CN2832662Y - Intermittently rotary machine for pouring powder and sealing non-PVC big transfusion soft bag - Google Patents

Abstract

The utility model relates to an intermittently rotary machine for pouring and sealing powder of a non-PVC big transfusion soft bag, which comprises a power transmission component, a center rotary disk, a tube cutting and nitrogen filling component, a filling component, a high temperature heat sealing component, a low temperature heat sealing component, a bag outlet component, a machine frame component and an electric control box, wherein the tube cutting and nitrogen filling component, the filling component, the high temperature heat sealing component, the low temperature heat sealing component and the bag outlet component are arranged beside the center rotary disk which is connected with the power transmission component, and are supported by the machine frame component; a tube cutting and nitrogen filling service position, a filling service position, a high temperature heat sealing service position, a low temperature heat sealing component service position and a bag outlet service position are orderly arranged, and bag clamps which are used for hanging transfusion bags are arranged around the center rotary disk. The utility model has the characteristics of accurate positioning, nitrogen protection for medicinal powder, accurate filling quantity, simple and reliable seal, compact structure, low cost, small ground occupation area, reduced labor intensity of operators, high production efficiency, high product quality, etc., and people do not need to contact packaging bags and the medicinal powder in the whole filling process.

Description

Intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine

Technical field

The utility model belongs to field of pharmaceutical machinery, is specifically related to a kind of intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine.

Background technology

In the prior art, infusing medicine and solid medicine (pulvis) adopt the different vessels packing, independent production, because infusion solutions is generally normal saline or nutrient solution, can not load in mixture for a long time together with solid medicine (pulvis), need from the infusing medicine container, to extract a little soup earlier in use and inject solid medicine (pulvis) container with syringe, shake solid medicine (pulvis) container then, make solid medicine (pulvis) be dissolved in soup, with syringe the soup in solid medicine (pulvis) container is extracted out again, inject the infusing medicine container, can use after shaking up.So there are the following problems:

1, the man-hour that must waste a disposable syringe and make up a prescription, increases use cost.

2, delay rescue time during first aid, may cause serious consequence.

3, concerning busy nurse, easily cause the mismatch medicine may, whether or it is correct not know to make up a prescription when infusing after making up a prescription.

4, the mixing the dosing process and need repeatedly carry out of infusing medicine and solid medicine (pulvis), medicine itself has been caused repeated pollution.

5, the infusing medicine packing is produced with the independent of solid medicine (pulvis) packing, causes the waste of equipment, human resources and other resources, has improved cost, and production efficiency is low, and restive medicine service property (quality) can't satisfy user's requirement.

At present, in medicine and pharmaceutical equipment industry, two chambers or multicell infusion bag manufacturing line in the different coyote holes of the same bag that solid medicine and infusion solutions liquid medicine are packed into that still none cover is perfect.Owing to need sterilization after the infusing medicine can, and solid medicine (pulvis) must wait after the infusing medicine sterilization could can, make all suitable complexity of production facilities and pharmaceutical production technology like this.

The utility model content

Technical problem to be solved in the utility model is the defective that overcomes above-mentioned prior art, the intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine that provide a kind of accurate positioning, compact conformation, productive costs is low, floor area is little, can reduce labor intensity of operating staff, reduce the wasting of resources, production efficiency improves obviously.The big infusion soft bag of this pulvis filling and sealing machine production can be loaded on solid medicine and liquid medicine in two coyote holes in the same bag, thereby reduced packing container, reduced the intermediate link of making up a prescription in using, reduced use cost, reduce labor intensity, avoid secondary pollution and GMP compatible.

For solving the problems of the technologies described above, the utility model adopts following technical proposals.

Intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine of the present utility model, it is characterized in that: it comprises power-transmitting part and central turnplate, the nitrogen parts are filled in Pipe Cutting, filling parts, the high temperature heat bond sealing component, the low temperature heat bond sealing component, the output parts, rack unit and electric cabinet, the nitrogen parts are filled in described Pipe Cutting, filling parts, the high temperature heat bond sealing component, by low temperature heat bond sealing component and the output parts all are arranged at power-transmitting part links to each other the central turnplate, and support by rack unit, be arranged in order the formation Pipe Cutting and fill the nitrogen station, the can station, high temperature heat seal sealed station, low temperature heat sealing station and output station, described central turnplate periphery is equiped with the sackholder that mounts infusion bag.

As further improvement of the utility model, be equiped with retaining bag bar on the described central turnplate, described retaining bag bar is positioned at the below of corresponding sackholder.

Folder mouth two shapes of described sackholder are identical with the seal cover cap cross sectional shape of clamping infusion bag, and are provided with spring plunger at this clamp mouth part.

Described Pipe Cutting is filled the nitrogen parts and is comprised the Pipe Cutting part that links to each other with column, fills nitrogen partial sum fixed tube part, described Pipe Cutting partly comprises cutting knife and Pipe Cutting cylinder, cutting knife links to each other with the piston rod of Pipe Cutting cylinder, the cylinder body of Pipe Cutting cylinder is fixed in cutting knife to be supported, cutting knife support be fixed in platen on column link to each other; Filling nitrogen partly comprises and fills nitrogen head and lift cylinder, filling the nitrogen head is installed in and fills on the nitrogen head bracket, filling the nitrogen head bracket links to each other with elevating bracket, on column, be equiped with lifting support, set lifting guide pillar is placed on the lifting support in the set lifting guide pin bushing on the elevating bracket, lift cylinder is installed on the lifting support, and its piston rod links to each other with elevating bracket; Described fixed tube partly comprises locating clip, cylinder before and after fixed tube center cylinder and the fixed tube center, cylinder is installed on the fixed tube center support before and after the described fixed tube center, the fixed tube center support is fixed on the column, the piston rod of cylinder links to each other with the fixed tube centre mount before and after the fixed tube center, set guide rail is connected with set slide block slide relative on the fixed tube center support on the fixed tube centre mount, fixed tube centre mount front upper part is provided with the locating clip guide rail, set locating clip guide rail is connected with the locating clip slide relative by set locating clip slide block on the locating clip, one side of locating clip links to each other with fixed tube center cylinder cylinder body, and opposite side links to each other with the piston rod of fixed tube center cylinder.

Described filling parts comprises powder feeding part, stirring and the quantitative filling partial sum fixed tube part that links to each other with pillar; Described powder feeding partly comprises powder feeding miniature motor, powder feeding screw and powder bucket, the powder feeding miniature motor is fixed on the pillar by powder feeding motor link span, the output shaft of powder feeding miniature motor links to each other with powder feeding screw, powder feeding screw places in the powder feeding screw urceolus, and join with powder inlet on the powder bucket, the powder feeding screw urceolus links to each other with the powder bucket; Described stirring and quantitative filling partly comprise the packing servomotor, stir miniature motor, mixing device, branch loading screw and pulvis fill head, the top of described powder bucket is provided with the shaft bearing, be equiped with the stirring drive sleeve in this shaft bearing, the lower end installing mixing device of stirring drive sleeve also stretches in the powder bucket, and the upper end of stirring drive sleeve links to each other with the stirring miniature motor by stirring transmission device; Stir in the drive sleeve and be equiped with the branch loading screw turning cylinder that can rotate to it, this minute the upper end of loading screw turning cylinder link to each other with the packing servomotor, a lower end installing minute loading screw, the meal outlet place of powder bucket lower end is provided with down powder muzzle pipe; Divide loading screw to place down in the powder muzzle pipe; Described pulvis fill head is placed in down outside the powder muzzle pipe, and link to each other with the fill head connecting panel, the fill head connecting panel links to each other with the can elevating bracket, on pillar, be equiped with the can lifting support, set can lifting guide pillar is placed on the can lifting support in the set can lifting guide pin bushing on the can elevating bracket, the can lift cylinder is installed on the can lifting support, and its piston rod links to each other with the can elevating bracket; In the powder bucket, be provided with near detector switch; The fixed tube center support of described fixed tube part is fixed on the pillar, and pillar is fixed on the platen.

Described high temperature heat bond sealing component comprises heat seal cylinder, elevated temperature heat mould, cleading, heating plate, heating pipe and temperature-sensitive carbon head; Described low temperature heat bond sealing component comprises heat seal cylinder, low temperature heat-seal mould, cleading, heating plate, heating pipe and temperature-sensitive carbon head; Two heat seal cylinders are oppositely arranged, wherein one is fixed in the support, another part is fixed on the heat seal cylinder connection piece, the heat seal cylinder connection piece links to each other with support, the piston rod of heat seal cylinder links to each other with the heating plate that is provided with heating pipe by cleading, described elevated temperature heat mould or low temperature heat-seal mould are made up of two heat seal templates that are oppositely arranged, and two heat seal templates are fitted with heating plate respectively; Be connected with temperature-sensitive carbon head on the heating plate; Described support fixation is on platen.

Described output parts comprise and push away fork one, push away fork two and the output cylinder, described output cylinder links to each other with strut by output cylinder connecting panel, the piston rod of output cylinder pulls out pushing away fork one and push away and pitching two and link to each other of double nip on the infusion bag with can pushing away respectively, and described strut is fixed on the platen.

Described power-transmitting part comprises power and indexing separator, and power links to each other with indexing separator by transmission device, and indexing separator is fixed on the platen that places the rack unit upper end, and central turnplate links to each other with the output shaft of indexing separator.

Transmission device between described power and the indexing separator is a chain-driving, and described stirring transmission device is a chain-driving.

Advantage of the present utility model is:

1, the utility model provides the interior pulvis filling and sealing machine of different chamber that solid medicine (pulvis) is filled to same sack under the good infusing medicine of main line can and the prerequisite after the sterilization of two chambers or multicell bag making, filling and sealing machine.The big infusion soft bag of this pulvis filling and sealing machine production can be loaded on solid medicine and liquid medicine in two coyote holes in the same bag, thereby has reduced packing container; Make medicine in use reduce intermediate link, avoided the possibility of secondary pollution.The utility model has also reduced device resource, waste of manpower resource and has saved productive costs, has improved production efficiency and product design.

2, the utility model according to the characteristic of easily moisture absorption of solid medicine (pulvis), oxidation deterioration, fills the nitrogen deoxygenation to solid medicine (pulvis) chamber before can, has improved the quality and the storage time of medicine.

3, the utility model adopts servomotor control and regulates and divide the loading screw can in filling parts, makes and has reduced the waste of solid medicine by the filling accuracy height, also meets the requirement of GMP fully.The total process of can adopt intelligent electromechanical control, degree of automation height.

4, the utility model adopts high temperature, two groups of heat sealings of low temperature when the interface heat sealing, makes joint weld seal perfection and puts in place, and firmly do not rebound.

The utility model will advance bag, Pipe Cutting, fill nitrogen, can, seal with output and all be installed in by the same central turnplate; finish into bag, Pipe Cutting, fill nitrogen, can, seal and multiple actions such as output; accurate positioning; to medicinal powder have nitrogen protection, loading amount accurately, seal simple and reliable, compact conformation; floor area is little; reduced operating personal and labor intensity of operating staff, production efficiency is higher.Can make two chambers/multi-chamber non PVC large transfusion soft bag pulvis filling and sealing realization automation, and personnel do not contact with packaging bag and medicinal powder in the whole pouring process, the product design height.Because solid (pulvis) can is to belong to aseptic packaging, thus two chambers of solid, liquid or multicell big infusion soft bag in the pulvis can, seal and need be arranged on hundred grades of laminar regions in the process, adopt the utility model can reduce the area of hundred grades of laminar regions, cost-cutting.

Description of drawings

Fig. 1 is the structural representation front view of the utility model embodiment;

Fig. 2 is the structural representation birds-eye view of the utility model embodiment;

Fig. 3 is the structural representation of the utility model power-transmitting part;

Fig. 4 is that the B of Fig. 3 is to view;

Fig. 5 is the A place partial enlarged drawing of Fig. 3;

Fig. 6 fills the structural representation front view of nitrogen parts for Pipe Cutting among the utility model embodiment;

Fig. 7 fills the structural representation left view of nitrogen parts for Pipe Cutting among the utility model embodiment;

Fig. 8 fills the structural representation birds-eye view of nitrogen parts for Pipe Cutting among the utility model embodiment;

Fig. 9 is the structural representation front view of filling parts among the utility model embodiment;

Figure 10 is the structural representation left view of filling parts among the utility model embodiment;

Figure 11 is the structural representation birds-eye view of filling parts among the utility model embodiment;

Figure 12 is the structural representation of high and low temperature heat bond sealing component among the utility model embodiment;

Figure 13 is the structural representation of output parts among the utility model embodiment;

Figure 14 is the structural representation of the infusion bag of the utility model production.

The specific embodiment

Each label is represented among the figure

1, the nitrogen parts are filled in power-transmitting part 2, Pipe Cutting

3, filling parts 4, high temperature heat bond sealing component

5, low temperature heat bond sealing component 6, output parts

7, rack unit 8, electric cabinet

9, bag

10, transmission device 11, indexing separator 12, central turnplate

13, sackholder 14, retaining bag bar 15, power

18, lifting location energy disperser

201, linear bearing 202, lift cylinder 203, lifting support

2031, lifting guide pin bushing 204, elevating bracket 2041, lifting guide pillar

205, fill nitrogen head 206, Pipe Cutting cylinder 207, cutting knife

208, cylinder 209, locating clip 210, fixed tube center cylinder before and after the fixed tube center

211, column 212, locating clip guide rail 213, locating clip slide block

214, fixed tube center support 2141, slide block

215, fixed tube centre mount 2151, guide rail 2152, screw rod

2153, fixed tube center cylinder piston rod connects support

2154, fixed tube center cylinder mounting bracket

216, location energy disperser and positioning screw

218, cutting knife supports 219, fills the nitrogen head bracket

301, can lifting linear bearing 302, can lifting support 3021, can lifting guide pin bushing

303, can lift cylinder 304, can elevating bracket 3041, can lifting guide pillar

305, pillar 307, stirring miniature motor 308, packing servomotor

309, powder bucket 310, powder feeding screw urceolus 311, hopper

312, powder feeding screw 313, powder feeding miniature motor 314, powder feeding motor link span

315, screw shaft bearing 316, fill head connecting panel 317, pulvis fill head

318, divide loading screw 319, following powder muzzle pipe 320, mixing device

321, near detector switch 322, shaft bearing 323, stirring motor seat

324, stir transmission device 325, stirring drive sleeve 326, branch loading screw turning cylinder

327 servomotor seats

40, heat seal cylinder 41, cleading 42, heating plate

43, heating pipe 44, heat-seal mould 45, temperature-sensitive carbon head

46, heat seal cylinder connection piece 47, support 48, low temperature heat-seal mould

61, push away the fork 1, push away the fork 2 63, the output cylinder

64, output cylinder connecting panel 65, strut 66, push away the fork connecting panel

71, platen

91, solid coyote hole 92, liquid coyote hole 93, perfusion interface

94, drug interface 95, seal cover cap

131, folder mouth 1, folder mouth 2 133, spring plunger

As Fig. 1, shown in 2, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine of the present utility model, comprise power-transmitting part 1, nitrogen parts 2 are filled in Pipe Cutting, filling parts 3, high temperature heat bond sealing component 4, low temperature heat bond sealing component 5, output parts 6, rack unit 7 and electric cabinet 8, nitrogen parts 2 are filled in Pipe Cutting, filling parts 3, high temperature heat bond sealing component 4, low temperature heat bond sealing component 5 all is arranged at central turnplate 12 sides that link to each other with power-transmitting part 1 with output parts 6, and by rack unit 7 supports, be arranged in order the formation Pipe Cutting and fill the nitrogen station, the can station, high temperature heat seal sealed station, low temperature heat sealing station and output station, the central turnplate periphery is equiped with the sackholder 13 that mounts infusion bag, and sackholder 13 is installed on eight different azimuth of central turnplate 12.

As shown in Figure 3, power-transmitting part 1 of the present utility model comprises power 15 and indexing separator 11, power 15 links to each other with indexing separator 11 by transmission device 10, transmission device 10 is a chain-driving in this example, indexing separator 11 is fixed on the platen 71 that places rack unit 7 upper ends, and central turnplate 12 links to each other by the output shaft of flange with indexing separator 11.The staff is by going up bag by hand to sackholder 13, power 9 (threephase asynchronous machine and drop-gear box) drives the even calibration rotation of indexing separator 11 (accurate cam roller transmission) batch (-type) by chain and (rotates 45 ° at every turn, 8 equal portions), the indexing accuracy height, error is little, and accurate positioning guarantees that sackholder 13 rotates to Pipe Cutting when filling nitrogen parts 2 and filling parts 3 work with central turnplate 12, the center of sackholder 13 with fill nitrogen head 17 and pulvis fill head 317 center conllinear, fill nitrogen and the can accurate positioning is reliable.Indexing separator 11 will hang over sack on the sackholder 13 by central turnplate 12 and go to Pipe Cutting successively and fill nitrogen parts 2, filling parts 3, high temperature heat bond sealing component 4, low temperature heat bond sealing component 5 and output parts 6, finish each parts and require the function that realizes, finally finish the filling and sealing process of solid medicine (pulvis) in the two chambers of solid-liquid/multicell big infusion soft bag.

Shown in Fig. 4,5, sackholder 13 is provided with two folder mouths, wherein press from both sides mouthful one 131 clampings perfusion interface 93 of double-chamber transfusion bag 9 as shown in figure 14, seal cover cap 95 on the folder mouthful 2 132 clamping double-chamber transfusion bags 9, folder mouth 2 132 shapes of sackholder 13 are identical with seal cover cap 95 cross sectional shapes of clamping double-chamber transfusion bag 9, and on folder mouth 2 132, be provided with spring plunger 133, with accurate location and auto-lock function is arranged, the assurance infusion bag is located fastening reliable, accurate in central turnplate 12 operational processs, and dislocation and landing can not take place in the work; Also be furnished with a retaining bag bar 14 on the central turnplate 12, retaining bag bar 14 is positioned at the below of corresponding sackholder 13, rocks and locatees inaccurate to prevent that sack from waving in central turnplate 12 rotation processes.

Shown in Fig. 6,7,8, Pipe Cutting of the present utility model is filled nitrogen parts 2 and is installed on the platen 71 by column 305, these parts comprise the Pipe Cutting part, fill nitrogen partial sum fixed tube part, Pipe Cutting partly comprises cutting knife 207 and Pipe Cutting cylinder 206, cutting knife 207 links to each other with the piston rod of Pipe Cutting cylinder 206, the cylinder body of Pipe Cutting cylinder 206 is fixed in cutting knife to be supported on 218, cutting knife support 218 be fixed in platen 71 on column 211 link to each other.Filling nitrogen partly comprises and fills nitrogen head 205 and lift cylinder 202, filling nitrogen head 205 is installed in and fills on the nitrogen head bracket 219, filling nitrogen head bracket 219 links to each other with elevating bracket 204, on column 211, be equiped with lifting support 203, set lifting guide pillar 2041 is placed on the lifting support 203 in the set lifting guide pin bushing 2031 by linear bearing 201 on the elevating bracket 204, lift cylinder 202 is installed on the lifting support 203, its piston rod links to each other with elevating bracket 204, is provided with lifting location energy disperser 18 between lifting support 203 and elevating bracket 204.Fixed tube partly comprises cylinder 208 before and after locating clip 209, fixed tube center cylinder 210 and the fixed tube center, cylinder 208 is installed on the fixed tube center support 214 before and after the fixed tube center, fixed tube center support 214 is fixed on the column 211, the piston rod of cylinder 208 links to each other with fixed tube centre mount 215 before and after the fixed tube center, and set guide rail 2151 is connected with set slide block 2141 slide relative on the fixed tube center support 214 on the fixed tube centre mount 215.Fixed tube centre mount 215 front upper parts are provided with locating clip guide rail 212, and set locating clip guide rail 212 is connected with locating clip 209 slide relative by set locating clip slide block 213 on the locating clip 209, gives the motion guide of locating clip 209.One side of locating clip 209 links to each other with the fixed tube center cylinder mounting bracket 2154 that fixed tube center cylinder 210 is installed by screw rod 2152, opposite side is connected support 2153 by screw rod 2152 and links to each other with fixed tube center cylinder piston rod, fixed tube center cylinder piston rod connects support 2153 and links to each other with the piston rod of fixed tube center cylinder 210, is provided with location energy disperser and positioning screw 216 between fixed tube centre mount 215 and fixed tube center support 214.Bag 9 is along with central turnplate 12 rotates to Pipe Cutting when filling the station of nitrogen parts 2, cylinder 208 moves forward before and after the fixed tube center, make perfusion interface 93 positions of locating clip 209 to infusion bag 9, fixed tube center cylinder 210 actions then, drive and locating clip 209 bonded assembly slide blocks 213 slide in opposition on guide rail 212, make locating clip 209 hold perfusion interface 93 tightly, guarantee the accurate location of perfusion interface 93, cutting knife 207 carries out THE ADIABATIC SHEAR IN by 206 actions of Pipe Cutting cylinder to perfusion interface 93, and Pipe Cutting evenly accurately puts in place.In order to guarantee the quality of medicine, anti-oxidation is filled nitrogen head 205 and is filled the nitrogen deoxygenation for the bag chamber after the Pipe Cutting, carry out nitrogen protection.Fill nitrogen head 205 and can be with up-and-down movement in the lifting guide pin bushing 2031 of linear bearing 201 at lifting guide pillar 2041 under lift cylinder 202 promotions, nitrogen head 205 knee-actions are filled in drive, all conllinear of nitrogen head 205 centers and perfusion interface 93 centers and sackholder 13 centers are filled in assurance, accurate positioning is reliable, fill nitrogen head 205 and move downward, fill the nitrogen deoxygenation for the bag chamber.

Shown in Fig. 9,10,11, filling parts 3 of the present utility model is installed on the platen 71 by pillar 305.These parts comprise the powder feeding part, stir and quantitative filling partial sum fixed tube part, powder feeding partly comprises powder feeding miniature motor 313, powder feeding screw 312 and powder bucket 309, powder feeding miniature motor 313 is fixed on the pillar 305 by powder feeding motor link span 314, the output shaft of powder feeding miniature motor 313 links to each other with powder feeding screw 312, powder feeding screw 312 places in the powder feeding screw urceolus 310, the end that the output shaft of itself and powder feeding miniature motor 313 joins is supported by screw shaft bearing 315, powder inlet on the other end and the powder bucket 309 joins, screw shaft bearing 315 links to each other with powder feeding motor link span 314, powder feeding screw urceolus 310 links to each other with screw shaft bearing 315 with powder bucket 309 respectively, and its upper end is provided with hopper 311.Stirring of the present utility model and quantitative filling partly comprise packing servomotor 308, stirring miniature motor 307, mixing device 320, divide loading screw 318 and pulvis fill head 317, the top of powder bucket 309 is provided with shaft bearing 322, be equiped with stirring drive sleeve 325 by bearing in this shaft bearing 322, the lower end of stirring drive sleeve 325 is equiped with mixing device 320 and stretches in the powder bucket 309, and the upper end of stirring drive sleeve 325 links to each other with stirring miniature motor 307 by stirring transmission device 324; Stirring transmission device 324 in this example is chain-driving, and the upper end of stirring drive sleeve 325 is a sprocket wheel, links to each other with set sprocket wheel on the output shaft that stirs miniature motor 307 by chain.Stir in the drive sleeve 325 and branch loading screw turning cylinder 326 is housed by bearing carrier ring, this minute, loading screw turning cylinder 326 upper end linked to each other with the output shaft of packing servomotor 308, the lower end installing divides loading screw 318, the meal outlet place of powder bucket 309 lower ends is provided with down powder muzzle pipe 319, divides loading screw 318 to place down in the powder muzzle pipe 319; Pulvis fill head 317 is placed in down outside the powder muzzle pipe 319, and link to each other with fill head connecting panel 316, fill head connecting panel 316 links to each other with can elevating bracket 304, on pillar 305, be equiped with can lifting support 302, set can lifting guide pillar 3041 is placed on the can lifting support 302 in the set can lifting guide pin bushing 3021 by can lifting linear bearing 301 on the can elevating bracket 304, can lift cylinder 303 is installed on the can lifting support 302, and its piston rod links to each other with can elevating bracket 304; Be provided with lifting location energy disperser 18 between can lifting support 302 and the can elevating bracket 304.In powder bucket 309, be provided with near detector switch 321; Packing servomotor 308 is fixed on the servomotor seat 327,327 of servomotor seats are installed on the shaft bearing 322, stirring miniature motor 307 is installed on the stirring motor seat 323, stirring motor seat 323 links to each other with shaft bearing 322 again, shaft bearing 322 links to each other with pillar 305 by connecting panel, and pillar 305 is fixed on the platen 71.The fixed tube part-structure that the fixed tube part and the Pipe Cutting of these parts are filled in the nitrogen parts 2 is identical, and this fixed tube part is fixed on the pillar 305 by its fixed tube center support 214.Bag 9 fills nitrogen parts 2 stations through Pipe Cutting and enters filling parts 3, cylinder 208 moves forward before and after the fixed tube center, make perfusion interface 93 positions of locating clip 209 to infusion bag 9, fixed tube center cylinder 210 actions then, drive and locating clip 209 bonded assembly locating clip slide blocks 213 slide in opposition on locating clip guide rail 212, make locating clip 209 hold perfusion interface 93 tightly, guarantee the accurate location of perfusion interface 93.Under can lift cylinder 303 promotes, can lifting guide pillar 3041 is up-and-down movement in being with the can lifting guide pin bushing 3021 of can lifting linear bearing 301, drive pulvis fill head 317 knee-actions, the center of assurance pulvis fill head 317 and perfusion interface 93 centers and sackholder 13 centers are conllinear all, and accurate positioning is reliable.And can amount and filling accuracy are regulated and control branch loading screw 318 by packing servomotor 308, and to reach different loading amount requirements, packing servomotor 308 control can amounts are accurately convenient and precision is high, fully GMP compatible; Powder feeding miniature motor 313 by be loaded in the powder bucket 309 near detector switch 321 in good time start and stop, drive powder feeding screw 312 powder feeding start and stop.Stirring miniature motor 307, to drive mixing devices 320 not stalls moving, prevents in the powder bucket 309 that medicinal powder cohere even kill branch loading screw 318.Can have electronics automatic monitoring device in the utility model, will stop the packing operation automatically when foreign matter being arranged in the chance medicinal powder or dividing loading screw 318 to contact with following powder muzzle pipe 319.Mechanical, electrical, gas integral control that these parts can adopt.

Bag 9 enters the heat sealing station behind the intact medicinal powder of can, perfusion mouth 93 is sealed.Reach perfect reliable and complete good seal in order to allow seal, for prevent that perfusion interface 93 from rebounding and thermal contraction has micropore after sealing, the utility model adopts two groups of heat sealing stations of high and low temperature.As shown in figure 12, high temperature heat bond sealing component 4 of the present utility model and low temperature heat bond sealing component 5 are same parts, and what they were different is that elevated temperature heat mould 44 is different with the temperature of low temperature heat-seal mould 48 settings, to realize high temperature and low temperature heat sealing.Above-mentioned high and low temperature heat bond sealing component 4,5 all is installed on the platen 71 by supporting 47.These two parts comprise heat seal cylinder 40, elevated temperature heat mould 44 or low temperature heat-seal mould 48, cleading 41, heating plate 42, heating pipe 43 and temperature-sensitive carbon head 45.Two heat seal cylinders 40 are oppositely arranged, wherein one is fixed in the support 47, another part is fixed on the heat seal cylinder connection piece 46, heat seal cylinder connection piece 46 links to each other with support 47, the piston rod of heat seal cylinder 40 links to each other with the heating plate 42 that is provided with heating pipe 43 by cleading 41, elevated temperature heat mould 44 or low temperature heat-seal mould 48 are made up of two blocks of heat-seal mould plates that are oppositely arranged, and two blocks of heat-seal mould plates are fitted with heating plate 42 respectively; Be connected with temperature-sensitive carbon head 45 on the heating plate 42; Supporting 47 is fixed on the platen 71.Bag 9 rotates to high and low temperature heat bond sealing component 4,5 respectively with central turnplate 12, the high and low temperature heat-seal mould 44,48 that has reached design temperature respectively under the promotion of two heat seal cylinders 40 move toward one another sack is carried out the high and low temperature heat sealing.The utility model is in conjunction with the characteristic of the interface material (PP or other composites) of soft bag, and promptly the interface material has heat-shrinkable and bounce-back property; Use low temperature heat sealing mould solder up again after adopting first high temperature heat sealing to reach the condition that meets solder up by its adapter is softening; The bounce-back and the contraction that prevent interface cause that micropore has been sealed in joint weld even no heat-sealing is not dead, make its solder up tight.Being furnished with the heating plate 42 of heating pipe 43 can regulate and control heating-up temperature according to the solder up effect by temperature controller, to reach optimum efficiency.

As shown in figure 13, output parts 6 of the present utility model are installed on the platen 71 by strut 65.It comprises and pushes away fork 1, pushes away fork 2 62 and output cylinder 63, output cylinder 63 links to each other with strut 65 by output cylinder connecting panel 64, the piston rod of output cylinder 63 pulls out pushing away fork 1 and push away and pitching 2 62 and link to each other of double nip on the infusion bag by pushing away fork connecting panel 66 with can pushing away respectively, and strut 65 is fixed on the platen 71.Bag 9 enters the output station after finishing heat sealing, push away fork 1, push away fork 2 62 and move under the promotion of output cylinder 63, pushes away the double nip part of pulling out bag 9 respectively, and output is safe and reliable like this, continues to be stuck on the sackholder 13 of central turnplate 12 to prevent bags 9.

Pulvis filling and sealing machine of the present utility model, can be to solid coyote hole 91 can solid (pulvis) medicines of as shown in figure 14 double-chamber transfusion bag 9, liquid coyote hole 92 filling liquid medicine among the figure, its drug interface 94 are by seal cover cap 95 sealings, and solid (pulvis) medicine can and seal from 93 perfusions of perfusion interface.

Claims (10)

1, a kind of intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine, it is characterized in that: it comprises power-transmitting part (1) and central turnplate (12), nitrogen parts (2) are filled in Pipe Cutting, filling parts (3), high temperature heat bond sealing component (4), low temperature heat bond sealing component (5), output parts (6), rack unit (7) and electric cabinet (8), nitrogen parts (2) are filled in described Pipe Cutting, filling parts (3), high temperature heat bond sealing component (4), low temperature heat bond sealing component (5) all is arranged at central turnplate (12) side that links to each other with power-transmitting part (1) with output parts (6), and support by rack unit (7), be arranged in order the formation Pipe Cutting and fill the nitrogen station, the can station, high temperature heat seal sealed station, low temperature heat sealing station and output station, described central turnplate (12) periphery is equiped with the sackholder (13) that mounts infusion bag.

2, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 1 is characterized in that being equiped with on the described central turnplate (12) retaining bag bar (14), and described retaining bag bar (14) is positioned at the below of corresponding sackholder (13).

3, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 1 and 2, folder mouth two (132) shapes that it is characterized in that described sackholder (13) are identical with seal cover cap (95) cross sectional shape of clamping infusion bag, and are provided with spring plunger (133) at this clamp mouth part.

4, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 1, it is characterized in that described Pipe Cutting fills nitrogen parts (2) and comprise the Pipe Cutting part that links to each other with column (211), fill nitrogen partial sum fixed tube part, described Pipe Cutting partly comprises cutting knife (207) and Pipe Cutting cylinder (206), cutting knife (207) links to each other with the piston rod of Pipe Cutting cylinder (206), the cylinder body of Pipe Cutting cylinder (206) is fixed in cutting knife to be supported on (218), and cutting knife supports (218) and links to each other with column 211 on being fixed in platen (71); Filling nitrogen partly comprises and fills nitrogen head (205) and lift cylinder (202), filling nitrogen head (205) is installed in and fills on the nitrogen head bracket (219), filling nitrogen head bracket (219) links to each other with elevating bracket (204), on column (211), be equiped with lifting support (203), the last set lifting guide pillar (2041) of elevating bracket (204) is placed in lifting support (203) and goes up in the set lifting guide pin bushing (2031), lift cylinder (202) is installed on the lifting support (203), and its piston rod links to each other with elevating bracket (204); Described fixed tube partly comprises locating clip (209), cylinder (208) before and after fixed tube center cylinder (210) and the fixed tube center, cylinder (208) is installed on the fixed tube center support (214) before and after the described fixed tube center, fixed tube center support (214) is fixed on the column (211), the piston rod of cylinder (208) links to each other with fixed tube centre mount (215) before and after the fixed tube center, the last set guide rail (2151) of fixed tube centre mount (215) is gone up set slide block (2141) slide relative with fixed tube center support (214) and is connected, fixed tube centre mount (215) front upper part is provided with locating clip guide rail (212), set locating clip guide rail (212) is gone up set locating clip slide block (213) by locating clip (209) and is connected with locating clip (209) slide relative, one side of locating clip (209) links to each other with fixed tube center cylinder (210) cylinder body, and opposite side links to each other with the piston rod of fixed tube center cylinder (210).

5,, it is characterized in that described filling parts (3) comprises powder feeding part, stirring and the quantitative filling partial sum fixed tube part that links to each other with pillar (305) according to claim 1 or 4 described intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machines; Described powder feeding partly comprises powder feeding miniature motor (313), powder feeding screw (312) and powder bucket (309), powder feeding miniature motor (313) is fixed on the pillar (305) by powder feeding motor link span (314), the output shaft of powder feeding miniature motor (313) links to each other with powder feeding screw (312), powder feeding screw (312) places in the powder feeding screw urceolus (310), and join with powder inlet on the powder bucket 309, powder feeding screw urceolus (310) links to each other with powder bucket (309); Described stirring and quantitative filling partly comprise packing servomotor (308), stirring miniature motor (307), mixing device (320), divide loading screw (318) and pulvis fill head (317), the top of described powder bucket (309) is provided with shaft bearing (322), be equiped with in this shaft bearing (322) and stir drive sleeve (325), the lower end installing mixing device (320) of stirring drive sleeve (325) also stretches in the powder bucket (309), and the upper end of stirring drive sleeve (325) links to each other with stirring miniature motor (307) by stirring transmission device (324); Stir in the drive sleeve (325) and be equiped with the branch loading screw turning cylinder (326) that can rotate to it, the upper end of this minute loading screw turning cylinder (326) links to each other with packing servomotor (308), the lower end installing divides loading screw (318), and the meal outlet place of powder bucket (309) lower end is provided with down powder muzzle pipe (319); Divide loading screw (318) to place down in the powder muzzle pipe (319); Described pulvis fill head (317) is placed in down outside the powder muzzle pipe (319), and link to each other with fill head connecting panel (316), fill head connecting panel (316) links to each other with can elevating bracket (304), on pillar (305), be equiped with can lifting support (302), the last set can lifting guide pillar (3041) of can elevating bracket (304) is placed in can lifting support (302) and goes up in the set can lifting guide pin bushing (3021), can lift cylinder (22) is installed on the can lifting support (302), and its piston rod links to each other with can elevating bracket (304); In powder bucket (309), be provided with near detector switch (321); The fixed tube center support (214) of described fixed tube part is fixed on the pillar (305), and pillar (305) is fixed on the platen (71).

6, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 5 is characterized in that described high temperature heat bond sealing component (4) comprises heat seal cylinder (40), elevated temperature heat mould (44), cleading (41), heating plate (42), heating pipe (43) and temperature-sensitive carbon head (45); Low temperature heat bond sealing component (5) comprises heat seal cylinder (40), low temperature heat-seal mould (48), cleading (41), heating plate (42), heating pipe (43) and temperature-sensitive carbon head (45); Two heat seal cylinders (40) are oppositely arranged, wherein one is fixed in the support (47), another part is fixed on the heat seal cylinder connection piece (46), heat seal cylinder connection piece (46) links to each other with support (47), the piston rod of heat seal cylinder (40) links to each other with the heating plate that is provided with heating pipe (43) (42) by cleading (41), described elevated temperature heat mould (44) or low temperature heat-seal mould (48) are made up of two heat seal templates that are oppositely arranged, and two heat seal templates are fitted with heating plate (42) respectively; Be connected with temperature-sensitive carbon head (45) on the heating plate (42); Described support (47) is fixed on the platen (71).

7, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 6, it is characterized in that described output parts (6) comprise pushes away fork one (61), pushes away fork two (62) and output cylinder (63), described output cylinder (63) links to each other with strut (65) by output cylinder connecting panel 64, the piston rod of output cylinder (63) pulls out pushing away fork one (61) and push away and pitching two (62) and link to each other of double nip on the infusion bag with can pushing away respectively, and described strut (65) is fixed on the platen (71).

8, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 7, it is characterized in that described power-transmitting part (1) comprises power (15) and indexing separator (11), power (15) links to each other with indexing separator (11) by transmission device (10), indexing separator (11) is fixed on the platen 71 that places rack unit (7) upper end, and central turnplate (12) links to each other with the output shaft of indexing separator (11).

9, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 8 is characterized in that being equiped with on the described central turnplate (12) retaining bag bar (14), and described retaining bag bar (14) is positioned at the below of corresponding sackholder (13); Folder mouth two (132) shapes of described sackholder (13) are identical with seal cover cap (95) cross sectional shape of clamping infusion bag, and are provided with spring plunger (133) at this clamp mouth part.

10, intermittent rotary non-PVC large infusion soft-bag pulvis filling and sealing machine according to claim 9 is characterized in that the transmission device (10) between described power (15) and the indexing separator (11) is a chain-driving, and described stirring transmission device (324) is a chain-driving.

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