CN111848248A

CN111848248A - Bio-organic fertilizer automatic blending fermenting installation

Info

Publication number: CN111848248A
Application number: CN202010797457.5A
Authority: CN
Inventors: 程永乾
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2020-10-30

Abstract

The invention discloses an automatic batching and fermenting device for a bio-organic fertilizer, which comprises a raw material crushing mechanism, a classification storage mechanism, an automatic batching mechanism, a fermentation tank body, stirring blades and an automatic control unit, wherein the raw material crushing mechanism is connected with the classification storage mechanism through a pipeline; the classified storage mechanism comprises a sliding guide rail arranged right below the raw material crushing mechanism, a plurality of groups of storage boxes nested on the sliding guide rail in a relative sliding manner, and a first driving mechanism in power connection with each group of storage boxes; the automatic batching mechanism is arranged at the bottom of the sorting storage mechanism and comprises a batching box, a mounting plate which is arranged at the bottom of the batching box in a matching way, an electronic scale which is arranged on the upper surface of the mounting plate and a second driving mechanism which is in power connection with the mounting plate; the storage box is fixedly connected to the top end of the fermentation tank body and communicated with the fermentation tank body, stirring blades are installed in the fermentation tank body in a matched mode, and the stirring blades are connected with a third driving mechanism in a power mode. The invention has the beneficial effects of realizing automatic ingredient fermentation, improving the quality of the organic fertilizer and realizing high production efficiency.

Description

Bio-organic fertilizer automatic blending fermenting installation

Technical Field

The invention relates to the technical field of organic fertilizer production, in particular to an automatic batching and fermenting device for a biological organic fertilizer.

Background

When producing bio-organic fertilizer, often involve a great deal of organic raw materials, traditional fermenting installation is difficult to carry out accurate ratio to multiple organic raw materials, especially in the industrial production process, and the staff all need carry out the raw materials ratio in the fertilizer production process to each batch, greatly increased staff's work load, also reduced production efficiency. In addition, in order to improve the quality of the organic fertilizer, the organic raw materials need to be efficiently crushed to ensure that the size of the organic raw materials meets the production requirement, and the traditional fermentation device is difficult to provide the organic raw materials meeting the production requirement in a large batch. Therefore, it is necessary to design an automatic batching and fermenting device for biological organic fertilizer, which can realize automatic batching and fermenting, improve the quality of organic fertilizer and produce high efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the automatic batching and fermenting device for the biological organic fertilizer, which can realize automatic batching and fermenting, improve the quality of the organic fertilizer and produce high-efficiency biological organic fertilizer.

The technical scheme adopted by the invention for realizing the purpose is as follows: an automatic batching and fermenting device for a bio-organic fertilizer comprises a raw material crushing mechanism, a classification storage mechanism, an automatic batching mechanism, a fermenting tank body, stirring blades and an automatic control unit; the classified storage mechanism comprises a sliding guide rail arranged right below the raw material crushing mechanism, a plurality of groups of storage boxes nested on the sliding guide rail in a relative sliding manner, and a first driving mechanism in power connection with each group of storage boxes; the bottom of the classified storage mechanism is provided with an automatic batching mechanism, and the automatic batching mechanism comprises a batching box with the upper end and the lower end arranged in an open manner, a mounting plate arranged at the bottom of the batching box in a matching manner, an electronic scale arranged on the upper surface of the mounting plate, and a second driving mechanism in power connection with the mounting plate; the batching box is fixedly connected to the top end of the fermentation tank body and communicated with the fermentation tank body, stirring blades are arranged in the fermentation tank body in a matched mode, the stirring blades are in power connection with a third driving mechanism, a water inlet and a fermentation liquid opening are formed in the top of the fermentation tank body, and an organic fertilizer outlet is formed in the bottom of the fermentation tank body;

the raw material crushing mechanism comprises: the screening device comprises a screening barrel body, a fourth driving mechanism, a crushing device, a fifth driving mechanism, a pushing mechanism and a collecting hopper, wherein the screening barrel body is transversely arranged, the fourth driving mechanism is in power connection with the screening barrel body, the crushing device is fixedly installed in the screening barrel body, a feeding hole is vertically and upwards formed in the screening barrel body, the fifth driving mechanism is in power connection with the crushing device, the pushing mechanism is introduced into the inner side of the screening barrel body from the axial direction of the screening barrel body and is communicated with the feeding hole of the; the classified storage mechanism is arranged under the aggregate bin;

and the automatic control unit is at least in signal data connection with the first driving mechanism, the electronic scale, the second driving mechanism and the third driving mechanism.

Raw materials rubbing crusher constructs, categorised storage mechanism sets up on subaerial, automatic blending mechanism, the setting of fermentation tank body are under ground, subaerial digging is equipped with the installation cell body, installation cell body bottom concreties there is the installation pedestal, just the mode that the fermentation tank body adopted the horizontal concreties on the installation pedestal, automatic blending mechanism sets up the open-top department at the installation cell body.

The mounting groove body is provided with a first mounting frame, the sliding guide rail is horizontally and fixedly connected at the bottom of the first mounting frame, the sliding guide rails comprise two groups which are arranged in parallel, a gap between the two groups of sliding guide rails is vertically opposite to the opening at the top end of the batching box, the first driving mechanism comprises two groups of adjusting screw rods which are arranged along the extending direction of the sliding guide rail and rotate freely, and a first driving motor which is in power connection with the two groups of adjusting screw rods and drives the two groups of adjusting screw rods to rotate synchronously, each group of storage boxes is in screwed connection with the adjusting screw rods, the bottom of each group of the storage boxes is arranged in a funnel shape, the bottom of each group of the storage boxes is vertically and downwards provided with a discharge hole, and each group of discharge ports is provided with a first electromagnetic switch valve which is provided with a reference opening degree, and the automatic control unit is in signal connection with the first driving motor and each group of first electromagnetic switch valves.

The electronic scale is nested and matched with the inner side wall of the batching box, one side edge of the mounting plate is hinged to the inner side wall of the batching box, the second driving mechanism adopts an electric telescopic rod, one end of the electric telescopic rod is hinged to the other side edge of the mounting plate, the other end of the electric telescopic rod is hinged to the bottom end of the batching box, and the automatic control unit is in signal data connection with the electronic scale and the electric telescopic rod; the automatic control unit is provided with a first control strategy, the first control strategy is provided with a first control algorithm, the first control algorithm controls the real-time opening degree of the first electromagnetic switch valve according to the weight induction value of the electronic scale and the benchmark opening degree of the first electromagnetic switch valve, and the calculation formula of the first control algorithm is as follows:

L=αw+l；

wherein L is the real-time opening degree of the first electromagnetic switch valve, alpha is a constant negative value, w is a weight induction value of the electronic scale (8), and L is the reference opening degree of the first electromagnetic switch valve.

The third driving mechanism comprises an installation shaft and a second driving motor, the installation shaft penetrates through the fermentation tank body in a relative rotation mode, the stirring blades are evenly arranged on the installation shaft, the second driving motor is in power connection with the installation shaft, and the automatic control unit is in signal connection with the second driving motor.

The screening cylinder is nested and mounted on the first mounting frame in a relative rotation mode, the collecting hopper is fixedly mounted on the first mounting frame, a second electromagnetic switch valve is mounted at the bottom of the collecting hopper in a matched mode and is in signal connection with the automatic control unit, the middle section of the screening cylinder is gradually narrowed from the middle section to two ends, and a lifting plate is hinged to the inner side wall of the middle section of the screening cylinder; and the joint of the lifting plate and the inner side wall of the screening cylinder is provided with a torsion spring in a matching way;

the joint of the lifting plate deviates from the central axis of the screening cylinder in the direction of the free end of the lifting plate, the free end of the lifting plate is obliquely arranged in the rotating direction of the screening cylinder and forms an acute angle space with the screening cylinder, one side of the lifting plate, which is identical to the rotating direction of the screening cylinder, is defined as the front side of the lifting plate, the other side of the lifting plate is defined as the back side of the lifting plate, and the organic raw materials are accommodated in the acute angle space on the front side of the lifting plate when screened in the screening cylinder;

when the second magnet of the lifting plate moves to the magnetic force range of the first magnet, the second magnet overcomes the elasticity of a torsion spring by the magnetic force of the first magnet and swings by taking a junction as a center, so that the junction of the lifting plate points to the feed port of the crushing device in the direction of the free end of the lifting plate, and the organic raw material contained in the acute-angle space falls into the feed port of the crushing device along the lifting plate;

the fourth drive mechanism includes: the transmission gear is fixedly connected to one end of the screening cylinder, the third driving motor is fixedly installed at the top end of the first installation frame, and the driving gear is fixedly connected to a rotating shaft of the third driving motor; the driving gear is in power connection with the transmission gear through a chain.

Installation through holes have been seted up at the both ends of screening barrel, all form a complete set in two sets of installation through holes and install the installation piece, and installation piece fixed mounting is on the second mounting bracket, second mounting bracket fixed mounting be in on the first mounting bracket, the inside both ends fixed connection who is provided with the third mounting bracket that the level was arranged and third mounting bracket of screening barrel is on two sets of installation pieces, reducing mechanism fixed mounting is on the third mounting bracket, the vertical downward arrangement of reducing mechanism's discharge gate.

The crushing device comprises a crushing box and a feed hopper arranged at the top of the crushing box, the feed hopper serves as a feed inlet of the crushing device, a plurality of groups of crushing rollers and a plurality of groups of crushing rollers are arranged inside the crushing box, the crushing rollers are arranged under the feed hopper, the crushing rollers are arranged under the crushing rollers, the crushing rollers and the crushing rollers are linked, a power shaft is fixedly connected with the axis of one group of crushing rollers or the crushing rollers, the power shaft is arranged along one group of the feed hopper, the mounting block is led out, a fifth driving mechanism comprises a fourth driving motor, a first change gear and a second change gear, the part of the power shaft led out of the mounting block is fixedly connected with the first change gear, the fourth driving motor is fixedly arranged on the mounting block and is fixedly connected with the second change gear on the rotating shaft of the fourth driving motor, and the first change gear and the second change gear are meshed and connected.

A fourth mounting frame is horizontally and fixedly connected to one group of mounting blocks, the pushing mechanism comprises a transmission cylinder, a transmission shaft, spiral blades, a material conveying inlet and a fifth driving motor, the transmission cylinder is fixedly mounted on the fourth mounting frame and penetrates through the mounting blocks to be communicated with a material inlet of the crushing device, the material conveying inlet is mounted at the other end of the transmission cylinder, the transmission shaft is arranged on the inner side of the transmission cylinder and is arranged along the extension direction of the transmission cylinder in a relative rotation mode, the transmission shaft is in power connection with the fifth driving motor, and the spiral blades are uniformly arranged on the transmission shaft;

the transmission axle lets in the first conical gear of feeder hopper one end fixedly connected with of reducing mechanism, and first conical gear meshing has second conical gear, the coaxial fixedly connected with vertical axis of second conical gear, feeder hopper and crushing case junction install with vertical axis bottom fixed connection's mount, and set up the logical groove that makes organic raw materials pass through on the mount, the top fixedly connected with carousel of vertical axis, and the center department of carousel articulates there is the bottom of connecting rod, the top of connecting rod articulates there is the flitch of scraping with the laminating of feeder hopper inside wall, and scrapes the flitch surface coating and have the polytetrafluoroethylene coating.

The supporting third electromagnetic switch valve, first electronic flowmeter of installing on the water inlet, and the supporting suction pump of installing on the water inlet, supporting fourth electromagnetic switch valve, second electronic flowmeter of installing on the fermentation liquor mouth, and the fermentation liquor mouth is linked together with the fermentation liquid jar, the supporting fifth electromagnetic switch valve of installing in the fertilizer export, the automatic control unit with first electronic flowmeter, second electronic flowmeter, third electromagnetic switch valve, fourth electromagnetic switch valve, fifth electromagnetic switch valve, suction pump signal data connection.

The invention has the beneficial effects that: the automatic control unit receives the data detected by the first electronic flowmeter, the second electronic flowmeter and the electronic scale and controls the working state of relevant equipment according to the data so as to realize automatic batching of different organic raw materials and improve the production efficiency of the biological organic fertilizer;

fall into the screening barrel after reducing mechanism smashes organic raw materials, the screening barrel leaks into the collecting hopper with the raw materials that accords with the size under third driving motor drives the rotation, and the great organic raw materials of size moves upwards through the lifting plate and overturns and falls into reducing mechanism again and carry out the secondary crushing to all accord with the fermentation requirement after guaranteeing that the organic raw materials of input smashes, with the production quality who improves the fertilizer.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged detail view of portion A of FIG. 1;

FIG. 3 is a schematic view of the sorting and storing mechanism mounted on a first mounting rack;

FIG. 4 is a schematic view of the crushing apparatus mounted on a third mounting bracket;

FIG. 5 is an enlarged schematic view of the portion B in FIG. 4;

FIG. 6 is a schematic structural view of the screening cartridge;

FIG. 7 is a schematic structural view of the crushing device installed in the screening cylinder;

FIG. 8 is a schematic structural view of the connection between the crushing device and the pushing mechanism of the crusher;

fig. 9 is a schematic diagram of a signal data transmission relationship between the automatic control unit and each device.

In the figure: 1 fermentation tank body, 2 stirring blades, 3 automatic control unit, 4 sliding guide rails, 5 storage box, 6 batching box, 7 mounting plate, 8 electronic scale, 9 water inlet, 10 fermentation liquid outlet, 11 organic fertilizer outlet, 12 screening cylinder body, 13 crushing device, 14 pushing mechanism, 15 collecting hopper, 16 mounting groove body, 17 mounting base body, 18 first mounting frame, 19 adjusting screw rod, 20 first driving motor, 21 discharge outlet, 22 first electromagnetic switch valve, 23 electric telescopic rod, 24 mounting shaft, 25 second driving motor, 26 second electromagnetic switch valve, 27 lifting plate, 28 transmission gear, 29 third driving motor, 30 driving gear, 31 mounting through hole, 32 mounting block, 33 second mounting frame, 34 third mounting frame, 35 crushing roller, 36 crushing roller, 37 power shaft, 38 fourth driving motor, 39 first change gear, 40 second change gear, 41 fourth mounting frame, 42 conveying cylinders, 43 conveying shafts, 44 spiral blades, 45 conveying inlets, 46 third electromagnetic switch valves, 47 first electronic flowmeters, 48 water suction pumps, 49 fourth electromagnetic switch valves, 50 second electronic flowmeters, 51 fifth electromagnetic switch valves, 52 torsion springs, 53 first magnets, 54 second magnets, 55 feed hoppers, 56 crushing boxes, 57 first bevel gears, 58 second bevel gears, 59 vertical shafts, 60 fixing frames, 61 through grooves, 62 rotating discs, 63 connecting rods and 64 scraping plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 and 9, an automatic blending and fermenting device for bio-organic fertilizer comprises a raw material crushing mechanism, a classification storage mechanism, an automatic blending mechanism, a fermentation tank body 1, a stirring blade 2 and an automatic control unit 3; the classified storage mechanism comprises a sliding guide rail 4 arranged right below the raw material crushing mechanism, a plurality of groups of storage boxes 5 nested on the sliding guide rail 4 in a relative sliding manner, and a first driving mechanism in power connection with each group of storage boxes 5; the bottom of the classified storage mechanism is provided with an automatic batching mechanism, and the automatic batching mechanism comprises a batching box 6 with the upper end and the lower end arranged in an open manner, a mounting plate 7 arranged at the bottom of the batching box 6 in a matching manner, an electronic scale 8 arranged on the upper surface of the mounting plate 7 and a second driving mechanism in power connection with the mounting plate 7; the batching box 6 is fixedly connected to the top end of the fermentation tank body 1 and communicated with the fermentation tank body 1, the stirring blade 2 is arranged in the fermentation tank body 1 in a matched mode, the stirring blade 2 is in power connection with a third driving mechanism, a water inlet 9 and a fermentation liquid port 10 are formed in the top of the fermentation tank body 1, and an organic fertilizer outlet 11 is formed in the bottom of the fermentation tank body 1;

raw materials rubbing crusher constructs includes: the screening device comprises a screening cylinder 12 which is transversely arranged, a fourth driving mechanism which is in power connection with the screening cylinder 12, a crushing device 13 which is fixedly arranged in the screening cylinder 12 and provided with a feed inlet vertically and upwards, a fifth driving mechanism which is in power connection with the crushing device 13, a pushing mechanism 14 which is introduced into the inner side of the screening cylinder 12 from the axial direction of the screening cylinder 12 and is communicated with the feed inlet of the crushing device 13, and a collecting hopper 15 which is arranged right below the screening cylinder 12; a classified storage mechanism is arranged under the aggregate bin 15;

the automatic control unit 3 is at least in signal data connection with the first driving mechanism, the electronic scale 8, the second driving mechanism and the third driving mechanism.

Referring to fig. 1-9, the embodiment 1 is further described in detail, in the present invention, the raw material pulverizing mechanism and the classifying and storing mechanism are disposed above the ground, the automatic blending mechanism and the fermentation tank 1 are disposed below the ground, the installation tank 16 is dug on the ground, the installation base 17 is fixed at the bottom of the installation tank 16, the fermentation tank 1 is fixed on the installation base 17 in a horizontal manner, and the automatic blending mechanism is disposed at the top opening of the installation tank 16.

The installation groove body 16 is provided with a first installation frame 18, the sliding guide rails 4 are horizontally and fixedly connected at the bottom of the first installation frame 18, the sliding guide rails 4 comprise two groups of sliding guide rails 4 which are arranged in parallel, a gap between the two groups of sliding guide rails 4 is vertically opposite to an opening at the top end of the batching box 6, the first driving mechanism comprises two groups of adjusting screw rods 19 which are arranged along the extending direction of the sliding guide rails 4 and rotate freely, a first driving motor 20 which is in power connection with the two groups of adjusting screw rods 19 and drives the two groups of adjusting screw rods 19 to rotate synchronously, each group of storage boxes 5 are in screwed connection with, the bottom of each group of storage boxes 5 is arranged in a funnel shape, the bottom of each group of storage boxes 5 is vertically and downwards provided with a discharge opening 21, the first electromagnetic switch valves 22 are arranged on the discharge ports 21 of each group in a matched manner, the first electromagnetic switch valves 22 are configured with reference opening and closing degrees, and the automatic control unit 3 is in signal connection with the first driving motor 20 and the first electromagnetic switch valves 22 of each group; first driving motor 20 work and drive accommodate the lead screw 19 and rotate, and then drive each group storage box 5 and slide along sliding guide 4 to control specific storage box 5 and move under collecting hopper 15, conveniently with the organic raw materials input to storage box 5 of passing through raw materials rubbing crusher structure in collecting hopper 15, perhaps drive specific storage box 5 and move to batching box 6 directly over, conveniently with the organic raw materials of storage in storage box 5 by bin outlet 21 input batching box 6 in.

The electronic scale 8 is nested and matched with the inner side wall of the batching box 6, one side edge of the mounting plate 7 is hinged to the inner side wall of the batching box 6, the second driving mechanism adopts an electric telescopic rod 23, one end of the electric telescopic rod 23 is hinged to the other side edge of the mounting plate 7, the other end of the electric telescopic rod 23 is hinged to the bottom end of the batching box 6, and the automatic control unit 3 is in signal data connection with the electronic scale 8 and the electric telescopic rod 23; when the organic raw materials in the specific storage box 5 are conveyed into the batching box 6, the electronic scale 8 detects the weight of the organic raw materials in the balance weight box, when the specific value is reached, the first electromagnetic switch valve 22 which is arranged on the discharge port 21 in a matching way is controlled to be closed so as to ensure that the organic raw materials with specific weight are stored in the batching box 6, the electric telescopic rod 23 is controlled to be contracted so as to drive the mounting plate 7 and the electronic scale 8 to incline, and the organic raw materials in the batching box 6 are conveyed into the fermentation tank body 1; the automatic control unit 3 is configured with a first control strategy, the first control strategy is configured with a first control algorithm, the first control algorithm controls the real-time opening degree of the first electromagnetic switch valve 22 according to the weight induction value of the electronic scale 8 and the benchmark opening degree of the first electromagnetic switch valve 22, and the calculation formula of the first control algorithm is as follows:

L=αw+l；

where L is the real-time opening degree of the first electromagnetic switch valve 22, α is a constant negative value, w is a weight sensing value of the electronic scale 8, and L is a reference opening degree of the first electromagnetic switch valve 22.

Because there is certain distance between the bin outlet of storage box 5 and the electronic scale 8 in batching box 6, and first electromagnetic switch valve 22 takes certain time from open mode to closed condition, when the weight inductive value of electronic scale 8 reaches the specified value, first electromagnetic switch valve 22 closes, still there is the part outwards to discharge and falling to the organic raw materials of electronic scale 8 by the bin outlet of storage box 5 between the bin outlet of storage box 5 and the electronic scale 8, these organic raw materials can finally fall on electronic scale 8, thereby lead to the weight of the organic raw materials on electronic scale 8 to exceed the specified value, lead to the ratio of organic raw materials inaccurate.

Through the setting of the first control algorithm, the first control algorithm obtains the real-time opening and closing degree of the first electromagnetic switch valve 22 according to the weight induction value of the electronic scale 8 and the benchmark opening and closing degree of the first electromagnetic switch valve 22, initially, the weight induction value w of the electronic scale 8 is 0, when the organic raw materials gradually fall onto the electronic scale 8 from the discharge port of the storage box 5, the weight sensing value w of the electronic scale 8 is gradually increased, since alpha is a negative value, the real-time opening and closing degree of the first electromagnetic switch valve 22 is controlled to gradually decrease according to the first control algorithm, when the weight sensing value w of the electronic scale 8 approaches to a preset specific value infinitely, the real-time opening and closing degree of the first electromagnetic switch valve 22 approaches to 0 infinitely, thereby ensuring that the mass of the organic raw materials which finally and actually fall on the electronic scale 8 is basically consistent with the specific value, and ensuring the accuracy of the proportion of the organic raw materials.

The third driving mechanism comprises a mounting shaft 24 and a second driving motor 25, the mounting shaft 24 penetrates through the fermentation tank body 1 in a relative rotation mode, the stirring blades 2 are uniformly arranged on the mounting shaft 24, the second driving motor 25 is in power connection with the mounting shaft 24, and the automatic control unit 3 is in signal connection with the second driving motor 25; the second driving motor 25 drives the mounting shaft 24 to rotate, and further drives the stirring blade 2 to rotate so as to stir the organic raw materials in the fermentation tank 1, so as to accelerate the fermentation.

The screening cylinder 12 is nested and installed on the first installation frame 18 in a relative rotation mode, the collecting hopper 15 is fixedly installed on the first installation frame 18, the bottom of the collecting hopper 15 is provided with a second electromagnetic switch valve 26 in a matched mode, the second electromagnetic switch valve 26 is in signal connection with the automatic control unit 3, the middle section of the screening cylinder 12 is gradually narrowed from the middle section to two ends, and the inner side wall of the middle section of the screening cylinder 12 is hinged with a lifting plate 27; and a torsion spring 52 is arranged at the joint of the lifting plate 27 and the inner side wall of the screening cylinder in a matching way.

The joint of the lifting plate 27 deviates from the central axis of the screening cylinder 12 towards the direction of the free end of the lifting plate 27, the free end of the lifting plate 27 is obliquely arranged towards the rotating direction of the screening cylinder 12 and forms an acute angle space with the screening cylinder, one side of the lifting plate 27, which is identical to the rotating direction of the screening cylinder 12, is defined as the front side of the lifting plate 27, the other side of the lifting plate 27 is defined as the back side of the lifting plate 27, and organic raw materials are contained in the acute angle space on the front side of the lifting plate 27 when screened in the screening cylinder 12.

The first magnet 53 is installed at the port part of the feeding hole of the crushing device 13, the second magnet 54 which can attract the first magnet 53 is installed at the free end of the lifting plate 27, when the second magnet 54 of the lifting plate 27 moves to the magnetic force range of the first magnet 53, the second magnet 54 overcomes the elastic force of the torsion spring 52 and swings by taking the cross point as the center under the action of the magnetic force of the first magnet 53, so that the cross point of the lifting plate 27 points to the feeding hole of the crushing device in the direction of the free end of the lifting plate 27, and the organic raw materials contained in the acute-angle space fall into the feeding hole of the crushing device along the lifting plate 27.

The fourth drive mechanism includes: a transmission gear 28 fixedly connected with one end of the screening cylinder 12, a third driving motor 29 fixedly arranged at the top end of the first mounting frame 18, and a driving gear 30 fixedly connected with a rotating shaft of the third driving motor 29; the drive gear 30 is in powered connection with the transmission gear 28 via a chain.

The third driving motor 29 drives the driving gear 30 and the transmission gear 28 to rotate, and then drives the screening cylinder 12 to rotate, when the crushing device 13 crushes the organic raw materials, the organic raw materials fall into the screening cylinder 12, the screening cylinder 12 leaks the raw materials meeting the size into the collecting hopper 15 under the driving rotation of the third driving motor 29, and the organic raw materials with larger size are driven by the lifting plate 27 to turn upwards and fall into the crushing device 13 again for secondary crushing, so as to ensure that the input organic raw materials meet the fermentation requirements after being crushed.

Mounting through holes 31 are formed in two ends of the screening cylinder 12, mounting blocks 32 are mounted in the two groups of mounting through holes 31 in a matched manner, the mounting blocks 32 are fixedly mounted on a second mounting frame 33, the second mounting frame 33 is fixedly mounted on the first mounting frame 18, a horizontally-arranged third mounting frame 34 is arranged in the screening cylinder 12, two ends of the third mounting frame 34 are fixedly connected to the two groups of mounting blocks 32, the crushing device 13 is fixedly mounted on the third mounting frame 34, and a discharge port of the crushing device 13 is vertically arranged downwards; ensuring a stable mounting of the crushing means 13.

The crushing device 13 comprises a crushing box 56 and a feed hopper 55 arranged at the top of the crushing box 56, the feed hopper 55 serves as a feed inlet of the crushing device 13, a plurality of groups of crushing rollers 35 and a plurality of groups of crushing rollers 36 are arranged in the crushing box 56, the crushing rollers 35 are arranged under the feed hopper 55, the crushing rollers 36 are arranged under the crushing rollers 35, the crushing rollers 35 and the crushing rollers 36 are linked, a power shaft 37 is fixedly connected with the axle center of one group of crushing rollers 35 or the crushing rollers 36, the power shaft 37 passes out of one group of mounting blocks 32, a fifth driving mechanism comprises a fourth driving motor 38, a first change gear 39 and a second change gear 40, the part of the power shaft 37 passing out of the mounting blocks 32 is fixedly connected with the first change gear 39, the fourth driving motor 38 is fixedly arranged on the mounting blocks 32, and the second change gear 40 is fixedly connected with the rotating shaft of the fourth driving motor 38, the first change gear 39, the second change gear 39, the change gear 36, The second change gear 40 is meshed and connected; because crushing roller 35, crushing roller 36 are linked mutually, and power shaft 37 has been consolidated to the axle center department of a set of crushing roller 35 or crushing roller 36 among them, and when fourth drive motor 38 work drove power shaft 37 and rotate, and then can drive its and crushing roller 35, crushing roller 36 do corresponding rotation, input reducing mechanism 13 feed inlet organic raw materials carries out preliminary crushing through crushing roller 35, then carries out shredding through crushing roller 36 and discharges into in screening barrel 12 by the discharge gate.

It should be noted that, gears are fixed to the end portions of each of the crushing

rollers

35 and 36, and the gears are directly or indirectly linked with the other crushing

rollers

35 and 36, so that the fourth driving motor 38 works to drive the corresponding rotation of each of the crushing

rollers

35 and 36.

A fourth mounting frame 41 is horizontally fixed on one group of mounting blocks 32, the pushing mechanism 14 comprises a transmission cylinder 42, a transmission shaft 43, spiral blades 44, a material conveying inlet 45 and a fifth driving motor, the transmission cylinder 42 is fixedly mounted on the fourth mounting frame 41 and penetrates through the mounting blocks 32 to be communicated with a feed inlet of the crushing device 13, the material conveying inlet 45 is mounted at the other end of the transmission cylinder 42, the transmission shaft 43 is arranged on the inner side of the transmission cylinder 42 and is arranged along the extending direction of the transmission cylinder 42 in a relative rotating mode, the transmission shaft 43 is in power connection with the fifth driving motor, and the spiral blades 44 are uniformly arranged on the transmission shaft 43; the fifth driving motor operates to rotate the transmission shaft 43 and further rotate the spiral vane 44 to drive the organic material fed from the feeding inlet 45 to the pulverizer 13 along the transmission cylinder 42.

The transmission shaft 43 is led into the first conical gear 57 of the feeder hopper 55 one end fixedly connected with of the reducing mechanism 13, and the meshing of the first conical gear 57 has the second conical gear 58, the coaxial fixedly connected with vertical shaft 59 of the second conical gear 58, the mount 60 fixedly connected with the bottom end of the vertical shaft 59 is installed at the junction of the feeder hopper 55 and the reducing mechanism 56, and the through groove 61 for the organic raw material to pass through is arranged on the mount 60, the top end fixedly connected with turntable 62 of the vertical shaft 59, and the center of the turntable 62 is hinged with the bottom end of the connecting rod 63, the top end of the connecting rod 63 is hinged with the scraping plate 64 attached to the inner side wall of the feeder hopper 55, and the surface of the.

The transmission shaft 43 drives the first bevel gear 57 and the second bevel gear 58 to rotate when being driven by the fifth driving motor to rotate, so as to drive the vertical shaft 59 and the fixing frame 60 fixedly connected with the vertical shaft 59 and the rotating disc 62 to rotate, and as the fixing frame 60 is provided with the through groove 61, the organic raw materials can be guaranteed to uniformly enter the crushing device 13 for crushing treatment, and meanwhile, the connecting rod 63 can be driven, the scraping plate 64 rotates along the inner side wall of the feed hopper 55, and the organic raw materials attached to the inner side wall of the feed hopper 55 are cleaned.

A third electromagnetic switch valve 46 and a first electronic flowmeter 47 are arranged on the water inlet 9 in a matched manner, a water pump 48 is arranged on the water inlet 9 in a matched manner, a fourth electromagnetic switch valve 49 and a second electronic flowmeter 50 are arranged on the fermentation liquid port 10 in a matched manner, the fermentation liquid port 10 is communicated with a fermentation liquid tank, a fifth electromagnetic switch valve 51 is arranged on the organic fertilizer outlet 11 in a matched manner, and the automatic control unit 3 is in signal data connection with the first electromagnetic flowmeter 47, the second electronic flowmeter 50, the third electromagnetic switch valve 46, the fourth electromagnetic switch valve 49, the fifth electromagnetic switch valve 51 and the water pump 48; the automatic control unit 3 controls specific amount of water and fermentation liquid to be input into the fermentation tank body 1, and organic fertilizer which is fermented is conveniently controlled to be output into the fermentation tank body 1.

Referring to fig. 1-9, the operation principle of the automatic control unit 3 is illustrated, when blending, different types of organic raw materials are sequentially input into the pulverizing device 13 through the pushing mechanism 14, and are input into the specific storage box 5 after being screened by the screening cylinder 12, when different types of organic raw materials are stored, the automatic control unit 3 controls the first driving motor 20 to work to drive the corresponding storage box 5 to move to the position right below the collecting hopper 15, and controls the second electromagnetic switch valve 26 to open to input the organic raw materials in the collecting hopper 15 into the group of storage boxes 5.

When different types of organic raw materials are conveyed into the fermentation tank body 1, the automatic control unit 3 controls the first driving motor 20 to work, the storage box 5 in which specific organic raw materials are stored moves to the position right above the batching box 6, the corresponding first electromagnetic switch valve 22 is controlled to be opened so as to convey the organic raw materials in the batching box 6, the electronic scale 8 detects the weight borne by the electronic scale and transmits the detected data to the automatic control unit 3, when the detected weight data reach a specific value, the detected weight data accord with the input quantity into the fermentation tank body 1, the first electromagnetic switch valve 22 is closed at the moment, and the electric telescopic rod 23 is controlled to stretch and retract so as to control the mounting plate 7 and the electronic scale 8 to incline and convey the organic raw materials in the batching box 6 into the fermentation tank body 1.

After all the proportioning relations set by installing different types of organic raw materials are conveyed into the fermentation tank body 1, the automatic control unit 3 further controls the third electromagnetic switch valve 46 and the water pump 48 to be opened so as to input clean water into the fermentation tank body 1, the first electronic flowmeter 47 detects the flow rate of the input clean water, and when the detected flow value reaches a specific value, the water pump 48 and the third electromagnetic switch valve 46 are controlled to be closed; the automatic control unit 3 further controls the opening of the fourth switch valve to input the fermentation liquid into the fermentation tank body 1, the second electronic flowmeter 50 detects the flow rate of the input fermentation liquid, and when the detected flow rate value reaches a specific value, the fourth electromagnetic switch valve 49 is controlled to be closed; adding a certain amount of water and fermentation liquid according to a certain proportion, and controlling the second driving motor 25 to work to drive the stirring blades 2 to uniformly mix all the materials in the fermentation tank body 1.

And when various organic principles, clear water and fermentation liquid in the fermentation tank body 1 are mixed and fermentation is completed, controlling the opening of the fifth electromagnetic valve to output the fermented organic fertilizer.

Referring to fig. 1-8 to describe the beneficial effects of the present invention, the automatic control unit 3 receives data detected by the first electronic flowmeter 47, the second electronic flowmeter 50 and the electronic scale 8, and controls the working states of the first electromagnetic switch valve 22, the second electromagnetic switch valve 26, the third electromagnetic switch valve 46, the fourth electromagnetic switch valve 49, the fifth electromagnetic switch valve 51, the first driving motor 20, the second driving motor 25, the electric telescopic rod 23 and the water pump 48 according to the data, so as to realize automatic blending of different organic raw materials and improve the production efficiency of the bio-organic fertilizer;

when the crushing device 13 crushes the organic raw materials and then falls into the screening cylinder 12, the screening cylinder 12 is driven by the third driving motor 29 to rotate, the raw materials meeting the size are leaked into the collecting hopper 15, the organic raw materials with larger size are driven by the lifting plate 27 to be overturned upwards and fall into the crushing device 13 again for secondary crushing, so that the input organic raw materials are ensured to meet the fermentation requirement after being crushed, and the production quality of the organic fertilizer is improved.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a bio-organic fertilizer automatic blending fermenting installation which characterized in that: comprises a raw material crushing mechanism, a classification storage mechanism, an automatic batching mechanism, a fermentation tank body (1), stirring blades (2) and an automatic control unit (3); the classified storage mechanism comprises a sliding guide rail (4) arranged right below the raw material crushing mechanism, a plurality of groups of storage boxes (5) nested on the sliding guide rail (4) in a relative sliding manner, and a first driving mechanism in power connection with each group of storage boxes (5); the automatic batching mechanism is arranged at the bottom of the classified storage mechanism and comprises a batching box (6) with the upper end and the lower end arranged in an open mode, a mounting plate (7) which is arranged at the bottom of the batching box (6) in a matching mode, an electronic scale (8) arranged on the upper surface of the mounting plate (7) and a second driving mechanism which is in power connection with the mounting plate (7); the batching box (6) is fixedly connected to the top end of the fermentation tank body (1) and communicated with the fermentation tank body (1), a stirring blade (2) is installed in the fermentation tank body (1) in a matched mode, the stirring blade (2) is in power connection with a third driving mechanism, a water inlet (9) and a fermentation liquid port (10) are further formed in the top of the fermentation tank body (1), and an organic fertilizer outlet (11) is formed in the bottom of the fermentation tank body (1);

the raw material crushing mechanism comprises: the screening device comprises a screening cylinder (12) which is transversely arranged, a fourth driving mechanism which is in power connection with the screening cylinder (12), a crushing device (13) which is fixedly arranged in the screening cylinder (12) and provided with a feed inlet vertically and upwards, a fifth driving mechanism which is in power connection with the crushing device (13), a pushing mechanism (14) which is introduced into the inner side of the screening cylinder (12) from the axial direction of the screening cylinder (12) and is communicated with the feed inlet of the crushing device (13), and a collecting hopper (15) which is arranged right below the screening cylinder (12); the classified storage mechanism is arranged under the aggregate bin (15);

the automatic control unit (3) is at least in signal data connection with the first driving mechanism, the electronic scale (8), the second driving mechanism and the third driving mechanism.

2. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 1, wherein: raw materials rubbing crusher constructs, categorised storage mechanism sets up on subaerial, automatic blending mechanism, the fermentation tank body (1) sets up under ground, subaerial digging is equipped with installation cell body (16), installation cell body (16) bottom concreties there is installation pedestal (17), just fermentation tank body (1) adopts the mode of crouching to concretize on installation pedestal (17), automatic blending mechanism sets up the top opening part at installation cell body (16).

3. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 2, wherein: install first mounting bracket (18) on installation cell body (16), sliding guide (4) level concreties in first mounting bracket (18) bottom, sliding guide (4) including parallel arrangement two sets of and the clearance between two sets of sliding guide (4) with batching box (6) top end opening is vertical relative, a drive mechanism includes two sets of adjusting screw rod (19) of arranging and free rotation along sliding guide (4) extending direction, with two sets of adjusting screw rod (19) power connection and drive two sets of adjusting screw rod (19) synchronous pivoted first driving motor (20), each group storage box (5) all with adjusting screw rod (19) revolve the joint, and each group storage box (5) bottom sets up to hopper-shaped, and each group storage box (5) bottom has vertically seted up bin outlet (21) downwards, and each group is gone up the supporting first electromagnetic switch valve (22) of installing on bin outlet (21), the first electromagnetic switch valves (22) are configured with reference opening degrees, and the automatic control unit (3) is in signal connection with the first driving motor (20) and each group of first electromagnetic switch valves (22).

4. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 3, wherein: the electronic scale (8) is nested and matched with the inner side wall of the batching box (6), one side edge of the mounting plate (7) is hinged to the inner side wall of the batching box (6), the second driving mechanism adopts an electric telescopic rod (23), one end of the electric telescopic rod (23) is hinged to the other side edge of the mounting plate (7), the other end of the electric telescopic rod (23) is hinged to the bottom end of the batching box (6), and the automatic control unit (3) is in signal data connection with the electronic scale (8) and the electric telescopic rod (23); the automatic control unit (3) is configured with a first control strategy, the first control strategy is configured with a first control algorithm, the first control algorithm controls the real-time opening degree of the first electromagnetic switch valve (22) according to the weight induction value of the electronic scale (8) and the benchmark opening degree of the first electromagnetic switch valve (22), and the calculation formula of the first control algorithm is as follows:

L=αw+l；

wherein L is the real-time opening degree of the first electromagnetic switch valve (22), alpha is a constant negative value, w is a weight induction value of the electronic scale (8), and L is the benchmark opening degree of the first electromagnetic switch valve (22).

5. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 4, wherein: the third driving mechanism comprises an installation shaft (24) and a second driving motor (25), the installation shaft (24) is installed in the fermentation tank body (1) in a penetrating mode in a relative rotating mode, the stirring blades (2) are evenly arranged on the installation shaft (24), the second driving motor (25) is in power connection with the installation shaft (24), and the automatic control unit (3) is in signal connection with the second driving motor (25).

6. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 5, wherein: the screening cylinder (12) is nested and mounted on the first mounting frame (18) in a relative rotation mode, the collecting hopper (15) is fixedly mounted on the first mounting frame (18), the bottom of the collecting hopper (15) is provided with a second electromagnetic switch valve (26) in a matched mode, the second electromagnetic switch valve (26) is in signal connection with the automatic control unit (3), the middle section of the screening cylinder (12) is gradually narrowed from the middle section to two ends, and the inner side wall of the middle section of the screening cylinder (12) is hinged with a lifting plate (27); and a torsion spring (52) is arranged at the joint of the lifting plate (27) and the inner side wall of the screening cylinder body in a matching way;

the joint of the lifting plate (27) deviates from the central axis of the screening cylinder (12) towards the direction of the free end of the lifting plate (27), the free end of the lifting plate (27) is obliquely arranged towards the rotating direction of the screening cylinder (12) and forms an acute angle space with the screening cylinder, one side of the lifting plate (27) which is identical to the rotating direction of the screening cylinder (12) is defined as the front side of the lifting plate (27), the other side of the lifting plate (27) is defined as the back side of the lifting plate (27), and the organic raw materials are accommodated in the acute angle space on the front side of the lifting plate (27) when screened in the screening cylinder (12);

a first magnet (53) is installed at the port part of the feeding port of the crushing device (13), a second magnet (54) capable of attracting the first magnet (53) is installed at the free end of the lifting plate (27), when the second magnet (54) of the lifting plate (27) moves to the magnetic force range of the first magnet (53), the second magnet (54) overcomes the elastic force of the torsion spring (52) under the magnetic force of the first magnet (53) and swings by taking a cross point as a center, the direction of the cross point of the lifting plate (27) to the free end of the lifting plate (27) points to the feeding port of the crushing device, and the organic raw materials contained in the acute angle space fall into the feeding port of the crushing device along the lifting plate (27);

the fourth drive mechanism includes: a transmission gear (28) fixedly connected with one end of the screening cylinder body (12), a third driving motor (29) fixedly arranged at the top end of the first mounting frame (18), and a driving gear (30) fixedly connected with a rotating shaft of the third driving motor (29); the driving gear (30) is in power connection with the transmission gear (28) through a chain.

7. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 6, wherein: installation through-hole (31) have been seted up at the both ends of screening barrel (12), all form a complete set in two sets of installation through-hole (31) and install installation piece (32), and installation piece (32) fixed mounting on second mounting bracket (33), second mounting bracket (33) fixed mounting be in on first mounting bracket (18), the inside both ends fixed connection that is provided with third mounting bracket (34) that the level was arranged and third mounting bracket (34) of screening barrel (12) is on two sets of installation pieces (32), reducing mechanism (13) fixed mounting is on third mounting bracket (34), the vertical downward arrangement of discharge gate of reducing mechanism (13).

8. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 7, wherein: the crushing device (13) comprises a crushing box (56) and a feed hopper (55) arranged at the top of the crushing box (56), the feed hopper (55) serves as a feed port of the crushing device (13), a plurality of groups of crushing rollers (35) and a plurality of groups of crushing rollers (36) are arranged in the crushing box (56), the crushing rollers (35) are arranged under the feed hopper (55), the crushing rollers (36) are arranged under the crushing rollers (35), the crushing rollers (35) and the crushing rollers (36) are linked, a power shaft (37) is fixedly connected to the axle center of one group of crushing rollers (35) or crushing rollers (36), the power shaft (37) passes through the mounting block (32) along one group of the mounting blocks, the fifth driving mechanism comprises a fourth driving motor (38), a first change gear (39) and a second change gear (40), and a first change gear (39) is fixedly connected to the part of the power shaft (37) passing through the mounting block (32), the fourth driving motor (38) is fixedly arranged on the mounting block (32), a second change gear (40) is fixedly connected to a rotating shaft of the fourth driving motor (38), and the first change gear (39) and the second change gear (40) are in meshed connection.

9. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 8, wherein: a fourth mounting frame (41) is horizontally and fixedly connected to one group of the mounting blocks (32), the pushing mechanism (14) comprises a transmission cylinder (42), a transmission shaft (43), spiral blades (44), a material conveying inlet (45) and a fifth driving motor, the transmission cylinder (42) is fixedly mounted on the fourth mounting frame (41) and penetrates through the mounting blocks (32) to be communicated with a feeding hole of the crushing device (13), the material conveying inlet (45) is mounted at the other end of the transmission cylinder (42), the transmission shaft (43) is arranged on the inner side of the transmission cylinder (42) and is arranged along the extending direction of the transmission cylinder (42) in a relative rotating mode, the transmission shaft (43) is in power connection with the fifth driving motor, and the spiral blades (44) are uniformly arranged on the transmission shaft (43);

transmission axle (43) lets in the first conical gear (57) of feeder hopper (55) one end fixedly connected with of reducing mechanism (13), and first conical gear (57) meshing has second conical gear (58), and the coaxial fixedly connected with vertical axis (59) of second conical gear (58), feeder hopper (55) and crushing case (56) junction install with vertical axis (59) bottom fixed connection's mount (60), and set up logical groove (61) that make organic raw materials pass through on mount (60), the top fixedly connected with carousel (62) of vertical axis (59), and the center department of carousel (62) articulates the bottom that has connecting rod (63), the top of connecting rod (63) articulates have scraping flitch (64) with feeder hopper (55) inside wall laminating, and scrape flitch (64) surface coating and have the polytetrafluoroethylene coating.

10. The automatic blending and fermenting device for the bio-organic fertilizer as claimed in claim 9, wherein: the water pump is characterized in that a third electromagnetic switch valve (46) and a first electronic flowmeter (47) are installed on the water inlet (9) in a matched mode, a water suction pump (48) is installed on the water inlet (9) in a matched mode, a fourth electromagnetic switch valve (49) and a second electronic flowmeter (50) are installed on the fermentation liquid port (10) in a matched mode, the fermentation liquid port (10) is communicated with the fermentation liquid tank, a fifth electromagnetic switch valve (51) is installed on the organic fertilizer outlet (11) in a matched mode, and the automatic control unit (3) is connected with the first electromagnetic flowmeter (47), the second electronic flowmeter (50), the third electromagnetic switch valve (46), the fourth electromagnetic switch valve (49), the fifth electromagnetic switch valve (51) and the water suction pump (48) in a signal data mode.