WO2018103261A1 - Dispositif de rotation de bouteilles - Google Patents

Dispositif de rotation de bouteilles Download PDF

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Publication number
WO2018103261A1
WO2018103261A1 PCT/CN2017/083149 CN2017083149W WO2018103261A1 WO 2018103261 A1 WO2018103261 A1 WO 2018103261A1 CN 2017083149 W CN2017083149 W CN 2017083149W WO 2018103261 A1 WO2018103261 A1 WO 2018103261A1
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WO
WIPO (PCT)
Prior art keywords
bottle
plate
baffle
blanking
disposed
Prior art date
Application number
PCT/CN2017/083149
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English (en)
Chinese (zh)
Inventor
郭永周
Original Assignee
广东心宝药业科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 广东心宝药业科技有限公司 filed Critical 广东心宝药业科技有限公司
Publication of WO2018103261A1 publication Critical patent/WO2018103261A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/22Devices influencing the relative position or the attitude of articles during transit by conveyors
    • B65G47/24Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles
    • B65G47/248Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles by turning over or inverting them

Definitions

  • the present invention relates to a delivery device, and more particularly to a bottle steering device.
  • the traditional bottle conveying device is to lay the bottle on the conveyor belt, rotate the belt by the motor to transport the bottle, and finally push the bottle into the blanking slide and fall into the empty bubble cover or the bottle conveying track. .
  • a bottle steering device comprising: a blanking track, the feeding end of the blanking track is used for communicating with the feeding port, and the discharging end of the material is used for the discharging end of the material Connected to the empty blister or bottle conveyor track; the blanking track is correspondingly shaped to the shape of the bottle, and the blanking track is gradually twisted from the feed end to the discharge end.
  • the bottle can be gradually turned along with the twisting of the unloading turning track during the falling of the bottle through the unloading turning track.
  • the torsion angle of the feed end and the discharge end of the unloading steering rail is 90 degrees, so that after the bottle is discharged, it can be turned 90 degrees in the horizontal direction, so that it can fall into the empty bubble or bottle conveying track at a suitable angle. on.
  • the blanking track is a plurality of, and the plurality of blanking tracks are arranged side by side.
  • the bottle steering device further includes a reverse feeding mechanism, the reverse feeding mechanism includes a blanking plate, a limiting baffle, a switch plate and a first driving mechanism;
  • the limiting baffle is located above the lowering plate, and one end of the limiting baffle projected on the lowering plate is located at an edge of the lowering opening, Between the limiting baffle and the blanking plate, the spacing is larger than the outer diameter of the bottle head and smaller than the outer diameter of the bottle tail; the switch plate corresponds to the lowering opening Providing that the first driving mechanism is configured to drive the switch board to move in or out of the discharge port; when the limit baffle is in contact with the bottle head, the bottle tail is completely located on the switch board Above; when the limiting baffle abuts the tail of the bottle, a portion of the bottle head protrudes out of the lower opening and above the lowering plate.
  • the first driving mechanism drives the switch board to be removed from the stocking opening
  • the head of the bottle is flattened forward
  • the head of the bottle is located between the limiting baffle and the lowering plate, so that the head of the bottle can not be hung by the lowering plate.
  • Flip and the tail of the bottle is completely in the lower opening. Due to the loss of the support of the switchboard, a 90-degree flip occurs and falls into the blanking channel; if the tail of the bottle is flattened forward, a part of the head of the bottle protrudes. Outside the lower opening and above the lowering plate, the bottom of the bottle can not be turned over, and the tail of the bottle cannot extend into the space between the limiting baffle and the lowering plate due to the interference limit baffle.
  • this embodiment enables the bottle to fall into the empty blister or bottle transport track in the same orientation, resulting in higher work efficiency.
  • the bottle steering device further includes a partitioning mechanism disposed above the lowering plate, and the partitioning mechanism is slidably engaged with the lowering plate, the separating mechanism Include a plurality of first partition blocks arranged side by side, adjacent to the first partition block The interval between the two can be used for the bottle to pass through; the blanking plate is provided with an opening area, and the switch plate is plural, and the switch plate and the limiting baffle are adjacent to the first one.
  • the switch plates are arranged side by side in the open area, the switch plate is connected to the lower material plate, and the lower feed port is located between adjacent switch plates .
  • the switch board and the lower board are integrally formed, and the limit baffle is mounted on the partition mechanism.
  • the plurality of lying bottles may be separated from each other by the plurality of first partitioning blocks, and the lower driving plate is driven to slide relative to the partitioning mechanism by the first driving mechanism to control whether the interval between the adjacent first separating blocks is Whether the spacing between the adjacent switch plates is in communication, if they are connected, the bottles in the interval between adjacent first partition blocks fall into the blanking passage through the feeding port, and if they are not connected, the bottle can be Slide forward on the switch board and eventually interfere with the limit stop.
  • the bottle steering device further includes a blanking partition, the blanking separator is disposed below the lowering panel, and the blanking separator comprises a side by side arrangement a plurality of blanking chutes, wherein the unloading chutes correspond to the intervals between adjacent ones of the first separating blocks.
  • the unloading chute is the sliding track of the bottle, which prevents the bottle from turning over and ensures that the tail of the bottle slides down to the empty blister or bottle conveying track.
  • the blanking partition plate is inclined by 80 to 85 degrees with respect to the lowering plate, so that the bottle runs downward along the bottom wall of the blanking slide during the blanking process of the bottle.
  • the bottle steering device further includes a carrier plate and a transport bottle mechanism, the carrier plate is juxtaposed with a plurality of chutes for the bottle to slide, the chute and the first partition The spacing between the stops corresponds one by one, and the delivery bottle mechanism is used to drive the bottles in the chute to the blanking plate.
  • the bottle mechanism includes a rotating shaft disposed above the carrier, and a push plate disposed on the rotating shaft. The rotation of the rotating shaft drives the push plate to rotate, so that the bottle on the carrier plate can be knocked down from the standing state to the flat state, and the flat bottle can be pushed out. Carrier output. In this way, work efficiency can be improved without the need for a manual manual bottle pouring operation.
  • the bottle to be delivered is a flat bottle, and the width of the flat bottle is larger than the thickness of the flat bottle.
  • the width of the chute is designed corresponding to the thickness of the bottle, and the depth of the chute is less than the width of the bottle.
  • the push plate can contact the bottle outside the chute during the rotation of the rotating shaft, and is pushed along the plate.
  • the carrier plate is pushed out in the direction of the chute.
  • the push plates are two or more, the push plates are disposed along an axial direction of the rotating shaft, and the push plates are spaced apart from the outer side walls of the rotating shaft.
  • the push plate is an elastic plate.
  • the outer side wall of the rotating shaft is provided with a card slot, and the push plate is fixed in the card slot.
  • the push plate is made of silicone material. In this way, the push plate can be prevented from damaging the bottle during the process of knocking down the bottle.
  • the bottle steering device further includes a vibration mechanism coupled to the carrier plate.
  • the bottle steering device further includes a first side fence and a second side fence, and the first side fence and the second side fence are respectively disposed on the carrier On both sides.
  • the bottle steering device further includes a first end baffle and a second end baffle, the first end baffle being disposed at a bottle output end of the carrier, the first end a distance between a bottom surface of the baffle and the bottom wall of the chute is smaller than a height of the bottle; the second end baffle is disposed on the carrier, and the second end baffle and the first end The baffles are disposed opposite to each other, and the first end baffle, the second end baffle, the first side baffle and the second side baffle enclose a silo. In this way, the bottle in the standing state is blocked by the first end flap, and the bottle in the standing state is prevented from being output.
  • the silo can limit the bottle to the carrier during the vibration of the bottle to avoid the vibration mechanism
  • the bottle is shaken out or pushed out of the carrier during the vibrating bottle or during the push-down of the bottle.
  • the bottle steering device further includes a bottle position control mechanism
  • the bottle position control mechanism includes a support plate, a switching partition plate and a second driving mechanism, the support plate is disposed between the carrier plate and the partitioning mechanism, and the switching partition plate is slidably engaged with the supporting plate.
  • the switching partition is juxtaposed with a plurality of passages, the passages are correspondingly arranged with the chute;
  • the second driving mechanism is configured to drive the switching partition to move to the first position or the second position, when When the second driving mechanism drives the switching baffle to move to the first position, the channel communicates with the chute, and the channel is disconnected from the interval between the adjacent first blocking blocks;
  • the second driving mechanism drives the switching partition to move to the second position, the channel is disconnected from the chute, and the interval between the channel and the adjacent first blocking block Connected.
  • the length of the passage in the switching partition corresponds to the length of the bottle, and when the bottle is completely moved into the passage in the switching partition, the switching partition is driven by the second driving mechanism to slide from the first position to the second position.
  • the bottle steering device further includes a beam, the beam is disposed on the support plate, the beam is provided with a guide rail, the switching partition is provided with a slider, and the slider and the slider The rails slide fit.
  • FIG. 1 is a schematic view of a material turning steering track in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 2 is a schematic view showing an angle of a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 3 is a schematic view showing another angle of the bottle turning and unloading device according to the embodiment of the present invention.
  • FIG. 4 is a schematic view showing a further angle of the bottle turning and unloading device according to the embodiment of the present invention, and having a blanking partition plate;
  • FIG. 5 is a schematic view of a blanking plate in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 6 is a schematic view of a flat bottle head against a limit baffle in a bottle inverting and unloading device according to an embodiment of the present invention
  • Figure 7 is a schematic view 1 of the bottle reversing device in the embodiment of the present invention, in which the lying bottle is dropped from the feeding opening to the blanking passage;
  • FIG. 8 is a schematic view of the tail end of the bottle in the bottle turning and unloading device according to the embodiment of the present invention.
  • FIG. 9 is a second schematic view of the bottle lying in the bottle turning and unloading device according to the embodiment of the present invention, which is dropped from the feeding opening to the cutting channel;
  • FIG. 10 is a schematic view showing a state in which a switching partition is located at a first position in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 11 is a schematic view showing a state in which a switching partition is located at a second position in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 12 is a schematic view showing a state in which a switching partition plate is again located at a first position in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 13 is a schematic structural view 1 of a carrier plate and a vibration mechanism in a bottle turning and unloading device according to an embodiment of the present invention
  • FIG. 14 is a second schematic structural view of a carrier plate and a vibration mechanism in a bottle inverting and unloading device according to an embodiment of the present invention
  • 15 is a schematic view showing a steel spring of a vibration mechanism in a bottle turning and unloading device according to an embodiment of the present invention
  • 16 is a schematic view showing a spring of a vibration mechanism of a vibrating mechanism in a bottle turning and unloading device according to an embodiment of the present invention.
  • a bottle steering device includes a material turning track 40.
  • the feeding end of the unloading turning rail 40 communicates with the discharging port 101 or communicates with the outlet end of the blanking chute 151, and the discharging end of the unloading turning rail 40 communicates with the empty bubble cover 70 or the bottle conveying track. on.
  • the blanking track 40 is disposed corresponding to the shape of the bottle 50 (as in Figures 6 and 8), and the blanking track 40 is gradually twisted from the feed end to the discharge end.
  • the bottle 50 can be gradually turned along with the twist of the unloading turning track 40 during the falling of the bottle turning rail 40.
  • the bottle 50 can be turned 90 degrees in the horizontal direction after being discharged, so that it can fall into the empty bubble cover 70 at a suitable angle or The bottle is transported on the track.
  • the bottle steering device further includes a flipping mechanism.
  • the turning and unloading mechanism includes a lowering plate 10, a limiting baffle 11, a switch plate 12 and a first driving mechanism 13.
  • the lower opening 101 is disposed on the lowering plate 10 .
  • the limiting baffle 11 is located above the lowering plate 10, and one end of the limiting baffle 11 projected on the lowering plate 10 is located at an edge of the lowering opening 101.
  • the margin of the end of the limiting baffle 11 at the edge of the lowering opening 101 can be set according to the actual situation, as long as the head can be reversely inverted, the limiting baffle 11 will not hinder the flat lying.
  • the flipping action of the bottle 50 is sufficient.
  • the limit baffle 11 and the lowering plate 10 are spaced apart from each other. The spacing is greater than the outer diameter of the head of the bottle 50 and less than the outer diameter of the tail of the bottle 50.
  • the outer diameter of the head of the bottle 50 is larger than the outer diameter of the tail of the bottle 50, that is, if the tail of the bottle 50 is lying flat forwardly above the lower opening 101 of the lowering plate 10, the tail of the bottle 50 is in contact with the limit baffle. 11. The forward movement cannot be continued. If the head of the bottle 50 is flattened forwardly into the lower opening 101 of the lowering plate 10, the head of the bottle 50 passes between the limiting baffle 11 and the lowering plate 10. The interval is blocked by the limit baffle 11 to prevent the forward movement.
  • the switch board 12 is disposed corresponding to the discharge port 101, and the first drive mechanism 13 is configured to drive the switch board 12 to move into or out of the discharge port 101.
  • the first driving mechanism 13 drives the switch plate 12 to be removed from the cutting opening 101, if the head of the bottle 50 is lying flat forward, the head of the bottle 50 is located between the limiting baffle 11 and the lowering plate 10, such that the bottle 50 The head hanging plate 10 cannot be turned over, and the tail of the bottle 50 is completely located in the lower opening 101.
  • the bottle steering device further comprises a partitioning mechanism 14.
  • the partitioning mechanism 14 is disposed above the lowering plate 10, and the partitioning mechanism 14 is slidably engaged with the lowering plate 10.
  • the partition mechanism 14 includes a plurality of first partition blocks arranged side by side. An interval 142 between adjacent first partition stops 141 can be used for the bottle 50 to pass through.
  • the lowering plate 10 is provided with an open area.
  • the switch board 12 has a plurality of switch boards 12 and the limit baffle 11 respectively corresponding to the interval 142 between the adjacent first partition stops 141.
  • the switch boards 12 are juxtaposed in the open area, and the switch board 12 is connected to the lower board 10.
  • the feed opening 101 is located between adjacent switch plates 12.
  • the switch plate 12 is integrally formed with the lower plate 10, and the limit baffle 11 is mounted on the partition mechanism 14.
  • the plurality of lying bottles 50 may be separated from each other by the plurality of first partitioning blocks 141, and the lowering plate 10 is driven to slide relative to the partitioning mechanism 14 by the first driving mechanism 13 to control the adjacent first separating blocks.
  • the interval 142 between the 141 is in communication with the interval between the adjacent switch plates 12, if communicated, the bottle 50 in the space 142 between the adjacent first partition blocks 141 is dropped into the blank through the feed port. In the passage 18, if not communicated, the bottle 50 can slide forward on the switch plate 12 and eventually interfere with the limit stop 11.
  • the bottle steering device further includes a blanking partition plate 15.
  • the blank partitioning plate 15 is disposed below the lowering plate 10, and the blanking partitioning plate 15 includes a plurality of blanking chutes 151 arranged in parallel.
  • the blanking chute 151 has a one-to-one correspondence with the interval 142 between the adjacent first partitioning blocks 141. After the bottle 50 is dropped from the discharge opening 101, it enters the blanking chute 151 of the blanking partitioning plate 15, and slides downward through the blanking chute 151.
  • the cutting chute 151 is a sliding track of the bottle 50. It prevents the bottle from turning over and ensures that the end of the bottle 50 slides down to the empty bubble cover 70 or the bottle conveyor track.
  • the blank partitioning plate 15 is inclined by 80 to 85 degrees with respect to the lowering plate 10, so that the bottle 50 runs downward along the bottom wall of the blanking slide 151 during the blanking process.
  • the bottle steering device further includes a carrier 20 and a transport bottle mechanism 21 .
  • a plurality of sliding slots 201 for the bottle 50 to slide over are arranged side by side on the carrier 20 .
  • the interval between the chute 201 and the first partition block 141 is one-to-one.
  • the bottle mechanism 21 is used to drive the bottle 50 in the chute 201 to the lowering plate 10.
  • the bottle mechanism 21 includes a rotating shaft 211 disposed above the carrier 20, and a push plate 212 disposed on the rotating shaft 211.
  • the rotation of the rotating shaft 211 drives the push plate 212 to rotate, so that the bottle 50 on the carrier 20 can be knocked down from the standing state to the flat state, and the flat bottle 50 can be pushed out of the carrier 20 output.
  • the bottle 50 to be conveyed is a flat bottle, and the width of the flat bottle is larger than the thickness of the flat bottle.
  • the width of the chute 201 is designed corresponding to the thickness of the bottle 50, and the depth of the chute 201 is smaller than the width of the bottle 50.
  • the push plate 212 can contact the portion of the bottle 50 outside the sliding slot 201, and the pushing plate 212 pushes the carrier 20 in the direction of the sliding slot 201.
  • the push plates 212 are two or more, the push plates 212 are disposed along the axial direction of the rotating shaft 211, and the push plates 212 are spaced apart from the outer side walls of the rotating shaft 211.
  • the push plate 212 is an elastic plate.
  • the outer side wall of the rotating shaft 211 is provided with a card slot, and the push plate 212 is locked in the card slot.
  • the push plate 212 is a silicone material.
  • the bottle steering device further includes a first side baffle 22 and a second side baffle 23.
  • the first side baffle 22 and the second side baffle 23 are respectively disposed on two sides of the carrier 20 .
  • the bottle steering device further includes a first end stop 24 and a second end stop 25.
  • the first end baffle 24 is disposed at the bottle output end of the carrier 20, and the distance between the bottom surface of the first end baffle 24 and the bottom wall of the chute 201 is smaller than the height of the bottle 50.
  • the second end stop 25 is disposed on the carrier 20, and the second end stop 25 is disposed opposite the first end stop 24.
  • the first end stop 24 , the second end stop 25 , the first side baffle 22 and the second side baffle 23 enclose a silo 26 .
  • the silo 26 can limit the bottle 50 during the vibration of the bottle 50.
  • the bottle 50 is oscillated or pushed out of the carrier 20 during the process of vibrating the bottle 50 by the vibrating mechanism 30 or during the knocking of the bottle 50 by the push plate 212.
  • the bottle steering device further includes a vibration mechanism 30.
  • the vibration mechanism 30 is drivingly coupled to the carrier 20 .
  • the vibration mechanism 30 drives the carrier 20 to vibrate according to a preset frequency, which can facilitate the vibration of the bottle 50 on the carrier 20 and facilitate the vibration of the bottle 50 in the flat state, thereby facilitating the bottle on the carrier 20. 50 fast output.
  • This ensures that the bottle 50 is smoothly discharged from the chute 201 on the carrier 20 to the discharge opening 101 of the lowering plate 10.
  • both the carrier 20 and the lowering plate 10 are slightly inclined by 5 to 20 degrees with respect to the horizontal plane, so that the vibration of the vibrating mechanism 30 can be made along the interval between the chute 201 and the first separating block 141 during the vibration of the vibrating mechanism 30.
  • the 142 moves forward to the discharge port 101.
  • the vibration mechanism 30 includes a base 31, a steel spring, an electromagnet 33, a core 34, and a control module for controlling whether the electromagnet 33 is energized.
  • One end of the steel spring is connected to the base 31, and the other end of the steel spring is connected to the carrier 20.
  • the electromagnet 33 and the iron core 34 are respectively disposed on the base 31 and the carrier 20, and the electromagnet 33 is disposed opposite to the core 34.
  • the control module controls whether the electromagnet 33 is energized to generate a week With the magnetic force, the electromagnet 33 repeatedly attracts the iron core 34 under the action of the periodic magnetic force, thereby generating a periodic vibration phenomenon.
  • the steel spring includes a first steel spring 321 and a second steel spring 322.
  • the electromagnet 33 and the iron core 34 are located between the first steel spring 321 and the second steel spring 322.
  • the steel spring is plate-shaped or spiral.
  • the vibration mechanism 30 further includes a first mount 35, a second mount 36, a third mount 37, and a fourth mount 38.
  • One end of the steel spring is mounted on the base 31 through the first mounting seat 35, and the other end of the steel spring is mounted on the carrier 20 through the second mounting seat 36.
  • the electromagnet 33 is mounted on the base 31 via the third mount 37, and the core 34 is mounted on the carrier 20 via the fourth mount 38.
  • the first mounting seat 35, the second mounting seat 36, the third mounting seat 37, and the fourth mounting seat 38 are all L-shaped plates.
  • the bottle steering device further includes a base 39.
  • the base 39 is disposed under the base 31, and an elastic block 391 is disposed between the base 39 and the base 31.
  • the additional elastic block 391 makes the vibration effect of the carrier 20 more obvious.
  • the bottle steering device further includes a bottle position control mechanism.
  • the bottle position control mechanism includes a support plate 161, a switching partition 162, and a second driving mechanism 163.
  • the support plate 161 is disposed between the carrier plate 20 and the partition mechanism 14 , and the switchboard 162 is slidably engaged with the support plate 161 .
  • the switching partitions 162 are juxtaposed with a plurality of passages 164, and the passages 164 are disposed one by one corresponding to the sliding slots 201.
  • the second driving mechanism 163 is configured to drive the switching partition 162 to move to a first position or a second position. Referring to FIGS.
  • the passage 164 is in communication with the chute 201, and the passage 164 is adjacent to The first The interval 142 between the partitioning blocks 141 is disconnected; when the second driving mechanism 163 drives the switching partition 162 to move to the second position, the passage 164 is disconnected from the chute 201, and The passage 164 is in communication with an interval 142 between adjacent first partition stops 141.
  • the length of the passage 164 in the switching partition 162 corresponds to the length of the bottle 50.
  • the first position slides to the second position, at which time the passage 164 is disconnected from the chute 201 and the passage 164 is in communication with the spacing 142 between the adjacent first partition stops 141, and the bottle 50 continues to move from the passage 164 to In the interval 142 between adjacent first partition stops 141.
  • the bottle steering device also includes a beam 17.
  • the beam 17 is disposed on the support plate 161, and the beam 17 is provided with a guide rail 171.
  • the switching partition 162 is provided with a slider 165 that is slidably engaged with the guide rail 171.
  • the bottle steering device further includes a speed control device 60.
  • the speed control device 60 is electrically connected to the vibration mechanism 30 or the bottle mechanism 21, and the speed control device 60 is used to adjust the vibration frequency of the vibration mechanism 30 or to adjust the bottle mechanism 21 The speed of the bottle.
  • the bottle mechanism 21 includes a drive motor 28, and a torque output shaft of the drive motor 28 is drivingly coupled to the rotation shaft 211.
  • the driving motor 28 and the speed control device 60 are disposed on the first side baffle 22 or the second side baffle 23 or the first side baffle 22 and the second side baffle 23 On the rack 27.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Feeding Of Articles To Conveyors (AREA)
  • Chutes (AREA)

Abstract

L'invention concerne un dispositif de rotation de bouteilles, comprenant des pistes rotatives d'évacuation (40) ; les extrémités entrée des pistes rotatives d'évacuation (40) sont en communication avec les ouvertures d'évacuation (101) ou les extrémités sortie des pistes coulissantes d'évacuation (151) ; les extrémités sortie des pistes rotatives d'évacuation (40) sont en communication avec des calottes de barbotage creuses (70) ou une piste de transporteur de bouteille ; les pistes rotatives d'évacuation (40) correspondent aux bouteilles (50) en termes de forme ; les pistes rotatives d'évacuation (40) tournent progressivement des extrémités entrée aux extrémités sortie ; les bouteilles (50) peuvent être tournées graduellement conjointement avec la rotation des pistes rotatives d'évacuation (40) dans un processus de chute passant par les pistes rotatives d'évacuation (40), de sorte que les bouteilles puissent chuter dans les calottes de barbotage creuses (70) ou sur la piste de transporteur de bouteilles selon un angle approprié.
PCT/CN2017/083149 2016-12-08 2017-05-05 Dispositif de rotation de bouteilles WO2018103261A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN201621347534.2U CN206265812U (zh) 2016-12-08 2016-12-08 瓶子转向装置
CN201621347534.2 2016-12-08

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Publication Number Publication Date
WO2018103261A1 true WO2018103261A1 (fr) 2018-06-14

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CN (1) CN206265812U (fr)
WO (1) WO2018103261A1 (fr)

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CN112495851A (zh) * 2020-10-28 2021-03-16 蒙城县佰世达木业有限公司 一种纤维板的加工设备
CN114408549A (zh) * 2022-01-27 2022-04-29 柳州工学院 夹片下料机及下料方法
CN114426177A (zh) * 2022-02-22 2022-05-03 河北光兴半导体技术有限公司 下料设备

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CN106672591B (zh) * 2016-12-08 2018-12-25 广东心宝药业科技有限公司 瓶子翻转下料装置与下料方法
CN108792026B (zh) * 2018-07-04 2024-03-22 无锡金杨丸伊电子有限公司 一种电池壳排列装箱机
CN109292172B (zh) * 2018-11-12 2023-11-03 天津瑞泰包装机械股份有限公司 一种用于袋装包装机械生产设备的溜袋转向装置
CN111483819B (zh) * 2019-01-25 2023-10-17 北京东华原医疗设备有限责任公司 一种基于自动分流码垛系统的煎药系统及其控制方法
CN113830535A (zh) * 2021-10-12 2021-12-24 南京特丰药业股份有限公司 药瓶爬升输送装置

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US3210130A (en) * 1963-08-29 1965-10-05 American Tobacco Co Air lift chute for light rectangular articles
CN204508229U (zh) * 2015-03-24 2015-07-29 南通冠优达磁业有限公司 一种滑梯式磁芯排列装置
CN106672591A (zh) * 2016-12-08 2017-05-17 广东心宝药业科技有限公司 瓶子翻转下料装置与下料方法
CN206265811U (zh) * 2016-12-08 2017-06-20 广东心宝药业科技有限公司 瓶子翻转下料装置

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3210130A (en) * 1963-08-29 1965-10-05 American Tobacco Co Air lift chute for light rectangular articles
CN204508229U (zh) * 2015-03-24 2015-07-29 南通冠优达磁业有限公司 一种滑梯式磁芯排列装置
CN106672591A (zh) * 2016-12-08 2017-05-17 广东心宝药业科技有限公司 瓶子翻转下料装置与下料方法
CN206265811U (zh) * 2016-12-08 2017-06-20 广东心宝药业科技有限公司 瓶子翻转下料装置

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CN112495851A (zh) * 2020-10-28 2021-03-16 蒙城县佰世达木业有限公司 一种纤维板的加工设备
CN112495851B (zh) * 2020-10-28 2023-10-20 蒙城县佰世达木业有限公司 一种纤维板的加工设备
CN114408549A (zh) * 2022-01-27 2022-04-29 柳州工学院 夹片下料机及下料方法
CN114426177A (zh) * 2022-02-22 2022-05-03 河北光兴半导体技术有限公司 下料设备
CN114426177B (zh) * 2022-02-22 2024-05-17 河北光兴半导体技术有限公司 下料设备

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