CN216186667U - Automatic packaging system of ginkgo ketone ester tablet - Google Patents

Abstract

The utility model provides an automatic packaging system of ginkgo ketone ester tablets, which is sequentially provided with a bottle arranging unit, a tablet counting unit, a cap screwing unit, a sealing unit, a first labeling unit, a buffer turntable, a boxing unit, a wrapping unit and a second labeling unit along the packaging proceeding direction; the bottle arranging unit, the particle counting unit, the cap screwing unit, the sealing unit and the first labeling unit are connected through a first conveyor belt, and the boxing unit and the wrapping unit are connected through a second conveyor belt; the wrapping unit is externally connected with a third conveyor belt; and a sealing detector and an opposite punching platform are sequentially arranged on the first conveying belt between the sealing unit and the first labeling unit along the packaging proceeding direction. The automatic packaging system for the ginkgo ketone ester tablets provided by the utility model has the advantages that the phenomenon of particle shortage or particle excess is avoided, other substances which do not belong to the ginkgo ketone ester tablets are not mixed into a plastic bottle to cause pollution, the bottle cap is ensured to be screwed, the appearance quality of the product is complete, no defects exist, and the system is very worthy of popularization and application.

Description

Automatic packaging system of ginkgo ketone ester tablet

Technical Field

The utility model belongs to the technical field of production of ginkgo biloba extract, and relates to an automatic packaging system of ginkgo biloba extract tablets.

Background

The ginkgo leaves as the leaves of the ginkgo tree have high medicinal value, have obvious effects of improving brain dysfunction, arteriosclerosis, hypertension, dizziness, tinnitus, headache, senile dementia, hypomnesis and the like, have the values of preventing, treating and building body recorded in the compendium of materia medica of Li Shizhen in Ming dynasty, and are the most ideal medicinal components for treating and preventing cardiovascular and cerebrovascular diseases which are generally accepted in the world at present.

The ginkgo leaf extract is prepared into a preparation in the traditional Chinese medicine, and the preparation can be used as a medicament actually used in clinic, can be used for treating coronary heart disease and ischemic cardiovascular and cerebrovascular diseases, has very good curative effect and large market demand. The ginkgo ketoester is a new generation ginkgo leaf extract product which is independently researched and developed in China, and two types of new drugs in the original country are obtained, and the ginkgo ketoester is mainly used for treating cardiovascular and cerebrovascular diseases and nervous system diseases. At present, aiming at the production of the ginkgo ketonic ester, the multi-link manual operation is complicated, and the automatic production flow is lacked. For example, bilobalide tablets lack an automated packaging device during the packaging process. Therefore, there is a need for improvements in existing production processes.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, the present invention provides an automatic packaging system for ginkgo biloba extract tablet, which is used to solve the problem of the prior art that there is no device for automatically packaging ginkgo biloba extract tablet.

In order to achieve the above and other related objects, the present invention provides an automatic packaging system for ginkgo ketone ester tablets, which comprises a bottle arranging unit, a tablet counting unit, a cap screwing unit, a sealing unit, a first labeling unit, a buffer turntable, a box packing unit, a wrapping unit and a second labeling unit sequentially arranged along a packaging proceeding direction; the bottle arranging unit, the particle counting unit, the cap screwing unit, the sealing unit and the first labeling unit are connected through a first conveyor belt, the boxing unit and the wrapping unit are connected through a second conveyor belt, and the buffer turntable is respectively connected with the first conveyor belt and the second conveyor belt; the wrapping unit is externally connected with a third conveyor belt, and the second labeling unit is arranged on one side of the third conveyor belt; and a sealing detector and an opposite punching platform are sequentially arranged on the first conveying belt between the sealing unit and the first labeling unit along the packaging proceeding direction.

Preferably, a first checkweigher is further arranged on the first conveying belt between the grain counting unit and the cover screwing unit.

Preferably, a second checkweigher is further arranged on the second conveyor belt between the boxing unit and the wrapping unit.

Preferably, a bottle arranging inlet and a bottle arranging outlet are arranged on the bottle arranging unit; the grain counting unit is provided with a bottle inlet, a blanking port and a bottle outlet; the cover screwing unit is provided with a cover screwing inlet and a cover screwing outlet; the sealing unit is provided with a sealing inlet and a sealing outlet; the first labeling unit is provided with a first labeling inlet and a first labeling outlet; first conveying belts are respectively transmitted between the bottle arranging outlet and the bottle inlet, between the bottle outlet and the bottle cap screwing inlet, between the bottle cap screwing outlet and the bottle cap sealing inlet, between the bottle cap sealing outlet and the first labeling inlet, and between the first labeling outlet and the buffer turntable, and the blanking port is positioned right above the first conveying belts in the particle counting units.

Preferably, a boxing inlet and a boxing outlet are formed in the boxing unit; the wrapping unit is provided with a wrapping inlet and a wrapping outlet; and second conveyor belts are respectively transmitted between the boxing inlet and the buffer turntable and between the boxing outlet and the wrapping inlet.

Preferably, the diameter of the buffer turntable is 1000-1500 mm.

Preferably, a first photographing detector is arranged on the particle counting unit.

Preferably, a thermal imaging detector is arranged on the sealing unit.

Preferably, the second labeling unit is provided with a second photographing detector.

As described above, the automatic packaging system for ginkgo ketonic ester tablets provided by the utility model has the following beneficial effects:

(1) the automatic packaging system for the ginkgo ketone ester tablets provided by the utility model has the advantages that the phenomenon of particle shortage or particle increase is avoided, other substances which do not belong to the ginkgo ketone ester tablets are not mixed into a plastic bottle to cause pollution, and the bottle cap is screwed tightly, so that the sealing property of the product is ensured.

(2) According to the automatic packaging system for the ginkgo ketone ester tablets, provided by the utility model, the plastic bottle label and the small box are clearly displayed in three stages, and the product in the small box is complete in appearance quality and free of defects.

(3) The automatic packaging system for the ginkgone ester tablets is convenient to use, simple to operate, high in automation degree and very worthy of popularization and application.

Drawings

FIG. 1 is a flow chart showing the detailed structure from a bottle straightening unit to a tablet counting unit in an automatic packaging system for bilobalide tablets according to the present invention.

Fig. 2 is a flow chart showing the detailed structure from the counter unit to the first checkweigher in the automatic packaging system for bilobanone tablets of the present invention.

Fig. 3 is a flow chart showing the detailed structure from the first checkweigher to the seal detector in the automatic packaging system for ginkgo ketoester tablets according to the present invention.

Fig. 4 is a flow chart showing the detailed structure from the seal detector to the first labeling unit in the automatic packaging system for bilobalide tablets of the present invention.

Fig. 5 is a flow chart showing the detailed structure from the first labeling unit to the second checkweigher in the automatic packaging system for ginkgo ketoester tablets according to the present invention.

Fig. 6 is a flow chart showing the detailed structure from the second checkweigher to the second labeling unit in the automatic ginkgo ketoester tablet packaging system according to the present invention.

Fig. 7 is a general flow chart of an automatic packaging system for bilobalide tablets according to the present invention.

Reference numerals

1 bottle arranging unit

2 particle counting unit

3 spiral cover unit

4 sealing unit

5 first labelling unit

6 boxing unit

7 wrapping unit

8 second labelling unit

9 first checkweigher

10 seal detector

11 hedging platform

12 buffer rotary disc

13 second checkweigher

14 first conveyor belt

15 second conveyor belt

16 third conveyor belt

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 7. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The utility model provides an automatic packaging system of ginkgo ketone ester tablets, which is sequentially provided with a bottle arranging unit 1, a tablet counting unit 2, a cap screwing unit 3, a sealing unit 4, a first labeling unit 5, a buffer turntable 12, a boxing unit 6, a wrapping unit 7 and a second labeling unit 8 along the packaging proceeding direction, as shown in figures 1-7; the bottle arranging unit 1, the granule counting unit 2, the cap screwing unit 3, the sealing unit 4 and the first labeling unit 5 are connected through a first conveyor belt 14, the boxing unit 6 and the wrapping unit 7 are connected through a second conveyor belt 15, and the buffer turntable 12 is respectively connected with the first conveyor belt 14 and the second conveyor belt 15; the wrapping unit 7 is externally connected with a third conveyor belt 16, and the second labeling unit 8 is arranged on one side of the third conveyor belt 16; and a sealing detector 10 and a butting platform 1 are sequentially arranged on the first conveyor belt 14 between the sealing unit 4 and the first labeling unit 5 along the packaging proceeding direction.

In the above-mentioned automatic packaging system for ginkgo biloba extract tablets, as shown in fig. 1 to 6, the first conveyor 14, the second conveyor 15 and the third conveyor 16 are all belt conveyors which are conventionally used. The conveyor belt of the conveyor belt may be a rubber belt or a belt. Is used for delivery of ginkgo biloba extract products. The frame structure material of conveyer belt is stainless steel.

In the above automatic packaging system for ginkgo ketonic ester tablets, as shown in fig. 1, a first checkweigher 9 is further disposed on a first conveyor belt 14 between the tablet counting unit 2 and the cap screwing unit 3.

In the above automatic packaging system for ginkgo ketonic ester tablets, as shown in fig. 5 and 6, a second checkweigher 13 is further provided on the second conveyor belt 15 between the boxing unit 6 and the wrapping unit 7.

The first checkweigher 9 and the second checkweigher 13 are both weighing checkweighers that are conventionally used.

The first checkweigher 9 can weigh the bottled ginkgone ester tablets on line, and the number of the ginkgone ester tablets in the bottle is determined to be more than one tablet or less than one tablet through weight difference, so that the phenomenon of granule shortage or granule shortage is avoided.

Similarly, the second checkweigher 13 can weigh the packed ginkgo ketonic ester tablets on line, and determine whether products, labels, instructions and the like in the box are omitted or not according to weight difference.

In the automatic packaging system of the ginkgo ketone ester tablets, a bottle arranging inlet and a bottle arranging outlet are arranged on the bottle arranging unit 1; the grain counting unit 2 is provided with a bottle inlet, a blanking port and a bottle outlet; the cover screwing unit 3 is provided with a cover screwing inlet and a cover screwing outlet; the sealing unit 4 is provided with a sealing inlet and a sealing outlet; the first labeling unit 5 is provided with a first labeling inlet and a first labeling outlet; first conveying belts 14 are respectively conveyed between the bottle arranging outlet and the bottle inlet, between the bottle outlet and the bottle cap screwing inlet, between the bottle cap screwing outlet and the bottle cap sealing inlet, between the bottle cap sealing outlet and the first labeling inlet, and between the first labeling outlet and the buffer turntable 12, and the blanking port is positioned right above the first conveying belts 14 in the particle counting units 2. Thereby realizing the automatic bottling, cap screwing, sealing, labeling and other steps of the ginkgo ketone ester tablets.

In the automatic packaging system for the ginkgo ketone ester tablets, a boxing inlet and a boxing outlet are formed in the boxing unit 6; the wrapping unit is provided with a wrapping inlet and a wrapping outlet; and a second conveyor belt 15 is respectively transmitted between the boxing inlet and the buffer turntable 12 and between the boxing outlet and the wrapping inlet. Thereby realizing the automatic boxing, wrapping and other steps of the ginkgo ketone ester tablets.

In the above-mentioned automatic packaging system for ginkgo biloba extract tablets, as shown in fig. 1, the bottle straightening unit 1 is a conventionally used bottle straightening machine. Specifically, the bottle straightening unit 1 is a PU-25C high-speed bottle straightening machine manufactured by Guangzhou Majia company.

The bottle arranging unit 1 is used for manually adding bottles into a bottle storage bin for storage, the bottles in the bottle storage bin are automatically quantified and lifted to a rotary table at a set speed, the rotary table supplies the bottles in a designated direction through high-speed rotation, the nonstandard bottles are removed through web wheels, the bottles supplied by the rotary table are fed into a bottle arranging part one by a bottle separating mechanism at a designated speed, the bottle arranging part clamps the bottles through conveying belts at two sides and conveys the bottles to a working surface of a conveyor, and the bottles which are turned over, subjected to static elimination and subjected to dust collection are arranged one by one in a designated direction and at a designated speed through a bottle turning mechanism and a static elimination and dust collection mechanism in the conveying process; the electric control system carries out real-time monitoring feedback through the sensors of each part, and the full-automatic operation requirement is realized.

In the above-mentioned automatic packaging system for ginkgo biloba extract tablets, as shown in fig. 1 and 2, the counting unit 2 is a conventional counting machine. Specifically, the counting unit 2 is a PP-12MC modular counting machine manufactured by guangzhou gamma company.

The granule counting unit 2 is used for pouring the granules into the top hopper during working, and the piled granules in the hopper are gradually changed into a continuous strip linear state along the vibrating trough plate and slide down to the blanking port by properly adjusting the primary vibrating feeder, the intermediate vibrating feeder and the final vibrating feeder. The medicine grains fall one by one and pass through a detection channel, and a working signal generated by an infrared dynamic scanning sensor when the medicine grains fall is input into a high-speed Microprocessor (MCU) by adopting the principle of photoelectric effect, so that the counting function is realized by the cooperation of electronics and machinery.

In the above-mentioned automatic packaging system for ginkgo ketonic ester tablets, as shown in fig. 3, the capping unit 3 is a capping machine which is conventionally used. Specifically, the capping unit 3 is a PCR-1506 revolving capping machine manufactured by guangzhou maca corporation.

The cap screwing unit 3 is used for feeding the bottle bodies filled with the materials into a bottle feeding screw mechanism by a conveying belt and then accurately entering a bottle feeding star wheel; simultaneously, the bottle caps are lifted to the cap arranging mechanism from the cap storage bin by the lifter, automatically arranged out in a designated direction, sent into the bottle cap slide way and enter the cap conveying star wheel, and gradually placed on the bottle mouths and enter the main star wheel for cap screwing along with the descending of the cap screwing shafts after the cap screwing heads of the cap screwing shafts (6) on the host cam mechanism grab the caps. The bottle bodies with the covers screwed pass through the bottle discharging star wheel and then are conveyed to the conveying belt. After the detection of the detection and elimination mechanism is correct (no cover, no aluminum foil or poor screwing cover), the next procedure is carried out.

In the above-described automated packaging system for ginkgo biloba extract tablets, as shown in fig. 3, the sealing unit 4 is a conventionally used sealing machine. Specifically, the sealing unit 4 is an SS100 sealing machine manufactured by Super Seal company.

The sealing unit 4 is used for conveying the bottle body which is screwed into the sealing machine to the lower part of the sealing machine by a conveying belt, and heating the aluminum foil in the bottle cap in an electromagnetic mode to ensure that the aluminum foil and the bottle opening plane achieve a sealing effect.

In the above-mentioned automatic packaging system for ginkgo biloba extract tablets, as shown in fig. 4, the first labeling unit 5 is a conventional round bottle labeling machine. Specifically, the first labeling unit 5 is a PLB-1120P vertical round bottle labeling machine manufactured by guangzhou maca company.

The first labeling unit 5 is used for feeding the labeled bottles into the conveyor belt, separating the labeled bottles by the bottle separating wheel, arranging the labeled bottles at a certain interval, and conveying the labeled bottles forwards by the conveyor belt; when the label reaches the object-measuring electric eye, the object-measuring electric eye senses the instant of the bottle, namely, the label-sending device sends out a label-sending signal, the bottle is pasted with a label through the label-sending plate, meanwhile, the bottle-rolling belt rotates the bottle to paste the label roll on the circumferential surface of the bottle, and the base paper is rewound. When the label testing electric eye detects the end of the label, the label sending device sends out a signal for stopping label output, and the labeling is completed.

In the above-mentioned automatic packaging system for ginkgo biloba extract tablets, as shown in fig. 5, the boxing unit 6 is a boxing machine which is conventionally used. Specifically, the boxing unit 6 is a PBC-20 continuous boxing machine manufactured by guangzhou enamel maca company.

The boxing unit 6 is used for manually or automatically placing the products on the conveyor belt, if the electric eyes on the conveyor belt detect that the products appear, signals are sent, the box blanks are taken out from the material level and sent to the positioning box conveying belt, and the boxes are pre-opened in the descending process. The cartons are then fed to a cartoning station. At the same time, the instructions come to the instruction stuffing device, which pushes them into the formed cartons as the product comes to the end of the conveyor. The carton then passes through a station for tongue coding. Meanwhile, the paper box filled with products and specifications enters the tooth-shaped paper box conveying device, and the tongue folding device finishes a series of tongue folding actions until the box is sealed finally. In addition, the outlet of the box packing machine is provided with a paper box removing device for detecting and removing unqualified products.

In the above-described automated packaging system for ginkgo biloba extract tablets, as shown in fig. 6, the wrapping unit 7 is a conventionally used wrapping machine. Specifically, the wrapping unit 7 is a BF450-G type three-dimensional wrapping machine manufactured by the national ten-thousand bang company of Qingdao.

The wrapping unit 7 is used for automatically arranging packaged fructus evodiae, automatically feeding the film by equipment, automatically sealing the equipment, and automatically wrapping the packaged fructus evodiae by adopting a poly-internal-ene transparent film so as to finish packaging.

In the above-mentioned automatic packaging system for ginkgo ketoester sheets, as shown in fig. 6, the second labeling unit 8 is a conventionally used supervision code labeling machine. Specifically, the second labeling unit 8 is a PLB-4120S middle packet supervision code labeling machine manufactured by guangzhou gamma company.

The second labeling unit 8 is used for entering a coding line body through a conveying belt after being wrapped, and performing primary code batch collection. And after the product is qualified, entering a large box link of a human tooling, and automatically rejecting the product which is not qualified (centralized processing later). The instant printing labeling machine prints earphone codes and automatically pastes the earphone codes on one side of the three-dimensional package. And (5) manually boxing and reading the secondary codes by using a scanning gun, printing the bar codes in a specified number, associating and manually pasting the bar codes on the side surface of the large box. And exporting the association relation file, uploading the association relation file to a Chinese medicine electronic monitoring network, then carrying out warehousing and ex-warehouse link operation, scanning and reading the bar code of the drug big box which is ex-warehouse by adopting a handheld terminal, and also carrying out ex-warehouse scanning.

In the above-mentioned automatic packaging system for ginkgo ketoester tablets, as shown in fig. 3 and 4, the seal detector 10 is a conventionally used seal detector. Specifically, the seal detector 10 is a PSI-20 seal detector manufactured by guangzhou maca corporation.

The seal detector 10 is used for selecting the set size of a detected bottle after logging in, the same bottle can be recorded by inputting the same system once, so that the bottle can be clicked and operated in the future, the system provides an automatic data analysis function, a user can conveniently set the conditions of good and bad bottles, bottle opening detection can be carried out after the conditions are set, and the system provides record query of detected data after detection so as to analyze and query data in the future.

In the above-mentioned automatic packaging system for ginkgo ketonic ester tablets, as shown in fig. 4, the counter-punching platform 11 is a buffer device in the production process which is conventionally used. Specifically, the offset platform 11 is a PUC-1210 offset platform manufactured by guangzhou gamma company.

The opposite punching platform 11 is used for providing power for the motor, and the two conveyor belts move relatively (the whole-line conveyor belt is in the middle), so that the continuity of whole-line production is ensured, and a buffering effect is achieved.

In the above-mentioned automatic packaging system for ginkgo ketoester tablets, as shown in fig. 5, the buffer rotary disk 12 is a buffer device in a production process which is conventionally used. Specifically, the buffer turntable 12 is a PUT-12 buffer turntable manufactured by guangzhou gamma company.

The buffering turntable is used for manually placing materials on the feeding platform and then pushing the materials into the turntable through the push plate, the materials on the turntable move towards the periphery of the turntable under the action of the fixed bottle blocking piece while rotating along with the turntable, and the materials are regularly and tidily guided out of the second conveying belt 15.

In the above automatic packaging system for ginkgo ketonic ester tablets, the diameter of the buffer turntable 12 is 1000-1500mm, preferably 1200 mm.

In the automatic packaging system of the ginkgo ketonic ester tablet, the counting unit 2 is provided with a first photographing detector. The first photo detector is a conventionally used photo detector.

Specifically, the first photo detector is a non-model photo detector manufactured by Guangzhou dammara corporation.

The product that gets into the medicine bottle can carry out incessant detection of shooing, guarantees that the product that gets into the medicine bottle does not have unqualified phenomenon.

Above-mentioned first detector of shooing is through setting up the binaryzation of this product, puts into the host computer and is used as the reference, and whether the medicine that the real-time quick analysis of software can be shot is unanimous with the reference, if find inconsistent, then start removing devices, reject 3 bottles once according to calculating to guarantee that defective products 100% is rejected, avoid having other materials that do not belong to this product to sneak into and cause the pollution in the plastic bottle.

In the automatic packaging system of the ginkgo ketone ester tablets, the sealing unit 4 is provided with a thermal imaging detector. The thermal imaging detector is a conventionally used thermal imaging detector. Specifically, the thermal imaging detector is an electromagnetic seal thermal imaging detector manufactured by Guangzhou dammara corporation.

The thermal imaging detector is used for detecting the sealing condition of the plastic bottle and ensuring that the plastic bottle is in a sealing state through sealing. The problem that if the cap is not screwed tightly or the cap is askew, the aluminum foil seal is not tight, so that materials placed in the bottle cannot be in a sealed state, and if the storage environment is not qualified, products in the bottle absorb moisture to cause product quality problems is solved, and the effective period of the products is shortened. Adopt thermal imaging detector to seal the bottle lid and detect, at first, the plastic bottle spiral cover is accomplished the back, need seal through the electromagnetism and accomplish the heat-seal, and the aluminium foil in the bottle lid passes through the electromagnetic heating of electromagnetism capper and reaches sealedly with the plastic bottle bottleneck, and this in-process can produce certain heat, and this heat can not disappear in the time of very short again in addition. The product can be detected according to the heat, the bottle passes through the thermal imaging detector, the heat on the bottle cap is simulated and calculated to form a circular pattern according to the heat sealing condition of the bottle cap, the instrument can present different colors according to different heats, and if the circular pattern is found to be covered by the heat, the heating time of the product is overlong; if the imaged circle has a corner cut, the product is not sealed by heat seal. Thereby effectively judging whether the bottle cap is screwed tightly.

In the above automatic packaging system for ginkgo ketonic ester tablets, the second labeling unit 8 is provided with a second photographing detector. The second photo detector is a conventionally used photo detector. Specifically, the second photo detector is a non-model photo detector manufactured by guangzhou gamma corporation.

The second labeling unit 8 adopts the form of printing an electric heating steel character ribbon as the traditional three-stage printing because of the three stages of the plastic bottle label and the small box, and because the steel characters are small, errors are easy to occur, and the sequence of the numbers also occasionally appears errors, so that certain time is wasted when the three stages are replaced. The second photographing detector adopts a visual detection means to perform real-time photographing detection on the third stage, and because the device belongs to an intermittent operation mode, the device is set to perform photographing detection on the label at the moment of stopping, and through comparing a picture with the third stage input in the system, appearance unqualified phenomena such as three-stage misalignment, three-stage unobvious, three-stage skew and the like can be detected by visual detection, and then the rejecting work is accurately completed.

The following will describe the use of an automatic packaging system for bilobalide tablets in accordance with the present invention with reference to FIGS. 1-7.

After a user obtains the automatic packaging system of the ginkgo ketone ester tablets as shown in the figures 1-7, the bottles are arranged by the bottle arranging unit 1, the bottles are input into the counting unit 2 through the first conveyor belt 14, the number of drug granules of the ginkgo ketone ester tablets is counted by the counting unit 2, a certain amount of drug granules of the ginkgo ketone ester tablets are input into the bottles, and in the input process, the products entering the medicine bottles are subjected to uninterrupted photographing detection through the first photographing detector, so that the phenomenon that the products entering the medicine bottles are not unqualified is ensured. The medicine bottles are conveyed into the first check weighing scale 9 through the first conveyor belt 14 to be weighed and then conveyed into the cap screwing unit 3 to be capped on the medicine bottles. The capped vials are fed into the capping unit 4 for capping by means of the first conveyor 14. The capped vial of the seal is tested for seal sealability by a thermal imaging detector. And then the bottle mouth quality is detected by inputting the bottle mouth quality into a seal detector 10 through a first conveyor belt 14. The medicine bottles are buffered by the opposite punching platform 11 through the first conveyor belt 14, and then input to the first labeling unit 5 to be labeled on the medicine bottle walls.

Then, the medicine bottles pass through the buffer rotary disc 12 and are input into the boxing unit 6 through the second conveying belt 15 for boxing, and then are input into the second checkweigher 13 for weighing and then are input into the wrapping unit 7 for automatically wrapping the box body with the poly-inner-olefin transparent film, so that the outer package is completed. Finally, when the box body with the external package passes through the third conveyor belt 16, the second labeling unit 8 pastes the supervision code on one side of the third conveyor belt 16, the second photographing detector performs real-time photographing detection, and unqualified products pasted with the supervision code are removed.

Above-mentioned automatic packaging machine can realize packing automation, intellectuality, detects through each detector in process of production, rejects unqualified product, has replaced and has gone to the condition of carrying out online spot check through the manual work in the past, and the inspection rate has reached 100%, the quality of assurance product that can be better.

In conclusion, the automatic packaging system for the ginkgo ketone ester tablets provided by the utility model has the advantages that the phenomenon of particle shortage or particle excess is avoided, other substances which do not belong to the ginkgo ketone ester tablets are not mixed into the plastic bottle to cause pollution, the bottle cap is screwed tightly, the appearance quality of the product is good, no defects exist, and the automatic packaging system is very worthy of popularization and application. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. An automatic packaging system for ginkgo ketone ester tablets is characterized in that a bottle arranging unit (1), a tablet counting unit (2), a cap screwing unit (3), a sealing unit (4), a first labeling unit (5), a buffer turntable (12), a boxing unit (6), a wrapping unit (7) and a second labeling unit (8) are sequentially arranged along the packaging proceeding direction; the bottle arranging unit (1), the particle counting unit (2), the cap screwing unit (3), the sealing unit (4) and the first labeling unit (5) are connected through a first conveyor belt (14), the boxing unit (6) and the wrapping unit (7) are connected through a second conveyor belt (15), and the buffer turntable (12) is connected with the first conveyor belt (14) and the second conveyor belt (15) respectively; the wrapping unit (7) is externally connected with a third conveyor belt (16), and the second labeling unit (8) is arranged on one side of the third conveyor belt (16); and a sealing detector (10) and an opposite punching platform (11) are sequentially arranged on the first conveying belt (14) between the sealing unit (4) and the first labeling unit (5) along the packaging proceeding direction.

2. The automatic packaging system for ginkgo ketonic ester tablets as claimed in claim 1, wherein a first checkweigher (9) is further provided on the first conveyor belt (14) between the tablet counting unit (2) and the cap screwing unit (3).

3. The automatic packaging system for ginkgo ketoester tablets as claimed in claim 1, wherein a second checkweigher (13) is further provided on the second conveyor belt (15) between the boxing unit (6) and the wrapping unit (7).

4. The automatic packaging system of the ginkgo ketonic ester tablet as claimed in claim 1, wherein the bottle straightening unit (1) is provided with a bottle straightening inlet and a bottle straightening outlet; the grain counting unit (2) is provided with a bottle inlet, a blanking port and a bottle outlet; a screw cap inlet and a screw cap outlet are arranged on the screw cap unit (3); the sealing unit (4) is provided with a sealing inlet and a sealing outlet; the first labeling unit (5) is provided with a first labeling inlet and a first labeling outlet; first conveying belts (14) are respectively transmitted between the bottle arranging outlet and the bottle inlet, between the bottle outlet and the bottle cap screwing inlet, between the bottle cap screwing outlet and the bottle cap sealing inlet, between the bottle cap sealing outlet and the first labeling inlet, and between the first labeling outlet and the buffer turntable (12), and the blanking port is positioned right above the first conveying belts (14) in the particle counting unit (2).

5. The automatic packaging system for ginkgo ketonic ester tablets as claimed in claim 1, wherein the boxing unit (6) is provided with a boxing inlet and a boxing outlet; the wrapping unit is provided with a wrapping inlet and a wrapping outlet; and second conveyor belts (15) are respectively transmitted between the boxing inlet and the buffer turntable (12) and between the boxing outlet and the wrapping inlet.

6. The automatic packaging system for ginkgo ketoester tablet as claimed in claim 1, wherein the diameter of the buffer turntable (12) is 1000-1500 mm.

7. The automatic packaging system of ginkgo ketonic ester tablet as claimed in claim 1, wherein the tablet counting unit (2) is equipped with a first photo detector.

8. The automatic packaging system for ginkgo ketoester tablets as claimed in claim 1, wherein the sealing unit (4) is provided with a thermal imaging detector.

9. The automatic packaging system for ginkgo ketoester tablet according to claim 1, wherein the second labeling unit (8) is provided with a second photo detector.

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