CN103156772B - A kind of infusion vessel and production method thereof - Google Patents

Abstract

A kind of infusion vessel, comprise a sealed container, sealed container two ends are respectively arranged with first pipe and second mouthful of pipe, and first pipe outer end is provided with adapter, and adapter comprises sealing member, sealing member lower end is connected with first pipe outer end seal, be provided with perforator in sealing member upper side, perforator is made up of the pipe fitting with sharp end, and sharp end points to above sealing member, perforator is communicated with first pipe and is communicated with, and is arranged with sealing sheath outside sharp end.Sealing sheath is outside equipped with protective sleeve.Produce a method for above-mentioned infusion vessel, comprise blowing or injection moulding obtains bottle, utilize welding cap machine at one end welded seal part on mouth pipe, utilize filling machine by the upper adapter of welding after another port pipe fill solution.Structure of the present invention is simple, and assembly is quick, and production cost is low, is applicable to carrying out redissolve operation to multiple cillin bottle medicine, decreases the risk that foreign body that puncture exfoliation brings is mixed into medicinal liquid simultaneously.Drug safety can be improved and alleviate national medicine valency burden.

Description

A kind of infusion vessel and production method thereof

Technical field:

The present invention relates to packing technique, particularly relate to medical sealed container, particularly infusion preparation sealed container, particularly a kind of infusion vessel and production method thereof.

Background technology:

In pharmaceuticals industry, often need multiple medicine to mix in backward organism to discharge.The married operation of medicine requires to carry out under aseptic conditions.Particularly antibiotic, as injectable powder, is stored in cillin bottle, needs to dissolve with the aseptic lysate of normal saline or glucose during use.In prior art, when mixed dissolution antibiotic and lysate, need first with syringe, lysate to be extracted out from infusion vessel, inject cillin bottle, after shape medicine dissolution in cillin bottle, then with syringe, medicinal liquid is extracted out in injection infusion vessel from cillin bottle, if need multi-medicament together to coordinate administration, then repeatedly must carry out above operating process, make the process of making up a prescription loaded down with trivial details, complicated, and easily pollute.For solving the problem in prior art, propose the infusion vessel from Belt connector, preset lysate in infusion vessel, two perforator is placed with in adapter, during use, the bottle stopper of the cillin bottle of drug loading aimed at a needle point in the perforator of two and apply pressure in opposite directions, two perforator in adapter pierces through the bottle stopper of the cillin bottle of drug loading and the hermetic unit of infusion vessel, make cillin bottle and infusion vessel by the duct UNICOM in the perforator of two, inverting container can make lysate enter in cillin bottle to dissolve medicine, when container overturns again, infusion vessel got back to by medicinal liquid after dissolving, simplify dispensing operation.But this kind is from the infusion vessel complex manufacturing technology of Belt connector, production cost is high, and wherein two perforator of interconnect function needs the sealing member piercing through infusion vessel to be communicated with two containers, add the risk that the foreign body that brings of puncture exfoliation is mixed into medicinal liquid.

Describe infusion vessel and connector assembly in the flat 7-213587 of Japanese Patent Laid-Open in same mould, to be blow molded into one, to settle plug through lysate fill, infusion vessel oral area, configure the manufacture method from Belt connector infusion vessel of two perforator again.It is few from the assembly of Belt connector infusion vessel that the method is produced, but the container of this manufacturing process and adapter all carry out molding in same mould, manufacturing equipment complex and expensive, production cost are high also exists the problem needing skilled operation and fine adjustment when producing.And the flat 5-317383 of Japanese Patent Laid-Open also been proposed a kind of method, making infusion vessel and adapter are assembled again respectively, and two perforator is arranged in the connectors, the complex structure of adapter, assembly is many, and packaging technology is loaded down with trivial details, and production cost is high.And with this type of infusion vessel complete cillin bottle medicament dissolution operation after, take out cillin bottle time, two perforator is likely extracted by the traction of cillin bottle from the seal rubber plug of the oral area of lysate container, there is the risk of leakage, pollution, therefore this infusion vessel is not suitable for the dissolving operation several cillin bottle medicine being carried out to repetition.

Summary of the invention:

The object of the present invention is to provide a kind of infusion vessel, described this infusion vessel will solve in prior art from the infusion vessel complex manufacturing technology of Belt connector, existence puncture exfoliation risk, perforator easily unexpected technical problem of extracting from lysate container.

This infusion vessel of the present invention, comprise a sealed container, wherein, one end of described sealed container is provided with a first pipe, the other end of sealed container is provided with one second mouthful pipe, described first pipe and second mouthful of pipe are separately and the inner space of sealed container, the outer end of first pipe is provided with an adapter, described adapter comprises a sealing member, the lower end of described sealing member is connected with the outer end seal of first pipe, a perforator is provided with in the upper side of sealing member, described perforator is made up of the pipe fitting that has sharp end, the sharp end of described pipe fitting points to the top of sealing member, more than one passage is provided with in pipe fitting, first pipe on the downside of the sharp end of the equal connecting pipe of the passage described in any one and sealing member, a sealing sheath is provided with outside pipe fitting.

Further, the upper end of described sealing member is provided with an over cap or protective sleeve, and described sealing sheath is at described over cap or between protective sleeve and sealing member.

Further, described over cap or protective sleeve are connected with sealing member by the fixed form of screw thread or hasp, and the medial surface of over cap or protective sleeve is adjacent with described sealing sheath or contact.

Further, adapter and sealing member comprise perforator is integral structure.

Further, adapter comprises an enclosing cover and a sealing gasket, and described sealing member is arranged in described enclosing cover, and described sealing gasket is arranged between enclosing cover and sealing member, and perforator is upward through enclosing cover, and enclosing cover is connected with first pipe.

Further, described sealed container is made up of a bottle, and described first pipe is arranged on the upper end of described bottle, and second mouthful of described pipe is arranged on the lower end of bottle, the bottom of second mouthful of pipe is provided with a seal cover, and the lower surface of described seal cover is plane.

Further, the diameter of the lower surface of described seal cover or area are greater than upper surface diameter or the area of seal cover.

Further, described sealed container is made up of a soft bag, and described first pipe is arranged on the upper end of described soft bag, and second mouthful of described pipe is arranged on the lower end of soft bag, and the bottom of second mouthful of pipe is provided with a seal cover or sealing-plug.

Further, adapter is outside equipped with a suspender, described suspender inverted U, the two ends of suspender separately with adapter or the outer wall of sealing member or the outer wall of sealed container hinged.

Further, described bottle is formed by blowing or injection moulding by the flexible polymeric polymer of the above number of one deck.

Further, the outer end of described adapter or the lower end of sealing member and first pipe seals welding by thermal weld or ultrasonic bonding mode.

Further, described perforator and described sealing member are coaxially arranged.

Further, described adapter comprises a tubular element, the seal diaphragm that described sealing member is disposed radially by described tubular element is formed, and seal diaphragm is connected with the outer end seal of first pipe, and described perforator is arranged in the upper side of described seal diaphragm.

Further, be provided with at least two projections or a circular protrusion in the inwall on described tubular element top, described projection uniform intervals is distributed in one circumferentially, and projection or circular protrusion are all positioned at the top of described seal diaphragm.

Further, described over cap or be provided with revolute pair between protective sleeve and described sealing member, and be provided with axial limit structure.

Further, described over cap or be fixed by helical structure or hasp structure between protective sleeve and described sealing member.

Further, described macromolecular material is polypropylene or polyethylene or polyolefin resin or cyclic polyolefin or polrvinyl chloride, or the mixture that materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed.

Further, described sealing member is by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride, or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride passes through injection mo(u)lding.

Further, described perforator is by hard polypropylene or by hard polyethylene or by hard vistanex or by stiff annular polyolefin or by RPVC, or the mixture be made up of material two or more arbitrarily in hard polypropylene, hard polyolefin resin, stiff annular polyolefin and RPVC is formed, or is made up of stainless steel material.

Further, described sealing sheath is made up of rubber or silica gel or thermoelastic material.

Further; described over cap or protective sleeve are by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride; or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed, or is made up of metal material.

Present invention also offers a kind of method of producing above-mentioned infusion vessel, described method comprises the steps:

First step, is blown by bottle blowing equipment or obtains by injection-moulding device injection moulding the hollow bottle that two ends are respectively provided with a mouth pipe, or obtaining by the welding of film material the soft bag that two ends are respectively provided with a mouth pipe,

Second step, carries out cutting shaping to the bottle of molding or the mouth pipe portion of soft bag,

Third step, utilize the mouth pipe of the first sealed bottle body of welding cap machine or soft bag one end, then filling machine is utilized by remaining mouth pipe to fill solution in bottle or soft bag, seal this remaining mouthful of pipe again, when sealing above-mentioned two mouth pipes, sealing member with perforator is welded on one of them mouthful of pipe

4th step, carries out sterilizing, drying to the bottle of the good solution of fill or soft bag.

5th step, fixed spreader on the bottle after sterilizing-drying or soft bag,

Before carrying out described third step, over cap or protective sleeve are connected on the sealing member with perforator, or after completing third step, over cap or protective sleeve are connected on the sealing member with perforator.

Operation principle of the present invention is: water for injection, the aseptic lysate sealing of normal saline or glucose is kept in infusion vessel, during use, remove the sheath on infusion vessel in adapter outside perforator, the central part of the seal rubber plug of the cillin bottle of built-in injectable powder is made to aim at perforator, perforator is made to insert cillin bottle cillin bottle pressure, spin upside down bottle, extrusion bottle makes aseptic lysate enter in cillin bottle to dissolve medicine, medicinal liquid after dissolving is again overturn by container and enters infusion vessel from cillin bottle, now cillin bottle remains on above adapter, before being convenient to infusion treatment, medicine used is confirmed again.Need the occasion that the multiple medicine being loaded into cillin bottle is dissolved, the cillin bottle used is pulled up from perforator, perforator is inserted the cillin bottle loading another kind of medicine, repeat above operation, the lysate in infusion vessel just can dissolve multi-medicament.

Compared with the prior art, its effect is actively with obvious in the present invention.The present invention is outwards provided with a single head perforator on the sealing member of infusion vessel Single port pipe, without the need to piercing through the sealing member of infusion vessel during use, decrease the risk that the foreign body that brings of puncture exfoliation is mixed into medicinal liquid, structure is simple, assembly is quick, production cost is low, and is suitable for the dissolving operation multiple cillin bottle medicine being carried out to repetition.Production method of the present invention is all more economical than any one processing method so far, and production cost is low, can alleviate national medicine valency burden.

Accompanying drawing illustrates:

Fig. 1 be in the present invention one adopt soft bag as the structural representation of the embodiment of sealed container.

Fig. 2 be in the present invention one adopt soft bag as the using state schematic diagram of the embodiment of sealed container.

Fig. 3 is one of the present invention and adopts bottle as the structural representation of the embodiment of sealed container.

Fig. 4 is one of the present invention and adopts bottle as the using state schematic diagram of the embodiment of sealed container.

Fig. 5 is the structural representation of the suspender in the present invention.

Fig. 6 is the structural representation of the adapter of employing Split type structure in the present invention.

Fig. 7 is the structural representation of an embodiment of tubular element in the adapter in the present invention.

Fig. 8 is the structural representation of an embodiment of sealing member in the adapter in the present invention.

Fig. 9 is the structural representation of the sealing gasket in the adapter in the present invention.

Figure 10 is the structural representation of an embodiment of over cap in the present invention.

Figure 11 is the structural representation of the sealing sheath in the present invention.

Figure 12 is the structural representation of the seal cover in the present invention.

Figure 13 is that of the present invention another adopts bottle as the structural representation of the embodiment of sealed container.

Figure 14 be embodiment illustrated in fig. 13 in the structural representation of protective sleeve.

Figure 15 be embodiment illustrated in fig. 13 in the structural representation of adapter.

Figure 16 be embodiment illustrated in fig. 13 in the cross-sectional view of adapter.

Figure 17 be embodiment illustrated in fig. 13 in adapter in the structural representation of enclosing cover.

Figure 18 is the schematic diagram of the adapter of an employing integral structure embodiment illustrated in fig. 13.

Detailed description of the invention:

Embodiment 1:

As depicted in figs. 1 and 2, infusion vessel of the present invention, comprise a sealed container 1, sealed container 1 is made up of a soft bag, wherein, one end of sealed container 1 is provided with a first pipe 2, the other end of sealed container 1 is provided with second mouthful of pipe 3, first pipe 2 and second mouthful of pipe 3 are separately and the inner space of sealed container 1, the outer end of first pipe 2 is provided with an adapter 4, adapter 4 comprises a sealing member 5, the lower end of sealing member 5 is connected with the outer end seal of first pipe 2, a perforator 6 is provided with in the upper side of sealing member 5, perforator 6 is made up of the pipe fitting that has sharp end, the sharp end of pipe fitting points to the top of sealing member 5, two parallel passages are provided with in pipe fitting, first pipe 2 on the downside of the sharp end of the equal connecting pipe of any one passage and sealing member 5, a sealing sheath 7 is provided with outside pipe fitting.Figure 11 illustrates the shape of sealing sheath 7.

The bottom of second mouthful of pipe 3 is provided with a seal cover or sealing-plug.

Embodiment 2:

As shown in Figure 3 and Figure 4, infusion vessel of the present invention, comprise a sealed container 1, sealed container 1 is made up of a bottle, wherein, one end of sealed container 1 is provided with a first pipe 2, the other end of sealed container 1 is provided with second mouthful of pipe 3, first pipe 2 and second mouthful of pipe 3 are separately and the inner space of sealed container 1, the outer end of first pipe 2 is provided with an adapter 4, adapter 4 comprises a sealing member 5, the lower end of sealing member 5 is connected with the outer end seal of first pipe 2, a perforator 6 is provided with in the upper side of sealing member 5, perforator 6 is made up of the pipe fitting that has sharp end, the sharp end of pipe fitting points to the top of sealing member 5, more than one passage is provided with in pipe fitting, first pipe 2 on the downside of the sharp end of the equal connecting pipe of any one passage and sealing member 5, a sealing sheath 7 is provided with outside pipe fitting.Figure 11 illustrates the shape of sealing sheath 7.

The bottom of second mouthful of pipe 3 is provided with a seal cover 8, and the lower surface of seal cover 8 is plane.Further, the diameter of the lower surface of seal cover 8 or area are greater than upper surface diameter or the area of seal cover 8, can be convenient to bottle like this and stand.Figure 12 illustrates the shape of an embodiment of seal cover 8.

Further, bottle is formed by blowing or injection moulding by the flexible polymeric polymer of the above number of one deck.

Described macromolecular material is polypropylene or polyethylene or polyolefin resin or cyclic polyolefin or polrvinyl chloride, or the mixture that materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, in embodiment 1 and embodiment 2, the upper end of sealing member 5 is provided with an over cap or protective sleeve 9, and sealing sheath 7 is at over cap or between protective sleeve 9 and sealing member 5.Figure 10 illustrates the shape of an embodiment of over cap or protective sleeve 9.

Further, over cap or protective sleeve 9 are connected with sealing member 5 by the fixed form of screw thread or hasp, and the medial surface of over cap or protective sleeve 9 is adjacent with sealing sheath 7 or contact.

Further, adapter 4 is outside equipped with a suspender 12, suspender 12 inverted U, the two ends of suspender 12 separately with adapter 4 or the outer wall of sealing member 5 or the outer wall of sealed container 1 hinged.Fig. 5 illustrates the shape of an embodiment of suspender 12.

Further, the lower end of adapter 4 or sealing member 5 and the outer end of first pipe 2 seal welding by thermal weld or ultrasonic bonding mode.

Further, perforator 6 and sealing member 5 are coaxially arranged.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 6 and Fig. 7, adapter 4 comprises a tubular element 10, the seal diaphragm that sealing member 5 is disposed radially by tubular element 10 is formed, seal diaphragm is connected with the outer end seal of first pipe 2, and perforator 6 is arranged in the upper side of seal diaphragm.When tubular element 10 can prevent sealed container 1 from surprisingly falling down, perforator 6 is polluted.

Further, be provided with at least two projections 13 or a circular protrusion in the inwall on tubular element 10 top, projection 13 uniform intervals is distributed in one circumferentially, and projection 13 or circular protrusion are all positioned at the top of seal diaphragm.Projection 13 or circular protrusion are for locating cillin bottle 14.

As shown in Fig. 3, Fig. 4, Fig. 6, Fig. 7, Fig. 8 and Fig. 9, adapter 4 adopts Split assembled structure, adapter 4 comprises tubular element 10 and a sealing gasket 11, a seal diaphragm has been disposed radially in tubular element 10, sealing member 5 is arranged in tubular element 10, the below of seal diaphragm, sealing gasket 11 is arranged between seal diaphragm and sealing member 5, and perforator 6 is upward through seal diaphragm, and tubular element 10 is connected with first pipe 2.

Further, over cap or be provided with revolute pair between protective sleeve 9 and sealing member 5, and be provided with axial limit structure.

Further, over cap or be fixed by helical structure or hasp structure between protective sleeve 9 and sealing member 5.

Further, sealing member 5 is by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride, or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride passes through injection mo(u)lding.

Further, perforator 6 is by hard polypropylene or by hard polyethylene or by hard vistanex or by stiff annular polyolefin or by RPVC, or the mixture be made up of material two or more arbitrarily in hard polypropylene, hard polyolefin resin, stiff annular polyolefin and RPVC is formed, or is made up of stainless steel material.

Further, sealing sheath 7 is made up of rubber or silica gel or thermoelastic material.

Further; over cap or protective sleeve 9 are by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride; or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed, or is made up of metal material.

Embodiment 3

Figure 13 illustrates of the present invention another and adopts bottle as the structure of sealed container.As shown in Figure 13, Figure 14, Figure 15, Figure 16 and Figure 17, adapter 4 is connected on first pipe 2, adapter 4 adopts Split type structure, adapter 4 comprises enclosing cover 15 and sealing gasket 11, sealing member 5 is arranged in enclosing cover 15, sealing gasket 11 is arranged between enclosing cover 15 and sealing member 5, and perforator 6 is upward through enclosing cover 15, and enclosing cover 15 is connected with first pipe 2.

As shown in figure 18, adapter 4 adopts integral structure, and perforator 6, sealing member 5 are injection molded into entirety with enclosing cover 15.

Present invention also offers a kind of method of producing above-mentioned infusion vessel, comprise the steps:

First step, is blown by bottle blowing equipment or obtains by injection-moulding device injection moulding the hollow bottle that two ends are respectively provided with a mouth pipe, or obtaining by the welding of film material the soft bag that two ends are respectively provided with a mouth pipe,

Second step, carries out cutting shaping to the bottle of molding or the mouth pipe portion of soft bag,

Third step, utilize the mouth pipe of the first sealed bottle body of welding cap machine or soft bag one end, then filling machine is utilized by remaining mouth pipe to fill solution in bottle or soft bag, seal this remaining mouthful of pipe again, when sealing above-mentioned two mouth pipes, sealing member 5 with perforator 6 is welded on one of them mouthful of pipe

4th step, carries out sterilizing, drying to the bottle of the good solution of fill or soft bag.

5th step, fixed spreader 12 on the bottle after sterilizing-drying or soft bag.

Before carrying out described third step, over cap or protective sleeve 9 are connected on the sealing member 5 with perforator 6, or after completing third step, over cap or protective sleeve 9 are connected on the sealing member 5 with perforator 6.

Further, in third step, utilize welding cap machine first to seal second mouthful of pipe 3, then utilizing filling machine by first pipe 2 to fill solution in bottle or soft bag, utilizing welding cap machine, the sealing member 5 with perforator 6 being welded on first pipe 2.

Operation principle of the present invention is: water for injection, the aseptic lysate sealing of normal saline or glucose is kept in infusion vessel, during use, remove the sheath in adapter 4 outside perforator 6 on infusion vessel, the central part of the seal rubber plug of the cillin bottle 14 of built-in injectable powder is made to aim at perforator 6, perforator 6 is made to insert cillin bottle 14 cillin bottle 14 pressure, spin upside down bottle, extrusion bottle makes aseptic lysate enter in cillin bottle 14 to dissolve medicine, medicinal liquid after dissolving is again overturn by container and enters infusion vessel from cillin bottle 14, now cillin bottle 14 remains on above adapter 4, before being convenient to infusion treatment, medicine used is confirmed again.Need the occasion that the multiple medicine being loaded into cillin bottle 14 is dissolved, the cillin bottle 14 used is pulled up from perforator 6, perforator 6 is inserted the cillin bottle 14 loading another kind of medicine, repeat above operation, the lysate in infusion vessel just can dissolve multi-medicament.

Claims (18)

1. an infusion vessel, comprise a sealed container, it is characterized in that: one end of described sealed container is provided with a first pipe, the other end of sealed container is provided with one second mouthful pipe, described first pipe and second mouthful of pipe are separately and the inner space of sealed container, the outer end of first pipe is provided with an adapter, described adapter comprises a sealing member, the lower end of described sealing member is connected with the outer end seal of first pipe, a perforator is provided with in the upper side of sealing member, described perforator is made up of the pipe fitting that has sharp end, the sharp end of described pipe fitting points to the top of sealing member, more than one passage is provided with in pipe fitting, first pipe on the downside of the sharp end of the equal connecting pipe of the passage described in any one and sealing member, a sealing sheath is provided with outside pipe fitting, the upper end of described sealing member is provided with an over cap or protective sleeve, described sealing sheath is at described over cap or between protective sleeve and sealing member, described adapter comprises a tubular element, the seal diaphragm that described sealing member is disposed radially by described tubular element is formed, seal diaphragm is connected with the outer end seal of first pipe, described perforator is arranged in the upper side of described seal diaphragm, at least two projections or a circular protrusion is provided with in the inwall on described tubular element top, described projection uniform intervals is distributed in one circumferentially, projection or circular protrusion are all positioned at the top of described seal diaphragm, described over cap or be provided with revolute pair between protective sleeve and described sealing member, and be provided with axial limit structure, described over cap or pass through helical structure between protective sleeve and described sealing member, or hasp structure is fixed.

2. infusion vessel as claimed in claim 1, is characterized in that: described over cap or protective sleeve are connected with sealing member by the fixed form of screw thread or hasp, and the medial surface of over cap or protective sleeve is adjacent with described sealing sheath or contact.

3. infusion vessel as claimed in claim 1, is characterized in that: it is integral structure that adapter and sealing member comprise perforator.

4. infusion vessel as claimed in claim 1, it is characterized in that: adapter comprises an enclosing cover and a sealing gasket, and described sealing member is arranged in described enclosing cover, and described sealing gasket is arranged between enclosing cover and sealing member, perforator is upward through enclosing cover, and enclosing cover is connected with first pipe.

5. infusion vessel as claimed in claim 1, it is characterized in that: described sealed container is made up of a bottle, described first pipe is arranged on the upper end of described bottle, second mouthful of described pipe is arranged on the lower end of bottle, the bottom of second mouthful of pipe is provided with a seal cover, and the lower surface of described seal cover is plane.

6. infusion vessel as claimed in claim 5, is characterized in that: the diameter of the lower surface of described seal cover or area are greater than upper surface diameter or the area of seal cover.

7. infusion vessel as claimed in claim 1, it is characterized in that: described sealed container is made up of a soft bag, described first pipe is arranged on the upper end of described soft bag, second mouthful of described pipe is arranged on the lower end of soft bag, and the bottom of second mouthful of pipe is provided with a seal cover or sealing-plug.

8. infusion vessel as claimed in claim 1, is characterized in that: adapter is outside equipped with a suspender, described suspender inverted U, the two ends of suspender separately and adapter or the outer wall of sealing member or the outer wall of sealed container hinged.

9. infusion vessel as claimed in claim 5, is characterized in that: described bottle is formed by blowing or injection moulding by the flexible polymeric polymer of the above number of one deck.

10. infusion vessel as claimed in claim 1, is characterized in that: the outer end of described adapter or the lower end of sealing member and first pipe seals welding by thermal weld or ultrasonic bonding mode.

11. infusion vessels as claimed in claim 1, is characterized in that: described perforator and described sealing member are coaxially arranged.

12. infusion vessels as claimed in claim 9, it is characterized in that: described macromolecular material is polypropylene or polyethylene or polyolefin resin or cyclic polyolefin or polrvinyl chloride, or the mixture that materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed.

13. infusion vessels as claimed in claim 1, it is characterized in that: described sealing member is by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride, or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride passes through injection mo(u)lding.

14. infusion vessels as claimed in claim 1, it is characterized in that: described perforator is by hard polypropylene or by hard polyethylene or by hard vistanex or by stiff annular polyolefin or by RPVC, or the mixture be made up of material two or more arbitrarily in hard polypropylene, hard polyolefin resin, stiff annular polyolefin and RPVC is formed, or is made up of stainless steel material.

15. infusion vessels as claimed in claim 1, is characterized in that: described sealing sheath is made up of rubber or silica gel or thermoelastic material.

16. infusion vessels as claimed in claim 1; it is characterized in that: described over cap or protective sleeve are by polypropylene or by polyethylene or by vistanex or by cyclic polyolefin or by polrvinyl chloride; or the mixture be made up of materials two or more arbitrarily in polypropylene, polyolefin resin, cyclic polyolefin and polrvinyl chloride is formed, or is made up of metal material.

17. 1 kinds of methods of producing infusion vessel as claimed in claim 1, is characterized in that: described method comprises the steps:

First step, is blown by bottle blowing equipment or obtains by injection-moulding device injection moulding the hollow bottle that two ends are respectively provided with a mouth pipe, or obtaining by the welding of film material the soft bag that two ends are respectively provided with a mouth pipe,

Second step, carries out cutting shaping to the bottle of molding or the mouth pipe portion of soft bag,

Third step, utilize the mouth pipe of the first sealed bottle body of welding cap machine or soft bag one end, then filling machine is utilized by remaining mouth pipe to fill solution in bottle or soft bag, seal this remaining mouthful of pipe again, when sealing above-mentioned two mouth pipes, sealing member with perforator is welded on one of them mouthful of pipe

4th step, carries out sterilizing, drying to the bottle of the good solution of fill or soft bag;

5th step; fixed spreader on bottle after sterilizing-drying or soft bag; before carrying out described third step; over cap or protective sleeve are connected on the sealing member with perforator; or after completing third step, over cap or protective sleeve are connected on the sealing member with perforator.

The production method of 18. infusion vessels as claimed in claim 17, it is characterized in that: in described third step, welding cap machine is utilized first to seal second mouthful of pipe, then utilizing filling machine by first pipe to fill solution in bottle or soft bag, utilizing welding cap machine, the sealing member with perforator being welded on first pipe.