CN203872518U - Excavating type recycling machine capable of recycling plastic film residues in one-shot mode - Google Patents
Excavating type recycling machine capable of recycling plastic film residues in one-shot mode Download PDFInfo
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- CN203872518U CN203872518U CN201420283699.2U CN201420283699U CN203872518U CN 203872518 U CN203872518 U CN 203872518U CN 201420283699 U CN201420283699 U CN 201420283699U CN 203872518 U CN203872518 U CN 203872518U
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- sieve
- main box
- main
- recovery machine
- digging
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Abstract
The utility model relates to an excavating type recycling machine capable of recycling plastic film residues in a one-shot mode. The machine comprises an evacuation system, a screening system, a crushing system and a separation system. The systems are fixedly connected with a main box, the main box comprises side plates symmetrically arranged on the two sides of the evacuation system, the screening system and the crushing system, the separation system is located below a gear assembling box, a gap exists between the separation system and the gear assembling box, and the main box is provided with a transmission system connected with a power system. The machine does not work repeatedly, adaptability is high, recycling can be finished in a one-shot mode on soil of any quality, work efficiency is high, operation is easy, the machine is suitable for large fields and small fields, effectively recycles a large area of the plastic film residues and can remove waste in the soil at a time, concentrated recycling is easy to achieve, pollution-free treatment is achieved, and recycling cost is reduced.
Description
Technical field
The utility model belongs to machine for recovering broken film tool field, relates in particular to the disposable recovery machine for recovering broken film of a kind of digging type.
Background technology
Now peritoneal seeding is carried out in a lot of areas in a large number, mulch film along with the growth of crop until good harvest be exposed to the sun through the sun, rain erosion, be oxidized, weathering phenomenon, be easy to cause mulch film to become fragment, at present there is no can reclaim completely the machinery of residual film, mainly reclaim by following mode: 1, people Gonglou, rake reclaim, receive at most for each person every day 2 mu, calculate 120 yuan of every days by per capita salary, every mu is worth 60 yuan, cost is high, and efficiency is low; 2, make simple Lou rake instrument by oneself, below crossbeam made of iron, weld after appropriate cleek, be suspended from after tractor, all around non-directional repeats to reclaim operation, although the relative man efficiency of this mode increases, but cannot reclaim the mulch film and the residual film fragment that cover below soil layer, its net harvesting rate does not reach 50%.Cause residual film cannot or to be difficult to reclaim, the rate of recovery is low, and it remains in soil, causes for a long time soil compaction, and native list structure destroys, and fertility declines, and is unfavorable for plantation.
Summary of the invention
The purpose of this utility model is to solve above-mentioned existing issue, provides the digging type that a kind of cost is low, efficiency is high, the residual film rate of recovery is high disposable recovery machine for recovering broken film.
The technical solution of the utility model is:
Comprise digging system, screening system, crushing system and the piece-rate system excavated containing discarded object soil; Described system is all fixedly connected with main box, and main box comprises the side plate that is symmetrically distributed in digging system, screening system, crushing system both sides, and piece-rate system is positioned at main box below, and gap is set between the two; On main box, be provided with the transmission system that connects dynamical system, and transmission system connects respectively screening system, crushing system and piece-rate system;
Described digging system comprises the perching knife that moves ahead;
Described screening system comprises that at least one group of reception Preliminary screening contain the main sending sieve of discarded object soil, and every group of main sending sieve comprises two conveyer belts that are set up in parallel, and gap is set between the two, and connects by the some connecting rods that are parallel to each other; Described conveyer belt transmission direction is perpendicular to the perching knife that moves ahead, and conveyer belt front end all joins with the perching knife that moves ahead, and rear end all joins with crushing system front end, and conveyer belt front end is lower than rear end; In gap between described two conveyer belts, arrange and make the main sending sieve electromagnetic shaker of beating that rises and falls;
Described crushing system comprises that at least one group, every group is three leaf extruding cuttves of two move toward one another, and two three leaf extruding cuttves in group are all parallel to the perching knife that moves ahead;
Described piece-rate system comprises the sieve of the output containing discarded object soil receiving after extruding, and it is positioned at the below of three leaf extruding cuttves; The structure of described output sieve is identical with main sending sieve, and the conveyer belt transmission direction of output sieve is parallel to the perching knife that moves ahead, and this conveyer belt extends to outside main box.
Described main sending sieve is two groups, and two conveyer belts of every group are all enclosed within on the first power transmission shaft, on the first power transmission shaft, travelling gear is housed, and the groove of connecting rod and travelling gear are chimeric; Described three leaf extruding cuttves are two groups, and join with main sending sieve correspondence respectively.
The outer surface of described electromagnetic shaker is that four fillets and four roundings are cross-linked and form, and two electromagnetic shakers are installed in every group of main sending sieve.
Two three leaves extruding cuttves of described every group include the interior axle being connected with main box, on interior axle, are socketed axle sleeve, and three leaf blades are evenly set on axle sleeve, and axle sleeve, blade are carbon steel; Between the outer surface of described two axle sleeves, nearest distance is greater than the length of one times of blade, is less than the length of twice blade simultaneously; On one of them three leaf extruding cutter, having all the time angle between at least one leaf blade and the blade on another is 60 °.
Described transmission system comprises the suspension arrangement that connects dynamical system, described suspension arrangement comprises two central tie rod suspension arms, its one end is connected with main box is symmetrical respectively, respectively with two main suspension arms of the other end are connected, main suspension arm is arranged on foremost on bracing frame, bracing frame connects gearbox foremost, and gearbox connects main box by coupled second driving shaft, and second driving shaft is by gear and chain-driving screening system, crushing system and piece-rate system.
The rear side of described main box arranges backboard, and backboard is connected with output sieve by fixed frame.
Described screening system below arranges smooth suspension member, and smooth suspension member is that two steel plates are mutual vertically, integral type is formed by connecting, and is connected to the both sides of main box by iron hoop chain.
The both sides side plate of described main box connects by some bracing frames.
The end of described output sieve arranges the hopper of collecting discarded object.
The described perching knife material that moves ahead is carbon steel, and connecting rod is reinforcing bar.
Relative to existing technologies, the utility model connects dynamical system by transmission system, as tractor, drive transfer system by tractor, and then drive digging system, screening system, crushing system and piece-rate system, the perching knife that wherein moves ahead excavates and contains residual film, there is no the straw of weathering, the soil of rotten continuous wadding the like waste, separate thorough to residual film and earth's surface, ensure not have in soil residual, through screening system initial gross separation soil, electromagnetic shaker wherein, make connecting rod between conveyer belt by time form vibrations, impel main transmission sieve to beat to forming undulating movement in the process of upper driving, effectively break up soil a large amount of separation, separated soil is got back to earth's surface from the gap between main sending sieve connecting rod, be broken three leaves extruding cuttves of system of all the other fractions receive, straw stubble is rubbed broken, shape frustillatum or Powdered, evenly drain to ground by the direct sieve of the output from piece-rate system after crushing system, and plastic defect film is difficult for fragmentation, so residual film, unputrefied stalk or other are exported from output sieve the harmful discarded object of soil, be deposited in a side ground, pile linearly along recycling machine walking, complete separating for the second time of discarded object and soil.The utility model adopts the perching knife that moves ahead to excavate the soil containing discarded object, and the relatively traditional residual film way of recycling of rake Lou formula efficiency is high, earth's surface noresidue, and effect is good; Pass through again secondary separation, residual film the like waste net harvesting rate can be brought up to more than 98%, even can reach 100%.The utility model does not repeat operation, strong adaptability, no matter which kind of soil quality all can disposablely complete recovery, operating efficiency is very high; Simple to operate, big or small plot is all suitable, the utility model recyclable other bazardous waste also except residual film, and easy centralized recovery, Harmless processing; Cost recovery reduces, and the cost recovery of every mu is only 10 yuan of left and right.
Further, main sending sieve is two groups, can make whole device more stable, prevents distortion.
Further, the blade of three leaves extruding cuttves exists and interts, and blade itself forms the convex surface of extruding, forms between two the concave surface of extruding between blade, and the mode of this concavo-convex extruding is beneficial to the rhizome of breaing up plant and makes its as fertilizer sources recurrence soil very much.
Further, the setting of suspension arrangement, can connect dynamical system, as tractor, and can adjusting device height by suspension arrangement, and then adjust the degree of depth that the perching knife that moves ahead excavates, use more flexible; Gearbox is set, tractor dynamic power is changed, thereby drive the utility model recycling machine.
Further, backboard is set, soil and discarded object on three leaf extruding cuttves are all sieved through output.
Further, smooth suspension member is set, the soil that main sending sieve can be separated carries out smooth compacting, effectively ensures that moisture in soil does not run off.
Further, bracing frame is set, makes device more stable, indeformable.
Further, hopper is set, facilitates residual film the like waste to reclaim, be beneficial to and raise the efficiency.
Brief description of the drawings
Fig. 1, Fig. 2 are structural representation of the present utility model;
Fig. 3 is the structural representation of the utility model electromagnetic shaker;
Fig. 4 is the front upward view that the utility model removes smooth suspension member;
Fig. 5 is the profile of the utility model three leaf extruding cuttves;
Fig. 6 is rear upward view of the present utility model;
Fig. 7 is the utility model right view;
Fig. 8 is the structural representation of the smooth suspension member of the utility model;
Fig. 9 is the right view of the utility model main transmission sieve.
Wherein: the 1-perching knife that moves ahead; 2-exports sieve; 3-main box; 4-gearbox; 5-suspension arrangement; 6-bracing frame; The main sending sieve of 7-; 8-tri-leaf extruding cuttves; 9-backboard; 10-axle sleeve; Axle in 11-; 12-blade; The smooth suspension member of 13-; 14-gear; 15-electromagnetic shaker; 16-the first transmission shaft; 17-the second transmission shaft.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further details:
In the utility model, according to perching knife 1 direct of travel definition front end, rear end and the left and right sides that move ahead, parallel is the move ahead long limit of perching knife 1 and the axis of other parts or grow limit and contrast and draw, for reference only, is not used for limiting scope of the present utility model.
See figures.1.and.2, the utility model comprises digging system, screening system, vibroseis, crushing system, piece-rate system, transmission system and planarization system.
Digging system comprises the perching knife 1 that moves ahead, and its blade is the rectangle of long 220cm, wide 30cm, and material is carbon steel.
With reference to Fig. 9, screening system comprise two groups receive and Preliminary screening containing the little gap that 0.8cm is set between 7, two groups of the main sending sieves of discarded object soil, can make whole device more stable, prevent distortion.Every group of main sending sieve 7 comprises two conveyer belts that are set up in parallel, and conveyer belt is belt, between two belts, gap is set, and connects by the many connecting rods that are parallel to each other, and connecting rod is reinforcing bar; The axle radius that connects same conveyer belt is 15cm, centre-to-centre spacing 130cm, and reinforcing bar is long is 100cm, belt is long is 354cm; The belt of every group of inside is all enclosed within on the first power transmission shaft 16, two zigzag travelling gears are housed on the first power transmission shaft 16, and the groove of reinforcing bar and travelling gear is chimeric, drives belt to move upward; Two groups have 16, four travelling gears of two the first power transmission shafts.Belt transport direction is perpendicular to the perching knife 1 that moves ahead, and conveyer belt front end all joins with the perching knife 1 that moves ahead, and rear end all joins with crushing system front end, and conveyer belt front end is lower than rear end; In gap between two conveyer belts, vibroseis is set.
Referring to Fig. 3 and Fig. 4, vibroseis is quincunx electromagnetic shaker 15, electromagnetic shaker 15 outer surfaces are that rounding that four radiuses fillet that is 8cm and four radiuses are 15cm is cross-linked and forms, in it, axle radius is 10cm, because the shape of the electromagnetic shaker 15 relatively reinforcing bar walking path on it is irregular, impel main transmission sieve 7 in the process of upper driving, reinforcing bar forms undulating movement and beats, thereby plays the effect that vibrations separate.Two electromagnetic shakers 15 of every group of interior installation of main sending sieve 7, its centre-to-centre spacing is 65cm, electromagnetic shaker 15 centre-to-centre spacing between group are 105cm.
Crushing system comprises about the two groups three leaf extruding cuttves 8 that arrange.Every group contains three leaf extruding cuttves 8 of two move toward one another, and is all parallel to the perching knife 1 that moves ahead, and 7 cooperations of main sending sieve are joined.
Referring to Fig. 5, three leaves extruding cuttves 8 comprise the interior axle 11 that the radius that is connected with main box 3 is 5cm, and on interior axle 11, being socketed radius is the axle sleeve 10 of 6cm, and three leaf blades 12 are evenly set on axle sleeve 10, the long 6cm of blade 12, and axle sleeve 10, blade 12 are carbon steel.Between the outer surface of two axle sleeves 10, nearest distance is greater than the length of one times of blade, is less than the length of twice blade simultaneously; On one of them three leaf extruding cutter 8, having all the time angle between at least one leaf blade 12 and the blade on another 12 is 60 °, so blade 12 itself forms the convex surface of extruding, between blade 12, form between two the concave surface of extruding, the mode of this concavo-convex extruding is beneficial to the rhizome of breaing up plant very much makes its as fertilizer sources return soil.
Piece-rate system comprises the sieve of the output containing discarded object soil 2 receiving after extruding, and its length is 350cm, and width is 45cm, is positioned at the below of three leaf extruding cuttves 8; The structure of output sieve 2 is identical with main sending sieve 7, and the conveyer belt transmission direction of output sieve 2 is parallel to the perching knife 1 that moves ahead, and this conveyer belt extends to outside main box 3.The end of output sieve 2 arranges the hopper of collecting discarded object, facilitates residual film the like waste to reclaim, and is beneficial to and raises the efficiency.
Move ahead perching knife 1, main sending sieve 7 and three leaves extruding cutter 8 left and right sides are all fixedly connected on main box 3, main box 3 comprises symmetrical side plate, output sieve 2 is positioned at main box 3 belows, gap is set between the two, the rear side of main box 3 arranges backboard 9, makes soil and discarded object on three leaf extruding cuttves 8 all sieve 2 through output, and backboard 9 is long is 250cm, height is 140cm, and backboard 9 is connected with output sieve 2 by fixed frame; The both sides side plate of main box 3 connects by some bracing frames 6, makes device more stable, not yielding; On main box 3, be provided with the transmission system that connects dynamical system.
Transmission system comprises that connection dynamical system is as the suspension arrangement 5 of tractor, plays fixing suspension and adjustment suspension height, and then adjusts the degree of depth that the perching knife 1 that moves ahead excavates, and uses more flexible.Suspension arrangement 5 comprises two central tie rod suspension arms, its one end is connected with main box 3 is symmetrical respectively, respectively with two main suspension arms of the other end are connected, main suspension arm is arranged on foremost on bracing frame 6, bracing frame 6 connects gearbox 4 foremost, gearbox 4 connects main box 3 by second driving shaft 17, then by gear 14 and chain-driving move ahead perching knife 1, main sending sieve 7, three leaves extruding cuttves 8 and output sieve 2.
Gear 14 mainly comprises four, and wherein two is move toward one another, drives three leaf blade rotation to complete the pinion of squeeze function, and one is the gear wheel that drives main transmission sieve, also has one and is connected and drives the gear wheel of other gear with second driving shaft 17.
Referring to Fig. 6 to Fig. 8, main sending sieve 7 belows arrange smooth suspension member 13, and smooth suspension member 13 is that two steel plates are mutual vertically, integral type is formed by connecting, and steel plate is of a size of 350 × 10cm, and the iron hoop chain of growing by 120cm is connected on the biside plate of main box 3.The soil that smooth suspension member 13 can separate main sending sieve carries out smooth compacting, effectively ensures that moisture in soil does not run off.
The utility model operation principle: the perching knife 1 that moves ahead is connected with main box 3, by the rear transmission of tractor, drive gear, enter gearbox, by the screening net in chain-driving screening system, after vibroseis vibrations wherein, directly arrive crushing system, after three leaf extruding cutter attrition crushings, enter piece-rate system and continue screening, the residues such as residual film are focused on to left side or ground, right side, or directly take in hopper.
The utility model adopts the perching knife 1 that moves ahead to excavate the soil containing discarded object, and the relatively traditional residual film way of recycling of rake Lou formula efficiency is high, earth's surface noresidue, and effect is good; Pass through again secondary separation, residual film the like waste net harvesting rate can be brought up to more than 98%, even can reach 100%.The utility model does not repeat operation, strong adaptability, no matter which kind of soil quality all can disposablely complete recovery, operating efficiency is very high; Simple to operate, big or small plot is all suitable, the utility model recyclable other bazardous waste also except residual film, and easy centralized recovery, Harmless processing; Cost recovery reduces, and the cost recovery of every mu is only 10 yuan of left and right.
The utility model specific works process: according to overlay film Depth determination, the utility model can be set the perching knife 1 shallow cut 5cm that moves ahead, transmit and shake by main sending sieve 7, tentatively by after native film and the separation of straw stubble, the blade crush-zone that is sent to three leaf extruding cuttves, wherein plastic defect film is difficult for fragmentation, after native film separates, directly enter rear side output, pile up ground or directly take in hopper; Plant, straw stubble are through corrosion after a while, and easily broken, after crushing system, shape frustillatum, by the output sieve 2 of rear side, evenly leaks on ground, increases land fertility.
The utility model belongs to tractor mounted machinery, and different horsepower all can hang.
Claims (10)
1. the disposable recovery machine for recovering broken film of digging type, is characterized in that: comprise digging system, screening system, crushing system and the piece-rate system excavated containing discarded object soil; Described system is all fixedly connected with main box (3), and main box (3) comprises the side plate that is symmetrically distributed in digging system, screening system, crushing system both sides, and piece-rate system is positioned at main box (3) below, and gap is set between the two; On main box (3), be provided with the transmission system that connects dynamical system, and transmission system connects respectively screening system, crushing system and piece-rate system;
Described digging system comprises the perching knife that moves ahead (1);
Described screening system comprises that at least one group of reception Preliminary screening contain the main sending sieve (7) of discarded object soil, every group of main sending sieve (7) comprises two conveyer belts that are set up in parallel, gap is set between the two, and connects by the some connecting rods that are parallel to each other; Described conveyer belt transmission direction is perpendicular to the perching knife that moves ahead (1), and conveyer belt front end all joins with the perching knife that moves ahead (1), and rear end all joins with crushing system front end, and conveyer belt front end is lower than rear end; The electromagnetic shaker (15) that main sending sieve (7) is risen and fallen beat is set in the gap between described two conveyer belts;
Described crushing system comprises that at least one group, every group is three leaf extruding cuttves (8) of two move toward one another, and two three leaf extruding cuttves (8) in group are all parallel to the perching knife that moves ahead (1);
Described piece-rate system comprises the sieve of the output containing discarded object soil (2) receiving after extruding, and it is positioned at the below of three leaf extruding cuttves (8); The structure of described output sieve (2) is identical with main sending sieve (7), and the conveyer belt transmission direction of output sieve (2) is parallel to the perching knife that moves ahead (1), and this conveyer belt extends to outside main box (3).
2. the disposable recovery machine for recovering broken film of digging type according to claim 1, it is characterized in that: described main sending sieve (7) is two groups, two conveyer belts of every group are all enclosed within on the first power transmission shaft (16), the first power transmission shaft is equipped with travelling gear on (16), and the groove of connecting rod and travelling gear is chimeric; Described three leaf extruding cuttves (8) are two groups, and join with main sending sieve (7) correspondence respectively.
3. the disposable recovery machine for recovering broken film of digging type according to claim 2, it is characterized in that: the outer surface of described electromagnetic shaker (15) is that four fillets and four roundings are cross-linked and form, two electromagnetic shakers (15) are installed in every group of main sending sieve (7).
4. the disposable recovery machine for recovering broken film of digging type according to claim 1, it is characterized in that: two three leaf extruding cuttves (8) of described every group include the interior axle (11) being connected with main box (3), interior axle (11) upper socket axle sleeve (10), three leaf blades (12) are evenly set on axle sleeve (10), and axle sleeve (10), blade (12) are carbon steel; Between the outer surface of described two axle sleeves (10), nearest distance is greater than the length of one times of blade, is less than the length of twice blade simultaneously; On one of them three leaf extruding cutter (8), having all the time angle between at least one leaf blade (12) and the blade on another (12) is 60 °.
5. the disposable recovery machine for recovering broken film of digging type according to claim 1, it is characterized in that: described transmission system comprises the suspension arrangement (5) that connects dynamical system, described suspension arrangement (5) comprises two central tie rod suspension arms, its one end is connected with main box (3) is symmetrical respectively, respectively with two main suspension arms of the other end are connected, main suspension arm is arranged on foremost on bracing frame (6), bracing frame (6) connects gearbox (4) foremost, gearbox (4) connects main box (3) by coupled second driving shaft (17), second driving shaft (17) is by gear (14) and chain-driving screening system, crushing system and piece-rate system.
6. according to the disposable recovery machine for recovering broken film of the digging type described in claim 1 to 5 any one, it is characterized in that: the rear side of described main box (3) arranges backboard (9), backboard (9) is connected with output sieve (2) by fixed frame.
7. according to the disposable recovery machine for recovering broken film of the digging type described in claim 1 to 5 any one, it is characterized in that: described screening system below arranges smooth suspension member (13), smooth suspension member (13) is that two steel plates are mutual vertically, integral type is formed by connecting, and is connected to the both sides of main box (3) by iron hoop chain.
8. the disposable recovery machine for recovering broken film of digging type according to claim 7, is characterized in that: the both sides side plate of described main box (3) connects by some bracing frames (6).
9. the disposable recovery machine for recovering broken film of digging type according to claim 8, is characterized in that: the end of described output sieve (2) arranges the hopper of collecting discarded object.
10. according to the disposable recovery machine for recovering broken film of the digging type described in any one in claim 1-5,8-9, it is characterized in that: described in perching knife (1) material that moves ahead be carbon steel, connecting rod is reinforcing bar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420283699.2U CN203872518U (en) | 2014-05-29 | 2014-05-29 | Excavating type recycling machine capable of recycling plastic film residues in one-shot mode |
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Application Number | Priority Date | Filing Date | Title |
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CN201420283699.2U CN203872518U (en) | 2014-05-29 | 2014-05-29 | Excavating type recycling machine capable of recycling plastic film residues in one-shot mode |
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CN203872518U true CN203872518U (en) | 2014-10-15 |
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CN201420283699.2U Expired - Fee Related CN203872518U (en) | 2014-05-29 | 2014-05-29 | Excavating type recycling machine capable of recycling plastic film residues in one-shot mode |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103988600A (en) * | 2014-05-29 | 2014-08-20 | 靖边县农业机械管理服务站 | Excavating type one-time recovery residue film recycling machine |
CN106171067A (en) * | 2016-07-05 | 2016-12-07 | 云南省烟草公司曲靖市公司 | A kind of remnant film picker |
CN106171068A (en) * | 2016-07-07 | 2016-12-07 | 中国农业大学 | Conveyer belt type Rhizoma Solani tuber osi used plastic collection device |
-
2014
- 2014-05-29 CN CN201420283699.2U patent/CN203872518U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103988600A (en) * | 2014-05-29 | 2014-08-20 | 靖边县农业机械管理服务站 | Excavating type one-time recovery residue film recycling machine |
CN103988600B (en) * | 2014-05-29 | 2015-10-28 | 靖边县农业机械管理服务站 | The disposable recovery machine for recovering broken film of digging type |
CN106171067A (en) * | 2016-07-05 | 2016-12-07 | 云南省烟草公司曲靖市公司 | A kind of remnant film picker |
CN106171068A (en) * | 2016-07-07 | 2016-12-07 | 中国农业大学 | Conveyer belt type Rhizoma Solani tuber osi used plastic collection device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141015 Termination date: 20160529 |