CN202440291U - Blowing and potting integral machine adopting partitioning laminar flow - Google Patents
Blowing and potting integral machine adopting partitioning laminar flow Download PDFInfo
- Publication number
- CN202440291U CN202440291U CN2011205582693U CN201120558269U CN202440291U CN 202440291 U CN202440291 U CN 202440291U CN 2011205582693 U CN2011205582693 U CN 2011205582693U CN 201120558269 U CN201120558269 U CN 201120558269U CN 202440291 U CN202440291 U CN 202440291U
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- laminar flow
- blowing
- embedding
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Abstract
The utility model discloses a blowing and potting integral machine adopting partitioning laminar flow, which comprises a feeding assembly, an extruding forming assembly and a potting assembly arrayed according to a working procedure, wherein the feeding assembly is arranged in a feeding area; the extruding forming assembly is arranged in a blowing area; the potting assembly is arranged in a potting area; the potting area is separated from the feeding area and the blowing area through a first interlayer; the potting area is arranged in a first space with an A-level cleaning degree; the feeding area and the blowing area are arranged in a second space with a B-level cleaning degree; and a partition wall is arranged between the first space and the second space. The blowing and potting integral machine adopting partitioning laminar flow has the advantages of more reasonable layout, capability of improving working cleaning degree and product quality, and the like.
Description
Technical field
The utility model is mainly concerned with the medical packaging apparatus field, refers in particular to a kind of embedding all-in-one that blows.
Background technology
Ampoule bottle mainly as the Packaging Bottle of medical injection, processed by glass by traditional ampoule bottle, and it is frangible, be not easy to transportation and recycle; And need utilize apparatuses such as emery wheel that the neck portion of bottle is broken into pieces in use and open, scratch operator's hand or gloves easily, bring injury to the operator; Moment in uncork also is prone to produce glass chip; Pollute the operating table surface environment, glass chip also might get into and cause liquid medicine contamination in the ampoule bottle, brings numerous potential safety hazards.
Along with the continual renovation of medical package apparatus is regenerated; Increasing infusion solutions packing begins to substitute for plastics (is main with PC and PP); Ampoule bottle has also been developed plastic ampoule, and plastic ampoule just progressively substitutes the existing glass ampoule bottle with the high advantage of its safety.
In field of pharmaceutical machinery; Existing plastic ampoule blows embedding all-in-one train line the production procedure of plastic ampoule is mainly contained pan feeding, extrudes operations such as system bottle, embedding and clout excision; Promptly accomplish feeding at material feeding region, extruding the district accomplishes the embedding assembly extrude the system bottle, then the ampoule bottle card of processing to be sent to the embedding district and accomplish filling and sealing through the blowing assembly after through the pan feeding assembly; Be resent to the cross cutting station and carry out the excision of bottle card clout, finally obtain having the bottle card finished product (can single ampoule bottle be twisted off out during use) of a plurality of ampoule bottles from bottle card finished product.
At present, in said structure, pan feeding, blowing and can district are all in same clean room; And in the can district, the sterilization process of can syringe needle needs artificial interventional procedure, is easy to generate pollution risk, has influence on the cleanliness of filling space, finally influences product design.
The utility model content
The technical matters that the utility model will solve just is: to the technical matters that prior art exists, the utility model provide a kind of layout more rationally, can improve work cleanliness and product design employing subregion laminar flow blow the embedding all-in-one.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
A kind of adopt the subregion laminar flow blow the embedding all-in-one; Comprise pan feeding assembly, extrusion molding assembly and filling components according to array of procedures, said pan feeding assembly is arranged in material feeding region, and said extrusion molding assembly is arranged in the blowing district; Said filling components is arranged in the embedding district; Separate through first interlayer between said embedding district and material feeding region and the blowing district, said embedding district is arranged in first space with A level cleanliness, and said material feeding region, blowing district are arranged in second space with B level cleanliness; Be provided with partition wall between said first space and second space, said A level cleanliness is higher than B level cleanliness.
Further improvement as the utility model:
Said filling components comprises medicine liquid tank and fill head, and said fill head is in the clean cabin, and said clean cabin is provided with and is used for extracting the clean cabin laminar flow blower fan that pure air is protected with formation laminar flow in clean cabin in first space.
Separate through second interlayer in said material feeding region and blowing district, and the top in said blowing district is provided with and is used for extracting pure air in second space forms laminar flow in the blowing district blowing district laminar flow blower fan.
The pressure by air pressure relation is in said each zone: clean cabin>the embedding district>first space>the blowing district>material feeding region>second space.
Compared with prior art, the advantage of the utility model is: the employing subregion laminar flow of the utility model blow the embedding all-in-one, simple and compact for structure, rationally distributed, through each station is arranged in the different zones, to improve the cleanliness of its working environment; Simultaneously,, carry out the laminar flow protection respectively, finally improve the product design of complete machine according to the actual cleanliness requirement of each station.
Description of drawings
Fig. 1 is the principle schematic of the utility model.
Marginal data
1, clean cabin laminar flow blower fan; 2, blowing district laminar flow blower fan; 3, first interlayer; 4, second interlayer; 5, clean cabin; 7, medicine liquid tank; 8, fill head; 9, pan feeding assembly; 10, extrusion molding assembly; 11, filling components; 12, first space; 13, second space; 14, material feeding region; 15, blowing district; 16, embedding district.
The specific embodiment
Below will combine Figure of description and specific embodiment that the utility model is explained further details.
As shown in Figure 1; The employing subregion laminar flow of the utility model blow the embedding all-in-one; Comprise pan feeding assembly 9, extrusion molding assembly 10 and filling components 11 according to array of procedures, pan feeding assembly 9 is arranged in material feeding region 14, and extrusion molding assembly 10 is arranged in blowing district 15; Filling components 11 is arranged in embedding district 16, separates through first interlayer 3 between embedding district 16 and material feeding region 14 and the blowing district 15; Wherein, embedding district 16 is arranged in first space 12 with A level cleanliness, and material feeding region 14, blowing district 15 are arranged in second space 13 with B level cleanliness, and cleanliness A will be higher than cleanliness B.Be provided with the partition wall (not shown) between first space 12 and second space 13.First space 12 can be different spaces with second space 13, through partition wall two separated by spaces is come.So just making has the filling components 11 of high request and whole embedding district 16 all to be in first space 12 that cleanliness is the A level to clean environment, and extrusion molding assembly 10, pan feeding assembly 9 all are in second space 13 that cleanliness is the B level.Air pressure in first space 12 is greater than the air pressure in second space 13, to guarantee flowing of air-flow.
In the present embodiment, filling components 11 comprises medicine liquid tank 7 and fill head 8, and fill head 8 is in the clean cabin 5, and clean cabin 5 is provided with and is used for extracting the clean cabin laminar flow blower fan 1 that pure air is protected with formation laminar flow in clean cabin 5 in first space 12.Promptly; In embedding district 16; Fill head 8 is enclosed in the clean cabin 5; The independent space of clean cabin 5 for forming once more in the embedding district 16, and to extract interior cleanliness in first space 12 by clean cabin laminar flow blower fan 1 through high efficiency particulate air filter be that the air of A level forms laminar flow clean cabin 5 in, and fill head 8 formation secondary laminar flows are protected.Simultaneously, the bactericidal unit steam cup of fill head 8 can be delivered to the below of fill head 8 automatically through online equipment, removes automatically again after finishing cleaning and sterilizing, and whole process will need not artificial intervention, can not pollute risk.
In the present embodiment, in second space 13, material feeding region 14 is separated through second interlayer 4 with blowing district 15.The top in blowing district 15 is provided with blowing district laminar flow blower fan 2, and it is that the air of B level forms laminar flow blowing district 15 in that blowing district laminar flow blower fan 2 extracts cleanlinesss in second space 13 through high efficiency particulate air filter, and blowing district 15 formation laminar flows are protected.Laminar flow blast in the blowing district 15 be slightly less than in first space 12 air pressure and greater than the air pressure in second space 13, to guarantee flowing of air-flow.
In the said structure, each regional atmospheric pressure relation is: clean cabin 5>embedding district 16>first space 12>blowing district 15>material feeding region 14>second space 13.Be that each regional gas flow is as shown in Figure 1; Flow to embedding district 16 by clean cabin 5, flow to first space 12, flow to blowing district 15 by first space 12 by embedding district 16; Flow to material feeding region 14 by blowing district 15; Flow to second space 13 by material feeding region 14, form air pressure laminar flows at different levels, the strictest assurance the formation of sterile production technology.
Below only be the preferred implementation of the utility model, the protection domain of the utility model also not only is confined to the foregoing description, and all technical schemes that belongs under the utility model thinking all belong to the protection domain of the utility model.Should be pointed out that for those skilled in the art,, should be regarded as the protection domain of the utility model in the some improvement and the retouching that do not break away under the utility model principle prerequisite.
Claims (4)
- One kind adopt the subregion laminar flow blow the embedding all-in-one; Comprise pan feeding assembly (9), extrusion molding assembly (10) and filling components (11) according to array of procedures; Said pan feeding assembly (9) is arranged in material feeding region (14); Said extrusion molding assembly (10) is arranged in blowing district (15), and said filling components (11) is arranged in embedding district (16), it is characterized in that: separate through first interlayer (3) between said embedding district (16) and material feeding region (14) and blowing district (15); Said embedding district (16) is arranged in first space (12) with A level cleanliness; Said material feeding region (14), blowing district (15) are arranged in second space (13) with B level cleanliness, are provided with partition wall between said first space (12) and second space (13), and said A level cleanliness is higher than B level cleanliness.
- 2. employing subregion laminar flow according to claim 1 blow the embedding all-in-one; It is characterized in that: said filling components (11) comprises medicine liquid tank (7) and fill head (8); Said fill head (8) is in the clean cabin (5), and said clean cabin (5) is provided with and is used for extracting the clean cabin laminar flow blower fan (1) that pure air is protected with formation laminar flow in clean cabin (5) in first space (12).
- 3. employing subregion laminar flow according to claim 2 blow the embedding all-in-one; It is characterized in that: said material feeding region (14) is separated through second interlayer (4) with blowing district (15), and the top in said blowing district (15) is provided with and is used for extracting the middle pure air in second space (13) forms laminar flow in blowing district (15) blowing district laminar flow blower fan (2).
- 4. blow the embedding all-in-one according to claim 2 or 3 described employing subregion laminar flows; It is characterized in that the pressure by air pressure relation is in said each zone: clean cabin (5)>embedding district (16)>first space (12)>blowing district (15)>material feeding region (14)>second space (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011205582693U CN202440291U (en) | 2011-12-28 | 2011-12-28 | Blowing and potting integral machine adopting partitioning laminar flow |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011205582693U CN202440291U (en) | 2011-12-28 | 2011-12-28 | Blowing and potting integral machine adopting partitioning laminar flow |
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CN202440291U true CN202440291U (en) | 2012-09-19 |
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CN2011205582693U Expired - Lifetime CN202440291U (en) | 2011-12-28 | 2011-12-28 | Blowing and potting integral machine adopting partitioning laminar flow |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103183302A (en) * | 2013-04-27 | 2013-07-03 | 楚天科技股份有限公司 | Filling machine |
-
2011
- 2011-12-28 CN CN2011205582693U patent/CN202440291U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103183302A (en) * | 2013-04-27 | 2013-07-03 | 楚天科技股份有限公司 | Filling machine |
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Granted publication date: 20120919 |