CN1600290A - Automatic production line for large transfusion flexible bag with dual chambers and tubes made from non-PVC membrane - Google Patents

Abstract

An automatic production line for the perfusion bag with dual cavities and dual tubes and made of film other than PVC film is composed of machine frame and 17 units sequentially arranged on machine frame, including film feede, printer, connecting tube conveyer, shaper, primary fusing unit, etc.

Description

The two-tube non-PVC film soft-bag large-infusion automatic assembly line in two chambers

Technical field:

The present invention relates to pharmacy package packing machine field, be specifically related to a kind of pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber.

Background technology:

At present, existing transfusion bag is made up of bag, medicine discharging nozzle, medicine mixing mouth and adapter, and it has only a charging room, and can only adorn a kind of medicinal liquid.Because infusion solutions is generally normal saline or nutritional solution and therapeutic medicinal liquid, can not load in mixture for a long time together, in use could be with therapeutic medicinal liquid (as aqueous injection) with syringe with in it suction transfusion bag.Need adopt disposable syringe to make up a prescription during use, both increase the man-hour of making up a prescription, increase use cost again, very inconvenient during use, particularly when first aid, can delay valuable rescue time, might cause serious consequence, also can produce the possibility of mismatch medicine simultaneously.

Summary of the invention:

Technical problem to be solved by this invention is the defective that overcomes above-mentioned prior art, the two-tube non-PVC film soft-bag large-infusion automatic assembly line in two chambers in the different chamber in the same transfusion bag of infusion solutions and therapeutic agent can being packed into when a kind of production is provided.

The present invention solves the problems of the technologies described above by following technical scheme.It is characterized in that it comprises the film feeding parts, the lettering parts, take over transfer unit, molded component, weak weldering parts, take over welding assembly, the bag separating component, the bag transfer member, automatic upper connecting tube parts, advance bag parts, solder joint member is taken in curative filling parts or powder pin chamber, send plunger member, the plug plunger member, the infusion filling parts, the bag taking parts, bag transfer unit and bag output block, above-mentioned each parts all are loaded on the rack unit, be arranged in different stations in regular turn, wherein the upper connecting tube parts place weak weldering parts and take over the welding assembly opposite automatically, send plunger member to be positioned at a bag transfer unit next door, the bag output block is positioned at a bag transfer unit exit position.

Described lettering parts comprise backing plate, lettering template and hot plate, and backing plate is fixed on the base plate, and putting on it has non-PVC film, the backing plate top is provided with lettering template and hot plate, both fit mutually, and hot plate links to each other with pressing plate, and pressing plate joins with the cylinder piston rod that is fixed on the wallboard; On non-PVC film, colour band is housed, its direction is vertical with the non-PVC film direction of motion.

Described bag molded component comprises shaping cylinder, hot plate, patrix and counterdie, and supporting plate cylinder, shaping cylinder are fixed on the fixing head, become to be symmetrical arranged up and down, and the supporting plate cylinder links to each other with the supporting plate connecting rod, and the holder lamina membranacea is housed on the supporting plate connecting rod; The shaping cylinder piston rod links to each other with upper die and lower die with hot plate respectively, and hot plate and upper die and lower die are fitted respectively.

Described weak weldering parts comprise that welding template, heat seal cylinder, hot plate, bag transmit suction cup carrier, bag transmits servo cylinder and bag transmits upper and lower air cylinders, described heat seal cylinder becomes up and down to be symmetrically distributed, its piston rod links to each other with the hot plate that is provided with heating tube by connecting plate, and this hot plate fits tightly with the welding template and both all become up and down to be symmetrically distributed; Bag transmits suction cup carrier and two is welding back location between the templates up and down, transmits cylinder piston rod with bag and links to each other, and bag transmits cylinder block and joins with bag transmission servo cylinder simultaneously.

Described adapter welding assembly comprises heat seal cylinder, heat sealing die and hot plate, and the heat seal cylinder becomes and to be symmetrical arranged up and down, and its piston rod links to each other with hot plate, heat sealing die and hot plate applying, and transfusion bag places about in the of two between the heat sealing die.

Described bag transfer member comprises that bag transmits cylinder, gas pawl, shift fork, sucker, bag transmits cylinder and links to each other with the bag taking cylinder by link, the bag taking cylinder links to each other with gas pawl installing plate, the sucker fixed bar is loaded on the gas pawl installing plate, which is provided with sucker, on the gas pawl installing plate gas pawl and clip are housed, shift fork links to each other with cylinder, is fixed on the shift fork guide plate.

Described automatic upper connecting tube parts comprise the adapter disc carrier, the displacement cylinder, the cutting knife cylinder, send and take over cylinder and take over clamping cylinder, take over and be loaded in two separate ranks on the two adapter disc carriers, pass through in portable plate, portable plate vertically joins with sending the adapter cylinder, laterally link to each other with the adapter clamping cylinder, take over upper-lower position and be provided with top board and lower platen, link to each other with the aluminium hydraulic pressed connecting pipe cylinder with the top board cylinder respectively, the displacement cylinder also is housed below the adapter, be connected with linear bearing on the displacement cylinder block, be placed on the axis of guide that is fixed on the support, the axis of guide is fixed on the support, the cutting knife cylinder also is housed on the support, and its piston rod links to each other with cutting knife.

Described curative filling parts comprises fill head, drug-feeding tube and grug transportation tube, on the loading pipeline, establish tee T, be communicated with drug-feeding tube, drug discharging tube and dosing pump respectively, be equipped with check valve on its pipeline, the dosing pump piston rod links to each other with the dosing pump cylinder by the lever of its position of the fulcrum of scalable, and fill head links to each other with cylinder by the fill head support plate; Described fill head support plate is affixed with axle one end, is with linear bearing and protective sleeve on this axle, and the other end of axle links to each other with cylinder piston rod, and cylinder block is fixed on cylinder upper mounting plate and the cylinder lower installation board.

Described plug plunger member comprises gets plug pawl, plug piston cylinder and driver, described driver is loaded on the line slideway, the guide rail installing plate is connected with it, plug piston cylinder dress thereon, plug piston cylinder piston rod connects with getting plug gas ZHUANLIAN, gets the plug pawl and is loaded on and gets on the plug gas pawl, on line slideway, be connected with support by connecting plate, limited post is adorned thereon.

Described powder pin chamber is taken over solder joint member and is comprised heat seal cylinder, hot plywood and heating tube composition, and the heat seal cylinder is symmetrical arranged in pairs, is fixed by cylinder mounting plate, and its piston rod links to each other by the connecting plate hot plywood relative with two, and hot plywood is provided with heating tube.

The present invention is by being organically combined each parts, can on a machine, realize the two-tube processing in two chambers of the soft bag of non-PVC membrane big transfusion, can be directly during production infusion solutions and two kinds of different medicinal liquids of therapeutic agent be packed in the different chamber in the same transfusion bag, finish lettering, bag shaping, the welding of weak welding line, bag conveying, curative fill or powder pin chamber simultaneously and take over seam, fill in the functions such as mouth, infusion filling, plug medicine discharging nozzle, finished product conveying of making up a prescription, formed the complete two-tube non-PVC film soft-bag large-infusion automatic assembly line in two chambers of a cover.Complete machine structure of the present invention is reasonable in design, complete, the production efficiency height, and crudy is good, and Operation and maintenance are all very convenient.

Description of drawings:

Fig. 1 is the two chamber two-tube infusion solutions bag constructions figure of the present invention;

Fig. 2 is a complete machine structure front view of the present invention;

Fig. 3 is a complete machine structure vertical view of the present invention;

Fig. 4 is a rack construction front view of the present invention;

Fig. 5 is a rack construction vertical view of the present invention;

Fig. 6 is a rack construction left view of the present invention;

Fig. 7 is a film feeding modular construction front view of the present invention;

Fig. 8 is a film feeding modular construction left view of the present invention;

Fig. 9 is a lettering modular construction front view of the present invention;

Figure 10 is a lettering modular construction left view of the present invention;

Figure 11 takes over the transfer unit structural front view for the present invention;

Figure 12 takes over transfer unit structure vertical view for the present invention;

Figure 13 is a bag molded component structural front view of the present invention;

Figure 14 is a bag molded component structure left view of the present invention;

Figure 15 is the weak weldering of the present invention modular construction front view;

Figure 16 is the weak weldering of the present invention modular construction left view;

Figure 17 takes over the welding assembly structural front view for the present invention;

Figure 18 takes over welding assembly structure left view for the present invention;

Figure 19 is a bag separating component structural front view of the present invention;

Figure 20 is a bag separating component structure left view of the present invention;

Figure 21 is a bag transfer member structural front view of the present invention;

Figure 22 is a bag transfer member structure left view of the present invention;

Figure 23 is the automatic upper connecting tube modular construction of a present invention front view;

Figure 24 is the automatic upper connecting tube modular construction of a present invention left view;

Figure 25 is a filling parts rack construction front view of the present invention;

Figure 26 is a filling parts rack construction vertical view of the present invention;

Figure 27 is a filling parts rack construction left view of the present invention;

Figure 28 advances a bag modular construction front view for the present invention;

Figure 29 advances a bag modular construction left view for the present invention;

Figure 30 is a curative filling parts front view of the present invention;

Figure 31 is the A-A view of Figure 30 of the present invention;

Figure 32 send the plunger member structural front view for the present invention;

Figure 33 send plunger member structure vertical view for the present invention;

Figure 34 is a plug plunger member structural front view of the present invention;

Figure 35 is a plug plunger member structure left view of the present invention;

Figure 36 is infusion filling modular construction figure of the present invention;

Figure 37 is a bag taking modular construction front view of the present invention;

Figure 38 is a bag taking modular construction left view of the present invention;

Figure 39 is a bag transfer unit structural front view of the present invention;

Figure 40 is a bag transfer unit structure vertical view of the present invention;

Figure 41 is a bag output block structural front view of the present invention;

Figure 42 is a bag output block structure vertical view of the present invention;

Figure 43 is two chamber two-tube another example structure of the infusion solutions bag figure of the present invention;

Figure 44 is another embodiment of the present invention complete machine structure figure;

Figure 45 takes over the solder joint member front view for powder pin of the present invention chamber;

Figure 46 takes over the solder joint member vertical view for powder pin of the present invention chamber.

The specific embodiment:

As shown in Figure 1, the transfusion bag that the present invention processed is made up of bag 21, medicine discharging nozzle 22, medicine mixing mouth 23, adapter 24, treatment aqueous injection chamber 25, infusion solutions chamber 26 and weak welding line 27.When producing, the two-tube non-PVC film transfusion bag in this pair of chamber infusion solutions and treatment aqueous injection can be packed in the different chamber in the same bag.Two kinds of medicines do not mix mutually during storage, but long preservation.Push transfusion bag with hands during use, because the weld strength of weak welding line 27 is little, two membranes is separated from weak weldering under the extruding of bag inner liquid medicine, thereby makes dual cavity become single chamber, and two kinds of medicinal liquids mix fully.

Fig. 2, Fig. 3 has showed the complete machine structure sketch map of above-mentioned processing transfusion bag, this production line is the type that 4 statures are promptly made 4 sacks at every turn, it is by film feeding parts 2, lettering parts 3, take over transfer unit 4, molded component 5, weak weldering parts 6, take over welding assembly 7, bag separating component 8, bag transfer member 9, automatic upper connecting tube parts 10, filling machine rack unit 11, advance bag parts 12, curative filling parts 13, send plunger member 14, plug plunger member 15, infusion filling parts 16, bag taking parts 17, bag transfer unit 18 and bag output block 19 are formed, above-mentioned each parts all are loaded on the rack unit 1, be arranged in different stations in regular turn, wherein upper connecting tube parts 10 place weak weldering parts 6 and take over welding assembly 7 opposites automatically, send plunger member 14 to be positioned at bag transfer unit 18 next doors, bag output block 19 is positioned at bag transfer unit 18 exit positions.

As Fig. 4, Fig. 5, shown in Figure 6, frame 1 of the present invention is mainly each parts same reference for installation is provided, and the position during with the assurance bag between each parts is accurate, thereby guarantees the reliable in quality of bag, phenomenons such as profile borrow, lettering dislocation can not appear welding in good looking appearance.It mainly is made up of control box 101, preceding support 105, support connection tube 106, back support 107, rear column 108, front column 111, protective door 110.Control box 101 is mainly used in the installation of electric elements and control panel; Preceding support 105, support connection tube 106, back support 107 is formed a firm support and is installed for the wallboard of other parts, rear column 108, front column 111, left side connection tube 115, right connection tube 117, the back rest 114, transverse tube 109 is formed frame structure, link to each other with support by connection tube 104, and fix on the ground by under-chassis 102, protective door 110 is by support 103, door fixing head 113 is fixed on the said frame, adopt hinge 112 to connect between protective door 110 and the door fixing head 113, wherein on the protective door 11 the U-shaped connection tube is housed, the operator can open protective door as required, can observe the condition of production at any time.

As Fig. 7, shown in Figure 8, film feeding parts 2 of the present invention mainly are the constant tensions that makes film when guaranteeing film feeding, film is smooth, wrinkle resistant during with assurance lettering and shaping, and it is made up of film feeding cylinder 203, installing plate 204, cylinder 208, cylinder 214, line slideway 215, film feeding motor 217.Column 202, support plate 211, fixing head 205, installing plate 204 are formed the supporting structure of film feeding parts 2, are fixed on the frame 1 by under-chassis 201.On the installing plate 204, the axle 207 that two symmetries is housed and be arranged in parallel is positioned at film feeding cylinder 203 fronts, is separately fixed on support plate 211 and the installing plate 204 by pole 206 two ends, is with axle sleeve 210 and cylinder 208 on this axle 207, and the centre is provided with interstage sleeve 209.Square centrosymmetry position is provided with axle 213 under the diaxon 207, one end and line slideway 215 join, and its outer surface is with cylinder 214, establish bearing 212 between the two, line slideway 215 is fixed on the installing plate 204 by installing plate 216, and axle 213 can move up and down along line slideway 215.On installing plate 204, film feeding motor 217 also is housed, its output shaft and film feeding cylinder 203 link, and non-PVC film volume 218 is housed on the film feeding cylinder 203, and film can be around in axle 207, axle 213, axle 207 in regular turn.When film by as figure as when showing that passing cylinder 208 and cylinder 214 is pulled to lettering and molded component, because cylinder 214 can move up and down at line slideway 215, when cylinder 142 upwards moves on to certain position, film feeding motor 217 beginning film feedings, when cylinder 214 moved down certain position, film feeding motor 217 stopped film feeding.Like this because the action of gravity of cylinder 2 on film, film is tightened up all the time, and tightening force is constant.

As Fig. 9, shown in Figure 10, lettering parts 3 of the present invention are mainly finished the printing to the label on the transfusion bag.It comprises the supporting device of being made up of wallboard 301 and base plate 302, backing plate 304 is fixed on the base plate 302 by gripper shoe 303, put on it non-PVC film 305 is arranged, backing plate 304 tops are provided with lettering template 306 and hot plate 307, both fit mutually, hot plate 307 links to each other with pressing plate 309 by heat insulating mattress 308, and pressing plate 309 joins with cylinder 311 piston rods, and cylinder 311 is fixed on the wallboard 301 by installing plate 310.On installing plate 310, also be fixed with fairlead 308, lead 312 is housed in it, be arranged in parallel with cylinder 311 piston rods, also link to each other with pressing plate 309, can play the guiding role to cylinder 311 piston rods.On non-PVC film, colour band 314 is housed, its direction is vertical with the non-PVC film direction of motion, and two ends are fixing with colour band frame and receipts colour band group 316 respectively.When non-PVC film 305 process lettering parts 3, heated lettering template 306 is being pressed in downwards under the effect of cylinder 311 on the non-PVC film 305, toner is ironed on the non-PVC film 305 under pressure and certain temperature on the colour band 314 like this, thereby finishes the lettering work to non-PVC film 305.Hot plate 307 mainly plays a part 306 heating of lettering template, and its temperature can be adjusted to suitable temperature by temperature controller, simultaneously the pressure during the air pressure scalable lettering by adjusting cylinder 311.

As Figure 11, shown in Figure 12, the present invention takes over transfer unit 4 mainly by active synchronization belt wheel 402, cam indexing mechanism 404, reducing motor 406, pipe connection clip 407, guide rail 408, driven pulley 410, be with 411 to form synchronously, reducing motor 406 is fixing by motor mount 405, its output shaft and cam indexing mechanism 404 link, active synchronization belt wheel 402 joins by adapter sleeve 403 and cam indexing mechanism 404, drivewheel guide plate 401 is equipped with in its outer face, driven pulley 410 is by being with 411 to link to each other with active synchronization belt wheel 402 synchronously, be loaded on the driven shaft 413, be with bearing 412 on its axle, guide plate 414 is equipped with in the outer face, fixing by driven pulley mount pad 409, be with synchronously pipe connection clip 407 is housed on 411, place on the guide rail 408, can move along guide rail 408.Taking over transfer unit 4 mainly is the adapter that automatic upper connecting tube parts 10 are served pipe connection clip 407 to be transported to molded component 5 be welded into sack with film, and the good sack that will be shaped simultaneously is delivered to weak weldering group 6, adapter soldering group 7, bag discrete group 8 and bag transmission group 9.During work, drive cam indexing mechanism 404 motions by reducing motor 406, it is output as intermittent movement cam indexing mechanism 404, thereby drive active synchronization belt wheel 402 and do intermittent movement, when pipe connection clip 407 when a station moves to next station, 402 stop motions of active synchronization belt wheel, then other mechanism's work on the Bag Making Machine, when other mechanism after hours, reducing motor 406 drives cam indexing mechanism 404 motion again, finishes next intermittent movement.

As Figure 13, shown in Figure 14, bag molded component 5 of the present invention mainly is made up of shaping cylinder 509, hot plate 504, patrix 513 and counterdie 514, wallboard 501, fixing head 511 are formed these parts supporting structure, supporting plate cylinder 510, shaping cylinder 509 are all solid thereon, become to be symmetrical arranged up and down, supporting plate cylinder 510 links to each other with supporting plate connecting rod 508 by supporting plate link 512, and holder lamina membranacea 505 is housed on the supporting plate connecting rod 508; Shaping cylinder 509 piston rods link to each other with patrix 513, counterdie 514 with hot plate 504 respectively by pressing plate 503, and hot plate 504 is fitted respectively with patrix 513, counterdie 514, can be with heat passage.On fixing head 511, also be fixed with fairlead 516, lead 515 is housed in it, be arranged in parallel with shaping cylinder 509 piston rods, also link to each other with pressing plate 503, can play the guiding role to shaping cylinder 509 piston rods.These parts are mainly finished adapter 506 and film 507 functions that make transfusion bag welded together, when adapter 506 and film 507 are sent into molded component 5, holder lamina membranacea 505 compresses film 507 under the effect of supporting plate cylinder 510, this moment, patrix 513 and counterdie 514 pressed together under the effect of shaping cylinder 509, when patrix 513 and counterdie 514 are heated to one temperature, have promptly finished film 507 and taken over 506 welding.The pressure of the temperature of hot plate 504 and shaping cylinder 509 all can be regulated as requested, thereby guarantees the weld strength of sack.Because patrix 513 is provided with and the consistent cutting knife of bag profile, thus fashionable in two mold pressings, can be simultaneously the profile of sack be cut out.

As Figure 15, shown in Figure 16, the weak weldering of the present invention parts 6 comprise wallboard 601, welding template 612, heat seal cylinder 620, hot plate 611, bag transmits suction cup carrier 615, bag transmits servo cylinder 613 and bag transmits upper and lower air cylinders 614, described heat seal cylinder is symmetrically distributed up and down for 620 one-tenth, its cylinder body is fixed on the wallboard 601 by installing plate 619, its piston rod links to each other with connecting plate 602, can drive connecting plate 602 moves up and down, lead 618 also has been housed on the connecting plate 602 simultaneously, parallel with heat seal cylinder 620 piston rods, place on the guide holder 621, guide holder 621 is fixed on the installing plate 619, and lead 618 can play the guiding role to the mobile of connecting plate 602.As shown in the figure, connecting plate 602 links to each other with hot plate 611 simultaneously, this hot plate 611 is provided with heating tube 617, fits tightly with welding template 612 and both all become up and down to be symmetrically distributed, and the shape of welding template 612 is according to weak welding line shape processing on transfusion bag 604 bags.Bag transmits suction cup carrier 615 and two is welding back location between the templates 612 up and down, transmitting cylinder 614 piston rods with bag links to each other, can be moved up and down by its drive, bag transmits cylinder 614 cylinder bodies and joins with bag transmission servo cylinder 613 simultaneously, can be moved horizontally by its drive.

Also symmetry is equipped with supporting plate cylinder 609 up and down on wallboard 601, supporting plate cylinder 6099 is fixed on up and down on the gusset plate 607, gusset plate 607 is fixed on the wallboard 601, supporting plate cylinder 609 piston rods and plate supporting frame 610 join, connecting rod 605 1 ends are fixed on the plate supporting frame 610, the other end joins with holder bag plate 603, and two holder bag plates 603 are symmetrical arranged.

During welding, earlier transmitting suction cup carrier 615 by bag places transfusion bag 604 between two holder bag plates 603 and the two welding templates 612 on the welding post, start supporting plate cylinder 6099, its piston rod stretches out, drive two connecting rods 605 and make relative motion, holder bag plate 603 moves simultaneously, makes it be pressed on transfusion bag 604 two sides mutually, can discharge air in it.At this moment, start heat seal cylinder 620, two connecting plates 602 are made relative motion under the drive of its piston rod, hot plate 611 moves to Working position with welding template 612 thereupon, heating tube 617 heating on the hot plate 611 simultaneously, and heat is delivered on the two welding templates 612, transfusion bag 604 two sides are heated, form weak welding line.After the completion of processing, transfusion bag 604 transmits under the effect of suction cup carrier 615 at bag, shifts out welding post.

As Figure 17, shown in Figure 180, the present invention takes over welding assembly 7 and mainly finishes the add strong weld of transfusion bag adapter with the film weld, it comprises heat seal cylinder 703, heat sealing die 707, hot plate 708, the heat seal cylinder is symmetrical arranged up and down for 703 one-tenth, be fixed on the wallboard 704 by installing plate 702, fixing head 701, its piston rod links to each other with hot plate 708 by pressing plate 712, dottle pin 713, installing plate 702, heat sealing die 707 and hot plate 708 applyings, and transfusion bag 706 places about in the of two between the heat sealing die 707.On installing plate 702, fairlead 710 also is housed, lead 711 is housed in it, be arranged in parallel with heat seal cylinder 703 piston rods, also link to each other with pressing plate 712, can play the guiding role to heat seal cylinder 703 piston rods.When transfusion bag 706 when weak weldering parts 6 are delivered to this station, heat sealing die 707 presses together under the effect of heat seal cylinder 703, because heat sealing die 707 has certain temperature, can finish the strong weld that adds of butt tube and film under the effect of pressure.The adjustable in pressure joint of the temperature of heat sealing die 707 and heat seal cylinder 703.

As Figure 19, shown in Figure 20, bag separating component 8 of the present invention is mainly finished the transfusion bag that connects together being shaped and is separated, to guarantee to be sent to the filling machine fill.It comprises that mainly bag cuts apart plate 808, straight line cylinder 809, support strength cylinder 803, support strength cylinder 803 is fixed on the wallboard 804 by cylinder mounting plate 805, fixing head 801, stiffener 802, its piston rod links to each other with pad post 817 by installing plate 818, transfusion bag 806 is between pad post 817 and pressing plate 816, pressing plate 816 is articulated on the hinge seat 814 by support plate 807, connecting plate 815, be fixed on the wallboard 804 by support 813, above pressing plate 816, be provided with pressure cylinder 811, be fixed on the support 813 by cylinder support plate 812.On wallboard 804, straight line cylinder 809 also is housed, fixing by cylinder installing rack 810, bag is housed on the straight line cylinder 809 cuts apart plate 808.When transfusion bag 806 arrives the bag separation station, place between pressing plate 816 and the pad post 817, pressing plate 816 and pad post 817 are pushed down transfusion bag 806 under the effect of pressure cylinder 811, bag is cut apart plate 808 motion backward under the effect of straight line cylinder 809 simultaneously, the sack that links together can be separated one by one when it passes transfusion bag 806.

As Figure 21, shown in Figure 22, bag transfer member 9 of the present invention comprises that bag transmits cylinder 917, gas pawl 914, shift fork 902, sucker 906, bag transmits cylinder 917 by reinforced pipe 912, fagging 911 is fixed on the fixing head 910, link to each other with bag taking cylinder 908 by link 909, bag taking cylinder 908 is by installing rack 915 and location-plate 903, gas pawl installing plate 905 links to each other, sucker fixed bar 907 is loaded on the gas pawl installing plate 905, which is provided with sucker 906, gas pawl 914 and clip 914 are housed on the gas pawl installing plate 905, transfusion bag 904 1 ends are positioned at sucker 906 times, the other end is positioned at shift fork 902 times, and shift fork 902 links to each other with cylinder 901, is fixed on the shift fork guide plate 916.When transfusion bag 904 is sent to bag transfer member 9 stations, clip 913 is held transfusion bag 904 upper connecting tubes tightly under the effect of gas pawl 914, shift fork 902 moves down under the drive of cylinder 901 simultaneously, and before inserting two adapters, clip 913 and shift fork 902 take out transfusion bag 904 from pipe connection clip under the effect of bag taking cylinder 908, and bag transmits a cylinder 917 and again transfusion bag 904, clip 913 and shift fork 902 etc. is sent to into bag parts 12.

As Figure 23, shown in Figure 24, the automatic upper connecting tube parts 10 of the present invention are mainly finished and are delivered to adapter on the pipe connection clip and length cut-out on request.It comprises takes over disc carrier 1015, displacement cylinder 1020, cutting knife cylinder 1022, send adapter cylinder 1011 and takes over clamping cylinder 1016, taking over 1014 is loaded on the two adapter disc carriers 1015 in two separate ranks, pass through in portable plate 1012, fixing head 1010 and guide pipe 1009, portable plate 1012 is placed on the axis of guide 1013, vertically join with sending adapter cylinder 1011, laterally link to each other, send adapter cylinder 1011 to be fixed on the installing plate 1008 with adapter clamping cylinder 1016.Take over 1014 upper-lower positions at two row, also be provided with top board 1006 and lower platen 1005, link to each other with aluminium hydraulic pressed connecting pipe cylinder 1004 with top board cylinder 1007 respectively, top board cylinder 1007 is fixed on the installing plate 1008, and aluminium hydraulic pressed connecting pipe cylinder 1004 is fixed on the cylinder mounting plate 1003.Taking over below 1014, displacement cylinder 1020 also is housed, be fixed on the support plate 1024, be connected with linear bearing 1019 on displacement cylinder 1020 cylinder bodies, be placed on the axis of guide 1018, can drive adapter 1014 and move forward, the axis of guide 1018 two ends are fixed on the support plate 1024, support plate 1024 is connected with fixing head 1023, connecting plate 1021, is fixed on the support 1002, and this support 1002 links to each other with frame 1 by pressing plate 1001.On fixing head 1023, cutting knife cylinder 1022 also is housed, its piston rod links to each other with cutting knife 1017.When sending adapter cylinder 1011 drive portable plates 1012 to move forward, taking over 1014 is moving forward on the insertion pipe connection clip with portable plate 1012 under the pushing down of taking over clamping cylinder 1016, top board 1006 and lower platen 1005 will be taken over 1014 and compress under the effect of top board cylinder 1007 and aluminium hydraulic pressed connecting pipe cylinder 1004, cutting knife 1017 moves up adapter 1014 is cut off under the effect of cutting knife cylinder 1022 at this moment.

As Figure 25, Figure 26, shown in Figure 27, filling parts 11 of the present invention mainly is to be mainly into bag parts 12, curative filling parts 13, plug plunger member 15, infusion filling parts 16, bag taking parts 17, a bag transfer unit to provide same reference for installation for 18 groups, accurate with position between each parts of assurance filling machine, thus reliable in action such as the fill of assurance sack, plug plug.It mainly is made up of control chamber 1101, preceding support 1105, support connection tube 1106, back support 1107, rear column 1108, front column 1111, protective door 1110, and control chamber 1101 is mainly used in the installation of electric elements and control panel; Preceding support 1105, support connection tube 1106, back support 1107 are formed a firm support and are installed for the wallboard of other parts, rear column 1108, front column 1111, left connection tube 1116, right connection tube 1118, the back rest 1115, transverse tube 1109 are formed frame structure, link to each other with support by connection tube 1104, and fix on the ground by under-chassis 1102, protective door 1110 is fixed on the said frame by support 1103, door fixing head 1113, adopt hinge 1112 to connect between protective door 1110 and the door fixing head 1113, be equipped with on it and shake hands 1114.

As Figure 28, shown in Figure 29, the present invention advances bag parts 12 and mainly finishes bag is passed on bag removal that parts 9 send here and the sackholder of the delivering to bag delivery groups 18, it comprises bag taking fork 1202, bag taking cylinder 1203, variable-position cylinder 1205 and transposition cylinder 1209, described bag taking fork 1202 is connected with bag taking cylinder 1203, variable-position cylinder 1205 is housed on the bag taking cylinder 1203, be fixed on the support plate 1207 by cylinder mounting plate 1204, on cylinder mounting plate 1204, transposition cylinder 1209 also is housed, be fixed on the mounting pipe 1208 by cylinder installing rack 1211, mounting pipe 1208 is connected with support plate 1207.When transfusion bag 1201 is sent into into bag parts 12 constantly, bag taking fork 1202 inserts in the adapter of transfusion bag 1201 under the effect of bag taking cylinder 1203, clip 913 on the bag transfer member unclamps, under the effect of transposition cylinder 1209, transfusion bag 1201 and bag taking fork 1202 rotate 90 degree and enter on the sackholder 1807.

As Figure 30, shown in Figure 31, curative filling parts 13 of the present invention comprises fill head 1311, drug-feeding tube 1325 and grug transportation tube 1310, described grug transportation tube 1310 ports of export are connected with fill head 1311, grug transportation tube 1310 import termination tee Ts 1326, this tee T 1326 straight pipes one mouth of pipe connects grug transportation tube 1310, its pipeline that links to each other is provided with check valve 1309, another straight pipe mouth of pipe and drug-feeding tube 1325 join, also be provided with check valve 1309 on its pipeline that links to each other, the tee T 1326 vertical mouths of pipe link to each other with dosing pump 1308 rodless cavities, on dosing pump 1308 pistons check valve 1309 is housed, dosing pump 1308 piston rod rod ends and connecting rod 1,307 one ends are hinged, connecting rod 1307 other ends and lever 1,305 one ends are hinged, and lever 1305 mid points are articulated on the bearing 1306, and the other end links to each other with dosing pump cylinder 1302 piston rods.When dosing pump cylinder 1302 piston rod movements, can drive the pin joint swing of lever 1305 around itself and bearing 1306, drive dosing pumps 1308 piston rods by connecting rod 1307 and swing simultaneously.On fragment position among the lever 1305, also offer an above hinge hole, can adjust the position of the pin joint of itself and bearing 1306, with the swinging distance of adjustment (adjusting) lever 1305, thereby regulate the fill amount with dosing pump 1308 piston rods.

Be fixed with fill head support plate 1312 on the described fill head 1311; this support plate is fixed on the crossbeam 1313; diaxon 1318 is housed on it; the end outer surface is equipped with protective sleeve 1314 on this axle 1318; be splashed into the surface of axle 1318 in the time that liquid medicine filling can being prevented; axle 1318 lower ends are with bearing holder (housing, cover) 1317; the stage casing is with linear bearing 1316; be provided with connecting plate 1315 between linear bearing 1316 and the protective sleeve 1314; bearing holder (housing, cover) 1317 bottoms are connected with cylinder lower installation board 1321; this cylinder mounting plate 1321 is fixed on two support plates 1320; these support plate 1320 upper ends and cylinder upper mounting plate 1319 join, and lower end and fixing head 1324 join, and cylinder 1322 cylinder body two ends are separately fixed on cylinder upper mounting plate 1319 and the cylinder lower installation board 1321; cylinder 1322 tailpieces of the piston rod link to each other with connecting plate 1323, and the other end of axle 1318 is fixed on the connecting plate 1323.

The check valve 1309 that is communicated with fill head 1311 when dosing pump 1308 pistons move down is closed, and the check valve 1309 that is connected with drug-feeding tube 1325 is opened, and medicinal liquid enters in the dosing pump 1308; When piston moves up, the check valve 1309 that is communicated with fill head 1311 is opened, the check valve 1309 that is connected with drug-feeding tube 1325 is closed, at this moment medicinal liquid arrives in the fill head 1311 through grug transportation tube 1310, this moment, cylinder 1322 piston rods moved down, and drove diaxon 1318 simultaneously and moved down, and fill head support plate 1312 is moved down together, fill head 1311 is just inserted in the adapter of transfusion bag 1301, and medicinal liquid is in adapter pours into transfusion bag 1301.After medicine liquid irrigation was intact, fill head 1311 upwards broke away from down by the drive that acts on fill head support plate 1312 of cylinder 1322, finishes the expendable action.

Above-mentioned filling parts both can adopt the plunger displacement pump metering, also can adopt as peristaltic pump metering and membrane pump metering.

As Figure 32, shown in Figure 33, the present invention send plunger member 14 to comprise spiral vibration feed appliance 1406, linear oscillating feed appliance 1407, get seben 1414 and send plug track 1416, described spiral vibration feed appliance 1406 and linear oscillating feed appliance 1407 are loaded on the frame 1402 side by side, it send the plug track 1416 slick and sly connections, stopper 1408 is inverted in and send in the plug track 1416, and under-chassis 1401 is equipped with in frame 1402 bottoms.Sending the plug track 1416 ports of export, be equipped with and get seben 1414 and baffle plate 1415, getting seben 1414 links to each other with servo control mechanism 1412 by connecting plate 1413, servo control mechanism 1412 is fixed on the bearing 1409 by servo control mechanism installing plate 1411, baffle plate 1415 is fixed on the bearing 1409 by pole 1410, and bearing 1409 is fixed on the frame 1402.Stopper 1408 is under the effect of spiral vibration feed appliance 1407, by certain direction enter send the plug track 1416 in, under the effect of linear oscillating feed appliance 1407, enter and get in the seben 1414, get seben 1414 and under the driving of servo control mechanism 1412, take out 4 stoppers successively, enter plug plunger member 15 stations then.

As Figure 34, shown in Figure 35, plug plunger member 15 of the present invention comprises gets plug pawl 1502, plug piston cylinder 1504, driver 1507, described line slideway 1511 is fixed on the support 1509 by mounting bracket 1508, driver 1507 is housed on it, guide rail installing plate 1510 is connected with it, plug piston cylinder 1504 dresses thereon, can establish more than two as required, connect by cylinder mounting plate 1513, plug piston cylinder 1504 piston rods are filled in gas pawl 1502 and are connected with getting, getting plug pawl 1502 is loaded on and gets on the plug gas pawl 1502, but clamping stopper 1501 on it, under the drive of driver 1507, plug piston cylinder 1504, get plug pawl 1502 and get plug gas pawl 1503 and can move horizontally along line slideway 1511, simultaneously, get plug pawl 1502 and get plug gas pawl 1503 and can under plug piston cylinder 1504 piston rods drive, do and move up and down.On line slideway 1511, be connected with support 1506 by connecting plate 1512, limited post 1505 dresses can be the location that moves horizontally of getting plug pawl 1502 thereon.During work, get plug pawl 1502 and getting stopper 1501 taking-ups that to get under the effect of filling in gas pawl 1503 on the seben 1414, so, under the effect of plug piston cylinder 1504, stopper 1501 is filled in the adapter of transfusion bag moving backward under the effect of driver 1507 above the transfusion bag.

As shown in figure 36, infusion filling parts 16 of the present invention finish mainly that infusion solutions is quantitatively poured into the infusion solutions of transfusion bag is indoor, it comprises filling tube 1602, drug liquid tube 1608, effusion meter 1611 and surge tank 1610, in the described filling tube 1602 fill head 1311 is housed, link to each other with fill head support plate 1312, be provided with shut-off valve 1601 between filling tube 1602 and the fill head 1311, be provided with effusion meter 1611 and hand-operated valve 1606 between filling tube 1602 and the drug liquid tube 1608, effusion meter 1611 is fixed on the support 1604 by mounting bracket 1603, drug liquid tube 1608 is fixing by support plate 1607, join with surge tank 1610, surge tank 1610 is fixing by surge tank support 1609.When transfusion bag enters infusion filling parts 16, fill head 1311 is inserted in the adapter of transfusion bag under the effect of cylinder 1322, this moment, shut-off valve 1601 was opened, and effusion meter 1161 leaves as metering, when the fill amount reaches setting value, effusion meter 1611 sends signal, shut-off valve 1601 turn-offs, and fill head 1311 upwards breaks away from takes over, like this, just finished the infusion solutions quantitative filling to transfusion bag, the fill amount can be set different values as requested.

As Figure 37, shown in Figure 38, bag taking parts 17 of the present invention comprise bag taking pawl 1702, bag taking gas pawl 1703, upper and lower air cylinders 1711 and front and back cylinder 1705, described front and back cylinder 1705 is fixed on the support 1707 by cylinder mounting plate 1706, its piston rod is connected with bag taking gas pawl 1703 by connection tube 1704, bag taking pawl 1702 is loaded on the bag taking gas pawl 1703, but clamping transfusion bag 1701 on it.Support 1707 is loaded on the frame 1 by connecting plate 1708, be connected with connecting plate 1710 and cylinder mounting plate 1709 on the connecting plate 1708, upper and lower air cylinders 1711 links to each other with line slideway 1712, its piston rod and connection tube 1704 join, and line slideway 1712 is loaded on the cylinder mounting plate 1709 by guide rail installing plate 1713.When transfusion bag 1701 enters these parts, bag taking pawl 1702 clamps transfusion bag 1701 under the effect of bag taking gas pawl 1703, the effect lower edge cylinder direction of pro-exhaust hood 1705 moves horizontally, transfusion bag 1701 is taken out, then, under the effect of upper and lower air cylinders 1711, upwards rise and enter next station.

As Figure 39, shown in Figure 40, bag transfer unit 18 of the present invention is mainly by active synchronization belt wheel 1802, cam indexing mechanism 1804, reducing motor 1806, sackholder 1807, guide rail 1808, driven pulley 1810, be with 1812 to form synchronously, reducing motor 1806 is fixing by motor mount 1805, its output shaft and cam indexing mechanism 1804 link, active synchronization belt wheel 1802 joins by adapter sleeve 1803 and cam indexing mechanism 1804, drivewheel guide plate 1801 is equipped with in its outer face, driven pulley 1810 is by being with 1812 to link to each other with active synchronization belt wheel 1802 synchronously, be loaded on the driven shaft 1811, be with bearing 1813 on its axle, guide plate 1814 is equipped with in the outer face, fixing by driven pulley mount pad 1809, be with synchronously sackholder 1807 is housed on 1812, place on the guide rail 1808, can move along guide rail 1808.During work, drive cam indexing mechanism 1804 motions by reducing motor 1806, it is output as intermittent movement cam indexing mechanism 1804, thereby drive active synchronization belt wheel 1802 and do intermittent movement, when sackholder 1807 when a station moves to next station, 1802 stop motions of active synchronization belt wheel, then other mechanism's work on the Bag Making Machine, when other mechanism after hours, reducing motor 1806 drives cam indexing mechanism 1804 motion again, finishes next intermittent movement.

As Figure 41, shown in Figure 42, bag output block 19 of the present invention comprises reducing motor 1905, drive pulley 1901, flat belt 1906 and driven pulley 1911, drive pulley 1901 joins with the reducing motor 1905 that is installed on the motor mounting plate 1904, its axle is gone up two ends and is with bearing 1903, bearing is loaded on the bearing block 1902, driven pulley 1911 is loaded on the driven shaft 1909, two ends are with bearing 1910 and guide plate 1907, be with flat belt 1906 on drive pulley 1901 and the driven pulley 1911, adjustment seat 1908 also is housed on the guide plate 1907.When the transfusion bag of completion of processing was put on the flat belt 1906, this belt was under the driving of reducing motor 1905, and the drive by drive pulley 1901 travels forward, thereby takes transfusion bag out of production line, finishes the whole course of processing.

The present invention also can process transfusion bag shown in Figure 43, and different with a last example structure is that it mainly is made up of the seal 30 before medicine discharging nozzle 22, infusion solutions chamber 26, weak welding line 27, injectable powder chamber 29, adapter 24 and the powder charge.Because the injectable powder medicine can not be sterilized simultaneously with infusion solutions, two kinds of medicines are contained in the same packaging bag then the infusion solutions that dress is earlier wanted autoclave sterilization, in the injectable powder chamber 29 of again the injectable powder medicine being packed into after waiting infusion solutions to sterilize under High Temperature High Pressure.Seal 30 before the powder charge mainly is to guarantee that the injectable powder chamber is not contaminated before powder charge., at first to will take over 24 and cut off during injectable powder at dress, medicine will be packed into behind the injectable powder chamber 29, will take over 24 again and weld the mouth that extremely or beyond the Great Wall makes up a prescription along line of cut 28.

Figure 44 has showed the complete machine structure figure to the processing of this kind transfusion bag, and it mainly is above-mentioned curative filling parts 13 to be taken over solder joint member 20 replacements by powder pin chamber get final product.

As Figure 45, shown in Figure 46, powder pin of the present invention chamber is taken over solder joint member 20 and mainly is made up of heat seal cylinder 2003, hot plywood 2006 and heating tube 2005, heat seal cylinder 2003 is symmetrical arranged in pairs, fixing by cylinder mounting plate 2002, its piston rod links to each other by connecting plate 2004 hot plywood 2006 relative with two, hot plywood 2006 is provided with heating tube 2005, and transfusion bag 2001 is between two hot plywoods 2006.Promote hot plywood 2006, take over 24 inner welded together thereby 29 upper connecting tubes, the 24 heating pressurizations of injectable powder chamber can be made.The air pressure of heat seal cylinder 2003 is adjustable, and the temperature of hot plywood 2006 is scalable also, thereby can guarantee certain welding temperature and pressure.

The present invention can make 1,2,3,4,6 production line according to the difference that output requires, and promptly each while can be produced 1 bag, 2 bags, 3 bags, 4 bags, 6 bags.

Claims (10)

1, a kind of pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that it comprises the film feeding parts, the lettering parts, take over transfer unit, molded component, weak weldering parts, take over welding assembly, the bag separating component, the bag transfer member, automatic upper connecting tube parts, advance bag parts, solder joint member is taken in curative filling parts or powder pin chamber, send plunger member, the plug plunger member, the infusion filling parts, the bag taking parts, bag transfer unit and bag output block, above-mentioned each parts all are loaded on the rack unit, be arranged in different stations in regular turn, wherein the upper connecting tube parts place weak weldering parts and take over the welding assembly opposite automatically, send plunger member to be positioned at a bag transfer unit next door, the bag output block is positioned at a bag transfer unit exit position.

2, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described lettering parts comprise backing plate, lettering template and hot plate, backing plate is fixed on the base plate, put on it non-PVC film is arranged, the backing plate top is provided with lettering template and hot plate, both fit mutually, and hot plate links to each other with pressing plate, and pressing plate joins with the cylinder piston rod that is fixed on the wallboard; On non-PVC film, colour band is housed, its direction is vertical with the non-PVC film direction of motion.

3, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described bag molded component comprises shaping cylinder, hot plate, patrix and counterdie, supporting plate cylinder, shaping cylinder are fixed on the fixing head, become to be symmetrical arranged up and down, the supporting plate cylinder links to each other with the supporting plate connecting rod, and the holder lamina membranacea is housed on the supporting plate connecting rod; The shaping cylinder piston rod links to each other with upper die and lower die with hot plate respectively, and hot plate and upper die and lower die are fitted respectively.

4, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described weak weldering parts comprise that welding template, heat seal cylinder, hot plate, bag transmit suction cup carrier, bag transmits servo cylinder and bag transmits upper and lower air cylinders, described heat seal cylinder becomes up and down to be symmetrically distributed, its piston rod links to each other with the hot plate that is provided with heating tube by connecting plate, and this hot plate fits tightly with the welding template and both all become up and down to be symmetrically distributed; Bag transmits suction cup carrier and two is welding back location between the templates up and down, transmits cylinder piston rod with bag and links to each other, and bag transmits cylinder block and joins with bag transmission servo cylinder simultaneously.

5, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described adapter welding assembly comprises heat seal cylinder, heat sealing die and hot plate, the heat seal cylinder becomes to be symmetrical arranged up and down, its piston rod links to each other with hot plate, heat sealing die and hot plate are fitted, and transfusion bag places about in the of two between the heat sealing die.

6, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described bag transfer member comprises that bag transmits cylinder, gas pawl, shift fork, sucker, bag transmits cylinder and links to each other with the bag taking cylinder by link, the bag taking cylinder links to each other with gas pawl installing plate, the sucker fixed bar is loaded on the gas pawl installing plate, which is provided with sucker, on the gas pawl installing plate gas pawl and clip is housed, shift fork links to each other with cylinder, is fixed on the shift fork guide plate.

7, the according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described automatic upper connecting tube parts comprise the adapter disc carrier, the displacement cylinder, the cutting knife cylinder, send and take over cylinder and take over clamping cylinder, take over and be loaded in two separate ranks on the two adapter disc carriers, pass through in portable plate, portable plate vertically joins with sending the adapter cylinder, laterally link to each other with the adapter clamping cylinder, take over upper-lower position and be provided with top board and lower platen, link to each other with the aluminium hydraulic pressed connecting pipe cylinder with the top board cylinder respectively, the displacement cylinder also is housed below the adapter, be connected with linear bearing on the displacement cylinder block, be placed on the axis of guide that is fixed on the support, the axis of guide is fixed on the support, and the cutting knife cylinder also is housed on the support, and its piston rod links to each other with cutting knife.

8, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described curative filling parts comprises fill head, drug-feeding tube and grug transportation tube, on the loading pipeline, establish tee T, be communicated with drug-feeding tube, drug discharging tube and dosing pump respectively, be equipped with check valve on its pipeline, the dosing pump piston rod links to each other with the dosing pump cylinder by the lever of its position of the fulcrum of scalable, and fill head links to each other with cylinder by the fill head support plate; Described fill head support plate is affixed with axle one end, is with linear bearing and protective sleeve on this axle, and the other end of axle links to each other with cylinder piston rod, and cylinder block is fixed on cylinder upper mounting plate and the cylinder lower installation board.

9, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described plug plunger member comprises gets plug pawl, plug piston cylinder and driver, described driver is loaded on the line slideway, the guide rail installing plate is connected with it, and the plug piston cylinder is adorned thereon, fills in the piston cylinder piston rod and get plug gas ZHUANLIAN to connect, getting the plug pawl is loaded on and gets on the plug gas pawl, on line slideway, be connected with support by connecting plate, limited post is adorned thereon.

10, according to claim 1 pair of two-tube non-PVC film soft-bag large-infusion automatic assembly line in chamber, it is characterized in that described powder pin chamber adapter solder joint member comprises heat seal cylinder, hot plywood and heating tube composition, the heat seal cylinder is symmetrical arranged in pairs, fix by cylinder mounting plate, its piston rod links to each other by the connecting plate hot plywood relative with two, and hot plywood is provided with heating tube.

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