CN107051673B

CN107051673B - Full-automatic fungus package waste processing system

Info

Publication number: CN107051673B
Application number: CN201710307611.4A
Authority: CN
Inventors: 于勇; 姜云虎; 蒋红波; 陈飞飞; 王立兰; 孙信仁; 朱红霞; 徐迎晖; 陆亚珍; 田海芹; 林聪雁
Original assignee: Lianyungang Ruiyang Animal Husbandry Co ltd
Current assignee: Lianyungang Ruiyang Animal Husbandry Co ltd
Priority date: 2017-05-03
Filing date: 2017-05-03
Publication date: 2023-04-18
Anticipated expiration: 2037-05-03
Also published as: CN107051673A

Abstract

The invention relates to a fungus bag waste treatment system for producing fermented forage grass, which comprises a crushing device and a screening device, wherein the crushing device comprises a crushing bin with the rear part inclined upwards, a rotating shaft in the crushing bin is provided with a blade seat arranged spirally, the blade seat is provided with a plurality of crushing knives, and the inner wall of the crushing bin is provided with a fixed knife sheared by the crushing knives; a material conveying belt connected with the screening device is arranged below the discharge port; the screening device comprises a screen drum with openings at two ends, a feeding hopper is arranged in front of a raw material inlet of the screen drum, and a material conveying mechanism is connected onto the feeding hopper. According to the invention, after the material is crushed by the crushing device, the material is screened by the screening device, so that the material without sundry particles is obtained, the labor intensity of workers is reduced, and the working efficiency is improved.

Description

Full-automatic fungus package waste processing system

Technical Field

The invention relates to a fungus bag waste treatment system, in particular to a full-automatic fungus bag waste treatment system.

Background

During the production process of the fermented forage grass, the fungus bag waste is crushed, screened, then sent into a stirrer, meanwhile, microbial strains, bran or corn flour, edible salt and water are added into the stirrer for fully stirring, then the uniformly stirred and inoculated base materials are pressed into columns, and finally the columns are wound by films for sealing and packaging. The fungus bag waste material is the main raw materials of production fermentation forage grass, and fungus bag waste material mainly packs through film or plastic bag, need break fungus bag waste material earlier in process of production, forms powdery material, screens again. When the breakage, a large amount of discarded plastics pieces can appear, and crushing effect also can influence the quality of fermented forage grass post simultaneously, consequently needs to obtain that the material granule is little, the film plastics of containing or the few powdery material of chaff. Because the powdery material contains impurities such as plastic chips, screening is also needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a full-automatic fungus bag waste treatment system which is reasonable in design, good in crushing effect and convenient to screen, aiming at the defects of the prior art.

The technical problem to be solved by the invention is realized by the following technical scheme, and the invention relates to a full-automatic fungus bag waste treatment system, which is characterized in that: the crushing device comprises a crushing bin, the rear part of the crushing bin is inclined upwards, the inclination angle is 5-30 degrees, the upper end of the front part of the crushing bin is provided with a feed inlet, the lower end of the rear part of the crushing bin is provided with a discharge outlet, the feed inlet is connected with a feed hopper, a rotating shaft arranged along the axis direction of the crushing bin is arranged in the crushing bin, a blade seat arranged in a spiral shape is arranged on the rotating shaft, a plurality of crushing knives are arranged on the blade seat, and fixed knives sheared with the crushing knives are arranged on the inner wall of the crushing bin; the length of the discharge port is 1/3 of the length of the crushing bin, a screen plate is arranged on the discharge port, and a crushed material conveying belt connected with a screening device is arranged below the discharge port;

the screening device comprises a support frame, a screen drum with openings at two ends is arranged on the support frame, an opening at one end of the screen drum is set as a raw material inlet, an opening at the other end of the screen drum is set as a waste outlet, a rotating shaft is arranged on the central axis of the screen drum, and the rotating shaft at the waste outlet end is fixed on the support frame through a bearing; a feed hopper connected with the crushed material conveying belt is arranged in front of the raw material inlet, a material conveying mechanism is connected onto the feed hopper, the material conveying mechanism is provided with a shell, a packing auger connected with a rotating shaft at the raw material inlet end in a butt joint manner is arranged in the shell, and a baffle matched with the shell is arranged on the end face of the raw material inlet; a guide plate which is arranged in a downward inclination manner is connected to the waste outlet end, and a waste collecting tank is arranged below the guide plate; a fan is arranged on the support frame on one side of the guide plate, and a waste collection bag is arranged on the support frame on the other side opposite to the fan; meshes of the screen drum are gradually enlarged from a raw material inlet to a waste material outlet, an arc baffle is arranged below the screen drum, a partition plate for dividing the arc baffle into a fine material arc baffle and a coarse material arc baffle is arranged in the arc baffle, the length of the fine material arc baffle is 4/5 of the total length of the screen drum, a long-strip-shaped fine material discharge port is arranged at the bottom of the fine material arc baffle, a material conveying belt is arranged below the fine material discharge port, a coarse material discharge port is arranged at the bottom of the coarse material arc baffle, a coarse material recovery conveying belt is arranged below the coarse material discharge port, and the tail end of the coarse material recovery conveying belt is matched with a feed hopper of a crushing device; evenly be equipped with three material pushing roller along a sieve section of thick bamboo circumferential direction in a sieve section of thick bamboo, every material pushing roller all with a sieve section of thick bamboo the central axis parallel arrangement, every material pushing roller all articulates on a sieve section of thick bamboo through the landing leg.

The technical problem to be solved by the invention can be further realized by the following technical scheme that in the full-automatic fungus bag waste treatment system: the rear part of the crushing bin is connected with a dust removal bin communicated with the crushing bin, the dust removal bin is perpendicular to the crushing bin, one end of the dust removal bin is provided with a dust blowing fan, and a dust removal opening is formed in the dust removal bin opposite to the dust blowing fan.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the crushing cutter is fixed on the blade seat through a bolt; the blade of the crushing knife is serrated.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the screen drum is obliquely arranged towards the direction of the waste outlet, and the inclination angle is 10-30 degrees.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the length of the material pushing roller is 25cm-45cm.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the three material pushing rollers are alternately arranged on the screen drum along the length direction of the screen drum.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the three pushing rollers are arranged on the same longitudinal section of the screen drum.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the sieve section of thick bamboo is equipped with the skeleton, and the skeleton passes through the bracing frame and links to each other with the pivot, and the cladding has the screen cloth on the skeleton, the landing leg of pushing away the material roller articulates on the skeleton.

The technical problem to be solved by the invention can be further realized by the following technical scheme, in the fully-automatic fungus bag waste treatment system: the length of the packing auger extending into the screen drum is 20cm-40cm.

The technical problem to be solved by the invention can be further realized by the following technical scheme that in the full-automatic fungus bag waste treatment system: the two side edges of the arc-shaped baffle plate are higher than the horizontal central line of the screen drum.

Compared with the prior art, the invention crushes the materials through the crushing device, the materials can be conveyed from the feed inlet to the discharge outlet through the spiral blade seat during crushing, and are crushed simultaneously, the fine materials fall onto the crushed material conveying belt through the screen plate, the coarse materials slide to the front part of the crushing bin under the action of gravity and are crushed again, so that the crushing efficiency is high, and in addition, the dust blowing fan on the dust removing bin can blow away the waste such as plastics, chaff and the like in the materials to perform coarse screening on the materials. During the material after smashing was carried to sieving mechanism's hopper through smashing the material conveyer belt, during rethread material conveying mechanism sent the material into a sieve section of thick bamboo automatically, removed the manual work from like this and reinforced, alleviateed workman's intensity of labour, improved pay-off efficiency. The rotatory fungus package waste material that will smash of a sieve section of thick bamboo is screened, because the mesh of a sieve section of thick bamboo is by raw materials import to the waste outlet grow gradually, so thin material falls into the material conveyer belt through thin material cowl, carry away, large granule material falls into thick material cowl from the rear portion of a sieve section of thick bamboo in the sieve section of thick bamboo, and retrieve the conveyer belt through thick material and send to reducing mechanism's feeder hopper and smash once more, thereby it is extravagant to practice thrift the cost reduction, and most chaff, debris such as plastic sheet are then discharged from the waste outlet of a sieve section of thick bamboo, be equipped with the fan in waste outlet, can be with light chaff of weight, debris such as plastic sheet blow to the waste collection bag of opposite side, prevent that these debris can not fall into the waste collection groove, the pollution operational environment is gone here and there to fly indiscriminate, increase workshop cleaning work volume. The material pushing roller in the screen drum can push materials when the screen drum rotates, so that the materials are prevented from being stacked and sticking meshes, the screening efficiency is improved, and the service life of the screen drum is prolonged.

Drawings

Fig. 1 is a schematic view of a crushing apparatus.

Fig. 2 is a schematic structural diagram of the screening device.

Fig. 3 is a schematic diagram of the right-side structure of fig. 2.

Detailed Description

Referring to fig. 1, 2 and 3, a full-automatic fungus bag waste treatment system comprises a crushing device 1 and a screening device 3, wherein the crushing device 1 comprises a crushing bin 12 with the rear part inclined upwards, and the inclination angle of the crushing bin 12 is 10 degrees. The upper end of the front part of the crushing bin 12 is provided with a feeding hole, the lower end of the rear part is provided with a discharging hole, and the feeding hole is connected with a feeding hopper 11. The grinding device is characterized in that a rotating shaft 19 arranged along the axis direction of the grinding bin 12 is arranged in the grinding bin 12, two ends of the rotating shaft 19 penetrate out of the grinding bin 12 and are fixed on a support through a bearing seat, and the rear end of the rotating shaft is connected with a belt pulley which is connected with a motor through a belt.

Be equipped with on the rotation axis 19 and be the blade seat 18 that the spiral was set up, evenly be equipped with a plurality of crushing sword 14 on the blade seat 18, smash sword 14 and pass through the bolt fastening on the blade seat 18, when smashing sword 14 and having the damage, can change, and need not change together with blade seat 18 to use cost has been practiced thrift, the cutting edge of smashing sword 14 is the cockscomb structure, and this kind of crushing fungus wraps the effectual of waste material. The inner wall of the crushing bin 12 is provided with a fixed knife 13 which shears with the crushing knife 14. The length of the discharge port is 1/3 of the length of the crushing bin 12, the discharge port is arranged at the bottom of the rear part of the crushing bin 12, a screen plate 17 is arranged on the discharge port, the diameter of a mesh of the screen plate 17 is 15mm, and a crushed material conveying belt 2 is arranged below the discharge port. The material is come from the feed inlet and is carried to the direction of discharge gate through blade seat 18, carries the limit while smashing, and the material after smashing is to smashing the discharge gate at 12 rear portions to carry out the primary screen through sieve plate 17 and fall down, and coarse material landing is smashed again to the front portion of smashing storehouse 12 under the effect of gravity.

The rear top end of the crushing bin 12 is open, the rear portion of the crushing bin 12 is connected with a dust removal bin 15 communicated with the crushing bin 12, the dust removal bin 15 is perpendicular to the crushing bin 12, a dust blowing fan 16 is arranged at one end of the dust removal bin 15, a dust removal opening is formed in the dust removal bin 15 right opposite to the dust blowing fan 16, the dust blowing fan 16 can blow away waste materials such as plastics and chaff in materials, and the materials are roughly screened.

The screening device 3 comprises a support frame, a screen drum 31 with two open ends is arranged on the support frame, one end opening of the screen drum 31 is set as a raw material inlet 39, and the other end opening is set as a waste outlet 34. The screen drum 31 is obliquely arranged towards the waste outlet 34, and the inclination angle is 15 degrees, so that waste can be conveniently discharged. The screen drum 31 is provided with a framework, the framework is connected with the rotating shaft through an inclined strut, the framework is coated with a screen, and the screen is a steel wire screen.

A rotating shaft 38 is arranged on the central axis of the screen drum 31, and the rotating shaft 38 at the end of the waste outlet 34 is fixed on the support frame through a bearing; a feed hopper 311 connected with the crushed material conveying belt 2 is arranged in front of a raw material inlet 39 of the screen cylinder 31, a material conveying mechanism is connected on the feed hopper 311, the material conveying mechanism is provided with a shell, an auger 310 connected with a rotating shaft 38 at the end of the raw material inlet 39 in a butt joint mode is arranged in the shell, the auger 310 extends into the screen cylinder 1 for 15cm, and a motor for driving the auger 310 and rotating the rotating shaft 38 connected with the auger 310 is arranged at the end part of the auger 310. The end face of the raw material inlet 39 of the screen drum 31 is provided with a baffle plate matched with the shell to prevent the material from leaking out of the screen drum 31.

A guide plate which is obliquely arranged downwards is connected to the end of the waste outlet 34, and a waste collecting tank 312 is arranged below the guide plate; the fan 33 is installed on the supporting frame on one side of the guide plate, the waste collecting bag 316 is arranged on the supporting frame on the other side opposite to the fan 33, the bag opening of the waste collecting bag 316 is large, the bag body is long, and the entering waste can be prevented from coming out again.

The meshes of the screen drum 31 gradually increase from the raw material inlet 39 to the waste material outlet 34, an arc-shaped baffle 313 is arranged below the screen drum 31, and two side edges of the arc-shaped baffle 313 are higher than the horizontal central line of the screen drum 31, so that the materials can be prevented from leaking out of the arc-shaped baffle 313. Be equipped with in cowl 313 and cut apart into baffle 35 of fine material cowl 314 and coarse material cowl 315 with cowl 313, the length of fine material cowl 314 is 4/5 of a sieve section of thick bamboo 31 total length, the bottom of fine material cowl 314 is equipped with the fine material discharge gate of rectangular shape, is equipped with material conveyer belt 37 in the below of fine material discharge gate, the bottom of coarse material cowl 315 is equipped with the coarse material discharge gate, and coarse material discharge gate below is equipped with coarse material recovery conveyer belt 36, and coarse material recovery conveyer belt 36's end cooperates with reducing mechanism 1's feeder hopper 11. And the fine material discharge port and the coarse material discharge port are respectively connected with discharge pipes matched with respective conveyer belts.

Evenly be equipped with three material roller 32 that pushes away along a sieve section of thick bamboo 31 circumferential direction in a sieve section of thick bamboo 31, the length that pushes away material roller 32 is 30cm, three material roller 32 that pushes away all articulates on the skeleton of a sieve section of thick bamboo 31 through the landing leg, the landing leg end be equipped with the go-between, be equipped with the solid fixed ring of fixed go-between on the skeleton, every material roller 32 that pushes away all with sieve section of thick bamboo 31's the central axis parallel arrangement. The three pushing rollers 32 may be disposed on the same longitudinal section of the screen cylinder 31, or alternatively disposed on the screen cylinder 31 along the length direction of the screen cylinder 31. When the screen drum 31 rotates, the three material pushing rollers 32 move along the hinged point to push the materials alternately, so that the materials are prevented from being stacked and pasting the meshes.

During the use, the starter motor, material conveying mechanism's auger 310 is rotatory, it is rotatory to drive the pivot 38 of a sieve section of thick bamboo 31 simultaneously, make a sieve section of thick bamboo 31 rotate in step, the material is sent into a sieve section of thick bamboo 31 through hopper 311 and auger 10, and roll in a sieve section of thick bamboo 31, thin material falls into material conveyer belt 37 through thin material cowl 314, carry away, thick material continues to move forward, the material that has some little debris falls into thick material cowl 315 from the big mesh of a sieve section of thick bamboo 31, and send the feeder hopper 11 of reducing mechanism 1 to smash once more through thick material recovery conveyer belt 36, make the material smash more finely, thereby reduce extravagantly. And debris such as most chaff, plastic sheet then when discharging from the waste outlet 34 of a sieve section of thick bamboo 31, the heavy waste collecting vat that falls into of weight, debris such as light in weight's chaff, plastic sheet blow to the waste collecting bag 316 of opposite side through fan 33 in, prevent that these debris can not fall into waste collecting vat 312, and the messy pollution operational environment that flies everywhere, increase workshop cleaning work volume. When the screen drum 31 rotates, the three material pushing rollers 32 push materials alternately, so that the materials are prevented from being stacked and pasted on meshes, and the materials are accelerated to be discharged from the meshes.

Claims

1. The utility model provides a full-automatic fungus package waste processing system which characterized in that: the crushing device comprises a crushing bin, the rear part of the crushing bin is inclined upwards, the inclination angle is 5-30 degrees, the upper end of the front part of the crushing bin is provided with a feed inlet, the lower end of the rear part of the crushing bin is provided with a discharge outlet, the feed inlet is connected with a feed hopper, a rotating shaft arranged along the axis direction of the crushing bin is arranged in the crushing bin, a blade seat arranged in a spiral shape is arranged on the rotating shaft, a plurality of crushing knives are arranged on the blade seat, and fixed knives sheared with the crushing knives are arranged on the inner wall of the crushing bin; the length of the discharge port is 1/3 of that of the crushing bin, a screen plate is arranged on the discharge port, and a crushed material conveying belt connected with a screening device is arranged below the discharge port; the screening device comprises a support frame, a screen drum with openings at two ends is arranged on the support frame, an opening at one end of the screen drum is set as a raw material inlet, an opening at the other end of the screen drum is set as a waste outlet, a rotating shaft is arranged on the central axis of the screen drum, and the rotating shaft at the waste outlet end is fixed on the support frame through a bearing; a feed hopper connected with the crushed material conveying belt is arranged in front of the raw material inlet, a material conveying mechanism is connected onto the feed hopper, the material conveying mechanism is provided with a shell, a packing auger connected with a rotating shaft of the raw material inlet end in a butt joint manner is arranged in the shell, and a baffle matched with the shell is arranged on the end face of the raw material inlet; a guide plate which is arranged in a downward inclination manner is connected to the waste outlet end, and a waste collecting tank is arranged below the guide plate; a fan is arranged on the supporting frame on one side of the guide plate, and a waste collection bag is arranged on the supporting frame on the other side opposite to the fan; meshes of the screen drum are gradually enlarged from a raw material inlet to a waste material outlet, an arc baffle is arranged below the screen drum, a partition plate for dividing the arc baffle into a fine material arc baffle and a coarse material arc baffle is arranged in the arc baffle, the length of the fine material arc baffle is 4/5 of the total length of the screen drum, a long-strip-shaped fine material discharge port is arranged at the bottom of the fine material arc baffle, a material conveying belt is arranged below the fine material discharge port, a coarse material discharge port is arranged at the bottom of the coarse material arc baffle, a coarse material recovery conveying belt is arranged below the coarse material discharge port, and the tail end of the coarse material recovery conveying belt is matched with a feed hopper of a crushing device; three material pushing rollers are uniformly arranged in the screen drum along the circumferential direction of the screen drum, each material pushing roller is arranged in parallel with the central axis of the screen drum, and each material pushing roller is hinged on the screen drum through a support leg;

the method for treating the waste by using the full-automatic fungus bag waste treatment system comprises the following steps: starting a motor, enabling an auger of a material conveying mechanism to rotate, simultaneously driving a rotating shaft of a screen cylinder to rotate, enabling the screen cylinder to rotate synchronously, feeding materials into the screen cylinder through a feeding hopper and the auger, rolling in the screen cylinder, enabling fine materials to fall into a material conveying belt through a fine material arc-shaped baffle plate, conveying the fine materials out, enabling coarse materials to continue to move forwards, enabling materials with a part of small impurities to fall into the coarse material arc-shaped baffle plate from a large mesh of the screen cylinder, and conveying the coarse materials to a feeding hopper of a crushing device through a coarse material recovery conveying belt for crushing again; when most sundries are discharged from a waste outlet of the screen drum, the heavy sundries fall into a waste collecting tank, and the light grain shells and the light plastic piece sundries are blown into a waste collecting bag at the other side by a fan; when the screen drum rotates, the three material pushing rollers push materials alternately.

2. The fully automated bale waste treatment system of claim 1, wherein: the rear part of the crushing bin is connected with a dust removal bin communicated with the crushing bin, the dust removal bin is perpendicular to the crushing bin, one end of the dust removal bin is provided with a dust blowing fan, and a dust removal opening is formed in the dust removal bin opposite to the dust blowing fan.

3. The fully automated bag waste treatment system of claim 1, wherein: the crushing cutter is fixed on the blade seat through a bolt; the blade of the crushing knife is serrated.

4. The fully automated bale waste treatment system of claim 1, wherein: the screen drum is obliquely arranged towards the direction of the waste outlet, and the inclination angle is 10-30 degrees.

5. The fully automated bag waste treatment system of claim 1, wherein: the length of the material pushing roller is 25cm-45cm.

6. The fully automated bag waste treatment system of claim 1, wherein: the three material pushing rollers are alternately arranged on the screen drum along the length direction of the screen drum.

7. The fully automated bag waste treatment system of claim 1, wherein: the three pushing rollers are arranged on the same longitudinal section of the screen drum.

8. The fully automated bale waste treatment system of claim 1, wherein: the sieve section of thick bamboo is equipped with the skeleton, and the skeleton passes through the bracing frame and links to each other with the pivot, and the cladding has the screen cloth on the skeleton, the landing leg of pushing away the material roller articulates on the skeleton.

9. The fully automated bag waste treatment system of claim 1, wherein: the length of the auger extending into the screen cylinder is 20cm-40cm.

10. The fully automated bale waste treatment system of claim 1, wherein: the two side edges of the arc-shaped baffle plate are higher than the horizontal central line of the screen drum.