CN108745547A - A kind of multi-functional bio-feritlizer process equipment - Google Patents
A kind of multi-functional bio-feritlizer process equipment Download PDFInfo
- Publication number
- CN108745547A CN108745547A CN201810552849.8A CN201810552849A CN108745547A CN 108745547 A CN108745547 A CN 108745547A CN 201810552849 A CN201810552849 A CN 201810552849A CN 108745547 A CN108745547 A CN 108745547A
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- Prior art keywords
- feeding
- box
- bolted
- welded
- crushing
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/14—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within horizontal containers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/08—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers
- B02C18/10—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers with drive arranged above container
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/16—Details
- B02C18/18—Knives; Mountings thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/16—Details
- B02C18/22—Feed or discharge means
- B02C18/2225—Feed means
- B02C18/2241—Feed means of conveyor belt type
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C18/00—Disintegrating by knives or other cutting or tearing members which chop material into fragments
- B02C18/06—Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
- B02C18/16—Details
- B02C18/22—Feed or discharge means
- B02C18/2225—Feed means
- B02C18/2283—Feed means using rollers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C21/00—Disintegrating plant with or without drying of the material
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B1/00—Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen
- B30B1/32—Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen by plungers under fluid pressure
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B23/00—Heating arrangements
- F26B23/04—Heating arrangements using electric heating
- F26B23/06—Heating arrangements using electric heating resistance heating
Landscapes
- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- General Engineering & Computer Science (AREA)
- Fertilizers (AREA)
Abstract
The present invention provides a kind of multi-functional bio-feritlizer process equipment, including pedestal, fixed link, movable pulley, supporting rod, dust cover, feeding crush roll structure, and fertilizer transmits band structure, and drying conveying box structure crushes guide box structure, squeeze discharge box structure, dust suction pipe structure, Nylon Bag, anchor ear piece, connecting plate, collecting box, pulley, level-one mounting rod, connecting tube, filter screen, control cabinet, display, PLC, power switch squeeze switch, feeding switch and power supply indicator.The setting of the bolted feeding motor in arc feeding box and arc feeding box rear surface centre position of the present invention is conducive to save labour, improves working efficiency, is conducive to save labour, improves working efficiency;The setting of sweep-up pipe, dust sucting motor, connector sleeve and flabellum is conducive to the dust generated during collection work, prevents pollution environment from increasing and uses function.
Description
Technical field
The invention belongs to fertilizer technical field of processing equipment more particularly to a kind of multi-functional bio-feritlizer process equipments.
Background technology
Bio-fertilizer process equipment includes:Organic fertilizer pulverizer, organic fertilizer blender, organic fertilizer granulator, organic fertilizer dry
Dry machine.The smashing fineness of this machine is needed to be adjusted in a certain range according to user.Semi-moist materials crusher is to organic fertilizer, compost
Production, which has, to be shortened technological process, reduces equipment investment, saves the advantages such as operating cost, is the ideal of fertilizer production process unit
Machinery.Pair roller type Squeezinggranulator is that dry material is agglomerated into fine and close hard bulk, referred to as extrusion process under pressure;
Biscuit is broken again after screening is known as granulation process as particulate material.The effect one of extruding is to supplant intergranular air,
In addition it is to make grain spacing from reaching close enough, to generate such as Van der Waals force, adsorption capacity, crystal brige and embedded connection attraction.
The particle of extruder grain is mainly the granule strength that the active force between molecule is formed.
China Patent Publication No. is CN206721056U, and invention and created name is a kind of bio-feritlizer process equipment, including
Workbench, the first supporting rack, discharge bucket, output shaft, pretreatment unit, feed hopper, mixing chamber, driving shaft, live-roller, described
One supporting rack is fixedly connected on the top of workbench, and the discharge bucket connects through the inside of workbench, the output shaft activity
Be connected to the top of the first supporting rack, the pretreatment unit by reaction warehouse, the second feed hopper, driven shaft, supporting table, connecting shaft,
Second feed hopper is fixedly connected on the left of reaction warehouse, and the driven shaft is movably connected on the top of supporting table, the company
Spindle fixes the left for being welded in mixing chamber through the inside of reaction warehouse, the feed hopper, and the driving shaft passes through live-roller
It is connected to the right of mixing chamber.But existing bio-feritlizer process equipment is reduced there is also time length is expended when artificial loading
The problem of working efficiency, when feeding, cannot crush and be unable to the dust generated in collection work.
Therefore, a kind of multi-functional bio-feritlizer process equipment of invention is very necessary.
Invention content
In order to solve the above technical problem, the present invention provides a kind of multi-functional bio-feritlizer process equipments, existing to solve
Some bio-feritlizer process equipments reduce working efficiency there is also time length is expended when artificial loading, and when feeding cannot carry out powder
It is broken and the problem of be unable to the dust generated in collection work.A kind of multi-functional bio-feritlizer process equipment, including pedestal, it is fixed
Bar, movable pulley, supporting rod, dust cover, feeding crush roll structure, and fertilizer transmits band structure, and drying conveying box structure crushes guide
Box structure squeezes discharge box structure, dust suction pipe structure, Nylon Bag, anchor ear piece, connecting plate, collecting box, pulley, level-one peace
Bar, connecting tube, filter screen, control cabinet, display, PLC, power switch, extruding switch, feeding switch and power supply indicator are filled,
The fixed link is welded on the upper end leftward position of pedestal;The movable pulley is bolted to respectively on the right side of the lower end of pedestal
Position and left side centre position;The supporting rod is welded on the upper end leftward position of pedestal;The supporting rod setting is solid
The left side of fixed pole;The dust cover is bolted to the upper end right positions of pedestal;The feeding crushes roll structure installation
In the leftward position of pedestal;The fertilizer transmission band structure is mounted on the upper end position of fixed link and supporting rod;The fertilizer
The left side of material transmission band structure is mounted on the lower right side position that feeding crushes roll structure;The drying conveying box structure installation
In the upper end position of level-one mounting rod;The upper end right positions for crushing guide box structure and being mounted on pedestal;Described squeezes
Pressure bin structure is mounted on the upper end right positions of pedestal;The upper end that the dust suction pipe structure is mounted on dust cover is left
Side position;The Nylon Bag is socketed in the left side lower end outer wall position of dust suction pipe structure;The anchor ear piece is socketed in
The outer wall upper position of Nylon Bag;The connecting plate is respectively welded at the leftward position of anchor ear piece;The connecting plate and company
Bolt and nut connects between fishplate bar;The collecting box is socketed in the lower end outer wall position of Nylon Bag;The pulley distinguishes spiral shell
Tether the lower end corner location for being connected on collecting box;The level-one mounting rod is welded on the left and right sides among the upper end of pedestal;Institute
The connecting tube stated is connected to drying conveying box structure and crushes the junction of guide box structure;The filter screen is connected to
It crushes guide box structure and squeezes the junction of discharge box structure;The control cabinet is bolted to the upper end right lateral position of pedestal
It sets;The display is embedded in the front surface upper middle position of control cabinet;The PLC screws are being connected to control cabinet just
Surface centre position;The power switch is bolted to the front surface lower left side position of control cabinet;The extruding is opened
Close the front surface lower left side position for being bolted to control cabinet;The feeding cock bolt is connected to the front surface of control cabinet
Lower part right positions;The power supply indicator screw is connected to the front surface lower part right positions of control cabinet;The feeding
It includes arc feeding box to crush roll structure, connects swivel plate, crushing shaft, feeding roller and rain shade, arc feeding box weldering
It is connected on the upper end right positions of connection swivel plate;The feeding roller is connected to the bosom of arc feeding box by crushing shaft
Position;The rain shade is welded on the upper end leftward position of arc feeding box;The crushing shaft is keyed in feeding roller
Bosom position;The crushing axle bearing is connected to the bosom leftward position of arc feeding box.
Preferably, the connection swivel plate includes sliding tube, clamping screw, adjusting rod, U-shaped sliding block and adjustable plate, institute
The lower end sliding for the sliding tube stated is connected to inside the sliding slot opened up on the right side of the upper end of connection swivel plate;The adjusting rod grafting
Inside the upper end of sliding tube;The U-shaped sliding block axis is connected on the upper end position of adjusting rod;The adjusting board shaft is connected on connection
Interior location on the right side of the upper end of swivel plate.
Preferably, the rain shade includes sliding panel, slide bolt, adjusting nut and rain visor, the sliding panel
It is welded on the left upper portion position of rain shade;The slide bolt is in the slide opening that sliding panel bosom position opens up
Portion;The adjusting nut is threaded in the outer wall upper position of slide bolt;The slide bolt is welded on rain visor
Upper end right positions.
Preferably, fertilizer transmission band structure includes delivery sheet, driving pulley, driven pulley, V bands and transmission electricity
Machine, the driving pulley are placed in the leftward position between delivery sheet and delivery sheet;The driven belt wheel shaft is connected on delivery sheet
Right positions between delivery sheet;The driving pulley connects driven pulley by V V belt translations;The transmission electrical machine spiral shell
Tether the left side centre position of the delivery sheet of followed setting;Output shaft of the driving pulley key connection in transmission electrical machine
On.
Preferably, drying conveying box structure includes feeding drying box, and feed hopper dries seat, and electrothermal tube is actively sent
Material wheel, driven drawing-inroller, conveyer belt and feeder motor, the feed hopper are welded on the upper end leftward position of feeding drying box;
The drying seat is bolted to the inner tip right positions of feed hopper;The electrothermal tube is from left to right plugged on successively
It dries seat and dries the position between seat;The inner wall lower leftward position in feeding drying box is arranged in the active-feeding wheel;
The driven parts feeding axle is connected on the inner wall lower right positions of feeding drying box;The active-feeding wheel passes through conveyer belt
Be sequentially connected driven drawing-inroller;The feeder motor is bolted to left lower position behind feeding drying box;It is described
Active-feeding wheel be keyed on the output shaft of feeder motor.
Preferably, the crushing guide box structure includes crush box, connecting seat, two level mounting rod, crushing motor, crushing
Bar, blade and observation piece, the crush box are bolted to the upper end right positions of connecting seat;The two level mounting rod point
It is not welded on the lower end corner location of connecting seat;The crushing motor is bolted to the upper end centre position of crush box;Institute
The crushing bar shaft coupling stated is connected on the output shaft for crushing motor;The blade is respectively welded at the left and right two for crushing bar
Side;The observation piece is embedded in the front surface centre position of crush box.
Preferably, the extruding discharge box structure includes squeezing tank, and demarcation strip squeezes seat, squeezes hydraulic cylinder, backgauge
Plate, feeding hydraulic cylinder, racking, stripper plate and passage, the demarcation strip are welded on the inner tip interposition of squeezing tank
It sets;The extruding seat is bolted to the upper end leftward position of squeezing tank;Being bolted to for the extruding hydraulic cylinder is crowded
The upper end right positions of wedge;The striker plate is mounted on the telescopic rod outer wall lower position for squeezing hydraulic cylinder;Described send
Feed liquid cylinder pressure is bolted to the left lower position of squeezing tank;The racking is bolted to the flexible of feeding hydraulic cylinder
Bar right end position;The stripper plate is bolted to the telescopic rod lower end position for squeezing hydraulic cylinder;The passage bolt
It is connected to the lower end right positions of squeezing tank.
Preferably, the lower right side position of the striker plate, which is welded with, is fixed by socket block;Described is fixed by socket block set
It is connected on the telescopic rod outer wall lower position for squeezing hydraulic cylinder.
Preferably, the dust suction pipe structure includes sweep-up pipe, mounting plate, dust sucting motor, connector sleeve and flabellum, institute
The mounting plate stated is welded on middle lower portion position at left and right sides of sweep-up pipe right end inner wall;The dust sucting motor is bolted to peace
Position between loading board and mounting plate;The connector sleeve is keyed on the output shaft of dust sucting motor;The flabellum difference
It is welded on the left and right sides centre position of connector sleeve.
Preferably, the rear surface centre position of the arc feeding box has been bolted feeding motor;The crushing
Axis shaft coupling is connected on the output shaft of the bolted feeding motor in arc feeding box rear surface centre position.
Preferably, the outer wall of the feeding roller is welded with the Disintegrating knife of taper;The left end of the connection swivel plate
It is bolted to the left lower position of pedestal;The left upper portion position of the sliding tube is threaded with adjusting bolt.
Preferably, the blade is provided with multiple;The interlaced setting of the blade.
Preferably, the passage uses rubber bellows.
Preferably, the left end of the delivery sheet is bolted to the lower right side position of arc feeding box;Described consolidates
Fixed pole is bolted to the lower part right positions of delivery sheet;The supporting rod is bolted to the lower left side position of delivery sheet
It sets.
Preferably, the feeding drying box is bolted to the upper end position of level-one mounting rod;The connecting tube
Left end is welded on inside the through-hole that the lower right side position of feeding drying box opens up;The right side setting of the delivery sheet is being fed
The left side top position of bucket.
Preferably, the two level mounting rod is bolted to the upper end right positions of pedestal;The right side of the connecting tube
End is plugged on inside the through-hole that the left side centre position of feeding drying box opens up;The filter screen screw is connected to crush box
On the outside of the through-hole that lower right side opens up.
Preferably, the squeezing tank is bolted to the upper end right positions of pedestal;The squeezing tank is bolted
In the lower right side of crush box;The left lower position of the squeezing tank corresponds to filter screen and offers through-hole;The feeding
The position between the two level mounting rod that left side is arranged and two level mounting rod is arranged in hydraulic cylinder.
Preferably, the sweep-up pipe is bolted to the upper end leftward position of dust cover;The Nylon Bag is socketed in
The left end outer wall lower position of sweep-up pipe.
Preferably, the extruding hydraulic cylinder specifically uses the hydraulic cylinder of model HOB40;The feeding hydraulic cylinder tool
Body uses the hydraulic cylinder of model MOB100.
Preferably, the electrothermal tube specifically uses stainless steel electric heating tube;The feeder motor specifically uses model
For the motor of YYJT100;The PLC specifically uses the PLC of model FX2N-48.
Preferably, the transmission electrical machine specifically uses the motor of model YYJT100.
Preferably, the crushing motor specifically uses the motor of model JS90L-4.
Preferably, the dust sucting motor specifically uses the stepper motor of model 57BYG.
Preferably, the dust sucting motor is electrically connected PLC output ends.
Preferably, the crushing motor is electrically connected PLC output ends.
Preferably, the transmission electrical machine is electrically connected PLC output ends.
Preferably, the electrothermal tube is electrically connected PLC output ends.
Preferably, the feeder motor is electrically connected PLC output ends.
Preferably, the extruding hydraulic cylinder is electrically connected PLC output ends.
Preferably, the feeding hydraulic cylinder is electrically connected PLC output ends.
Preferably, the display is electrically connected PLC output ends.
Preferably, the power switch is electrically connected PLC input terminals.
Preferably, extruding switch is electrically connected PLC input terminals.
Preferably, feeding switch is electrically connected PLC input terminals.
Preferably, the power supply indicator is electrically connected PLC output ends.
Preferably, it is defeated to be electrically connected PLC for the bolted feeding motor in the arc feeding box rear surface centre position
Outlet.
Compared with prior art, beneficial effects of the present invention are:
1. in the present invention, the bolted feeding motor of the arc feeding box and arc feeding box rear surface centre position
Setting is conducive to save labour, improves working efficiency.
2. in the present invention, the outer wall of the feeding roller is welded with the setting of the Disintegrating knife of taper, is conducive to feeding
Raw material crushed work is carried out in the process, and follow-up work is facilitated to improve working efficiency.
3. in the present invention, the sweep-up pipe, dust sucting motor, the setting of connector sleeve and flabellum is conducive to collection work mistake
The dust generated in journey prevents pollution environment, increases and use function.
4. in the present invention, the connection swivel plate, sliding tube, clamping screw, adjusting rod, U-shaped sliding block and adjustable plate
Setting is conducive to the angle for adjusting adjustable plate, facilitates feeding.
5. in the present invention, the sliding panel, the setting of slide bolt and adjusting nut is conducive to the length for adjusting rain visor
Degree facilitates rain cover and prevents raw material from leaking out when crushing.
6. in the present invention, the delivery sheet, driving pulley, driven pulley, the setting of V bands and transmission electrical machine is conducive to
Feedstock transportation after feeding roller is crushed improves working efficiency to the inside of feed hopper.
7. in the present invention, the electrothermal tube, active-feeding wheel, driven drawing-inroller, the setting of conveyer belt and feeder motor,
Be conducive to raw material and carry out drying work during conveying.
8. in the present invention, the passage uses the setting of rubber bellows, when being conducive to discharge fertilizer, guide is rotated
Pipe, facilitates collection fertilizer.
9. in the present invention, the setting of the crush box and observation piece facilitates look at the crushing of raw material in the course of work
Situation.
10. in the present invention, the interlaced setting of the blade is conducive to crush raw material.
11. in the present invention, the setting of the pedestal and dust cover, the dust for being conducive to prevent from generating in production process arrives
Place disorderly flies pollution environment.
Description of the drawings
Fig. 1 is the structural schematic diagram of the present invention.
Fig. 2 is that the feeding of the present invention crushes the structural schematic diagram of roll structure.
Fig. 3 is the structural schematic diagram of the fertilizer transmission band structure of the present invention.
Fig. 4 is the structural schematic diagram of the drying conveying box structure of the present invention.
Fig. 5 is the structural schematic diagram of the crushing guide box structure of the present invention.
Fig. 6 is the structural schematic diagram of the extruding discharge box structure of the present invention.
Fig. 7 is the structural schematic diagram of the dust suction pipe structure of the present invention.
Fig. 8 is the electrical wiring schematic diagram of the present invention.
In figure:
1, pedestal;2, fixed link;3, movable pulley;4, supporting rod;5, dust cover;6, feeding crushes roll structure;61, arc feeding
Case;62, swivel plate is connected;621, sliding tube;622, clamping screw;623, adjusting rod;624, U-shaped sliding block;625, adjustable plate;
63, crushing shaft;64, feeding roller;65, rain shade;651, sliding panel;652, slide bolt;653, adjusting nut;654, rain cover
Plate;7, fertilizer transmits band structure;71, delivery sheet;72, driving pulley;73, driven pulley;74, V bands;75, transmission electrical machine;8, it dries
Dry conveying box structure;81, feeding drying box;82, feed hopper;83, seat is dried;84, electrothermal tube;85, active-feeding wheel;86, from
Dynamic drawing-inroller;87, conveyer belt;88, feeder motor;9, guide box structure is crushed;91, crush box;92, connecting seat;93, two level is pacified
Fill bar;94, motor is crushed;95, bar is crushed;96, blade;97, piece is observed;10, discharge box structure is squeezed;101, squeezing tank;
102, demarcation strip;103, seat is squeezed;104, hydraulic cylinder is squeezed;105, striker plate;1051, it is fixed by socket block;106, feeding hydraulic pressure
Cylinder;107, racking;108, stripper plate;109, passage;11, dust suction pipe structure;111, sweep-up pipe;112, mounting plate;
113, dust sucting motor;114, connector sleeve;115, flabellum;12, Nylon Bag;13, anchor ear piece;14, connecting plate;15, collecting box;16,
Pulley;17, level-one mounting rod;18, connecting tube;19, filter screen;20, control cabinet;21, display;22,PLC;23, power supply is opened
It closes;24, switch is squeezed;25, feeding switchs;26, power supply indicator.
Specific implementation mode
The present invention is described further below in conjunction with attached drawing:
Embodiment:
As shown in attached drawing 1 to attached drawing 8
A kind of multi-functional bio-feritlizer process equipment of present invention offer, including pedestal 1, fixed link 2, movable pulley 3, supporting rod 4,
Dust cover 5, feeding crush roll structure 6, and fertilizer transmits band structure 7, and drying conveying box structure 8 crushes guide box structure 9, squeezes
Discharge box structure 10, dust suction pipe structure 11, Nylon Bag 12, anchor ear piece 13, connecting plate 14, collecting box 15, pulley 16, level-one
Mounting rod 17, connecting tube 18, filter screen 19, control cabinet 20, display 21, PLC22, power switch 23 squeeze switch 24, feeding
Switch 25 and power supply indicator 26, the fixed link 2 are welded on the upper end leftward position of pedestal 1;The movable pulley 3 is distinguished
It is bolted to lower end right positions and the left side centre position of pedestal 1;The upper end that the supporting rod 4 is welded on pedestal 1 is left
Side position;The supporting rod 4 is arranged in the left side of fixed link 2;The upper end that the dust cover 5 is bolted to pedestal 1 is right
Side position;The feeding crushes the leftward position that roll structure 6 is mounted on pedestal 1;The fertilizer transmission band structure 7 is mounted on
The upper end position of fixed link 2 and supporting rod 4;The left side of the fertilizer transmission band structure 7 is mounted on feeding and crushes roll structure 6
Lower right side position;The drying conveying box structure 8 is mounted on the upper end position of level-one mounting rod 17;The crushing guide
Box structure 9 is mounted on the upper end right positions of pedestal 1;The discharge box structure 10 that squeezes is mounted on the right side of the upper end of pedestal 1
Position;The dust suction pipe structure 11 is mounted on the upper end leftward position of dust cover 5;The Nylon Bag 12 is socketed in suction
The left side lower end outer wall position of dirt pipe structure 11;The anchor ear piece 13 is socketed in the outer wall upper position of Nylon Bag 12;
The connecting plate 14 is respectively welded at the leftward position of anchor ear piece 13;Bolt spiral shell between the connecting plate 14 and connecting plate 14
Mother's connection;The collecting box 15 is socketed in the lower end outer wall position of Nylon Bag 12;The pulley 16 is bolted to respectively
The lower end corner location of collecting box 15;The level-one mounting rod 17 is welded on the left and right sides among the upper end of pedestal 1;Described
Connecting tube 18 is connected to drying conveying box structure 8 and crushes the junction of guide box structure 9;The filter screen 19 connects
It is crushing guide box structure 9 and is squeezing the junction of discharge box structure 10;The control cabinet 20 is bolted to the upper of pedestal 1
Hold right positions;The display 21 is embedded in the front surface upper middle position of control cabinet 20;The PLC22 screws connect
It is connected on the front surface centre position of control cabinet 20;The front surface lower part that the power switch 23 is bolted to control cabinet 20 is left
Side position;The extruding switch 24 is bolted to the front surface lower left side position of control cabinet 20;The feeding switch
25 are bolted to the front surface lower part right positions of control cabinet 20;26 screw of power supply indicator is connected to control cabinet 20
Front surface lower part right positions;It includes arc feeding box 61 that the feeding, which crushes roll structure 6, connects swivel plate 62, is crushed
Axis 63, feeding roller 64 and rain shade 65, the arc feeding box 61 are welded on the upper end right positions of connection swivel plate 62;Institute
The feeding roller 64 stated is connected to the bosom position of arc feeding box 61 by crushing shaft 63;The rain shade 65 is welded on
The upper end leftward position of arc feeding box 61;The crushing shaft 63 is keyed in the bosom position of feeding roller 64;It is described
63 bearing of crushing shaft be connected to the bosom leftward position of arc feeding box 61.
In above-described embodiment, specifically, the connection swivel plate 62 includes sliding tube 621, clamping screw 622 is adjusted
Bar 623, U-shaped sliding block 624 and adjustable plate 625, the lower end sliding of the sliding tube 621 are connected to the upper end of connection swivel plate 62
Inside the sliding slot that right side opens up;The adjusting rod 623 is plugged on inside the upper end of sliding tube 621;The U-shaped sliding block 624
Axis is connected on the upper end position of adjusting rod 623;625 axis of adjustable plate is connected on position in the upper end right side of connection swivel plate 62
It sets.
In above-described embodiment, specifically, the rain shade 65 includes sliding panel 651, slide bolt 652, adjusting nut
653 and rain visor 654, the sliding panel 651 be welded on the left upper portion position of rain shade 65;The slide bolt 652
Inside the slide opening that 651 bosom position of sliding panel opens up;The adjusting nut 653 is threaded in slide bolt
652 outer wall upper position;The slide bolt 652 is welded on the upper end right positions of rain visor 654.
In above-described embodiment, specifically, the fertilizer transmission band structure 7 includes delivery sheet 71, driving pulley 72 is driven
Belt wheel 73, V bands 74 and transmission electrical machine 75, the driving pulley 72 are placed in the left lateral position between delivery sheet 71 and delivery sheet 71
It sets;73 axis of driven pulley is connected on the right positions between delivery sheet 71 and delivery sheet 71;The driving pulley 72 is logical
Cross 74 drive connection driven pulley 73 of V bands;The transmission electrical machine 75 is bolted the left side for the delivery sheet 71 being arranged below
Centre position;The driving pulley 72 is keyed on the output shaft of transmission electrical machine 75.
In above-described embodiment, specifically, the drying conveying box structure 8 includes feeding drying box 81, feed hopper 82 dries
Dry seat 83, electrothermal tube 84, active-feeding wheel 85, driven drawing-inroller 86, conveyer belt 87 and feeder motor 88, the feed hopper 82
It is welded on the upper end leftward position of feeding drying box 81;The inner tip that the drying seat 83 is bolted to feed hopper 82 is right
Side position;The electrothermal tube 84 is from left to right plugged on drying seat 83 and dries the position between seat 83 successively;The master
The inner wall lower leftward position in feeding drying box 81 is arranged in dynamic drawing-inroller 85;86 axis of driven drawing-inroller is connected on feeding baking
The inner wall lower right positions of dry case 81;The active-feeding wheel 85 is sequentially connected driven drawing-inroller 86 by conveyer belt 87;
The feeder motor 88 is bolted to left lower position behind feeding drying box 81;85 key of active-feeding wheel
It is connected on the output shaft of feeder motor 88.
In above-described embodiment, specifically, the crushing guide box structure 9 includes crush box 91, connecting seat 92, two level peace
Bar 93 is filled, motor 94 is crushed, crushes bar 95, blade 96 and observation piece 97, the crush box 91 are bolted to connecting seat 92
Upper end right positions;The two level mounting rod 93 is respectively welded at the lower end corner location of connecting seat 92;The crushing
Motor 94 is bolted to the upper end centre position of crush box 91;Crushing 95 shaft coupling of bar, which is connected to, crushes motor 94
On output shaft;The blade 96 is respectively welded at the left and right sides for crushing bar 95;The observation piece 97 is embedded in crush box
91 front surface centre position.
In above-described embodiment, specifically, the extruding discharge box structure 10 includes squeezing tank 101, demarcation strip 102 squeezes
Wedge 103 squeezes hydraulic cylinder 104, striker plate 105, feeding hydraulic cylinder 106, racking 107, stripper plate 108 and passage 109,
The demarcation strip 102 is welded on the inner tip centre position of squeezing tank 101;The extruding seat 103 is bolted to crowded
Press the upper end leftward position of case 101;The extruding hydraulic cylinder 104 is bolted to the upper end right positions for squeezing seat 103;
The striker plate 105 is mounted on the telescopic rod outer wall lower position for squeezing hydraulic cylinder 104;106 spiral shell of feeding hydraulic cylinder
Tether the left lower position for being connected on squeezing tank 101;The racking 107 is bolted to the flexible of feeding hydraulic cylinder 106
Bar right end position;The stripper plate 108 is bolted to the telescopic rod lower end position for squeezing hydraulic cylinder 104;The guide
Pipe 109 is bolted to the lower end right positions of squeezing tank 101.
In above-described embodiment, specifically, the lower right side position of the striker plate 105 is welded with and is fixed by socket block
1051;The block 1051 that is fixed by socket is socketed in the telescopic rod outer wall lower position for squeezing hydraulic cylinder 104.
In above-described embodiment, specifically, the dust suction pipe structure 11 includes sweep-up pipe 111, mounting plate 112 is inhaled
Dirt motor 113, connector sleeve 114 and flabellum 115, during the mounting plate 112 is welded at left and right sides of 111 right end inner wall of sweep-up pipe
Between lower position;The dust sucting motor 113 is bolted to the position between mounting plate 112 and mounting plate 112;The company
Female connector 114 is keyed on the output shaft of dust sucting motor 113;The flabellum 115 is respectively welded at the left and right two of connector sleeve 114
Side centre position.
In above-described embodiment, specifically, the rear surface centre position of the arc feeding box 61 has been bolted feeding
Motor;63 shaft coupling of crushing shaft is connected to the 61 bolted feeding motor in rear surface centre position of arc feeding box
On output shaft.
In above-described embodiment, specifically, the outer wall of the feeding roller 64 is welded with the Disintegrating knife of taper;The company
The left end for connecing swivel plate 62 is bolted to the left lower position of pedestal 1;The left upper portion position spiral shell of the sliding tube 621
Line is connected with adjusting bolt.
In above-described embodiment, specifically, the blade 96 be provided with it is multiple;The 96 interlaced setting of blade.
In above-described embodiment, specifically, the passage 109 uses rubber bellows.
In above-described embodiment, specifically, the left end of the delivery sheet 71 is bolted to the right side of arc feeding box 61
Lower position;The fixed link 2 is bolted to the lower part right positions of delivery sheet 71;The supporting rod 4 is bolted
In the lower left side position of delivery sheet 71.
In above-described embodiment, specifically, the feeding drying box 81 is bolted to the upper end position of level-one mounting rod 17
It sets;The left end of the connecting tube 18 is welded on inside the through-hole that the lower right side position of feeding drying box 81 opens up;Described
The right side of delivery sheet 71 is arranged in the left side top position of feed hopper 82.
In above-described embodiment, specifically, the two level mounting rod 93 is bolted to the upper end right positions of pedestal 1;
The right end of the connecting tube 18 is plugged on inside the through-hole that the left side centre position of feeding drying box 81 opens up;The filtering
19 screw of net is connected to the through-hole outside that the lower right side of crush box 91 opens up.
In above-described embodiment, specifically, the squeezing tank 101 is bolted to the upper end right positions of pedestal 1;It is described
Squeezing tank 101 be bolted to the lower right side of crush box 91;The left lower position of the squeezing tank 101 corresponds to filtering
Net 19 offers through-hole;The two level mounting rod 93 being arranged in left side and two level mounting rod 93 is arranged in the feeding hydraulic cylinder 106
Between position.
In above-described embodiment, specifically, the sweep-up pipe 111 is bolted to the upper end leftward position of dust cover 5;Institute
The Nylon Bag 12 stated is socketed in the left end outer wall lower position of sweep-up pipe 111.
In above-described embodiment, specifically, the hydraulic cylinder for squeezing hydraulic cylinder 104 and specifically using model HOB40;Institute
The feeding hydraulic cylinder 106 stated specifically uses the hydraulic cylinder of model MOB100.
In above-described embodiment, specifically, the electrothermal tube 84 specifically uses stainless steel electric heating tube;The conveying electricity
Machine 88 specifically uses the motor of model YYJT100;The PLC22 specifically uses the PLC of model FX2N-48.
In above-described embodiment, specifically, the transmission electrical machine 75 specifically uses the motor of model YYJT100.
In above-described embodiment, specifically, the motor for crushing motor 94 and specifically using model JS90L-4.
In above-described embodiment, specifically, the dust sucting motor 113 specifically uses the stepper motor of model 57BYG.
In above-described embodiment, specifically, the dust sucting motor 113 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the crushing motor 94 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the transmission electrical machine 75 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the electrothermal tube 84 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the feeder motor 88 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the extruding hydraulic cylinder 104 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the feeding hydraulic cylinder 106 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the display 21 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the power switch 23 is electrically connected PLC22 input terminals.
In above-described embodiment, specifically, the extruding switch 24 is electrically connected PLC22 input terminals.
In above-described embodiment, specifically, the feeding switch 25 is electrically connected PLC22 input terminals.
In above-described embodiment, specifically, the power supply indicator 26 is electrically connected PLC22 output ends.
In above-described embodiment, specifically, the bolted feeding electricity in the 61 rear surface centre position of arc feeding box
Machine is electrically connected PLC22 output ends.
Operation principle
In the present invention, when producing fertilizer, clamping screw 622 is unclamped, mobile sliding tube 621 adjusts the angle of adjustable plate 625, adjusts
It integrates after fitting, tightens clamping screw 622, fix, unclamp adjusting nut 653, adjust the collapsing length of rain visor 654, adjustment
After suitable, adjusting nut 653 is tightened, by the inside of raw material input arc feeding box 61,23 is turned on the power switch, passes through PLC22
The bolted feeding motor rotation in 61 rear surface centre position of arc feeding box is controlled, is driven outside feeding roller 64 and feeding roller 64
The Disintegrating knife of the taper of wall welding starts rotation work, raw material is crushed and is delivered to the right end upper surface of V bands 74, leads to
Cross transmission electrical machine 75 drive driving pulley 72 rotate, by raw material by V bands 74 be sent into feed hopper 82 inside, conveyer belt 87 it is upper
End drives active-feeding wheel 85 to rotate by feeder motor 88, and driving conveying belt 87 rotates, and transferring raw material is controlled by PLC22
Electrothermal tube 84 is started to work, and during feedstock transportation, carries out drying work, the raw material after drying is sent by connecting tube 18
Enter inside crush box 91, controlled by PLC22 and crush the drive of motor 94 crushing bar 95 and the rotation of blade 96, crush work,
So that the raw material after crushing is passed through the inside that filter screen 19 falls into squeezing tank 101, open and squeeze switch 24, is controlled and squeezed by PLC22
Pressure cylinder 104 carries out extruding work, after the completion of extruding, opens feeding switch 25, makes PLC22 control feedings hydraulic cylinder 106,
Fertilizer after extruding is moved to the top of passage 109, releases the fertilizer after squeezing, and then completes fertilizer processing.
Using technical solutions according to the invention or those skilled in the art under the inspiration of technical solution of the present invention,
Similar technical solution is designed, and reaches above-mentioned technique effect, is to fall into protection scope of the present invention.
Claims (10)
1. a kind of multi-functional bio-feritlizer process equipment, which is characterized in that the multi-functional bio-feritlizer process equipment includes
Pedestal(1), fixed link(2), movable pulley(3), supporting rod(4), dust cover(5), feeding crushing roll structure(6), fertilizer transmission belt
Structure(7), drying conveying box structure(8), crush guide box structure(9), squeeze discharge box structure(10), dust suction pipe structure
(11), Nylon Bag(12), anchor ear piece(13), connecting plate(14), collecting box(15), pulley(16), level-one mounting rod(17), connection
Pipe(18), filter screen(19), control cabinet(20), display(21), PLC(22), power switch(23), squeeze switch(24), send
Material switch(25)And power supply indicator(26), the fixed link(2)It is welded on pedestal(1)Upper end leftward position;Described
Movable pulley(3)It is bolted to pedestal respectively(1)Lower end right positions and left side centre position;The supporting rod(4)Weldering
It is connected on pedestal(1)Upper end leftward position;The supporting rod(4)It is arranged in fixed link(2)Left side;The dust cover
(5)It is bolted to pedestal(1)Upper end right positions;The feeding crushes roll structure(6)Mounted on pedestal(1)Left side
Position;The fertilizer transmits band structure(7)Mounted on fixed link(2)And supporting rod(4)Upper end position;The fertilizer passes
Defeated band structure(7)Left side be mounted on feeding crush roll structure(6)Lower right side position;The drying conveys box structure
(8)Mounted on level-one mounting rod(17)Upper end position;The crushing guide box structure(9)Mounted on pedestal(1)Upper end
Right positions;The extruding discharge box structure(10)Mounted on pedestal(1)Upper end right positions;The dust suction delivery pipe
Structure(11)Mounted on dust cover(5)Upper end leftward position;The Nylon Bag(12)It is socketed in dust suction pipe structure
(11)Left side lower end outer wall position;The anchor ear piece(13)It is socketed in Nylon Bag(12)Outer wall upper position;Described
Connecting plate(14)It is respectively welded at anchor ear piece(13)Leftward position;The connecting plate(14)And connecting plate(14)Between bolt
Nut connects;The collecting box(15)It is socketed in Nylon Bag(12)Lower end outer wall position;The pulley(16)Spiral shell respectively
It tethers and is connected on collecting box(15)Lower end corner location;The level-one mounting rod(17)It is welded on pedestal(1)Upper end among
The left and right sides;The connecting tube(18)It is connected to drying conveying box structure(8)With crushing guide box structure(9)Connection
Place;The filter screen(19)It is connected to and crushes guide box structure(9)With extruding discharge box structure(10)Junction;Described
Control cabinet(20)It is bolted to pedestal(1)Upper end right positions;The display(21)It is embedded in control cabinet(20)'s
Front surface upper middle position;The PLC(22)Screw is connected to control cabinet(20)Front surface centre position;The electricity
Source switch(23)It is bolted to control cabinet(20)Front surface lower left side position;The extruding switch(24)It is bolted
In control cabinet(20)Front surface lower left side position;The feeding switch(25)It is bolted to control cabinet(20)Positive table
Face lower part right positions;The power supply indicator(26)Screw is connected to control cabinet(20)Front surface lower part right positions;
The feeding crushes roll structure(6)Including arc feeding box(61), connect swivel plate(62), crushing shaft(63), feeding roller
(64)And rain shade(65), the arc feeding box(61)It is welded on connection swivel plate(62)Upper end right positions;It is described
Feeding roller(64)Pass through crushing shaft(63)It is connected to arc feeding box(61)Bosom position;The rain shade(65)
It is welded on arc feeding box(61)Upper end leftward position;The crushing shaft(63)Key connection is in feeding roller(64)Inside in
Between position;The crushing shaft(63)Bearing is connected to arc feeding box(61)Bosom leftward position.
2. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the connection swivel plate
(62)Including sliding tube(621), clamping screw(622), adjusting rod(623), U-shaped sliding block(624)And adjustable plate(625), described
Sliding tube(621)Lower end sliding be connected to connection swivel plate(62)Upper end on the right side of inside the sliding slot that opens up;The tune
Pole(623)It is plugged on sliding tube(621)Upper end inside;The U-shaped sliding block(624)Axis is connected on adjusting rod(623)It is upper
End position;The adjustable plate(625)Axis is connected on connection swivel plate(62)Upper end on the right side of interior location.
3. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the rain shade(65)Packet
Include sliding panel(651), slide bolt(652), adjusting nut(653)And rain visor(654), the sliding panel(651)Welding
In rain shade(65)Left upper portion position;The slide bolt(652)Through sliding panel(651)Bosom position opens up
Slide opening inside;The adjusting nut(653)It is threaded in slide bolt(652)Outer wall upper position;The cunning
Dynamic bolt(652)It is welded on rain visor(654)Upper end right positions.
4. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the fertilizer transmission belt knot
Structure(7)Including delivery sheet(71), driving pulley(72), driven pulley(73), V bands(74)And transmission electrical machine(75), the master
Movable belt pulley(72)It is placed in delivery sheet(71)And delivery sheet(71)Between leftward position;The driven pulley(73)Axis, which is connected on, to be sent
Flitch(71)And delivery sheet(71)Between right positions;The driving pulley(72)Pass through V bands(74)It is sequentially connected driven
Belt wheel(73);The transmission electrical machine(75)It is bolted the delivery sheet being arranged below(71)Left side centre position;It is described
Driving pulley(72)Key connection is in transmission electrical machine(75)Output shaft on.
5. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the drying conveying box knot
Structure(8)Including feeding drying box(81), feed hopper(82), dry seat(83), electrothermal tube(84), active-feeding wheel(85), driven
Drawing-inroller(86), conveyer belt(87)And feeder motor(88), the feed hopper(82)It is welded on feeding drying box(81)It is upper
Hold leftward position;The drying seat(83)It is bolted to feed hopper(82)Inner tip right positions;The electric heating
Pipe(84)It is from left to right plugged on drying seat successively(83)With drying seat(83)Between position;The active-feeding wheel(85)
It is arranged in feeding drying box(81)Inner wall lower leftward position;The driven drawing-inroller(86)Axis is connected on feeding drying box
(81)Inner wall lower right positions;The active-feeding wheel(85)Pass through conveyer belt(87)Be sequentially connected driven drawing-inroller
(86);The feeder motor(88)It is bolted to feeding drying box(81)Behind left lower position;The active
Drawing-inroller(85)Key connection is in feeder motor(88)Output shaft on.
6. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the crushing guide case knot
Structure(9)Including crush box(91), connecting seat(92), two level mounting rod(93), crush motor(94), crush bar(95), blade
(96)With observation piece(97), the crush box(91)It is bolted to connecting seat(92)Upper end right positions;Described two
Grade mounting rod(93)It is respectively welded at connecting seat(92)Lower end corner location;The crushing motor(94)It is bolted to powder
Broken case(91)Upper end centre position;The crushing bar(95)Shaft coupling is connected to crushing motor(94)Output shaft on;Institute
The blade stated(96)It is respectively welded at crushing bar(95)The left and right sides;The observation piece(97)It is embedded in crush box(91)'s
Front surface centre position.
7. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the extruding nesting box knot
Structure(10)Including squeezing tank(101), demarcation strip(102), squeeze seat(103), squeeze hydraulic cylinder(104), striker plate(105), send
Feed liquid cylinder pressure(106), racking(107), stripper plate(108)And passage(109), the demarcation strip(102)It is welded on crowded
Press case(101)Inner tip centre position;The extruding seat(103)It is bolted to squeezing tank(101)Upper end on the left of
Position;The extruding hydraulic cylinder(104)Be bolted to extruding seat(103)Upper end right positions;The striker plate
(105)Mounted on extruding hydraulic cylinder(104)Telescopic rod outer wall lower position;The feeding hydraulic cylinder(106)It is bolted
In squeezing tank(101)Left lower position;The racking(107)It is bolted to feeding hydraulic cylinder(106)It is flexible
Bar right end position;The stripper plate(108)It is bolted to extruding hydraulic cylinder(104)Telescopic rod lower end position;Described
Passage(109)It is bolted to squeezing tank(101)Lower end right positions.
8. multi-functional bio-feritlizer process equipment as claimed in claim 7, which is characterized in that the striker plate(105)
Lower right side position be welded with and be fixed by socket block(1051);Described is fixed by socket block(1051)It is socketed in extruding hydraulic cylinder
(104)Telescopic rod outer wall lower position.
9. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the dust suction delivery pipe knot
Structure(11)Including sweep-up pipe(111), mounting plate(112), dust sucting motor(113), connector sleeve(114)And flabellum(115), described
Mounting plate(112)It is welded on sweep-up pipe(111)Middle lower portion position at left and right sides of right end inner wall;The dust sucting motor(113)
It is bolted to mounting plate(112)And mounting plate(112)Between position;The connector sleeve(114)Key connection is in dust suction electricity
Machine(113)Output shaft on;The flabellum(115)It is respectively welded at connector sleeve(114)Left and right sides centre position.
10. multi-functional bio-feritlizer process equipment as described in claim 1, which is characterized in that the arc feeding box
(61)Rear surface centre position be bolted feeding motor;The crushing shaft(63)Shaft coupling is connected to arc feeding box
(61)On the output shaft of the bolted feeding motor in rear surface centre position.
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CN201810552849.8A CN108745547A (en) | 2018-06-01 | 2018-06-01 | A kind of multi-functional bio-feritlizer process equipment |
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CN201810552849.8A CN108745547A (en) | 2018-06-01 | 2018-06-01 | A kind of multi-functional bio-feritlizer process equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110420719A (en) * | 2019-06-10 | 2019-11-08 | 陈佳涵 | A kind of minced fillet production recovery device of wastes |
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