CN113102259A - Shunt system based on intelligent scanning - Google Patents
Shunt system based on intelligent scanning Download PDFInfo
- Publication number
- CN113102259A CN113102259A CN202110389079.1A CN202110389079A CN113102259A CN 113102259 A CN113102259 A CN 113102259A CN 202110389079 A CN202110389079 A CN 202110389079A CN 113102259 A CN113102259 A CN 113102259A
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- conveying mechanism
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- fixedly mounted
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C3/00—Sorting according to destination
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C1/00—Measures preceding sorting according to destination
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- Branching, Merging, And Special Transfer Between Conveyors (AREA)
Abstract
The invention discloses a flow distribution system based on intelligent scanning, and belongs to the field of logistics. A smart scan based shunt system comprising: the fan-type air conditioner comprises a first rack and a second rack, wherein a first conveying mechanism which is horizontally arranged is fixedly installed on the first rack, two horizontal ventilating ducts are arranged on two sides of the first conveying mechanism, the ventilating ducts are perpendicular to the first conveying mechanism, first shafts are rotatably connected inside the two ventilating ducts, a fan is fixedly installed on the first shafts, a first transmission belt is sleeved between the two first shafts, and the two first shafts are in transmission connection through the first transmission belt; a first support is arranged on one side of the middle part of the first conveying mechanism, a horizontal press roller is fixedly mounted on the first support, the press roller is horizontally arranged, and the press roller extends to the position right above the first conveying mechanism; the middle part of the first transmission belt is abutted against the lower side of the press roller.
Description
Technical Field
The invention relates to the field of logistics, in particular to a flow distribution system based on intelligent scanning.
Background
Sorting is the operation of stacking the articles in different categories according to the sequence of the categories and the sequence of entering and leaving the warehouse. Sorting is the preparatory work for perfecting and supporting delivery, and is the inevitable extension of different distribution enterprises for competing and improving the economic benefits of the distribution enterprises. So it can also be said that sorting is a necessary requirement for the development of delivery to advanced forms.
For example, in the prior patent, application No. CN201610530765.5 discloses a synchronous belt type conveying system for an intelligent drug sorting system, which comprises a driven mechanism, a body support for the intelligent drug sorting system, a driving mechanism, and a control system located at the lower part of the front end of a synchronous belt conveying unit for the intelligent drug sorting system, wherein the body support is fixed on the body support for the intelligent drug sorting system, a synchronous belt is further arranged on the upper part of the body support, and the synchronous belt type conveying system further comprises a distributing mechanism and a scanning detection device, and the driving mechanism is provided with a servo motor. It is thus clear that current letter sorting can realize that the material is by quick accurate transport, but does not sweep the yard mechanism to logistics system optimization to the two-dimensional code of goods exposes on the packing, is unfavorable for the protection of goods information.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a shunting system based on intelligent scanning.
The purpose of the invention can be realized by the following technical scheme:
a smart scan based shunt system comprising: the fan-type air conditioner comprises a first rack and a second rack, wherein a first conveying mechanism which is horizontally arranged is fixedly installed on the first rack, two horizontal ventilating ducts are arranged on two sides of the first conveying mechanism, the ventilating ducts are perpendicular to the first conveying mechanism, first shafts are rotatably connected inside the two ventilating ducts, a fan is fixedly installed on the first shafts, a first transmission belt is sleeved between the two first shafts, and the two first shafts are in transmission connection through the first transmission belt;
a first support is arranged on one side of the middle part of the first conveying mechanism, a horizontal press roller is fixedly mounted on the first support, the press roller is horizontally arranged, and the press roller extends to the position right above the first conveying mechanism; the middle part of the first transmission belt is abutted against the lower side of the press roller,
a second support and a second conveying mechanism are fixedly mounted on the upper end face of the second rack, the second conveying mechanism is horizontally arranged, one end of the second conveying mechanism extends onto the first conveying mechanism, and the second conveying mechanism is perpendicular to the first conveying mechanism; the second bracket is fixedly arranged on one side of the second conveying mechanism and is parallel to the second conveying mechanism;
one side that the second transport mechanism was kept away from to the second support is equipped with sampling mechanism, install the push pedal on the second support, the push pedal with second transport mechanism aligns, last fixed mounting of sampling mechanism has the bar code scanner, first transport mechanism and second transport mechanism are used for transmitting the goods, be marked on the goods the readable identification code of bar code scanner.
Furthermore, a third support is arranged on one side, away from the second support, of the second conveying mechanism, and the third support is fixedly mounted on the upper end face of the second rack; a through hole is formed in the third support and is parallel to the second conveying mechanism, a main shaft is rotatably connected in the through hole, and a cam is fixedly mounted on the main shaft; an opening is formed in the third support, the cam is arranged in the opening, a shifting lever is arranged on one side of the opening, one end of the shifting lever is hinged to the third support, and the middle of the shifting lever abuts against the outer wall of the cam; a vertically arranged slide rail is fixedly installed on the side wall of the second support, a slide block is connected onto the slide rail in a sliding manner, a protrusion is fixedly installed on one end face, close to the third support, of the slide block, a groove is formed in the protrusion, a fixture block is fixedly installed at the other end of the driving lever, and the fixture block is matched in the groove; the upper end face of the sliding block is fixedly provided with a supporting rod, and the supporting rod is supported on the bottom face of the sampling mechanism.
Furthermore, a discharging track is arranged on one side, close to the first conveying mechanism, of the second conveying mechanism, a collecting box is arranged below the discharging track, one end of the main shaft stretches into the collecting box, and a stirring blade is fixedly mounted at one end of the main shaft.
Furthermore, a third support is arranged on one side, away from the second support, of the second conveying mechanism, and the third support is fixedly mounted on the upper end face of the second rack; a through hole is formed in the third support and is parallel to the second conveying mechanism, a main shaft is rotatably connected in the through hole, and a cam is fixedly mounted on the main shaft; an opening is formed in the third support, the cam is arranged in the opening, a shifting lever is arranged on one side of the opening, one end of the shifting lever is hinged to the third support, and the middle of the shifting lever abuts against the outer wall of the cam; a vertically arranged slide rail is fixedly mounted on the side wall of the second support, a slide block is connected onto the slide rail in a sliding manner, and a bulge is fixedly mounted on one end face, close to the third support, of the slide block; a groove is formed in the protrusion, a clamping block is fixedly mounted at the other end of the shifting rod, and the clamping block is matched in the groove;
the up end of slider is equipped with the connecting rod, fixed mounting has the horizontally spout on the second support, sliding connection has the slide bar on the spout, the one end of slide bar with the one end of connecting rod is articulated, the other end of slide bar with push pedal fixed connection, the other end of connecting rod with the slider is articulated mutually.
Furthermore, an extension rod is fixedly installed on the push plate, a transverse plate is arranged on one side of the second conveying mechanism, and the transverse plate is arranged above the blanking track; the transverse plate is connected with a sliding table in a sliding mode, and a top block is fixedly mounted on the side wall of the sliding table.
Further, the use method comprises the following steps:
step 1: placing the goods on a second conveying mechanism, and conveying the goods to the first conveying mechanism by the second conveying mechanism;
step 2: in the transmission process, the main shaft is driven to rotate to drive the cam to rotate, so that the deflector rod rotates in a reciprocating manner, the deflector rod drives the protrusion through the fixture block to drive the sliding block to move up and down along the sliding rail, and the sliding block drives the supporting rod and the sampling mechanism on the supporting rod to move up and down; the main shaft rotates at a constant speed, so that the sampling mechanism can reciprocate up and down at a fixed frequency to sample;
and step 3: after the second conveying mechanism conveys the goods to the first conveying mechanism, the first shafts in the ventilating pipelines on the two sides are driven to rotate, the sorting positions are ventilated, and meanwhile, the first transmission belt between the two first shafts is driven, so that the identification code positions of the goods on the first transmission belt are coated with glue.
Further, a plurality of tooth-shaped protrusions are arranged on the surface of the first transmission mechanism and/or the surface of the first transmission belt.
The invention has the beneficial effects that:
the intermittent sampling of the material by the sampling mechanism can be realized through the transmission of the main shaft, and the sampling is more uniform. On the other hand, when indoor ventilation is carried out, the first driving belt can be driven to move simultaneously, so that the coating on the surface of the first driving belt is coated on the surface of the goods, the code can be scanned and then covered by the code scanner, and the code can be prevented from being scanned by other people in the obtained transportation process. Due to the limiting of the compression roller, the first transmission belt at the compression roller keeps a fixed distance from the first transmission mechanism. And, when the fan installation direction was opposite, a ventilation channel was used for the air inlet, and another ventilation channel is used for the air-out, can exert better ventilation effect to the letter sorting workshop.
Drawings
The invention will be further described with reference to the accompanying drawings.
FIG. 1 is a schematic perspective view of the present application;
FIG. 2 is a schematic view of a second stent of the present application;
FIG. 3 is a schematic view of a first bracket of the present application;
FIG. 4 is a schematic view of a third stent of the present application;
fig. 5 is a schematic view illustrating an assembly relationship of the spindle, the shift lever and the slider according to the present application.
The parts corresponding to the reference numerals in the figures are as follows:
1. a first frame; 2. a second frame; 3. a first conveying mechanism; 4. a second transport mechanism; 5. a first shaft; 6. blanking a track; 7. a collection box; 8. a third support; 9. a main shaft; 10. a second bracket; 11. a sampling mechanism; 12. a top block; 13. a fan; 14. a through hole; 15. an opening; 16. a slider; 17. a protrusion; 18. a deflector rod; 19. a cam; 20. a first bracket; 21. and (4) pressing the rolls.
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.
In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.
As shown in fig. 1 to 5, a flow distribution system based on intelligent scanning includes: the air duct type air conditioner comprises a first rack 1 and a second rack 2, wherein a first conveying mechanism 3 which is horizontally arranged is fixedly installed on the first rack 1, two horizontal air ducts are arranged on two sides of the first conveying mechanism 3, the air ducts are perpendicular to the first conveying mechanism 3, a first shaft 5 is rotatably connected inside each of the two air ducts, a fan 13 is fixedly installed on each first shaft 5, a first transmission belt is sleeved between the two first shafts 5, and the two first shafts 5 are in transmission connection through the first transmission belts; a first support 20 is arranged on one side of the middle part of the first conveying mechanism 3, a horizontal press roller 21 is fixedly mounted on the first support 20, the press roller 21 is horizontally arranged, and the press roller 21 extends to the position right above the first conveying mechanism 3; the middle part of first drive belt supports and leans on the downside of compression roller 21, fixed mounting has second support 10 and second transport mechanism 4 on the up end of second frame 2, second transport structure level is arranged, the one end of second transport mechanism 4 extends to on the first transport mechanism 3, just second transport mechanism 4 with first transport mechanism 3 is mutually perpendicular. The second support 10 is fixedly arranged at one side of the second conveying mechanism 4 and is parallel to the second conveying mechanism 4. One side of the second support 10 far away from the second conveying mechanism 4 is provided with a sampling mechanism 11, a push plate is mounted on the second support 10, and the push plate is aligned with the second conveying mechanism 4. A third support 8 is arranged on one side, far away from the second support 10, of the second conveying mechanism 4, and the third support 8 is fixedly installed on the upper end face of the second rack 2. A through hole is formed in the third support 8, the through hole is parallel to the second conveying mechanism 4, a main shaft 9 is rotatably connected in the through hole, and a cam 19 is fixedly mounted on the main shaft 9; an opening 15 is formed in the third support 8, the cam 19 is arranged in the opening 15, a shifting lever 18 is arranged on one side of the opening 15, one end of the shifting lever 18 is hinged to the third support 8, and the middle of the shifting lever 18 abuts against the outer wall of the cam 19. The sliding rail that second support 10's lateral wall goes up fixed mounting and vertically arranges, sliding connection has slider 16 on the sliding rail, be close to on the slider 16 fixed mounting has arch 17 on the terminal surface of third support 8, set up flutedly on the arch 17, the other end fixed mounting of driving lever 18 has the fixture block, the fixture block cooperation is in the recess. The upper end face of the sliding block 16 is fixedly provided with a supporting rod, the supporting rod is supported on the bottom face of the sampling mechanism 11, the sampling mechanism is fixedly provided with a code scanner, the first conveying mechanism and the second conveying mechanism are used for conveying goods, and the goods are marked with identification codes which can be read by the code scanner.
The following describes in detail the use steps of the diverting system of the present invention, in which the goods are put on the second conveying mechanism 4, and the second conveying mechanism 4 conveys the materials to the first conveying mechanism; in the transmission process, the main shaft 9 is driven to rotate to drive the cam 19 to rotate, so that the deflector rod 18 rotates in a reciprocating manner, the deflector rod 18 drives the protrusion 17 through the fixture block to drive the sliding block 16 to move up and down along the sliding rail, and the sliding block 16 drives the supporting rod and the sampling mechanism 11 on the supporting rod to move up and down; the main shaft 9 rotates at a constant speed to enable the sampling mechanism 11 to reciprocate up and down at a fixed frequency for sampling; after the second conveying mechanism 4 conveys the materials to the first conveying mechanism 3, the first shafts 5 in the ventilating pipelines on the two sides are driven to rotate, ventilation is carried out on the interior of the building, and meanwhile the first conveying belts between the two first shafts 5 are driven, so that the first conveying belts polish the materials on the first conveying mechanism 3. That is to say, through the transmission of main shaft 9 can realize that sampling mechanism 11 is to the intermittent type nature sample of material, can make the sample more even. On the other hand, when indoor ventilation is carried out, the first driving belt can be driven to move simultaneously, so that the coating on the surface of the first driving belt is coated on the surface of the goods, the code can be scanned and then covered by the code scanner, and the code can be prevented from being scanned by other people in the obtained transportation process. Due to the limit of the pressing roller 21, the first driving belt at the pressing roller 21 keeps a fixed distance from the first conveying mechanism 3. And, when fan 13 installation direction is opposite, a ventilation channel is used for the air inlet, and another ventilation channel is used for the air-out, can provide better ventilation effect to the sorting place.
One side of the second conveying mechanism 4, which is close to the first conveying mechanism 3, is provided with a blanking track 6, a collecting box 7 is arranged below the blanking track 6, one end of the main shaft 9 extends into the collecting box 7, and one end of the main shaft 9 is fixedly provided with a stirring blade.
In another embodiment of the present invention, a third bracket 8 is disposed on a side of the second conveying mechanism 4 away from the second bracket 10, and the third bracket 8 is fixedly mounted on an upper end surface of the second frame 2; a through hole is formed in the third support 8, the through hole is parallel to the second conveying mechanism 4, a main shaft 9 is rotatably connected in the through hole, and a cam 19 is fixedly mounted on the main shaft 9; an opening 15 is formed in the third bracket 8, the cam 19 is arranged in the opening 15, a shifting lever 18 is arranged on one side of the opening 15, one end of the shifting lever 18 is hinged to the third bracket 8, and the middle of the shifting lever 18 abuts against the outer wall of the cam 19; a vertically arranged slide rail is fixedly mounted on the side wall of the second bracket 10, a slide block 16 is connected onto the slide rail in a sliding manner, and a protrusion 17 is fixedly mounted on one end surface, close to the third bracket 8, of the slide block 16; a groove is formed in the protrusion 17, and a clamping block is fixedly mounted at the other end of the shifting lever 18 and matched in the groove. The up end of slider 16 is equipped with the connecting rod, fixed mounting has the horizontally spout on the second support 10, sliding connection has the slide bar on the spout, the one end of slide bar with the one end of connecting rod is articulated, the other end of slide bar with push pedal fixed connection, the other end of connecting rod with slider 16 is articulated mutually. In the transmission process of the second conveying mechanism 4, the driving main shaft 9 rotates to drive the cam 19 to rotate, so that the shifting lever 18 rotates in a reciprocating mode, the shifting lever 18 shifts the protrusion 17 through the clamping block to drive the sliding block 16 to move up and down along the sliding rail, the sliding block 16 drives the push rod to move in a reciprocating mode, and the goods on the second conveying mechanism 4 can be flattened.
Furthermore, an extension rod is fixedly installed on the push plate, a transverse plate is arranged on one side of the second conveying mechanism 4, and the transverse plate is arranged above the blanking track 6; the diaphragm is connected with a sliding table in a sliding mode, and the side wall of the sliding table is fixedly provided with an ejector block 12. Therefore, the sliding table can be driven to slide in the reciprocating movement process of the push plate, the top block 12 is driven to push part of materials on the second conveying mechanism 4 to the blanking track 6, and accordingly sampling of goods is further performed. Further, the surface of the first transmission mechanism and/or the surface of the first transmission belt are provided with a plurality of tooth-shaped protrusions 17, so that the coating effect can be further improved.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.
Claims (7)
1. A shunt system based on intelligent scanning, comprising: the fan-type air conditioner comprises a first rack and a second rack, wherein a first conveying mechanism which is horizontally arranged is fixedly installed on the first rack, two horizontal ventilating ducts are arranged on two sides of the first conveying mechanism, the ventilating ducts are perpendicular to the first conveying mechanism, first shafts are rotatably connected inside the two ventilating ducts, a fan is fixedly installed on the first shafts, a first transmission belt is sleeved between the two first shafts, and the two first shafts are in transmission connection through the first transmission belt;
a first support is arranged on one side of the middle part of the first conveying mechanism, a horizontal press roller is fixedly mounted on the first support, the press roller is horizontally arranged, and the press roller extends to the position right above the first conveying mechanism; the middle part of the first transmission belt is abutted against the lower side of the press roller,
a second support and a second conveying mechanism are fixedly mounted on the upper end face of the second rack, the second conveying mechanism is horizontally arranged, one end of the second conveying mechanism extends onto the first conveying mechanism, and the second conveying mechanism is perpendicular to the first conveying mechanism; the second bracket is fixedly arranged on one side of the second conveying mechanism and is parallel to the second conveying mechanism;
one side that the second transport mechanism was kept away from to the second support is equipped with sampling mechanism, install the push pedal on the second support, the push pedal with second transport mechanism aligns, last fixed mounting of sampling mechanism has the bar code scanner, first transport mechanism and second transport mechanism are used for transmitting the goods, be marked on the goods the readable identification code of bar code scanner.
2. The intelligent scanning-based shunt system according to claim 1, wherein a third support is provided on a side of the second transport mechanism away from the second support, and the third support is fixedly mounted on an upper end face of the second rack; a through hole is formed in the third support and is parallel to the second conveying mechanism, a main shaft is rotatably connected in the through hole, and a cam is fixedly mounted on the main shaft; an opening is formed in the third support, the cam is arranged in the opening, a shifting lever is arranged on one side of the opening, one end of the shifting lever is hinged to the third support, and the middle of the shifting lever abuts against the outer wall of the cam; a vertically arranged slide rail is fixedly installed on the side wall of the second support, a slide block is connected onto the slide rail in a sliding manner, a protrusion is fixedly installed on one end face, close to the third support, of the slide block, a groove is formed in the protrusion, a fixture block is fixedly installed at the other end of the driving lever, and the fixture block is matched in the groove; the upper end face of the sliding block is fixedly provided with a supporting rod, and the supporting rod is supported on the bottom face of the sampling mechanism.
3. The intelligent scanning-based flow distribution system according to claim 2, wherein a discharging rail is arranged on one side of the second conveying mechanism close to the first conveying mechanism, a collecting box is arranged below the discharging rail, one end of the main shaft extends into the collecting box, and a stirring blade is fixedly arranged at one end of the main shaft.
4. The intelligent scanning-based shunt system according to claim 1, wherein a third support is provided on a side of the second transport mechanism away from the second support, and the third support is fixedly mounted on an upper end face of the second rack; a through hole is formed in the third support and is parallel to the second conveying mechanism, a main shaft is rotatably connected in the through hole, and a cam is fixedly mounted on the main shaft; an opening is formed in the third support, the cam is arranged in the opening, a shifting lever is arranged on one side of the opening, one end of the shifting lever is hinged to the third support, and the middle of the shifting lever abuts against the outer wall of the cam; a vertically arranged slide rail is fixedly mounted on the side wall of the second support, a slide block is connected onto the slide rail in a sliding manner, and a bulge is fixedly mounted on one end face, close to the third support, of the slide block; a groove is formed in the protrusion, a clamping block is fixedly mounted at the other end of the shifting rod, and the clamping block is matched in the groove;
the up end of slider is equipped with the connecting rod, fixed mounting has the horizontally spout on the second support, sliding connection has the slide bar on the spout, the one end of slide bar with the one end of connecting rod is articulated, the other end of slide bar with push pedal fixed connection, the other end of connecting rod with the slider is articulated mutually.
5. The intelligent scanning-based flow distribution system according to claim 4, wherein an extension rod is fixedly mounted on the push plate, a transverse plate is arranged on one side of the second conveying mechanism, and the transverse plate is arranged above the blanking track; the transverse plate is connected with a sliding table in a sliding mode, and a top block is fixedly mounted on the side wall of the sliding table.
6. The intelligent scanning-based shunt system according to claim 2, wherein the using method comprises the following steps:
step 1: placing the goods on a second conveying mechanism, and conveying the goods to the first conveying mechanism by the second conveying mechanism;
step 2: in the transmission process, the main shaft is driven to rotate to drive the cam to rotate, so that the deflector rod rotates in a reciprocating manner, the deflector rod drives the protrusion through the fixture block to drive the sliding block to move up and down along the sliding rail, and the sliding block drives the supporting rod and the sampling mechanism on the supporting rod to move up and down; the main shaft rotates at a constant speed, so that the sampling mechanism can reciprocate up and down at a fixed frequency to sample;
and step 3: after the second conveying mechanism conveys the goods to the first conveying mechanism, the first shafts in the ventilating pipelines on the two sides are driven to rotate to ventilate, and meanwhile, the first transmission belt between the two first shafts is driven, so that the identification code of the goods on the first transmission belt is glued.
7. A smart scan-based shunt system as claimed in claim 1, wherein the first drive mechanism surface and/or the first drive belt surface is provided with a plurality of teeth-like protrusions.
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CN202110389079.1A CN113102259B (en) | 2021-04-12 | 2021-04-12 | Shunt system based on intelligent scanning |
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CN113102259B CN113102259B (en) | 2022-02-25 |
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CN109454020A (en) * | 2018-12-21 | 2019-03-12 | 杭州世诺科技有限公司 | Sorting instrument for heparin tube sorting |
CN210142018U (en) * | 2019-06-16 | 2020-03-13 | 薛玉峰 | Belt head automatic sampler |
CN210788234U (en) * | 2019-09-25 | 2020-06-19 | 安徽中信货运有限公司 | Intelligent logistics sorting system |
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2021
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US20050136540A1 (en) * | 2003-12-19 | 2005-06-23 | Pitney Bowes Incorporated | Method and device for isolating, collecting and transferring hazardous samples |
CN1752857A (en) * | 2004-09-20 | 2006-03-29 | 株式会社东芝 | Color image forming apparatus and image forming mehtod |
CN107238714A (en) * | 2017-06-02 | 2017-10-10 | 武汉金域医学检验所有限公司 | A kind of medical science samples tissue detection test device |
CN107726841A (en) * | 2017-08-29 | 2018-02-23 | 安徽金谷机械科技有限公司 | A kind of conveying device of band drier |
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CN109454020A (en) * | 2018-12-21 | 2019-03-12 | 杭州世诺科技有限公司 | Sorting instrument for heparin tube sorting |
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