阅读说明：本技术 一种药用瓶塞高效整理机 (High-efficient collator of medicinal bottle plug ) 是由 黄劼 密乐 程宏鹏 李伟和 于 2021-09-24 设计创作，主要内容包括：本发明公开了一种药用瓶塞高效整理机,包括安装有若干个可调支脚的框架；框架内设置有用于放入瓶塞并控制瓶塞下落速度的上料模块、用于整理及输送瓶塞的钢丝传送模块、用于将未整理合格的瓶塞送回钢丝传送模块的J型传送模块和用于将整理合格的瓶塞输出至外部设备的出料归一模块；钢丝传送模块和出料归一模块连接且位于上料模块下方。本发明通过上料模块进行上料,再经过钢丝传送模块对初次放入的瓶塞进行初次整理,将未整理合格的其余瓶塞通过J型传送模块输送再次进入钢丝传送模块进行循环整理,完成对所有放入上料模块的瓶塞的整理,最终通过出料归一模块出料；同时采用可调支脚调整框架的高度,便于和外部设备连接使用。(The invention discloses a high-efficiency medicinal bottle stopper finishing machine which comprises a frame provided with a plurality of adjustable supporting legs; a feeding module for placing bottle stoppers and controlling the falling speed of the bottle stoppers, a steel wire conveying module for sorting and conveying the bottle stoppers, a J-shaped conveying module for returning qualified bottle stoppers which are not sorted to the steel wire conveying module and a discharging normalization module for outputting the qualified bottle stoppers which are sorted to external equipment are arranged in the frame; the steel wire conveying module is connected with the discharging normalization module and is positioned below the feeding module. According to the invention, the feeding module is used for feeding, the steel wire conveying module is used for carrying out primary sorting on the bottle stoppers which are put in for the first time, the other bottle stoppers which are not qualified in sorting are conveyed through the J-shaped conveying module and then enter the steel wire conveying module for circular sorting, the sorting of all the bottle stoppers which are put in the feeding module is completed, and finally the bottle stoppers are discharged through the discharging normalization module; meanwhile, the height of the frame is adjusted by adopting the adjustable supporting feet, so that the frame is convenient to connect with external equipment for use.)

1. The utility model provides a high-efficient collator of medicinal bottle plug which characterized in that: comprises a frame (6) provided with a plurality of adjustable supporting feet (7); a feeding module for placing the bottle stoppers (13) and controlling the falling speed of the bottle stoppers (13), a steel wire conveying module for sorting and conveying the bottle stoppers (13), a J-shaped conveying module for returning the bottle stoppers (13) which are not sorted to the steel wire conveying module and a discharging normalization module for outputting the bottle stoppers (13) which are sorted to be qualified to external equipment are arranged in the frame (6); the steel wire conveying module and the discharging normalization module are connected and located below the feeding module, and the steel wire conveying module and the discharging normalization module are located in the J-shaped conveying module.

2. The high-efficiency medicinal bottle stopper finishing machine according to claim 1, which is characterized in that: the feeding module comprises a hopper (1) and a plurality of blanking rollers (2) arranged on the steel wires (14), and the blanking rollers (2) are fixed on the inner side wall of the frame (6) through corresponding bearing seats (10) and are arranged at the bottom of the hopper (1).

3. The high-efficiency medicinal bottle stopper finishing machine according to claim 1, which is characterized in that: the steel wire conveying module comprises a plurality of steel wire conveyors; the steel wire conveyer includes two steel wire conveyer belt wheels (9) and steel wire (14) be connected with steel wire conveyer belt wheel (9), be provided with A type baffle (11) and steel wire conveyer belt side shield (12) between the steel wire conveyer, set up steel wire conveyer belt inclined baffle (15) between the output of steel wire conveyer belt side shield (12) and adjacent steel wire conveyer belt wheel (9).

4. The high-efficiency medicinal bottle stopper finishing machine according to claim 3, characterized in that: a plurality of steel wire conveyer belt wheel (9) are connected rather than bearing frame (10) that correspond through steel wire conveyer belt transmission shaft (8), bearing frame (10) are fixed in on frame (6) inside wall through steel wire conveyer belt transmission shaft (8) with a plurality of steel wire conveyer.

5. The high-efficiency medicinal bottle stopper finishing machine according to claim 1, which is characterized in that: the J-shaped conveying module comprises two J-shaped side baffles (4); j-shaped guide grooves are formed in the inner sides of the two J-shaped side baffles (4), the conveying belt (3) is embedded into the J-shaped guide grooves, and the conveying belt (3) is guided to move according to J-shaped tracks; a plurality of belt scrapers (5) are uniformly arranged on the conveying belt (3) at intervals.

6. The high-efficiency medicinal bottle stopper finishing machine according to claim 5, characterized in that: j-shaped conveyor transmission rollers (17) are arranged at the front end and the rear end of each J-shaped side baffle (4), the J-shaped conveyor transmission rollers (17) are connected with corresponding bearing seats (10) through J-shaped conveyor transmission shafts (16), and J-shaped conveying modules are fixed on the inner side wall of the frame (6) through the bearing seats (10).

7. The high-efficiency medicinal bottle stopper finishing machine according to claim 1, which is characterized in that: the discharging normalization module comprises a slope feeding conveyor belt (18), a horizontal feeding conveyor belt (19) and a total feeding conveyor belt (21) which are connected in sequence; supporting guardrails (20) are arranged above the slope feeding conveyor belt (18), the horizontal feeding conveyor belt (19) and the total feeding conveyor belt (21); the total feeding conveyor belt (21) is communicated with external equipment through the frame (6).

8. The high-efficiency medicinal bottle stopper finishing machine according to claim 7, is characterized in that: the slope feeding conveyor belt (18) is connected with the outlet end of the steel wire conveyor.

9. The high-efficiency medicinal bottle stopper finishing machine according to claim 1, which is characterized in that: the inner side of the frame (6) is provided with a protective baffle (22) for preventing the bottle stopper (13) from falling and a height limiting plate (23) for preventing the unqualified bottle stopper (13) from being output to the discharging normalization module.

10. The high-efficiency medicinal bottle stopper finishing machine according to claim 2, characterized in that: the upper part of the hopper (1) protrudes out of the frame (6) and is used for placing a bottle stopper (13).

Technical Field

The invention relates to the technical field of medical equipment, in particular to an efficient sorting machine for medicinal bottle stoppers.

Background

The demand of China for various medical reagents is huge all the time, the infusion quantity in China is 108 hundred million bottles each year, and the quantity of the infusion solution is doubled by 8 bottles per year and injection reagents. In the production process of various reagents, the medicinal bottle stopper needs to be assembled, and the bottle stopper needs to be arranged and fed before being assembled. The bottle stopper arranging and feeding efficiency is an important factor influencing the reagent production efficiency.

At present, the vibration disc is mainly used for automatically screening and arranging bottle stoppers. For example, the utility model of "an automatic feeder mechanism for bottle stoppers" was granted on 17.04.2013 (publication No. CN 202877138J). This patent discloses an automatic feeding mechanism for bottle plug, including the electromagnetic shaker and set up the vibrations dish in the electromagnetic shaker top, is equipped with the vibrations track on the vibrations dish, and the exit is equipped with sieving mechanism on the vibrations track. The vibration track is arranged on the inner side wall of the vibration disc and spirally rises from the ground of the vibration disc. The screening device is provided with a notch, and the track of the screening device is provided with a filter rod. Although the vibration feeding device can feed and screen the bottle stoppers, the vibration feeding device adopts a spiral vibration mode and has a single means; the small head of the bottle stopper after being arranged faces upwards, the large head faces downwards, and the subsequent bottle stopper needs to be turned over when being plugged into a medicine bottle, so that the complexity of a subsequent mechanism is increased; the sorting efficiency has a direct relation with the vibration strength and the track helix angle, the installation and debugging depend on manual experience, the debugging is difficult and complicated, and the regular or irregular debugging is needed in the using process, so that the method is very inconvenient; the vibration feeding device is heavy, is in an open design, is inconvenient to disinfect, generates very large noise during working, and is not suitable for a sterile dust-free environment for medicine production; meanwhile, the medical bottle stopper to be arranged is made of butyl rubber, so that the medical bottle stopper is light in weight, high in elasticity and low in efficiency due to the adoption of a vibration mode.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an efficient sorting machine for medical bottle stoppers, which solves the problem of low efficiency of sorting the medical bottle stoppers in the prior art.

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

the high-efficiency medicinal bottle stopper collator comprises a frame provided with a plurality of adjustable supporting legs; a feeding module for placing bottle stoppers and controlling the falling speed of the bottle stoppers, a steel wire conveying module for sorting and conveying the bottle stoppers, a J-shaped conveying module for returning qualified bottle stoppers which are not sorted to the steel wire conveying module and a discharging normalization module for outputting the qualified bottle stoppers which are sorted to external equipment are arranged in the frame; the steel wire conveying module and the discharging normalization module are connected and located below the feeding module, and the steel wire conveying module and the discharging normalization module are located in the J-shaped conveying module.

According to the invention, the feeding module is used for feeding, the steel wire conveying module is used for carrying out primary sorting on the bottle stoppers which are put in for the first time, the other qualified bottle stoppers which are not sorted are conveyed through the J-shaped conveying module and then enter the steel wire conveying module for circular sorting, all the bottle stoppers which are put in the feeding module are processed, and finally the bottle stoppers are discharged through the discharging normalization module; meanwhile, the height of the frame is adjusted by adopting the adjustable support legs, so that the frame is convenient to connect with external equipment for use; through the random arrangement of the feeding module, the circular arrangement of the steel wire conveying module and the J-shaped conveying module and the arrangement of the discharging normalization module, the arrangement efficiency of the bottle stopper is greatly improved, and vibration noise is avoided.

Furthermore, the feeding module comprises a hopper and a plurality of blanking rollers arranged on the steel wire, and the plurality of blanking rollers are fixed on the inner side wall of the frame through corresponding bearing seats and are arranged at the bottom of the hopper.

Put into the hopper with the bottle plug of arbitrary gesture, the bottle plug gets into the hopper and drops to installing in the blanking cylinder of hopper bottom, and the blanking cylinder carries out the controllable orderly material loading of speed to the bottle plug of arbitrary gesture.

Further, the steel wire conveying module comprises a plurality of steel wire conveyors; the steel wire conveyer includes two steel wire conveyer belt wheels and the steel wire of being connected with steel wire conveyer belt wheel, is provided with A type baffle and steel wire conveyer belt side shield between the steel wire conveyer, sets up the oblique baffle of steel wire conveyer belt between the output of steel wire conveyer belt side shield and the adjacent steel wire conveyer belt wheel.

The bottle plug of arbitrary gesture gets into each steel wire conveyer respectively behind the blanking cylinder, and partial bottle plug drops to between two steel wires, rotates through steel wire conveyer belt wheel, drives the steel wire motion to the qualified bottle plug of will putting in order is sent to the ejection of compact and is unified the module ejection of compact.

Further, a plurality of steel wire conveyer belt wheel passes through steel wire conveyer belt transmission shaft and is connected rather than the bearing frame that corresponds, and the bearing frame passes through steel wire conveyer belt transmission shaft to be fixed in on the frame inside wall a plurality of steel wire conveyer.

The bearing frame is connected with steel wire conveyer belt transmission shaft, and steel wire conveyer belt transmission shaft passes a plurality of steel wire conveyer belt and is fixed in on the frame inside wall through the bearing frame, prevents that the steel wire conveyer from droing, realizes steel wire conveyer steady operation.

Further, the J-shaped transport module includes two J-shaped side dams; j-shaped guide grooves are formed in the inner sides of the two J-shaped side baffles, and conveying belts are embedded into the J-shaped guide grooves and are guided to move according to J-shaped tracks; a plurality of belt scrapers are evenly arranged on the conveying belt at intervals.

Furthermore, J-shaped conveyor transmission rollers are arranged at the front end and the rear end of each of the two J-shaped side baffles, the J-shaped conveyor transmission rollers are connected with corresponding bearing seats through J-shaped conveyor transmission shafts, and the J-shaped transmission modules are fixed on the inner side wall of the frame through the bearing seats.

Qualified bottle plug of arrangement is sent into ejection of compact and is unified module, qualified bottle plug of not arranging blocks through the limit for height board because of high transfinite, drop to on the conveyer belt in the J type conveying module, rotate through J type conveyer transmission roller, drive conveyer motion, the bottle plug is set up and is driven in conveyer belt upper band scraper blade, toward J type conveyer transmission roller roll direction motion, final motion is to steel wire conveying module top and drop, arrange once more, let the bottle plug realize qualified arrangement.

Further, the discharging normalization module comprises a slope feeding conveyor belt, a horizontal feeding conveyor belt and a total feeding conveyor belt which are connected in sequence; supporting guardrails are arranged above the slope feeding conveyor belt, the horizontal feeding conveyor belt and the total feeding conveyor belt; the total feeding conveyor belt passes through the frame and is communicated with external equipment.

The bottle plug is through steel wire conveying module processing arrangement back, and the steel wire will arrange qualified bottle plug in order and send into to the support guardrail on, through slope material loading conveyer belt and horizontal material loading conveyer belt motion, drives the bottle plug and gets into total material loading conveyer belt, and total material loading conveyer belt motion sends into the bottle plug to external equipment.

Further, the slope feeding conveyor belt is connected with the outlet end of the steel wire conveyor.

The bottle stopper is driven to the steel wire conveyer exit end by the steel wire in the steel wire conveyer, through slope material loading conveyer belt transmission to total material loading conveyer belt.

Further, the frame inboard is provided with the protection baffle that is used for preventing the bottle plug to drop and is used for blockking that the qualified bottle plug of unscrambling exports the limit for height board to ejection of compact normalizing module. The equal installation support guardrail in slope material loading conveyer belt, horizontal material loading conveyer belt and total material loading conveyer belt top prevents that the bottle plug from receiving vibrations or other external influence and dropping.

Further, the upper part of the hopper protrudes out of the frame for placing a bottle stopper.

The upper part of the hopper protrudes out of the frame, so that external workers can conveniently put bottle stoppers in any postures into the arranging machine for arranging.

The invention discloses a high-efficiency medicinal bottle stopper finishing machine, which has the beneficial effects that:

the medicinal bottle stopper is subjected to triple superposition of feeding random arrangement, steel wire transmission, J-shaped transmission circulating arrangement and discharging normalization arrangement, so that the bottle stopper arrangement efficiency is greatly improved, and vibration noise is avoided; a non-vibration finishing mode is adopted, and a counterweight is not needed, so that the overall weight of the machine is reduced; the whole body is processed by medical grade materials, driven by an external motor, mutually independent with the finishing space, and the disinfection part has light weight and small volume.

Drawings

Fig. 1 is an overall scheme front view of a high-efficiency medicinal bottle stopper finishing machine.

Fig. 2 is a schematic sectional perspective view of the efficient medicinal bottle stopper finishing machine.

Fig. 3 is a cut-away perspective view of a bottle stopper of the high-efficiency medicinal bottle stopper finishing machine.

Fig. 4 is a schematic diagram of the state that the bottle stopper of the high-efficiency medicinal bottle stopper arranging machine is clamped between two steel wires.

Wherein, 1, a hopper; 2. a blanking roller; 3. a conveyor belt; 4. a J-shaped side dam; 5. a belt scraper; 6. a frame; 7. an adjustable support leg; 8. a steel wire conveyor belt pulley transmission shaft; 9. a steel wire conveyor belt wheel; 10. a bearing seat; 11. an A-shaped baffle plate; 12. a steel wire conveyor belt side baffle; 13. a bottle stopper; 14. a steel wire; 15. an inclined baffle plate of a steel wire conveyor belt; 16. a J-conveyor drive shaft; 17. a J-conveyor drive roller; 18. a slope feeding conveyor belt; 19. a horizontal feeding conveyor belt; 20. supporting the guard bar; 21. a total feeding conveyor belt; 22. a protective baffle; 23. and a height limiting plate.

Detailed Description

The embodiments of the present invention are described so as to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and it will be apparent to those skilled in the art that various changes may be made without departing from the spirit and scope of the invention as defined and defined in the appended claims, and all matters produced by the invention using the inventive concept are protected.

According to the first embodiment of the application, referring to fig. 1, fig. 2, fig. 3 and fig. 4, the high-efficiency sorting machine for the medical bottle stoppers comprises a frame 6, bottle stoppers 13, a feeding module, a steel wire conveying module, a J-shaped conveying module and a discharging and normalizing module.

The steel wire conveying module is connected with the discharging normalization module and is located below the feeding module, and the J-shaped conveying module semi-surrounds the steel wire conveying module and the discharging normalization module.

The above-described respective components will be described in detail below.

A feeding module:

the feeding module is used for placing a bottle stopper 13 and controlling the falling speed of the bottle stopper 13, the bottle stopper 13 slides into a clamping groove of the blanking roller 2 and falls towards a lower steel wire conveyor, and the large end of part of the bottle stopper 13 faces upwards and the small end faces downwards and is clamped between two steel wires 14, so that the sorting purpose is achieved; the feeding module specifically comprises a hopper 1 and a blanking roller 2, the blanking roller 2 is mounted at the bottom of the hopper 1, the blanking roller 2 consists of 4 gears, the 4 gears are arranged on a rolling shaft connected with a bearing seat at intervals, and one end of the rolling shaft is fixed on the inner side wall of the frame 6 through the bearing seat; a bottle stopper 13 is put in from the upper part of the hopper 1, and the blanking roller 2 is used for collecting the bottle stopper 13 at the bottom of the hopper 1; the top of the hopper 1 protrudes inside the frame 6, facilitating the staff to put the bottle stopper 13 into the collator.

The bottle stopper 13 of arbitrary gesture is put into hopper 1, and bottle stopper 13 gets into hopper 1 and drops to installing in the blanking cylinder 2 of hopper 1 bottom, and blanking cylinder 2 carries out the controllable orderly material loading of speed to the bottle stopper 13 of arbitrary gesture.

A steel wire conveying module:

the steel wire conveying module is used for arranging the bottle stoppers 13 and conveying the bottle stoppers to the discharging and normalizing module, and specifically comprises 4 steel wire conveyors arranged between two symmetrical fixed structures, wherein the 4 steel wire conveyors are positioned right below the blanking roller 2, and each steel wire conveyor comprises an A-shaped baffle 11, a steel wire conveyor belt side baffle 12 and a steel wire 14 arranged between the A-shaped baffle 11 and the steel wire conveyor belt side baffle 12; the fixing structure comprises a bearing seat 10 which is rotatably connected with the steel wire conveyor transmission shaft 8 and corresponds to the steel wire conveyor transmission shaft, and the steel wire conveyor transmission shaft 8 is fixed on the frame 6 by the corresponding bearing seat 10 to play a role in fixing and supporting.

A plurality of steel wire conveying belt wheels 9 are arranged on the steel wire conveying belt transmission shaft 8, and the steel wire conveying belt wheels 9 drive steel wires 14, so that bottle stoppers 13 on the steel wires 14 are conveyed. The A-shaped baffle 11, the steel wire conveyor belt side baffle 12 and the steel wire conveyor belt inclined baffle 15 are used for shielding the steel wires 14, and the situation that the bottle stopper 13 is clamped into the steel wires in some cases is avoided.

Bottle stopper 13 of arbitrary gesture gets into each steel wire conveyer respectively behind blanking cylinder 2, and partial bottle stopper 13 drops to between two steel wires, rolls through steel wire conveyer belt 9, drives steel wire 14, toward steel wire conveyer belt 9 direction of rolling motion to the qualified bottle stopper 13 of will putting in order is sent to the ejection of compact and is unified the module ejection of compact.

The steel wire conveyor transmission shaft 8 is connected with the corresponding bearing seat 10, and the steel wire conveyor transmission shaft 8 penetrates through the plurality of steel wire conveyor belt wheels 9 and is fixed on the inner side wall of the frame 6 to prevent the steel wire conveyor from falling off, so that the steel wire conveyor can work stably.

J-type transfer module:

the J-shaped conveying module is used for conveying the unscheduled qualified bottle stoppers 13 to the upper part of the steel wire conveying module under the driving of the belt scraper 5; the J-shaped conveying module specifically comprises two J-shaped side baffles 4, conveying mechanisms are arranged at the front ends and the rear ends of the two J-shaped side baffles 4, J-shaped guide grooves are formed in the inner sides of the two J-shaped side baffles 4, conveying belts 3 are embedded into the J-shaped guide grooves, the conveying belts 3 are guided to move according to J-shaped tracks, and belt scrapers 5 are uniformly arranged on the conveying belts 3 at intervals; the conveying mechanism comprises a transmission roller 17 of the J-shaped conveyor, and a transmission shaft 16 of the J-shaped conveyor is rotationally connected with a corresponding bearing seat 10.

The qualified bottle plug 13 of partial arrangement is sent into ejection of compact and is unified the module, the qualified bottle plug 13 of remaining unordered because of the height-limiting plate 23 blocks to fall into on the conveyer 3 in the J type conveying module, roll through J type conveyer transmission roller 17, drive conveyer 3 along the motion of J type conveyer transmission roller 17 roll direction, bottle plug 13 is set up and is driven in conveyer 3 upper belt scraper blade 5, toward the motion of J type conveyer transmission roller 17 roll direction, final motion falls to steel wire conveying module top, realize the circulation arrangement to bottle plug 13.

The transmission shaft 16 of the J-shaped conveyor is fixed on the frame 6 through matching with the corresponding bearing seat 10, and plays a role of fixing and supporting. The transmission roller 17 of the J-shaped conveyor drives the transmission belt 3 to enable the belt scraper 5 to scrape the dropped bottle stopper 13 for transmission, and the J-shaped side baffle 4 supports and guides the transmission belt 3 to move.

A discharging normalization module:

the discharging normalization module is used for keeping qualified bottle stoppers 13 in arrangement in a state that large heads are upward and small heads are downward, the feeding conveyor belt supports the bottoms of the bottle stoppers 13 to drive the bottle stoppers 13 to move, the bottle stoppers are collected by the plurality of horizontal conveyor belts 19 to the total feeding conveyor belt 21 through the slope feeding conveyor belt 18 and the horizontal conveyor belts 19 and then are conveyed to the outside of the arranging machine, and the bottle stoppers are connected to a subsequent mechanism; the discharging normalization module specifically comprises a slope feeding conveyor belt 18, a horizontal feeding conveyor belt 19 and a total feeding conveyor belt 21 which are connected in sequence. And the feeding conveyor belt 18, the horizontal feeding conveyor belt 19 and the total feeding conveyor belt 21 are all provided with supporting guardrails 20, and the slope feeding conveyor belt 18 is in contact with the output ends of the A-shaped baffle plate 11 and the steel wire conveyor belt side baffle plate 12.

The bottle stopper 13 is conveyed to be clamped on the supporting guardrail 20 through the steel wire conveyor, and is conveyed to the total feeding conveyor belt 21 through the slope feeding conveyor belt 18 and the horizontal feeding conveyor belt 19, and the total feeding conveyor belt 21 penetrates through the frame 6 to convey the finished bottle stopper 13 to the outside of the finishing machine, so that the finished bottle stopper 13 is conveniently connected with an external structure.

After the bottle stoppers 13 are arranged by the steel wire conveying module, the steel wires 14 convey the bottle stoppers 13 to the supporting guardrails 20, the bottle stoppers 13 are driven to enter the general feeding conveying belt 21 by the movement of the slope feeding conveying belt 18 and the horizontal feeding conveying belt 19, and the general feeding conveying belt 21 moves to convey the bottle stoppers 13 to the outside of the equipment.

The stoppers 13 are carried by the wires 14 in the wire conveyor to the outlet end of the wire conveyor, feeding the stoppers 13 onto the support railing 20 and transported by the ramp loading conveyor 18 to the general loading conveyor 21.

The width of the supporting guardrail 20 and the width between the two steel wires 14 are matched with the bottle stopper 13, and the neck of the bottle stopper 13 can be clamped.

The inner side of the frame 6 is provided with a protective baffle 22 for preventing the bottle stopper 13 from falling and a height limiting plate 23 for blocking the unscheduled qualified bottle stopper 13.

After the stoppers 13 enter the general feeding conveyor 21, the protective barrier 22 is used to prevent the stoppers 13 from falling off due to shocks or other external influences.

The height-limiting plate 23 can scrape off the unqualified bottle stoppers 13 between the two steel wires 14.

The bottom of the frame 6 is provided with a plurality of adjustable support feet 7, and the adjustable support feet 7 are used for adjusting the height of the frame 6, so that the connection between the total feeding conveyor belt 21 and external equipment is facilitated.

In the invention, the bottle stopper 13 is qualified in arrangement when the big head is upward and the small head is downward, and is qualified in arrangement when other postures are not.

The material of the steel wire 14 may be copper or other materials.

The bearing seat 10 can be in any other shape capable of fixing, and the bearing seats 10 in the scheme are not completely the same and are in different shapes matched with different transmission shafts respectively.

The A-shaped baffle 11 can be other baffles with shapes which can play a role in shielding and prevent the bottle stopper from falling.

The J-type conveying module and the conveying belt 3 and the J-type side baffle 4 in the J-type conveying module can be in any other shapes as long as the J-type conveying module and the discharging normalization module can be semi-surrounded and the feeding of the feeding module is not affected, such as a U shape and the like.

The working principle of the high-efficient collator of medicinal bottle plug of this embodiment does:

after the bottle stopper 13 is loaded into the hopper 1, the bottle stopper 13 slides into the clamping groove of the blanking roller 2, the blanking roller 2 rolls, at the moment, the bottle stopper 13 falls off towards the lower steel wire conveyor, and part of the bottle stopper 13 is clamped between two steel wires 14 with the big end facing upwards and the small end facing downwards, so that the purpose of sorting part of the bottle stopper 13 is realized;

another part of the bottle stopper 13 falls into the J-shaped conveyor or scatters over the two wires 14 in another posture; the bottle stopper 13 falling on the conveying belt 3 is driven by the belt scraper 5 to be conveyed to the upper part of the steel wire conveyor, and falls between two steel wires 14 in a concentrated manner again through the A-shaped baffle plate 11 to circularly arrange the bottle stopper 13.

The steel wire conveyor conveys the bottle stoppers 13 to the discharging normalization module, the discharging normalization module is provided with a height limiting plate 23, the height limiting plate 23 can block the bottle stoppers 13 which are not qualified in arrangement, and the bottle stoppers are forced to fall into the J-shaped conveying module again for circular arrangement.

Qualified bottle stoppers 13 in the arrangement are conveyed to the discharging and unifying module through the steel wire 14, the supporting guardrails 20 of the unifying module can clamp the neck of the bottle stopper 13, so that the bottle stopper 13 keeps a state that the large end is upward and the small end is downward and does not fall off, the bottle stopper is gathered to the main feeding conveyor belt 21 through the slope feeding conveyor belt 18 and the horizontal feeding conveyor belt 19 and is conveyed to the outer side of the arranging machine, and the bottle stopper is connected to a subsequent mechanism. The slope feeding conveyor belt 18, the horizontal feeding conveyor belt 19 and the total feeding conveyor belt 21 all support the bottom of the bottle stopper to drive the bottle stopper to move.

According to the invention, the feeding module is used for feeding, the steel wire transmission module is used for carrying out primary sorting on the bottle stopper 13 which is put in for the first time, the other qualified bottle stoppers 13 which are not sorted are conveyed through the J-shaped transmission module and enter the steel wire transmission module again, all the bottle stoppers 13 which are put in the feeding module are processed, and finally, the discharging is carried out through the discharging normalization module; meanwhile, the height of the frame 6 is adjusted by adopting the adjustable supporting feet 7, so that the frame is convenient to connect with external equipment for use.

While the embodiments of the invention have been described in detail in connection with the accompanying drawings, it is not intended to limit the scope of the invention. Various modifications and changes may be made by those skilled in the art without inventive step within the scope of the appended claims.