CN109573221B - Full-automatic packaging method for medicine bottles - Google Patents

Abstract

The invention discloses a full-automatic medicine bottle packaging method, which comprises the following steps of S1: conveying the plastic supporting film to a heating station; s2: heating and softening; s3: conveying to a forming station; s4: molding the plastic supporting film; s5: conveying the plastic support to a medicine bottle feeding station; s6: feeding the medicine bottles at a medicine bottle feeding station; s7: the plastic support continues to be drawn and conveyed to a heat sealing station; s8: performing heat sealing; s9: conveying the plastic support to a blanking station; s10: blanking to form a unit plastic support; s11: conveying the mixture to a specification adding station; s12: adding the specification and conveying to a boxing station; s13: boxing and conveying to a code making station; s14: spraying codes and conveying to a coating station; s15: wrapping or wrapping the strips and conveying the strips to a boxing conveying line; s16: and (5) boxing. The packaging method has the advantages of high packaging speed, high intelligence degree, capability of preventing secondary pollution, labor cost saving and capability of improving the product quality and the qualification rate.

Description

Full-automatic packaging method for medicine bottles

Technical Field

The invention mainly relates to the field of food and pharmaceutical packaging, in particular to a full-automatic packaging method for medicine bottles.

Background

The traditional pre-filling needle package is that a layer of plastic bag is wrapped behind a pre-filling needle, a plurality of small bags are packaged into a middle bag, and the whole packaging process needs manual intervention. If the vacuum packaging is adopted, the packaging method occupies a large space after packaging; if the direct packaging does not protect the syringe, it may be brittle or the drug may not be expelled for its intended purpose.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a full-automatic medicine bottle packaging method which has the advantages of high packaging speed, high intelligence degree, capability of preventing secondary pollution, labor cost saving and capability of improving the product quality and the qualification rate.

In order to solve the technical problems, the invention adopts the following technical scheme:

the full-automatic packaging method of the medicine bottles comprises a plastic supporting film traction conveying line, a boxing conveying line and a boxing conveying line which are sequentially butted, wherein a plastic supporting film mold feeding station, a heating station, a forming station, a front traction station, a medicine bottle feeding station, a rear traction station, a heat sealing station and a blanking station are arranged on the plastic supporting film traction conveying line, a plastic supporting station, a specification adding station, a boxing station, a code making station and a wrapping station are arranged on the boxing conveying line, and the full-automatic packaging method specifically comprises the following steps:

s1: conveying the plastic supporting film to a heating station on a plastic supporting film traction conveying line from a plastic supporting film feeding station;

s2: heating and softening the plastic supporting film at a heating station;

s3: the softened plastic supporting film is continuously conveyed to a forming station by a traction conveying line;

s4: molding the softened plastic support film at a molding station to form a plastic support matched with the shape of the medicine bottle;

s5: the plastic support is dragged by a front traction station and conveyed to a medicine bottle feeding station;

s6: feeding medicine bottles at a medicine bottle feeding station to enable the medicine bottles to be placed in a plastic support;

s7: continuously drawing the plastic support with the medicine bottles from the rear drawing station and conveying the plastic support to a heat sealing station;

s8: heat-sealing the plastic support with the medicine bottle at a heat-sealing station;

s9: conveying the plastic support subjected to heat sealing to a blanking station on a plastic support film traction conveying line;

s10: blanking at a blanking station to form a unit plastic support with a preset specification;

s11: each unit plastic support is conveyed to enter a boxing conveying line from a plastic support feeding station and is conveyed to a specification adding station from the boxing conveying line;

s12: adding the specification at a specification adding station and conveying the specification to a boxing station by a boxing conveying line;

s13: boxing the plastic supports at a boxing station and conveying the plastic supports to a stacking station by a boxing conveying line;

s14: code spraying is carried out on the box body at a code making station, and the box body is conveyed to a wrapping station by a box packing conveying line;

s15: wrapping or wrapping the strip at a wrapping station and conveying the strip to a boxing conveying line by a boxing conveying line;

s16: and (5) boxing on a boxing conveying line.

As a further improvement of the above technical solution:

the plastic bottle feeding device is characterized in that a forming detection station is arranged between a front traction station and a medicine bottle feeding station, a plastic support is detected at the forming detection station, a charging detection station is arranged between the medicine bottle feeding station and a rear traction station, the plastic support is detected at the charging detection station, a waste removing station and a rim charge crushing station are arranged before the plastic support station is arranged, the plastic support qualified in preamble detection is continuously conveyed by the plastic support station, the plastic support unqualified in preamble detection is removed by the waste removing station, and the rim charge formed in preamble blanking is received by the rim charge crushing station to be crushed.

A buffer station is arranged between the forming detection station and the medicine bottle feeding station, and the plastic support is buffered at the buffer station.

And a pre-filling needle feeding conveying line, a penicillin bottle feeding conveying line and an ampoule bottle feeding conveying line which are respectively butted with the plastic supporting film traction conveying line are arranged on the medicine bottle feeding station.

The pre-filling needle feeding conveying line is provided with a pre-filling needle feeding station, a caching station, a pre-filling needle labeling station, a nest removing station and a pre-filling needle sterile linkage line station, the pre-filling needles are conveyed to the caching station, the pre-filling needle labeling station, the nest removing station and the pre-filling needle sterile linkage line station in sequence on the pre-filling needle feeding conveying line from the pre-filling needle feeding station, and are output from the pre-filling needle sterile linkage line station to be filled into a plastic support conveyed from the buffering station.

The penicillin bottle feeding conveying line is provided with a penicillin bottle feeding station, a penicillin bottle labeling station, a penicillin bottle lamp detecting station and a penicillin bottle sterile linkage line station, the penicillin bottles are sequentially conveyed to the penicillin bottle labeling station, the penicillin bottle lamp detecting station and the penicillin bottle sterile linkage line station on the penicillin bottle feeding conveying line through the penicillin bottle feeding station, and the penicillin bottle sterile linkage line station outputs the penicillin bottles to be loaded into the plastic support conveyed by the buffering station.

The ampoule bottle feeding conveying line is provided with an ampoule bottle feeding station, an ampoule bottle printing station, an ampoule bottle lamp inspection station and an ampoule bottle sterile linkage line station, the ampoule bottles are sequentially conveyed to the ampoule bottle printing station, the ampoule bottle lamp inspection station and the ampoule bottle sterile linkage line station on the ampoule bottle feeding conveying line through the ampoule bottle feeding station, and the ampoule bottle sterile linkage line station is output and filled into a plastic support conveyed by a buffer station.

The plastic feeding support station is provided with a support closing station and a support stacking station, the plastic support after blanking is arranged on the support closing station to close the support, then the support stacking station is arranged on the support stacking station to stack the support, and then the plastic support is conveyed to the instruction adding station.

The automatic box packing machine is characterized in that a visual detection station, a weighing station and a box erecting station are arranged between a code making station and a wrapping station on a box packing conveying line, a first-level supervision code detection station is arranged at the rear end of the wrapping station, a box body after code spraying is detected at the visual detection station, rejected materials are removed at the visual detection station if code spraying is unqualified, the box body is conveyed to the box erecting station to carry out box erecting action if the code spraying is qualified, rejected materials are removed at the first-level supervision code detection station if the code spraying is unqualified, rejected materials are conveyed to the first-level supervision code detection station if the code spraying is unqualified, rejected materials are removed at the first-level supervision code detection station if the code spraying is unqualified, and the box body is conveyed to a box packing conveying line.

The boxing conveying line is provided with a middle boxing station, a second-level supervision code printing station, a large boxing station and a corner third-level supervision code pasting station, the box body is intensively loaded into the middle boxes at the middle boxing station, then the second-level supervision code printing station is used for printing the second-level supervision codes, each middle box is intensively loaded into the large boxing station, then the corner third-level supervision code pasting station is used for pasting the third-level supervision codes, and the large boxes enter the subsequent logistics conveying line.

Compared with the prior art, the invention has the advantages that:

the full-automatic medicine bottle packaging method has the advantages of high packaging speed, high intelligence degree and better protection on medicines. The product is divided into three series production lines of high speed (plastic supporting film traction conveying line), medium speed (boxing conveying line) and low speed (boxing conveying line) according to the productivity. The complete set of intelligent packaging system for labeling, bubble cap packing, coding, code scanning, boxing, stacking and logistics transferring is realized by the packaging material, the finished product logistics line and the SCADA system which are matched with the production line. By adopting the packaging method, the secondary pollution of operators to the pre-filling needle can be prevented, the labor cost is saved, the uniform and attractive packaging is realized, and the product storage convenience, the product quality and the qualification rate are improved.

Drawings

Fig. 1 is a station arrangement diagram of the fully automatic packaging method of medicine bottles of the present invention.

Fig. 2 is a flow chart of the fully automatic packaging method of the medicine bottle of the invention.

The reference numerals in the figures denote:

1. a traction conveying line; 101. a plastic supporting film feeding station; 102. a heating station; 103. a forming station; 104. a front traction station; 105. a vial feeding station; 1051. a pre-filling needle feeding conveying line; 10511. a pre-filling needle feeding station; 10512. caching a station; 10513. a pre-needle filling and labeling station; 10514. a nest removing station; 10515. a pre-filling needle sterile linkage line station; 1052. a penicillin bottle feeding conveying line; 10521. a penicillin bottle feeding station; 10522. labeling stations of the penicillin bottles; 10523. a penicillin bottle lamp detection station; 10524. a penicillin bottle sterile linkage line station; 1053. an ampoule bottle feeding conveying line; 10531. an ampoule bottle feeding station; 10532. an ampoule bottle printing station; 10533. an ampoule bottle lamp inspection station; 10534. an ampoule bottle sterile linkage line station; 106. a rear traction station; 107. a heat-sealing station; 108. a blanking station; 109. a molding detection station; 1011. a charging detection station; 1012. a waste removing station; 1013. an edge-trim grinding station; 1014. buffering the station; 2. boxing and conveying lines; 201. entering a plastic support station; 2011. closing a support station; 2012. stacking and supporting stations; 202. a specification adding station; 203. boxing station; 204. a code making station; 205. wrapping the station; 206. a visual inspection station; 207. a weighing station; 208. erecting a box station; 209. a first-level supervision code detection station; 3. a boxing conveying line; 301. a middle box filling station; 302. a second level supervisory code printing station; 303. a large box loading station; 304. and pasting a three-level supervision code station at the corner.

Detailed Description

The invention will be described in further detail below with reference to the drawings and specific examples.

As shown in fig. 1 and fig. 2, the full-automatic packaging method for medicine bottles of this embodiment includes a plastic supporting film traction conveying line 1, a boxing conveying line 2 and a boxing conveying line 3 which are butted in sequence, the plastic supporting film traction conveying line 1 is provided with a plastic supporting film mold feeding station 101, a heating station 102, a forming station 103, a front traction station 104, a medicine bottle feeding station 105, a rear traction station 106, a heat sealing station 107 and a blanking station 108, the boxing conveying line 2 is provided with a plastic supporting station 201, an instruction book adding station 202, a boxing station 203, a code making station 204 and a wrapping station 205, and specifically includes the following steps:

s1: the plastic supporting film is conveyed to a heating station 102 on a plastic supporting film traction conveying line 1 from a plastic supporting film feeding station 101;

s2: heating and softening the plastic supporting film at a heating station 102;

s3: the softened plastic supporting film is continuously conveyed to a forming station 103 by a traction conveying line 1;

s4: molding the softened plastic support film at a molding station 103 to form a plastic support matched with the shape of the medicine bottle;

s5: the plastic support is dragged by a front dragging station 104 and is conveyed to a medicine bottle feeding station 105;

s6: feeding medicine bottles at a medicine bottle feeding station 105, and putting the medicine bottles into a plastic support;

s7: the plastic support with the medicine bottles is continuously drawn by the rear drawing station 106 and is conveyed to the heat sealing station 107;

s8: heat-sealing the plastic support with the medicine bottles at a heat-sealing station 107;

s9: conveying the plastic support subjected to heat sealing to a blanking station 108 on a plastic support film traction conveying line 1;

s10: blanking at a blanking station 108 to form unit plastic supports with preset specifications;

s11: each unit plastic support is conveyed to enter the boxing conveying line 2 from the plastic support feeding station 201 and is conveyed to the specification adding station 202 from the boxing conveying line 2;

s12: adding the specification at a specification adding station 202 and conveying the specification to a boxing station 203 by a boxing conveying line 2;

s13: boxing the plastic supports at a boxing station 203 and conveying the plastic supports to a stacking station 204 by a boxing conveying line 2;

s14: the code spraying is carried out on the box body at the code making station 204 and the box body is conveyed to the wrapping station 205 by the box packing conveying line 2;

s15: wrapping or wrapping strips are carried out at a wrapping station 205 and are conveyed to a boxing conveying line 3 by a boxing conveying line 2;

s16: and (5) boxing on a boxing conveying line 3.

The invention provides a full-automatic packaging mode, which has the advantages of high packaging speed, high intelligent degree and better protection on medicines. The product is divided into three series production lines of high speed (plastic supporting film traction conveying line 1), medium speed (boxing conveying line 2) and low speed (boxing conveying line 3) according to the productivity. The complete set of intelligent packaging system for labeling, bubble cap packing, coding, code scanning, boxing, stacking and logistics transferring is realized by the packaging material, the finished product logistics line and the SCADA system which are matched with the production line. By adopting the packaging method, the secondary pollution of operators to the pre-filling needle can be prevented, the labor cost is saved, the uniform and attractive packaging is realized, and the product storage convenience, the product quality and the qualification rate are improved.

In this embodiment, a forming detection station 109 is arranged between the front traction station 104 and the medicine bottle feeding station 105, the plastic support is detected at the forming detection station 109, a charging detection station 1011 is arranged between the medicine bottle feeding station 105 and the rear traction station 106, the plastic support is detected at the charging detection station 1011, a waste removing station 1012 and a rim charge crushing station 1013 are arranged before the plastic support feeding station 201, the plastic support qualified in the preamble detection is continuously conveyed by the plastic support feeding station 201, the plastic support unqualified in the preamble detection is removed by the waste removing station 1012, and the rim charge formed in the preamble blanking is received by the rim charge crushing station 1013 for crushing. In the process, the front traction station 104 and the rear traction station 106 are matched for traction to enable the plastic support to continuously advance, the plastic support is detected and the unqualified plastic support is recorded in the forming detection station 109, the plastic support is detected and the unqualified plastic support filled in the medicine bottle is recorded in the charging detection station 1011, the unqualified plastic support detected at any time is rejected in the rejection station 1012, and the qualified rate of finished products is greatly improved.

In this embodiment, a buffer station 1014 is provided between the form inspection station 109 and the vial feeding station 105, and the plastic carriers are buffered at the buffer station 1014. The support is buffered in the buffering station 1014 to realize the buffering effect of the support, and the support can meet the requirements of different production speeds.

In this embodiment, the medicine bottle feeding station 105 is provided with a pre-filling needle feeding conveying line 1051, a penicillin bottle feeding conveying line 1052 and an ampoule bottle feeding conveying line 1053 which are respectively butted with the plastic supporting film traction conveying line 1. Three different product conveying lines are arranged at the medicine bottle feeding station 105, the automatic packaging machine can be used for full-automatic packaging of pre-filling needles, penicillin bottles and ampoule bottles, an independent packaging line does not need to be additionally configured, the effect of one machine with multiple purposes is achieved, and the cost is greatly saved.

In this embodiment, the pre-filling needle feeding conveying line 1051 is provided with a pre-filling needle feeding station 10511, a buffer station 10512, a pre-filling needle labeling station 10513, a nest removing station 10514 and a pre-filling needle sterile linkage line station 10515, the pre-filling needles are sequentially conveyed to the buffer station 10512, the pre-filling needle labeling station 10513, the nest removing station 10514 and the pre-filling needle sterile linkage line station 10515 on the pre-filling needle feeding conveying line 1051 from the pre-filling needle feeding station 10511, and are output from the pre-filling needle sterile linkage line station 10515 and are loaded into a plastic support conveyed by the buffer station 1014. When the pre-filling needle packaging is carried out, the pre-filling needle is sequentially conveyed to a caching station 10512, a pre-filling needle labeling station 10513 and a nest removing station 10514 from a pre-filling needle feeding station 10511 to be processed in corresponding procedures, and then enters a plastic support on a plastic support film traction conveying line 1 to finish subsequent packaging after being processed by a pre-filling needle sterile linkage line station 10515, so that the operation is convenient and reliable.

In this embodiment, a penicillin bottle feeding conveyor 1052 is provided with a penicillin bottle feeding station 10521, a penicillin bottle labeling station 10522, a penicillin bottle lamp detecting station 10523 and a penicillin bottle sterile linkage line station 10524, the penicillin bottles are sequentially conveyed to the penicillin bottle labeling station 10522, the penicillin bottle lamp detecting station 10523 and the penicillin bottle sterile linkage line station 10524 from the penicillin bottle feeding station 10521 on the penicillin bottle feeding conveyor 1052, and the penicillin bottles are output from the penicillin bottle sterile linkage line station 10524 and loaded into the plastic support conveyed by the buffer station 1014. When the penicillin bottle is packaged, the penicillin bottle is sequentially conveyed to a penicillin bottle labeling station 10522 and a penicillin bottle lamp detecting station 10523 from a penicillin bottle feeding station 10521 to be processed in corresponding procedures, and then the penicillin bottle is processed through a penicillin bottle sterile linkage line station 10524 and then enters a plastic support on a plastic support film traction conveying line 1 to finish subsequent packaging, so that the operation is convenient and reliable.

In this embodiment, the ampoule bottle feeding conveying line 1053 is provided with an ampoule bottle feeding station 10531, an ampoule bottle printing station 10532, an ampoule bottle lamp inspection station 10533, and an ampoule bottle sterile linkage line station 10534, the ampoule bottles are conveyed to the ampoule bottle printing station 10532, the ampoule bottle lamp inspection station 10533, and the ampoule bottle sterile linkage line station 10534 in sequence from the ampoule bottle feeding station 10531 on the ampoule bottle feeding conveying line 1053, and are output from the ampoule bottle sterile linkage line station 10534 and loaded into the plastic tray conveyed from the buffer station 1014. When packaging the ampoule bottles, the ampoule bottle feeding station 10531 sequentially conveys the ampoule bottles to the ampoule bottle printing station 10532 and the ampoule bottle lamp inspection station 10533 for corresponding process treatment, and then the ampoule bottles are treated by the ampoule bottle sterile linkage line station 10534 and then enter the plastic support on the plastic support film traction conveying line 1 to finish subsequent packaging, so that the packaging machine is convenient and reliable to operate.

In this embodiment, it holds in the palm to advance to mould to be provided with on the station 201 and closes to hold in the palm the station 2011 and fold and hold in the palm the station 2012, and the support is closed in closing to mould after the blanking holds in the palm the station 2011 and holds in the palm, then stacks and hold in the palm the station 2012 and carry to add the description station 202. In this process, advance to mould and hold in the palm station 201 and be provided with to close and hold in the palm station 2011 and fold and hold in the palm station 2012, mould after the blanking and hold in the palm and close and hold in the palm station 2011 and close and hold in the palm, then hold in the palm station 2012 and fold and hold in the palm in folding to guarantee to mould and hold in the palm integration and stromatolite, realize packing in batches.

In this embodiment, a visual detection station 206, a weighing station 207 and a box erecting station 208 are arranged on the boxing conveying line 2 between the code making station 204 and the wrapping station 205, a first-level supervision code detection station 209 is arranged at the rear end of the wrapping station 205, a box body after code spraying is detected at the visual detection station 206, waste is removed at the visual detection station 206 when code spraying is unqualified, the box body after code spraying is qualified is conveyed to the weighing station 207 for weighing, waste is removed at the weighing station 207 when code spraying is unqualified, box erecting action is carried out when code spraying is qualified, box body detection of wrapping or wrapping strips is carried out at the first-level supervision code detection station 209, waste is removed at the first-level supervision code detection station 209 when wrapping or wrapping strips are unqualified, and the box body is conveyed to the boxing conveying line 3 when wrapping or wrapping strips are qualified. In the process, a visual detection station 206, a weighing station 207 and a box erecting station 208 are arranged between a code making station 204 and a wrapping station 205, the box body after code spraying is detected at the visual detection station 206, reject is carried out at the visual detection station 206 when code spraying is unqualified, so that the product percent of pass is improved, the box body after code spraying is qualified is conveyed to the weighing station 207 for weighing, reject is carried out at the weighing station 207 when code spraying is unqualified, so that the percent of pass is further improved, box erecting action is carried out at the box erecting station 208, so that the bar code on the tongue cover of the box body can be displayed, then primary supervision code detection is carried out at the primary supervision code detection station 209, reject is carried out at the primary supervision code detection station 209 when the code spraying is unqualified, and the box body is conveyed to a boxing conveying.

In this embodiment, be provided with the vanning station 301 on the vanning transfer chain 3, second grade supervision code prints station 302, big vanning station 303 and tertiary supervision code station 304 is pasted at the corner, the box body is in the concentrated vanning station 301 of packing into the middlings, then carries out the printing of second grade supervision code at second grade supervision code print station 302, and each middlings is in the concentrated big vanning station 303 of packing into the big case, then pastes tertiary supervision code at the corner and pastes tertiary supervision code station 304 and system, and the big case gets into follow-up commodity circulation transfer chain again. In the process, the box body performs the middle box loading action at the middle box loading station 301, then the middle box is printed with the second-level supervision codes, the middle box with the second-level supervision codes is loaded into a large box in batch, the corner of the large box is pasted with the third-level supervision codes, the large box with the third-level supervision codes is bound in batch, a large bound box group is stacked by using a stacker crane, and finally the large stacked box group is conveyed to a designated place through a logistics conveying line.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention, using the teachings disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. The full-automatic packaging method for the medicine bottles is characterized by comprising a plastic supporting film traction conveying line (1), a boxing conveying line (2) and a boxing conveying line (3) which are sequentially butted, wherein a plastic supporting film mold feeding station (101), a heating station (102), a forming station (103), a front traction station (104), a medicine bottle feeding station (105), a rear traction station (106), a heat sealing station (107) and a blanking station (108) are arranged on the plastic supporting film traction conveying line (1), a plastic supporting station (201), a specification adding station (202), a boxing station (203), a code making station (204) and a wrapping station (205) are arranged on the boxing conveying line (2), and the full-automatic packaging method specifically comprises the following steps:

s1: the plastic supporting film is conveyed to a heating station (102) on a plastic supporting film traction conveying line (1) from a plastic supporting film feeding station (101);

s2: heating and softening the plastic supporting film at a heating station (102);

s3: the softened plastic supporting film is continuously conveyed to a forming station (103) by a traction conveying line (1);

s4: molding the softened plastic support film at a molding station (103) to form a plastic support matched with the shape of the medicine bottle;

s5: the plastic support is dragged by a front dragging station (104) and is conveyed to a medicine bottle feeding station (105);

s6: feeding medicine bottles at a medicine bottle feeding station (105) to enable the medicine bottles to be placed in a plastic support;

s7: the plastic support with the medicine bottles is continuously drawn by a rear drawing station (106) and is conveyed to a heat sealing station (107);

s8: heat-sealing the plastic support with the medicine bottles at a heat-sealing station (107);

s9: conveying the plastic support subjected to heat sealing to a blanking station (108) on a plastic support film traction conveying line (1);

s10: blanking at a blanking station (108) to form unit plastic supports with preset specifications;

s11: each unit plastic support is conveyed to enter a boxing conveying line (2) from a plastic support feeding station (201) and is conveyed to a specification adding station (202) from the boxing conveying line (2);

s12: adding a specification at a specification adding station (202) and conveying the specification to a boxing station (203) by a boxing conveying line (2);

s13: boxing the plastic supports at a boxing station (203) and conveying the plastic supports to a stacking station (204) by a boxing conveying line (2);

s14: the code spraying is carried out on the box body at the code making station (204) and the box body is conveyed to the wrapping station (205) by the box packing conveying line (2);

s15: wrapping or wrapping the strip at a wrapping station (205) and conveying the strip to a boxing conveying line (3) by a boxing conveying line (2);

s16: and boxing is carried out on the boxing conveying line (3).

2. The fully automatic packaging method for medicine bottles of claim 1, characterized in that: a forming detection station (109) is arranged between a front traction station (104) and a medicine bottle feeding station (105), a plastic support is detected at the forming detection station (109), a charging detection station (1011) is arranged between the medicine bottle feeding station (105) and a rear traction station (106), the plastic support is detected at the charging detection station (1011), a waste removing station (1012) and a rim charge crushing station (1013) are arranged before the plastic support feeding station (201), the qualified plastic support is detected by the preamble and is continuously conveyed by the plastic support feeding station (201), the unqualified plastic support is detected by the waste removing station (1012), and the rim charge formed by the preamble blanking is received by the rim charge crushing station (1013) and is crushed.

3. The full-automatic packaging method for medicine bottles according to claim 2, characterized in that: a buffer station (1014) is arranged between the forming detection station (109) and the medicine bottle feeding station (105), and the plastic support is buffered at the buffer station (1014).

4. The full-automatic packaging method for medicine bottles according to claim 3, characterized in that: a pre-filling needle feeding conveying line (1051), a penicillin bottle feeding conveying line (1052) and an ampoule bottle feeding conveying line (1053) which are respectively butted with the plastic supporting film traction conveying line (1) are arranged on the medicine bottle feeding station (105).

5. The fully automatic packaging method for medicine bottles of claim 4, characterized in that: the pre-filling needle feeding conveying line (1051) is provided with a pre-filling needle feeding station (10511), a caching station (10512), a pre-filling needle labeling station (10513), a nest removing station (10514) and a pre-filling needle sterile linkage line station (10515), the pre-filling needles are sequentially conveyed to the caching station (10512), the pre-filling needle labeling station (10513), the nest removing station (10514) and the pre-filling needle sterile linkage line station (10515) on the pre-filling needle feeding conveying line (1051) through the pre-filling needle feeding station (10511), and the pre-filling needle sterile linkage line station (10515) outputs and fills plastic holders conveyed by the buffering station (1014).

6. The fully automatic packaging method for medicine bottles of claim 4, characterized in that: the penicillin bottle feeding conveying line (1052) is provided with a penicillin bottle feeding station (10521), a penicillin bottle labeling station (10522), a penicillin bottle lamp detecting station (10523) and a penicillin bottle sterile linkage line station (10524), the penicillin bottles are sequentially conveyed to the penicillin bottle labeling station (10522), the penicillin bottle lamp detecting station (10523) and the penicillin bottle sterile linkage line station (10524) from the penicillin bottle feeding station (10521) on the penicillin bottle feeding conveying line (1052), and the penicillin bottle sterile linkage line station (10524) outputs plastic trays conveyed by the buffer station (1014).

7. The fully automatic packaging method for medicine bottles of claim 4, characterized in that: the ampoule bottle feeding conveying line (1053) is provided with an ampoule bottle feeding station (10531), an ampoule bottle printing station (10532), an ampoule bottle lamp inspection station (10533) and an ampoule bottle sterile linkage line station (10534), the ampoule bottles are sequentially conveyed to the ampoule bottle printing station (10532), the ampoule bottle lamp inspection station (10533) and the ampoule bottle sterile linkage line station (10534) through the ampoule bottle feeding station (10531) on the ampoule bottle feeding conveying line (1053), and the ampoule bottle sterile linkage line station (10534) outputs plastic holders conveyed by the buffer station (1014).

8. The full-automatic packaging method for medicine bottles according to any one of claims 1 to 7, characterized in that: it holds in the palm to advance to be provided with on station (201) to close and hold in the palm station (2011) and fold and hold in the palm station (2012), and mould after the blanking hold in the palm and close and hold in the palm station (2011) and close and hold in the palm, then hold in the palm station (2012) and fold and hold in the palm in folding, carry out to add description station (202) then.

9. The full-automatic packaging method for medicine bottles according to any one of claims 1 to 7, characterized in that: a visual detection station (206), a weighing station (207) and a box erecting station (208) are arranged between the code making station (204) and the wrapping station (205) on the box packing conveying line (2), a first-level supervision code detection station (209) is arranged at the rear end of the wrapping station (205), the box body after code spraying is detected at the visual detection station (206), the box body after code spraying is unqualified, the box body is rejected at the visual detection station (206), the box body after code spraying is qualified is conveyed to the weighing station (207) for weighing, the box body after code spraying is unqualified, the box body is rejected at the weighing station (207), the box body is conveyed to the box erecting station (208) for box erecting action after the box body is qualified, the box body detection of the wrapping or wrapping strip is carried out at the first-level supervision code detection station (209), the rejection is carried out at the first-level supervision code detection station (209) if the wrapping or wrapping strip is unqualified, and the box body is conveyed to the boxing conveying line (3) if the wrapping or wrapping strip is qualified.

10. The full-automatic packaging method for medicine bottles according to any one of claims 1 to 7, characterized in that: the boxing device is characterized in that a middle boxing station (301), a second-level supervision code printing station (302), a large boxing station (303) and a corner pasting three-level supervision code station (304) are arranged on the boxing conveying line (3), a box body is intensively packaged into a middle box at the middle boxing station (301), then the second-level supervision code printing is carried out at the second-level supervision code printing station (302), each middle box is intensively packaged into a large box at the large boxing station (303), then the corner pasting three-level supervision code station (304) is used for carrying out three-level supervision code pasting, and the large box enters a subsequent logistics conveying line.

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