CN205797735U - A kind of Bulbus Allii Cepae cleans transport sorting production equipment - Google Patents
A kind of Bulbus Allii Cepae cleans transport sorting production equipment Download PDFInfo
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- CN205797735U CN205797735U CN201620711059.6U CN201620711059U CN205797735U CN 205797735 U CN205797735 U CN 205797735U CN 201620711059 U CN201620711059 U CN 201620711059U CN 205797735 U CN205797735 U CN 205797735U
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- mesh sieve
- bulbus allii
- allii cepae
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Abstract
This utility model relates to a kind of processing of farm products equipment, and a kind of Bulbus Allii Cepae sieves the production equipment cleaning, transporting, sort.It is made up of the sieve apparatus that shakes, the first conveying equipment, cleaning equipment, the second conveying equipment, screening installation and cutting equipment, the end of sieve apparatus of shaking is connected to the top of the first conveying equipment, the end of the first conveying equipment is connected to the feeding end of cleaning equipment, the discharge end of cleaning equipment connects the top of the second conveying equipment, the end of the second conveying equipment is connected to the charging aperture of screening installation, screening installation includes multiple discharge end, and described discharge end is connected to corresponding cutting equipment.This equipment can be automatically finished the peeling of Bulbus Allii Cepae except soil dust, transport, clean, screen grading sorting blanking, screening installation disclosed in this utility model has structure and simplifies, scientific and reasonable small and exquisite, reduce floor space and save resource, and there is the architecture design of stable vibration stress, make to shake and sieve process stabilization, amplitude uniformly, the excellent results that screening efficiency, precision are high.
Description
Technical field
This utility model relates to a kind of processing of farm products equipment, and the Continuous maching cleaning transport and sorting for a kind of band sets
Standby, a kind of Bulbus Allii Cepae sieves the production equipment cleaning, transporting, sort.
Background technology
Bulbus Allii Cepae the most all has cultivated area on a large scale, world's onion yield to be only second to Fructus Lycopersici esculenti, account for the world
The 10% of vegetable total amount, resource is the abundantest.China is currently Bulbus Allii Cepae manufacturing country the biggest in the world, and annual production has reached 18,500,000
Ton, China is mainly to eat raw, and Bulbus Allii Cepae deep processing is still in the starting stage, and the ratio that processing total amount accounts for total output is the highest, becomes
Overlap automatic Bulbus Allii Cepae machining production line kind the most rare, along with constantly rising and living standards of the people of manual labor's cost
After stepping up, Bulbus Allii Cepae class deep processed product demand will constantly rise, and Bulbus Allii Cepae process equipment industry will welcome huge sending out
Exhibition opportunity.In current Bulbus Allii Cepae processing industry, need after Bulbus Allii Cepae of gathering Bulbus Allii Cepae goes soil go the remove impurity work such as onal, then will
Bulbus Allii Cepae needs head by size to classify after cleaning, then carries out next step processed, in traditional Bulbus Allii Cepae processing, by manually
Carrying out sieving work, during screening, people commonly use large-scale screen tray screening, and the Bulbus Allii Cepae rank therefore sub-elected is fine not, classification
Standard refines not, causes the individual variation after classification the biggest, if the mesh several levels increasing screen tray is other, then can cause occupation of land face
Long-pending big, operation is various, not only takes time and effort, and also results in work efficiency low, increases labour cost.
Utility model content
This utility model is for above-mentioned the deficiencies in the prior art and the technical problem had much room for improvement, it is provided that energy
Enough automation equipments cleaned and directly carry out screening sorting after transport.
This utility model one Bulbus Allii Cepae clean transport sorting production equipment by the sieve apparatus that shakes (1), the first conveying equipment (2),
Cleaning equipment (3), the second conveying equipment (4) and screening installation (5) are constituted, wherein: the end of the sieve apparatus that shakes (1) is connected to first
The top of conveying equipment (2), the end of the first conveying equipment (2) is connected to the feeding end of cleaning equipment (3), cleaning equipment (3)
Discharge end connect the top of the second conveying equipment (4), the end of the second conveying equipment (4) is connected to entering of screening installation (5)
Material mouth, screening installation (5) includes multiple discharge end.
Further, described screening installation (5) includes underframe (51), shake sieve spring (52), vibrating motor (53), frame
(54), mesh sieve plate (55), guided plate (56), feed opening (57), the bottom of described frame (54) pass through several sieve springs that shake
(52) connection is placed on underframe (51), and vibrating motor (53) is placed in frame (54) top, and frame is provided with in (54) from top to bottom
If dried layer mesh sieve plate (55), the end of mesh sieve plate (55) is all connected with respective guided plate (56), guided plate (56)
End is pointed shape, and the end of guided plate (56) all offers corresponding feed opening (57), and described mesh sieve plate (55) is upper uniformly
Several sieve apertures (58) are distributed, and sieve aperture (58) aperture on every layer of mesh sieve plate (55) is identical, and mesh sieve plate (55) is from upper strata
Internal diameter hierarchal arrangement the most from big to small to orlop every layer sieve aperture (58) is installed, described mesh sieve plate (55) and guided plate
(56) terminad direction, top is downward-sloping.
Further, described frame (54) is by munnion (541), crossbeam (543), horizontal frame (542), side plate (544) and back plate
(545) constituting, two pieces of side plates (544) are right in opposite directions, and mesh sieve plate (55) is placed between two pieces of side plates (544), and back plate (545) is put
In mesh sieve plate (55) rear side side and connect two pieces of side plates (544) respectively and constitute boxes, some munnions (541) are fixed on side plate
(544), on outside shorter side and central panel face, some horizontal frames (542) are fixed on two long limits up and down of side plate (544) also
Connect corresponding munnion (541), between the some fixing horizontal frames (542) being horizontally placed on biside plate (544) of crossbeam (543), its
In, there are two parallel centres being horizontally placed on two horizontal frames (542) of crossbeam (543) and fixedly mount vibrating motor (53) in the middle.
Further, described munnion (541) downwardly extends, and the bottom of every munnion (541) is all by being fastened on
Sieve spring (52) that shakes on underframe (51) is placed on underframe (51).
Further, the end feed opening (57) of every layer of described guided plate (56) interlocks mutually and embedding opens distribution.
Operation principle introduction of the present utility model: screening installation (5) includes underframe (51), sieve spring (52) that shakes, vibration electricity
Machine (53), frame (54), mesh sieve plate (55), guided plate (56), feed opening (57), the bottom of described frame (54) is by some
Individual sieve spring (52) connection of shaking is placed on underframe (51), and vibrating motor (53) is placed in frame (54) top, from upper in frame (54)
If being provided with dried layer mesh sieve plate (55) under to, the end of mesh sieve plate (55) is all connected with respective guided plate (56), draws
The end of guide plate (56) is pointed shape, and the end of guided plate (56) all offers corresponding feed opening (57), described mesh sieve plate
(55) being evenly distributed with several sieve apertures (58) on, sieve aperture (58) aperture on every layer of mesh sieve plate (55) is identical, mesh sieve plate
(55) the internal diameter hierarchal arrangement the most from big to small from upper strata to orlop every layer sieve aperture (58) is installed, described mesh sieve plate (55)
Downward-sloping with the terminad direction, top of guided plate (56).Frame (54) under the vibration of vibrating motor (53) at the sieve spring that shakes
(52) doing the vibration of dipping and heaving on, Bulbus Allii Cepae material enters screening installation (5) first-selection afterwards and falls on ground floor mesh sieve plate (55),
Under the effect of vibration, owing to mesh sieve plate (55) has the gradient of inclination, starting to the direction motion tilted, period is through undue
Cloth sieve aperture (58) on mesh sieve plate (55), owing to sieve aperture (58) aperture of the superiors is maximum, therefore, most diameter is less than
The Bulbus Allii Cepae material in the superiors' sieve aperture (58) aperture all falls into next layer of mesh sieve plate (55), the ocean not can not fallen from sieve aperture (58)
Herba Alii fistulosi material rolls towards feed opening (57), from feed opening (57) in continuing to enter guided plate (56) along the mesh sieve plate (55) of the superiors
Flow out;Sieve aperture (58) aperture of the mesh sieve plate (55) of the second layer is less than sieve aperture (58) aperture of ground floor, and material continues the
Bulbus Allii Cepae material little for head is continued to fall downwards by two layers of upper work repeated the most on the first layer of mesh sieve plate (55)
One layer of sieve goes, it is impossible to entered into the second layer from the guided plate (56) of the second layer by the material of second layer mesh sieve plate (55)
Material mouth (57), completes the screening of the second level, and the Bulbus Allii Cepae material entering third layer mesh sieve plate (55) continues to repeat above-mentioned screening
Work, until requiring size according to design, last layer of mesh sieve plate (55), screen out the different head sizes of different sizes
Bulbus Allii Cepae material unified classification, reach to sort the purpose of size;
Described frame (54) is made up of munnion (541), crossbeam (543), horizontal frame (542), side plate (544) and back plate (545),
Two pieces of side plates (544) are right in opposite directions, and mesh sieve plate (55) is placed between two pieces of side plates (544), and back plate (545) is placed in mesh sieve plate
(55) rear side side respectively two pieces of side plates (544) composition boxes of connection, some munnions (541) are fixed on outside side plate (544)
On side minor face and central panel face, some horizontal frames (542) are fixed on two long limits up and down of side plate (544) and connect corresponding
Munnion (541), between the some fixing horizontal frames (542) being horizontally placed on biside plate (544) of crossbeam (543), wherein, has two horizontal strokes
The parallel centre being horizontally placed on two horizontal frames (542) of beam (543) also fixedly mounts vibrating motor (53) in the middle.Munnion (541), horizontal stroke
The purchasing ore of the casing that frame (542) and crossbeam (543) are interconnected to constitute side plate (544) and back plate (545) is formed, increases it strong
Degree, munnion (541) and horizontal frame (542) are all that the arris prolonging side plate (544) back plate (545) is attached covering, and form key and are subject to
The support in force and protection, ensured the frame (54) stability in vibration, and allows its integration so that mesh sieve plate
(55) can in vibration uniform force, overall amplitude is consistent, improves the screening stability of equipment, improves the efficiency of screening,
Also can increase equipment quality, thus ensure the service life of equipment.
Described munnion (541) downwardly extends, and the bottom of every munnion (541) is all by being fastened on underframe (51)
Shake sieve spring (52) be placed on underframe (51).Sieve spring (52) that shakes is connected so that munnion (541) is in shaking by munnion (541)
Sieve spring (52) is the effect strong point, reaches the optimum efficiency of vibration, has ensured that the predominant intermolecular forces of vibration is by munnion simultaneously
(541) bear, munnion (541) be dispersed to horizontal frame (542), crossbeam (543) and mesh sieve plate (55), it is possible to ensure that equipment shakes
The overall stress of disorder of internal organs, reaching to shake, it is overall consistent to sieve frequency of vibration, reaches optimal vibration effect and uniform force degree.
Guided plate (56) the end feed opening (57) of described every layer interlocks mutually and embedding opens distribution.Bulbus Allii Cepae material after sorting
Needing to be collected respectively blanking, rational in infrastructure rigorous due to this equipment, overall structure is more tight, in order to reach equipment
Rationally talk about size, reduce floor space and avoid complicated huge structure design, simplifying the original intention of design based on overall structure, will
Guided plate (56) end feed opening (57) position staggered designs, it is to avoid produce when blanking is collected between levels guided plate (56)
The problem that raw station is overlapping such that it is able to the material simultaneously carried out on levels guided plate (56) is collected or at processing simultaneously
Reason, also makes between guided plate (56) without the biggest interval, it is possible to accomplish to minimize by screening installation (5), reach from structure
Simplify to structure, scientific and reasonable small and exquisite, reduce floor space and save the excellent results of resource.
In sum, a kind of Bulbus Allii Cepae that this utility model provides cleans transport sorting production equipment can be automatically finished ocean
The peeling of Herba Alii fistulosi except soil dust, transport, clean, drainage conveying, the course of processing of screen grading sorting blanking, disclosed in this utility model point
Optional equipment (5) has structure and simplifies, scientific and reasonable small and exquisite, reduces floor space and saves resource, and has stable vibration stress
Architecture design so that shake sieve process stabilization, amplitude is uniform, screening efficiency is high, the excellent results that precision is high.
Accompanying drawing explanation
Fig. 1 is structure connection diagram of the present utility model;
Fig. 2 is the structure connection diagram of screening installation;
Fig. 3 is the side view of screening installation;
Fig. 4 is the side upward view of screening installation;
Wherein: 1 shake sieve apparatus, 2 first conveying equipments, 3 cleaning equipments, 4 second conveying equipments, 5 sorting
Equipment, 51 underframe, 52 shake sieve spring, 53 vibrating motors, 54 frames, 55 mesh sieve plates, 56 guided plates, 57
Feed opening, 58 sieve apertures, 541 munnions, 542 horizontal frames, 543 crossbeams, 544 side plates, 545 back plate.
Detailed description of the invention
This utility model is as it is shown in figure 1, a kind of Bulbus Allii Cepae cleans transport sorting production equipment by sieve apparatus the 1, first conveying of shaking
Equipment 2, cleaning equipment the 3, second conveying equipment 4 and screening installation 5 are constituted, wherein: it is defeated that the end of the sieve apparatus 1 that shakes is connected to first
Sending the top of equipment 2, the end of the first conveying equipment 2 is connected to the feeding end of cleaning equipment 3, and the discharge end of cleaning equipment 3 is even
Connecing the top of the second conveying equipment 4, the end of the second conveying equipment 4 is connected to the charging aperture of screening installation 5, and screening installation 5 wraps
Include multiple discharge end.By the Bulbus Allii Cepae blanking gathered to the sieve apparatus 1 that shakes, the sieve apparatus 1 that shakes plays vibration, transport, the de-Bulbus Allii Cepae of sieve
Epidermis, impurity, earth etc., and Bulbus Allii Cepae is transported to conveying equipment, the first conveying equipment 2 is for rising material conveyer belt, by Bulbus Allii Cepae material
Being carried out clean in being delivered to cleaning equipment 3, fall into the second conveying equipment 4 after having cleaned, the second conveying equipment 4 can also
Being to have liter material, a transmission equipment for water filtering function, Bulbus Allii Cepae material is delivered to the feed end of screening installation 5, Bulbus Allii Cepae material enters
After screening installation 5, the difference of head is sieved by size, sorts into several sizes that different sizes is different, and discharging, reaches
The processing purpose of production line, improves work efficiency, saves manpower.
Embodiment 1:
As shown in Figure 2 and Figure 3: described screening installation 5 includes underframe 51, shake sieve spring 52, vibrating motor 53, frame 54, net
Hole sizer plate 55, guided plate 56, feed opening 57, the bottom of described frame 54 by six each and every one shake sieve spring 52 connect be placed in underframe 51
On, vibrating motor 53 is placed in above frame 54, is provided with four-layer network hole sizer plate 55 in frame 54 from top to bottom, mesh sieve plate 55
End is all connected with respective guided plate 56, and the end of guided plate 56 is pointed shape, and the end of guided plate 56 all offers phase
The feed opening 57 answered, described mesh sieve plate 55 is evenly distributed with several sieve apertures 58, the sieve aperture 58 on every layer of mesh sieve plate 55
Aperture is identical, and the mesh sieve plate 55 internal diameter hierarchal arrangement the most from big to small from upper strata to orlop every layer sieve aperture 58 is installed, institute
The terminad direction, top stating mesh sieve plate 55 and guided plate 56 is downward-sloping.Frame 54 is being shaken under the vibration of vibrating motor 53
Doing the vibration of dipping and heaving on sieve spring 52, after Bulbus Allii Cepae material enters screening installation 5, first-selection falls on ground floor mesh sieve plate 55,
Under the effect of vibration, owing to mesh sieve plate 55 has the gradient of inclination, starting to the direction motion tilted, period is through distribution
Sieve aperture 58 on mesh sieve plate 55, owing to sieve aperture 58 aperture of the superiors is maximum, therefore, most diameter is sieved less than the superiors
The Bulbus Allii Cepae material in aperture, hole 58 all falls into next layer of mesh sieve plate 55 from sieve aperture 58, and the Bulbus Allii Cepae material not can not fallen continues along
The mesh sieve plate 55 on upper strata rolls towards feed opening 57 in entering guided plate 56, flows out from feed opening 57;The mesh sieve plate of the second layer
Sieve aperture 58 aperture of 55 is less than sieve aperture 58 aperture of ground floor, and material continues to repeat on second layer mesh sieve plate 55 originally the
Bulbus Allii Cepae material little for head is continued sieve downwards and goes by the work on one layer, it is impossible to by the material of second layer mesh sieve plate 55
Enter into the feed opening 57 of the second layer from the guided plate 56 of the second layer, complete the screening of the second level, enter third layer mesh sieve plate
The Bulbus Allii Cepae material of 55 continues to repeat above-mentioned screening operation, until last layer of mesh sieve plate 55, screens out different sizes not
With Bulbus Allii Cepae material the unified classification of head size, reach to sort the purpose of size;
Described frame 54 is made up of munnion 541, crossbeam 543, horizontal frame 542, side plate 544 and back plate 545, two blocks of side plates 544
Right in opposite directions, mesh sieve plate 55 is placed between two blocks of side plates 544, and back plate 545 is placed in square on rear side of mesh sieve plate 55 and connects respectively
Two blocks of side plates 544 constitute box, and six roots of sensation munnion 541 is fixed on outside shorter side and the central panel face of side plate 544, four horizontal frames of root
542 are fixed on two long limits up and down of side plate 544 and connect corresponding munnion 541, and four root crossbeams 543 are fixed and are horizontally placed on two
Between horizontal frame 542 on side plate 544, wherein, the middle parallel centre being horizontally placed on two horizontal frames 542 of two crossbeams 543 at it
Middle part fixed installation vibrating motor 53.Munnion 541, horizontal frame 542 and crossbeam 543 are interconnected to constitute side plate 544 and back plate 545 shape
The purchasing ore of the casing become, increasing its intensity, munnion 541 and horizontal frame 542 is all that the arris prolonging side plate 544 back plate 545 is carried out even
Connect covering, form support and the protection of crucial stress point, ensured the frame 54 stability in vibration, and made it overall
Change so that mesh sieve plate 55 can in vibration uniform force, overall amplitude is consistent, improves the screening stability of equipment, carries
The efficiency of high screening, also can increase equipment quality, thus ensure the service life of equipment.
Described munnion 541 downwardly extends, and the bottom of every munnion 541 is all by the sieve that shakes being fastened on underframe 51
Spring 52 is placed on underframe 51.The sieve spring 52 that shakes is connected so that munnion 541 is effect in the sieve spring 52 that shakes by munnion 541
Support point, reaches the optimum efficiency of vibration, has ensured that the predominant intermolecular forces of vibration is born by munnion 541 simultaneously, munnion 541 has disperseed
To horizontal frame 542, crossbeam 543 and mesh sieve plate 55, it is possible to ensure the overall stress in vibration equipment, reach the sieve frequency of vibration that shakes
Overall consistent, reach optimal vibration effect and uniform force degree.
As shown in Figure 4, the guided plate 56 end feed opening 57 of described every layer interlocks mutually and embedding opens distribution.Ocean after sorting
Herba Alii fistulosi material needs to be collected respectively blanking, rational in infrastructure rigorous due to this equipment, and overall structure is more tight, in order to reach
Rationally talk about size, reduction floor space and the structure avoiding complexity huge of equipment design, and design based on overall structure simplification
Original intention, by guided plate 56 end feed opening 57 position staggered designs, it is to avoid between levels guided plate 56 when blanking is collected
The problem that the station produced is overlapping such that it is able to the material simultaneously carried out on levels guided plate 56 is collected or at processing simultaneously
Reason, also makes between guided plate 56 without the biggest interval, it is possible to accomplish to minimize by screening installation 5 from structure, reaches knot
Structure is simplified, scientific and reasonable small and exquisite, reduces floor space and saves the excellent results of resource.
Claims (4)
1. a Bulbus Allii Cepae cleans transport sorting production equipment, it is characterised in that screening installation (5) includes underframe (51), shake sieve spring
(52), vibrating motor (53), frame (54), mesh sieve plate (55), guided plate (56), feed opening (57), described frame (54)
Bottom is placed on underframe (51) by several sieve spring (52) connections of shaking, and vibrating motor (53) is placed in frame (54) top, machine
Frame (54) if in dried layer mesh sieve plate (55) is installed from top to bottom, the end of mesh sieve plate (55) is all connected with respective drawing
Guide plate (56), the end of guided plate (56) is pointed shape, and the end of guided plate (56) all offers corresponding feed opening (57), institute
State and on mesh sieve plate (55), be evenly distributed with several sieve apertures (58), sieve aperture (58) the aperture phase on every layer of mesh sieve plate (55)
With, the mesh sieve plate (55) the internal diameter hierarchal arrangement the most from big to small from upper strata to orlop every layer sieve aperture (58) is installed, described
The terminad direction, top of mesh sieve plate (55) and guided plate (56) is downward-sloping.
A kind of Bulbus Allii Cepae the most according to claim 1 cleans transport sorting production equipment, it is characterised in that described frame (54)
Be made up of munnion (541), crossbeam (543), horizontal frame (542), side plate (544) and back plate (545), two pieces of side plates (544) in opposite directions and
Right, mesh sieve plate (55) is placed between two pieces of side plates (544), and back plate (545) is placed in mesh sieve plate (55) rear side side and connects respectively
Connecing two pieces of side plates (544) and constitute box, some munnions (541) are fixed on outside shorter side and the central panel face of side plate (544),
Corresponding munnion (541), some horizontal strokes are fixed on two long limits up and down of side plate (544) and are connected to some horizontal frames (542)
Between the fixing horizontal frame (542) being horizontally placed on biside plate (544) of beam (543), wherein, have that two crossbeams (543) are parallel to be horizontally placed on
The centre of two horizontal frames (542) also fixedly mounts vibrating motor (53) in the middle.
A kind of Bulbus Allii Cepae the most according to claim 2 cleans transport sorting production equipment, it is characterised in that described munnion (541)
Downwardly extending, the bottom of every munnion (541) is all placed in the end by sieve spring (52) that shakes being fastened on underframe (51)
On frame (51).
A kind of Bulbus Allii Cepae the most according to claim 1 cleans transport sorting production equipment, it is characterised in that described guided plate
(56) the end feed opening (57) of every layer interlocks mutually and embedding opens distribution.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620711059.6U CN205797735U (en) | 2016-07-07 | 2016-07-07 | A kind of Bulbus Allii Cepae cleans transport sorting production equipment |
Applications Claiming Priority (1)
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CN201620711059.6U CN205797735U (en) | 2016-07-07 | 2016-07-07 | A kind of Bulbus Allii Cepae cleans transport sorting production equipment |
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CN201620711059.6U Expired - Fee Related CN205797735U (en) | 2016-07-07 | 2016-07-07 | A kind of Bulbus Allii Cepae cleans transport sorting production equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107711662A (en) * | 2017-11-15 | 2018-02-23 | 李红光 | One kind sieve fish instrument |
CN108125253A (en) * | 2017-12-21 | 2018-06-08 | 彭红星 | A kind of potato washing sorter |
CN108991568A (en) * | 2018-06-28 | 2018-12-14 | 胡转香 | A kind of garlic fibre cutting system |
-
2016
- 2016-07-07 CN CN201620711059.6U patent/CN205797735U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107711662A (en) * | 2017-11-15 | 2018-02-23 | 李红光 | One kind sieve fish instrument |
CN108125253A (en) * | 2017-12-21 | 2018-06-08 | 彭红星 | A kind of potato washing sorter |
CN108125253B (en) * | 2017-12-21 | 2021-05-14 | 新昌县大菠萝农业发展有限公司 | Potato cleaning and classifying device |
CN108991568A (en) * | 2018-06-28 | 2018-12-14 | 胡转香 | A kind of garlic fibre cutting system |
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Granted publication date: 20161214 Termination date: 20170707 |
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CF01 | Termination of patent right due to non-payment of annual fee |