bent arm (2-2-2) is connected with the sliding rod I (2-2-3), the sliding rod I (2-2-3) is connected with the limiting plate (2-2-5), the return spring I (2-2-4) is sleeved on the sliding rod I (2-2-3), and the return spring I (2-2-4) abuts against the limiting plate (2-2-5), On the collecting box body (2-1-8), a sliding rod I (2-2-3) is in sliding connection with the unthreaded hole I (2-1-3), and a pulley I (2-2-6) is connected with the bent arm (2-2-2) in a bearing connection mode; the wind wheel mechanism (2-3) comprises a wind wheel shaft (2-3-1), a wind wheel body (2-3-2), a transmission belt (2-3-3), a belt pulley I (2-3-4), a limiting disc I (2-3-5), a special-shaped shaft (2-3-6), a motor belt pulley (2-3-7) and a wind wheel motor (2-3-8), wherein the wind wheel shaft (2-3-1) is connected with the wind wheel body (2-3-2), the wind wheel shaft (2-3-1) is connected with a bearing seat I (2-1-4) in a bearing manner, the wind wheel shaft (2-3-1) is connected with the wind wheel body (2-3-2), the wind wheel shaft (2-3-1) is connected with the belt pulley I (2-3-4), the belt pulley I (2-3-4) is flexibly connected with the transmission belt (2-3-3), the transmission belt (2-3-3) is flexibly connected with the motor belt pulley (2-3-7), the motor belt pulley (2-3-7) is connected with the wind wheel motor (2-3-8), the wind wheel motor (2-3-8) is connected with the motor base (2-1-6), the wind wheel shaft (2-3-1) is connected with the limiting disc I (2-3-5), and the limiting disc I (2-3-5) is connected with the special-shaped shaft (2-3-6); the ash removal driving mechanism (2-4) comprises a special-shaped shaft I (2-4-1), a special-shaped sleeve (2-4-2) and a flower wheel (2-4-3), the special-shaped shaft I (2-4-1) is in transition fit with the special-shaped sleeve (2-4-2), the special-shaped shaft I (2-4-1) is connected with the flower wheel (2-4-3), and the special-shaped shaft I (2-4-1) is connected with a bearing seat II (2-1-5) in a bearing connection mode;

the crushing mechanism (3) comprises a shell mechanism (3-1), a motor sliding seat mechanism (3-2), a crushing motor mechanism (3-3), a sliding bearing seat mechanism (3-4), a connecting rod (3-5), a push wheel (3-6), a push wheel arm (3-7), a hydraulic rod with a hinged seat (3-8), a hydraulic cylinder (3-9), a fixed hinged rod (3-10), a bevel gear (3-11), a crushing shaft (3-12), a cam wheel (3-13), a crushing gear (3-14), a crushing gear motor (3-15), a cutter arm (3-16), a hinged seat I (3-17), a tensioning hole (3-18), a spring II (3-19), a rod with a limiting disc (3-20), A mincing knife (3-21), a disc hinged seat (3-22) and a poking wheel (3-23), a shell mechanism (3-1) is connected with a motor sliding seat mechanism (3-2), the motor sliding seat mechanism (3-2) is connected with a sliding bearing seat mechanism (3-4), the sliding bearing seat mechanism (3-4) is connected with a mincing motor mechanism (3-3), the sliding bearing seat mechanism (3-4) is contacted with a pushing wheel (3-6), the pushing wheel (3-6) is connected with a pushing wheel arm (3-7) in a bearing way, the pushing wheel arm (3-7) is connected with a connecting rod (3-5), the connecting rod (3-5) is hinged with a hydraulic rod (3-8) with a hinged seat, the hydraulic rod (3-8) with a hinged seat is connected with a hydraulic cylinder (3-9), the hydraulic cylinder (3-9) is hinged with the shell mechanism (3-1), the fixed hinged rod (3-10) is connected with the pushing wheel arm (3-7), the fixed hinged rod (3-10) is hinged with the shell mechanism (3-1), the bevel gear (3-11) is meshed with the mincing motor mechanism (3-3), the bevel gear (3-11) is connected with the mincing shaft (3-12), the mincing shaft (3-12) is connected with the shell mechanism (3-1) in a bearing way, the mincing shaft (3-12) is connected with the cam (3-13) in a bearing way, the cam (3-13) is meshed with the mincing gear (3-14), the mincing gear (3-14) is connected with the mincing gear motor (3-15), the mincing gear motor (3-15) is connected with the hinged disk seat (3-22), the disc hinging seat (3-22) is connected with the stirring shaft (3-12), the cam with a boss (3-13) is hinged with the knife arm (3-16), the knife arm (3-16) is hinged with the disc hinging seat (3-22), the hinging seat I (3-17) is connected with the disc hinging seat (3-22), the hinging seat I (3-17) is hinged with the disc rod with a limit (3-20), the disc rod with a limit (3-20) is connected with the tightening hole (3-18) in a sliding way, the tightening hole (3-18) is opened on the knife arm (3-16), the spring II (3-19) is sleeved on the disc rod with a limit (3-20), the spring II (3-19) is abutted on the disc rod with a limit (3-20) and the knife arm (3-16), the stirring knife (3-21) is connected with the knife arm (3-16), the stirring wheel (3-23) is connected with the stirring shaft (3-12); the shell mechanism (3-1) comprises shell supporting legs (3-1-1), a shell body (3-1-2), a stirring inlet (3-1-3), a hinged seat A (3-1-4), a stirring bearing seat (3-1-5) and a stirring discharge port (3-1-6), the shell supporting legs (3-1-1) are connected with the base (1-1), the shell supporting legs (3-1-1) are connected with the shell body (3-1-2), the stirring inlet (3-1-3) is arranged on the shell body (3-1-2), the hinged seat A (3-1-4) is connected with the shell body (3-1-2), the stirring bearing seat (3-1-5) is connected with the shell body (3-1-2), the crushing bearing seat (3-1-5) is connected with the crushing shaft (3-12) in a bearing way, and the crushing discharge port (3-1-6) is arranged on the shell body (3-1-2); the motor sliding seat mechanism (3-2) comprises a step groove (3-2-1), a motor sliding seat body (3-2-2) and a sliding hole I (3-2-3), wherein the step groove (3-2-1) is formed in the motor sliding seat body (3-2-2), the motor sliding seat body (3-2-2) is connected with the shell body (3-1-2), and the sliding hole I (3-2-3) is formed in the shell body (3-1-2); the stirring motor mechanism (3-3) comprises a motor bevel gear (3-3-1), a shaft B (3-3-2), a coupler I (3-3-3) and a stirring motor (3-3-4), the motor bevel gear (3-3-1) is meshed with a bevel gear (3-11), the motor bevel gear (3-3-1) is connected with the shaft B (3-3-2), and the shaft B (3-3-2) is connected with the stirring motor (3-3-4) through the coupler I (3-3-3); the sliding bearing seat mechanism (3-4) comprises a step rod I (3-4-1), a sliding reset spring (3-4-2), a motor sliding seat (3-4-3), a door-shaped plate (3-4-4) and a bearing seat B (3-4-5), wherein the sliding reset spring (3-4-2) is sleeved on the step rod I (3-4-1), the step rod I (3-4-1) is connected with the motor sliding seat (3-4-3), the motor sliding seat (3-4-3) is connected with the step groove (3-2-1) in a sliding way, the sliding reset spring (3-4-2) is abutted against the inner wall of the motor sliding seat (3-4-3) and the motor sliding seat body (3-2-2), the motor sliding seat (3-4-3) is connected with the mincing motor (3-3-4), the shaft B (3-3-2) is connected with the bearing seat B (3-4-5) in a bearing way, the bearing seat B (3-4-5) is connected with the door-shaped plate (3-4-4), and the door-shaped plate (3-4-4) is contacted with the pushing wheel (3-6);

the feeding mechanism (1) is connected with the dust removal mechanism (2), and the feeding mechanism (1) is connected with the crushing mechanism (3).

2. The feed stuff crushing and processing device as claimed in claim 1, wherein: the special-shaped shaft I (2-4-1) and the special-shaped shaft (2-3-6) have the same shape and the same size.

3. The feed stuff crushing and processing device as claimed in claim 1, wherein: the gear ring meshed with the mincing gear (3-14) is arranged on the cam (3-13) with the boss.

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