CN103129014A

CN103129014A - Transfusion soft bag production line

Info

Publication number: CN103129014A
Application number: CN2013100919596A
Authority: CN
Inventors: 霍本洪
Original assignee: Truking Technology Ltd
Current assignee: Truking Technology Ltd
Priority date: 2013-03-21
Filing date: 2013-03-21
Publication date: 2013-06-05
Anticipated expiration: 2033-03-21
Also published as: CN103129014B; WO2014146567A1

Abstract

The invention discloses a transfusion soft bag production line. The transfusion soft bag production line comprises a filling assembly and a welding cover assembly which are arranged sequentially according to work positions, wherein a sealing film assembly used for sealing an easy-tearing film at an opening end of a welding cover is arranged after the work position of the welding cover assembly. The transfusion soft bag production line has the advantages of lowering production cost, improving the quality of products, and the like.

Description

Infusion soft bag production line

Technical field

The present invention relates generally to the medical packaging mechanical field, refers in particular to a kind of infusion soft bag production line.

Background technology

At present, the technical process of infusion soft bag production line is all generally first transfusion flexible bag to be carried out can, welding cap then, direct output after welding cap is completed.In the welding cap operation, general way is welding draw-ring type combination cover at present, and the draw-ring type combination cover is comprised of inner cap, middle plug and draw ring enclosing cover.Because the material of draw ring enclosing cover is more expensive, can improve production cost; And the draw ring enclosing cover uses quite inconvenient easily because misoperation breaks.The welding cap operation that the infusion segment soft bag product line is also arranged at present is welding break-off type combination cover, but the break-off type combination cover needs larger breaking force to open, and has increased the difficulty of clinical use.

Summary of the invention

The technical problem to be solved in the present invention is: the deficiency for prior art exists provides a kind of and reduces production costs, the infusion soft bag production line that improves the quality of products.

For solving the problems of the technologies described above, the present invention by the following technical solutions:

A kind of infusion soft bag production line comprises the can assembly, the welding cap assembly that set gradually by station, also is provided with the sealer assembly at the openend envelope easily tore film of institute's welding cap after the station of described welding cap assembly.

As a further improvement on the present invention:

Described sealer assembly comprises: the film volume is used for providing the film band; Defeated membrane module is used for the film band on the film volume is transferred out; Rush film mechanism, be used for determining diaphragm as easily tore film in the film band upper punch that transfers out; Delivery mechanism is used for the diaphragm that stamping-out goes out is taken out and delivers to the openend of lid; Weldering film mechanism is for diaphragm being soldered to the openend of lid.

The plastic film residue collect mechanism that described defeated membrane module comprises for the film feeding mechanism that the film band on film volume is sent and the film band that is used for that film feeding mechanism is sent is regained, rushes film mechanism and plastic film residue collect mechanism is arranged successively along the film tape feeding direction at described film volume, film feeding mechanism.

Described film feeding mechanism comprises film feeding drive roll and the driven cylinder of film feeding that is pressed in film band both sides; Perhaps, described film feeding mechanism comprises two press mold members that can compress or unclamp the film band and is used for driving the film feeding actuator that one of them press mold member moves back and forth along the film tape feeding direction.

Described plastic film residue collect mechanism comprises the winder reel with rotary power.

Described rush also be provided with between film mechanism and winder reel can rely on general who has surrendered's film band tensioning under gravity when the film feeding mechanism film feeding and when winder reel winder the holder of tunicle band the film belt tensioning drum that rises.

Described defeated membrane module comprises the filming-drawing mechanism of pulling out for the film band on film volume, described film volume, rushes film mechanism and filming-drawing mechanism is arranged successively along the film tape feeding direction.

Described filming-drawing mechanism comprises membrane drive roll and the driven cylinder of membrane that is pressed in film band both sides; Perhaps, the described filming-drawing mechanism encoder that comprises with the membrane reel of rotary power and be used for membrane length is measured.

Described defeated membrane module also comprises more than one for the guide pulley that the film band is led.

Described sealer assembly also comprises for the sealer detent mechanism that transfusion flexible bag is positioned.

Described sealer detent mechanism comprises Locating driver spare and is used for coordinating with the interface sidewall contact of transfusion flexible bag the keeper of the open end maintenance level that makes lid, and described keeper is driven mobile by Locating driver spare.

Described delivery mechanism comprises vacuum suction head, the first actuator and the second actuator; described vacuum suction head is driven by the first actuator and moves up and down drawing diaphragm from rushing film mechanism, and described vacuum suction head is driven by the second actuator and moves forward and backward diaphragm to be delivered to the openend of lid.

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

1, infusion soft bag production line of the present invention, set up the sealer assembly after the station of welding cap assembly, replace draw-ring type enclosing cover or break-off type enclosing cover by the openend envelope easily tore film at lid, reduced production cost, and easily tore film is easily torn, reduce the clinical use difficulty of transfusion flexible bag, further improved product quality.

2, infusion soft bag production line of the present invention, its sealer assembly can be realized sealing online easily tore film, and simple in structure, be easy to control.

Description of drawings

Fig. 1 is the structural representation of the embodiment of the present invention 1.

Fig. 2 is the view of sealer assembly before sealer of the embodiment of the present invention 1.

Fig. 3 is the view of sealer assembly when sealer of the embodiment of the present invention 1.

Fig. 4 is the structural representation of the sealer assembly of the embodiment of the present invention 2.

Fig. 5 is the structural representation of the sealer assembly of the embodiment of the present invention 3.

Fig. 6 is the structural representation of the sealer assembly of the embodiment of the present invention 4.

Marginal data: 1, bag transfer assembly; 11, transfusion flexible bag; 12, bag geometrical clamp; 13, lid; 14, diaphragm; 2, can assembly; 3, welding cap assembly; 4, sealer assembly; 41, film volume; 411, film band; 42, rush film mechanism; 43, delivery mechanism; 431, vacuum suction head; 432, the first actuator; 433, the second actuator; 44, weldering film mechanism; 441, weldering mould head; 45, sealer detent mechanism; 451, keeper; 452, Locating driver spare; 46, film feeding mechanism; 461, film feeding drive roll; 462, the driven cylinder of film feeding; 463, press mold member; 464, film feeding actuator; 47, plastic film residue collect mechanism; 471, winder reel; 48, film belt tensioning drum; 49, filming-drawing mechanism; 491, membrane drive roll; 492, the driven cylinder of membrane; 493, membrane reel; 494, encoder; 5, output assembly; 6, ash can; 7, guide pulley.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Embodiment 1:

As shown in Figure 1, infusion soft bag production line of the present invention comprises for the bag transfer assembly 1 that transmits transfusion flexible bag 11 and along direction of transfer and the can assembly 2 that sets gradually by station, welding cap assembly 3, sealer assembly 4 and the output assembly 5 of bag transfer assembly 1.The bag transfer assembly 1 comprise conveyer belt and be installed on conveyer belt the bag geometrical clamp 12.Can assembly 2 is used for transfusion flexible bag 11 is carried out can; Welding cap assembly 3 is used for welding lid 13 on the interface of transfusion flexible bag 11, is plugged with seal rubber plug in lid 13, and the top end opening of lid 13; Sealer assembly 4 is used at the openend envelope easily tore film of lid 13.

As shown in Figure 2 and Figure 3, in the present embodiment, sealer assembly 4 comprises: film volume 41 is used for providing film band 411; Defeated membrane module is used for the film band 411 on film volume 41 is transferred out; Rush film mechanism 42, be used for determining diaphragm 14 as easily tore film in film band 411 upper punches that transfer out; Delivery mechanism 43 is used for the diaphragm 14 that stamping-out goes out is taken out and delivers to the openend of lid 13; Weldering film mechanism 44 is for diaphragm 14 being soldered to the openend of lid 13.

Film volume 41, defeated membrane module, rush film mechanism 42, delivery mechanism 43 and weldering film mechanism 44 is installed on the frame (not shown) of transfusion flexible bag.Wherein, film volume 41 and rush the side that film mechanism 42 is positioned at transfusion flexible bag 11; Delivery mechanism 43 and weldering film mechanism 44 are positioned at the top of transfusion flexible bag 11.In other embodiments, for realize film volume 41, defeated membrane module, rush film mechanism 42, linking and cooperation between delivery mechanism 43 and weldering film mechanism 44, their position relationship can be also other situations.

Film volume 41 is made of the film band 411 that is wound on rotatable cylinder.Rush the stamping-out cutter that is provided with in film mechanism 42 by air cylinder driven, can determine diaphragm 14 in film band 411 upper punches that navigate within rushing film mechanism 42, rush film mechanism 42 and be existing conventional blanking mechanism, its concrete structure just repeats no more at this.Delivery mechanism 43 adopts the mode of vacuum suction to draw diaphragm 14, and it comprises vacuum suction the 431, first actuator 432 and the second actuator 433; The first actuator 432 is used for driving vacuum suction 431 and moves up and down, to draw stamping-outs diaphragm 14 out from rushing film mechanism 42; The second actuator 433 is used for driving vacuum suction 431 and moves forward and backward, diaphragm 14 is delivered to the openend of lid 13.Weldering film mechanism 44 comprises weldering mould 441 and is used for driving weldering mould 441 a weldering film actuator (not shown) that move up and down.

In the present embodiment, sealer assembly 4 also comprises sealer detent mechanism 45, is used for transfusion flexible bag 11 is carried out horizontal location, makes the open end maintenance level of transfusion flexible bag 11, so that the sealer operation.The Locating driver spare 452 that sealer detent mechanism 45 comprises keeper 451 and is used for driving keeper 451 relative transfusion flexible bag 11 translations.When implementing the location, Locating driver spare 452 drives keeper 451 and moves to transfusion flexible bag 11, makes keeper 451 contact cooperation with the interface sidewall of transfusion flexible bag 11 and the diapire of bag geometrical clamp 12, so that the open end of lid 13 keeps level.

In the present embodiment, the plastic film residue collect mechanism 47 that defeated membrane module comprises for the film feeding mechanism 46 that the film band 411 on film volume 41 is sent and the film band 411 that is used for that film feeding mechanism 46 is sent is regained; Film volume 41, film feeding mechanism 46, rush film mechanism 42 and plastic film residue collect mechanism 47 is arranged successively along the throughput direction of film band 411.

In the present embodiment, film feeding mechanism 46 comprises film feeding drive roll 461 and the driven cylinder 462 of film feeding that is pressed in film band 411 both sides, film feeding drive roll 461 band rotary powers are sent film band 411 forward by the frictional force between film feeding drive roll 461 and the driven cylinder 462 of film feeding and film band 411.Plastic film residue collect mechanism 47 comprises the winder reel 471 with rotary power, by the rotation of winder reel 471, the slitter edge film band 411 of stamping-out can be wound up on winder reel 471, thereby realize the recovery of film band 411.

In the present embodiment, but rush between film mechanism 42 and winder reel 471 and also be provided with the film belt tensioning drum 48 that easy on and off moves, film feeding mechanism 46 is often sent the film band 411 of one section fixed length, and film belt tensioning drum 48 just relies on Action of Gravity Field decline one segment distance of self, with 411 tensionings of film band; When film belt tensioning drum 48 dropped to predetermined extreme lower position, winder reel 471 rotation winders were being held in the palm film belt tensioning drum 48 tunicle bands 411 and are risen to predetermined highest order.

As shown in Figure 2 and Figure 3, defeated membrane module comprises also more than one that the guide pulley 7(the present embodiment that is used for film band 411 is led is 4), the layout that can make each mechanism is compact and reasonable more.

The course of work of the present embodiment: Figure 2 shows that the original state that sealer is front, the transfusion flexible bag 11 after 3 confirmations of welding cap assembly are qualified is delivered to sealer assembly 4 by bag transfer assembly 1, and as Fig. 3,45 actions of sealer detent mechanism are carried out horizontal location to transfusion flexible bag 11; Meanwhile, rush the upwards action of stamping-out cutter of film mechanism 42, determine diaphragm 14 in film band 411 upper punches that navigate within rushing film mechanism 42.Then the first actuator 432 is descending, makes vacuum suction 431 draw diaphragm 14, the first actuators 432 up again, and the second actuator 433 proceeds to transfusion flexible bag 11 tops, and the first actuator 432 is descending again, and diaphragm 14 and the lid 13 on transfusion flexible bag 11 are fitted.Then weld the film actuator descending, the weldering mould 441 by the heating uniform temperature is applied on diaphragm 14, diaphragm 14 heat seals is welded on the lid 13 of transfusion flexible bag 11.Weld afterwards the film actuator up, simultaneously, the first actuator 432 is up, and the second actuator 433 is retracted into above die mechanism, waits for sealer do action next time.In welding diaphragm 14, when the stamping-out cutter that rushes film mechanism 42 makes progress after stamping-out goes out diaphragm 14, the stamping-out cutter moves downwards, and film band 411 is walked fixed length under the effect of film feeding drive roll 461 and the driven cylinder 462 of film feeding; 411, slitter edge film band after stamping-out has been under the Action of Gravity Field of film belt tensioning drum 48, and is progressively descending.After stamping-out repeatedly, when film belt tensioning drum 48 dropped to predetermined extreme lower position, the winder reel 471 useless films of action rollings made film belt tensioning drum 48 up; When film belt tensioning drum 48 moved to predetermined extreme higher position, winder reel 471 stopped action.Motion and so forth.

Embodiment 2:

As shown in Figure 4, the structure of the present embodiment and embodiment 1 are basically identical, and difference is: film feeding mechanism 46 comprises two press mold members 463 that can compress or unclamp film band 411 and is used for driving the film feeding actuator 464 that one of them press mold member 463 moves back and forth along film band 411 throughput directions.The below take near the press mold member 463 that rushes film mechanism 42 as front press mold member, roll up 41 press mold member 463 near film and describe for rear press mold member.When the stamping-out cutter that rushes film mechanism 42 makes progress after stamping-out goes out diaphragm 14, the stamping-out cutter moves downwards; Then front press mold member compresses film band 411, and simultaneously rear press mold member unclamps film band 411, and under the effect of film feeding actuator 464, front press mold member moves forward, and film band 411 is sent forward; After arriving setting feed length, rear press mold member compresses film band 411, and front press mold member unclamps film band 411, and film feeding actuator 464 is return with front press mold member, completes the film feeding cycle one time.All the other courses of work are consistent with embodiment 1.

Embodiment 3:

As shown in Figure 5, the structure of the present embodiment and embodiment 1 are basically identical, difference is: defeated membrane module comprises the filming-drawing mechanism 49 of pulling out for the film band 411 on film volume 41, film volume 41, rushes film mechanism 42 and filming-drawing mechanism 49 is arranged successively along film band 411 throughput directions.By filming-drawing mechanism 49 directly from the film volume 41 membrane realize that the conveying of film band 411, filming-drawing mechanism 49 pull out each feeding length that the length of film band 411 is film band 411 at every turn.

In the present embodiment, the encoder 494 that filming-drawing mechanism 49 comprises with the membrane reel 493 of rotary power and is used for membrane length is measured.By the rotary power of membrane reel 493, film band 411 is pulled out from film volume 41, and be wound up on membrane reel 493, can realize simultaneously conveying and the recovery of film band 411.Its membrane length is controlled by being located near film volume 41 encoders 494, and during 493 rotation of membrane reel, 494 pairs of membrane length of encoder are measured; After arriving the preseting length value, membrane reel 493 quits work, and completes the feeding of a film band 411.

Embodiment 4:

As shown in Figure 6, the structure of the present embodiment and embodiment 3 are basically identical, difference is: filming-drawing mechanism 49 comprises membrane drive roll 491 and the driven cylinder 492 of membrane that is pressed in film band 411 both sides, wherein, membrane drive roll 491 band rotary powers are pulled out film band 411 by the frictional force between membrane drive roll 491 and the driven cylinder 492 of membrane and film band 411.Film band 411 is walked fixed length under the effect of membrane drive roll 491 and the driven cylinder 492 of membrane, the slitter edge film band 411 after stamping-out directly enters in ash can 6.

Be only below the preferred embodiment of the present invention, protection scope of the present invention also not only is confined to above-described embodiment, and all technical schemes that belongs under thinking of the present invention all belong to protection scope of the present invention.Should be pointed out that for those skilled in the art, the some improvements and modifications not breaking away under principle of the invention prerequisite should be considered as protection scope of the present invention.

Claims

1. infusion soft bag production line, comprise the can assembly (2), the welding cap assembly (3) that set gradually by station, it is characterized in that: also be provided with the sealer assembly (4) at the openend envelope easily tore film of institute's welding cap (13) after the station of described welding cap assembly (3).

2. infusion soft bag production line according to claim 1, is characterized in that, described sealer assembly (4) comprising: film volume (41) is used for providing film band (411); Defeated membrane module is used for the film band (411) on film volume (41) is transferred out; Rush film mechanism (42), for the diaphragm (14) of determining in film band (411) upper punch that transfers out as easily tore film; Delivery mechanism (43) is used for the diaphragm (14) that stamping-out goes out is taken out and delivers to the openend of lid (13); Weldering film mechanism (44) is for diaphragm (14) being soldered to the openend of lid (13).

3. infusion soft bag production line according to claim 2, it is characterized in that: the plastic film residue collect mechanism (47) that described defeated membrane module comprises for the film feeding mechanism (46) that the film band (411) on film volume (41) is sent and the film band (411) that is used for that film feeding mechanism (46) is sent is regained, described film volume (41), film feeding mechanism (46), rush film mechanism (42) and plastic film residue collect mechanism (47) is arranged successively along film band (411) throughput direction.

4. infusion soft bag production line according to claim 3, it is characterized in that: described film feeding mechanism (46) comprises film feeding drive roll (461) and the driven cylinder of film feeding (462) that is pressed in film band (411) both sides; Perhaps, described film feeding mechanism (46) comprises two press mold members (463) that can compress or unclamp film band (411) and is used for driving the film feeding actuator (464) that one of them press mold member (463) moves back and forth along film band (411) throughput direction.

5. according to claim 3 or 4 described infusion soft bag production lines, it is characterized in that: described plastic film residue collect mechanism (47) comprises the winder reel (471) with rotary power.

6. infusion soft bag production line according to claim 5 is characterized in that: described rush also be provided with between film mechanism (42) and winder reel (471) can rely under gravity (411) tensioning of general who has surrendered's film band when film feeding mechanism (46) film feeding and when winder reel (471) winder tunicle band (411) holding in the palm the film belt tensioning drum (48) that rises.

7. infusion soft bag production line according to claim 2, it is characterized in that: described defeated membrane module comprises the filming-drawing mechanism (49) of pulling out for the film band (411) on film volume (41), described film volume (41), rushes film mechanism (42) and filming-drawing mechanism (49) is arranged successively along film band (411) throughput direction.

8. infusion soft bag production line according to claim 7, it is characterized in that: described filming-drawing mechanism (49) comprises membrane drive roll (491) and the driven cylinder of membrane (492) that is pressed in film band (411) both sides; Perhaps, described filming-drawing mechanism (49) encoder (494) that comprises with the membrane reel (493) of rotary power and be used for membrane length is measured.

9. according to claim 3 or 7 described infusion soft bag production lines is characterized in that: described defeated membrane module also comprises and is used for guide pulley (7) that film band (411) is led more than one.

10. infusion soft bag production line according to claim 2, it is characterized in that: described sealer assembly (4) also comprises for the sealer detent mechanism (45) that transfusion flexible bag (11) is positioned.

11. infusion soft bag production line according to claim 10, it is characterized in that: the keeper (451) that described sealer detent mechanism (45) comprises Locating driver spare (452) and is used for coordinating with the interface sidewall contact of transfusion flexible bag (11) the open end maintenance level that makes lid (13), described keeper (451) is driven mobile by Locating driver spare (452).

12. infusion soft bag production line according to claim 2; it is characterized in that: described delivery mechanism (43) comprises vacuum suction head (431), the first actuator (432) and the second actuator (433); described vacuum suction head (431) is driven by the first actuator (432) and moves up and down to draw diaphragm (14) from rushing film mechanism (42), and described vacuum suction head (431) is driven by the second actuator (433) and moves forward and backward diaphragm (14) to be delivered to the openend of lid (13).