WO2011035504A1

WO2011035504A1 - Filling machine

Info

Publication number: WO2011035504A1
Application number: PCT/CN2009/074905
Authority: WO
Inventors: 艾良圣
Original assignee: 湖南千山制药机械股份有限公司
Priority date: 2009-09-28
Filing date: 2009-11-11
Publication date: 2011-03-31
Also published as: CN101664995B; CN101664995A

Abstract

A filling machine includes a preform forming system (1), a heating system (2), a bottle blowing system (3), a washing system (4), a filling system (5), a sealing system (6), a capping system (7) and a transferring system which connects in succession the preform forming system (1), the heating system (2), the bottle blowing system (3), the washing system (4), the filling system (5), the sealing system (6) and the capping system (7) together. When the bottle blowing system blows the bottles, particles can be taken into the bottles by the compressed air for blowing the bottles and pollute the bottles. The filling machine overcomes above problem, thus achieving the effect that the produced bottles are clean

Description

Filling machine TECHNICAL FIELD This invention relates to a filling machine. BACKGROUND OF THE INVENTION The existing similar equipment in the field of plastic bottle packaging is the "embryo-blow-fill-seal" four-in-one filling machine produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd., and the production process is as follows: The desired preform is first produced by a plastic extrusion system, and then the preform that has not been completely cooled is appropriately heated, and the heated preform is sent to a blowing system, and the blow molding system is blown into a bottle of 4 bar preforms. The blown bottle is sent to the filling system. The filling system fills the empty bottle with 4 bar liquid, and the bottle filled with liquid is sent to the sealing system. The sealing system seals the bottle filled with liquid. The inventors have found that the following problems may exist in the prior art: Due to the "embryo-blow-fill-seal" four-in-one filling machine produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd., it is blown in a blowing system. At the time, the compressed air used for blowing may be introduced into the particles to contaminate the bottle. SUMMARY OF THE INVENTION The present invention is directed to a filling machine capable of solving the "embryo-blow-fill-seal" four-in-one filling machine produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd., which is in a blowing system. When blowing, the compressed air used for blowing may carry particles and cause contamination of the bottle. In an embodiment of the present invention, there is provided a filling machine comprising: a seeding system for manufacturing a preform; a heating system for reheating a preform produced by the embryo making system; a blowing system, It is used for stretching and blowing a heated preform into a bottle; a cleaning system for cleaning particles adsorbed on the inner wall of the bottle; a filling system for liquid filling the cleaned bottle; a sealing system for Caps that have been filled with liquid for capping; capping system for caps used in capping systems for bottle closures; transfer systems for seeding systems, heating systems, blowing systems, cleaning systems, filling The system, the sealing system, and the capping system are connected in series, and the conveying system is responsible for the transfer of preforms, clamps, bottles and caps. Preferably, the embryo making system comprises: an injection system having a continuous extrusion function, provided with a downward nozzle; a plurality of first injection flow channels, which are horizontally disposed, and the injection nozzle of the injection system is located in a plurality of first injections a junction of the jet channels; a heating member disposed around the plurality of first injection flow paths; a preform molding die disposed below the first injection flow path and circumferentially distributed, comprising: a preform cavity, a clamp, a preform core; a second injection flow path connected between the first injection flow path and the preform cavity; and an injection switch disposed on the flow path formed by the first injection flow path and the second injection flow path. Preferably, the injection switch is disposed on the first injection flow path or the injection switch is disposed on the second injection flow path. Preferably, the injection system is vertically or horizontally set. Preferably, the heating system comprises: a multi-layer heating tube, wherein each layer of the heating tube can be separately controlled; and a ventilation system disposed around the multi-layer heating tube for adjusting the temperature of the surface layer of the preform. Preferably, the blowing system is composed of a plurality of blowing units, wherein the plurality of blowing units are circumferentially distributed, wherein the blowing unit comprises: an opening and closing system; a bottom film; a blowing cavity; a jig; a stretching air blowing system The blowing system is responsible for blowing the preform into a bottle, wherein the blowing cavity is a single cavity or a multi-chamber. Preferably, the jig holding the preform is involved in the production of the preform during the production of the embryo, and is used to carry the preform through the heating system during heating, and participate in the stretching and blowing system during the blowing. Preferably, the filling system is composed of a plurality of filling units, and the plurality of filling units are circumferentially distributed; and the #口 system is composed of a plurality of mouth units, and the plurality of mouth units are circumferentially distributed. Preferably, the cleaning system is an ion wind cleaning system or a water cleaning system. Preferably, the closure system is a welded cap closure system or a capped closure system or a closure closure system. Preferably, the transport system comprises: a first transition carousel connected to the embryo making system for transferring the jig holding the preform by the embryo making system; the first drive chain, connected to the first transition carousel, and passing through a heating system, a portion of the first transmission chain passing through the heating system is provided with a chain, and when the first transmission chain is passed from the first transitional turntable to the clamp carrying the preform through the heating system, the chain drives the clamp rotation of the preform The preform is heated by the hook, the first transmission chain also has the function of changing the spacing of the clamp; the second transition turn is connected between the first transmission chain and the blowing system, and the second transitional turn is taken from the first transmission chain. Carrying the clamp of the preform and feeding it into the blowing system; the third transition turntable is connected to the blowing system, and the clamp carrying the bottle is transferred from the blowing system; the fourth transition turntable, and the third The transition turntable is connected, and the clamp holding the bottle is taken from the third transition turntable, and the bottle and the clamp are separated on the fourth transition turntable, and then the empty clamp is transmitted; the second drive chain is connected with the fourth transition turntable. , From its The empty jig is transmitted, and the second transmission chain also has the function of changing the spacing of the jig, so that the embryo making system takes up less space; the fifth transition carousel is connected to the second chain and the empty jig is uploaded therefrom; a six transition turntable, connected between the fifth transition turntable and the embryo making system, the hollow block of the 4th fifth transition turntable is transmitted and then transmitted back to the embryo making system; the seventh transition turntable is connected to the fourth transition turntable, and The fourth transition turntable is connected to the bottle separated from the clamp; the eighth transition turntable is connected between the seventh transition turntable and the cleaning system, receives the bottle from the seventh transition turntable, and transmits to the cleaning system; the ninth transition turntable , connected between the cleaning system and the filling system, the cleaned bottle in the 4 bar cleaning system is transmitted out and transferred to the filling system; the tenth transition carousel is connected between the filling system and the sealing system, and the filling system is The bottle filled with liquid is sent out and sent to the sealing system; the bottle opening carousel is connected with the sealing system, the bottle opening turntable is a double-layer turntable, and the lower turntable passes the sealed bottle from the sealing system. This feeding device, which cover the upper transfer turntable to put the sealed with a sealing system. Because of the special structure of the filling machine according to the invention, the "embryo-blow-fill-seal" four-in-one filling machine produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd. is overcome. When the blowing system is blown, the compressed air used for blowing may bring in particles and cause the bottle to be contaminated, thereby achieving the effect of cleaning the bottle. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: Fig. 1 schematically shows a process flow structure of an embodiment of the present invention; Fig. 2 is a view schematically showing the structure of an embryo making system according to an embodiment of the present invention; Fig. 3 is a schematic view of the present invention. The structure of the embryo making system of one embodiment is molded when the embryo is molded; FIG. 4 is a view schematically showing the structure of the embryo making system of the embodiment of the present invention when the embryo is made and the mold is opened; FIG. 5 schematically shows The working structure of the heating furnace of one embodiment of the present invention; FIG. 6 is a view schematically showing the structure of the blowing system of the embodiment of the present invention when the blowing bottle is stretched; FIG. 7 is a view schematically showing the blowing of one embodiment of the present invention. The structure of the bottle system at the end of the bottle. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in conjunction with the embodiments. Fig. 1 schematically shows a process flow structure of an embodiment of the present invention. Referring to Figures 2-7, as shown, in an embodiment of the present invention, a filling machine is provided, comprising: an embryo making system 1 for manufacturing a preform 98; a heating system 2, made When the preform 98 passes through the heating system 2, the preform 98 is properly heated to be suitable for blowing the preform 98 into a bottle 99; a blowing system 3 for blowing the heated preform 98 into a bottle 99; The cleaning system 4 is used for cleaning the adsorption of the inner wall of the bottle 99. Preferably, the cleaning system 5 is an ion air cleaning system or a water cleaning system; the filling system 5 is used for liquid filling the bottle 99; the sealing system 6 , for sealing the bottle 99 filled with liquid; the upper cover system 7 , comprising a cover device and a cover guide rail for ordering the caps and providing a cap for sealing the sealing system 6; a delivery system that sequentially connects the embryo making system 1, the heating system 2, the blowing system 3, the cleaning system 4, the filling system 5, the "mouth system 6, the upper cover system 7," and the delivery system is responsible for the bottle Delivery of the embryo 98, the clamp 18, the bottle 99 and the cap. With the filling machine according to the invention, It has the function of cleaning the blown empty bottle, and overcomes the "embryo-blow-fill-seal" four-in-one filling machine produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd., which is carried out in the blowing system. When blowing a bottle, the compressed air for blowing may bring in particles and cause the bottle to be contaminated, etc., thereby achieving the effect of cleaning the bottle. As shown in Fig. 1, preferably, the conveying system includes the first Transition turntable 81, first drive chain 82, second transition turntable 83, third transition turntable 84, fourth transition turntable 85, second drive chain 86, fifth transition turntable 87, sixth transition turntable 88, seventh transition turntable 89, the eighth transition turntable 90, the ninth transition turntable 91, the tenth transition turntable 92 and the bottle turntable 93, the drive system 4 bar embryo system 1, the heating system 2, the blowing system 3, the filling system 5, the cleaning system 6. The upper cover system 7 and the sealing system 6 are organically connected to form an organic whole. The transport system comprises: a first transition carousel 81 connected to the embryo making system 1 for carrying out the embryo making system 1 a clamp 18 of the preform 98; A transmission chain 82 is connected to the first transition dial 81 and passes through the heating system 2, and a portion of the first transmission chain 82 passing through the heating system 2 is provided with a chain 821, and when the first transmission chain 82 is connected from the first transition dial 81 When the clamp 18 carrying the preform 98 passes through the heating system 2, the chain 821 drives the clamp 18 carrying the preform 98 to rotate, the preform 98 is uniformly heated, and the first transmission chain 82 also has the function of changing the spacing of the clamp 18; The second transition dial 83 is connected between the first transmission chain 82 and the blowing system 3, and the second transition dial 83 is connected from the first transmission chain 82 to the clamp 18 holding the preform 98, and is fed into the second transmission dial 83. The blowing system 3; the third transition dial 84 is connected to the blowing system 3, and the clamp 18 carrying the bottle 99 is transmitted from the blowing system 3; the fourth transition dial 85 is connected to the third transition dial 84. And the clamp 18 holding the bottle 99 is taken from the third transition turntable 84, and the bottle and the clamp 18 are separated on the fourth transition turntable 85, and then the empty clamp 18 is transmitted; the second drive chain 86, and the fourth The transition carousel 85 is connected, and an empty jig 18 is uploaded therefrom, and the second transmission chain 86 also has the function of changing the spacing of the jig 18, so that the embryo making system 1 takes up less space; the fifth transition carousel 87, and the second transmission The chain 86 is connected and an empty clamp 18 is unloaded therefrom; a sixth transition turntable 88 is connected between the fifth transition turntable 87 and the preform system 1, and the hollow jig 18 of the fifth transition turn 87 is transmitted and retransmitted. The seventh transition turntable 89 is connected to the fourth transition turntable 85, and is connected from the fourth transition turntable 85 to the bottle 99 separated from the clamp 18; the eighth transition turntable 90 is connected to the seventh transition turntable Between 89 and the cleaning system 4, the bottle 99 is taken from the seventh transition turn 89 and sent to the cleaning system 4; the ninth transition carousel 91 is connected between the cleaning system 4 and the filling system 5, 4 bar cleaning system The cleaned bottle 99 in 5 is sent out and sent to the filling system 5; the tenth transition turntable 92, Between the filling system 5 and the sealing system 6, the bottle 99 filled with liquid in the filling system 5 is sent out and sent to the sealing system 6; the bottle turning plate 93 is connected to the sealing system 6, and the bottle turning plate 93 In the case of a double-layer turntable, the bottle 99 of the lower turntable 4 is discharged from the sealing system 6 and sent out of the apparatus, and the upper turntable conveys the cover for sealing to the sealing system 6. The capped bottle 99 is transferred to the upper transfer tray on the take-out turntable, and the bottle-out turntable 93 4 is sealed and the bottle is sent out of the device. In this way, the entire production process is completed. As shown in FIG. 1, preferably, the sealing system 6 is composed of a plurality of sealing units, and the plurality of sealing units are circumferentially distributed; and the filling system 5 is composed of a plurality of filling units, and the plurality of filling units are circumferentially distributed. Preferably, the sealing system 6 is sealed with a cap or a cap or a cap, so that different types of seals can be selected, which is practical. Referring to Figure 1, the preform system 1 continuously produces the preform 98, and the first transition dial 81 4 bar carries the clamp 18 of the preform 98 to the first drive chain 82. When the clamp 18 carrying the preform 98 passes through the heating system 2 When the preform 98 is evenly heated, the second transition dial 83 is taken from the first transmission chain 82 through the clamp 18 carrying the preform 98, and then rotated into the blowing system 1, the blowing system 1 is the preform 98 The bottle is blown into a bottle 99, and the third transition turntable 84 is taken from the blowing system 3 to the clamp 18 carrying the bottle 99, and then rotated to the fourth transition turntable 85. On the fourth transition turntable 85, the bottle 99 is separated from the clamp 18. . The empty jig 18 enters the preform system through the second drive chain 86, the fifth transition turntable 87 and the sixth transition turntable 88 to re-participate in the production of the preform 98, and the bottle 99 passes through the seventh transition turn 89 and the eighth transition turntable. 90 enters the cleaning system 4, the cleaning system 4 cleans the inner wall of the bottle 99 with water or other cleaning medium; the ninth transition carousel 91 then transfers the 4 bar cleaned bottle 99 from the cleaning carousel 4 to the filling system 5; in the filling system At 5, the bottle 99 is filled with a suitable volume of liquid. The filled bottle 99 is transferred from the filling system 5 to the sealing system 6 through the tenth transition carousel 92, and the sealing system 6 is filled well. The bottle 99 is capped and sealed, and the cap for sealing is the capping system 7 which supplies the sorted cap to the capping system 6 through the upper carousel of the bottle carousel 93. The capped bottle 99 is transferred to the upper transfer tray on the take-out turntable, and the bottle-out turntable 93 feeds the capped bottle out of the device. Referring to Figures 2, 3 and 4, preferably, the preform system 1 comprises: an injection system 11 having a nozzle 12 disposed downwardly; a plurality of first injection channels 15, horizontally disposed, and an injection system The nozzle 12 is located at the intersection of the plurality of first injection flow passages 15; the heating rod 13 is disposed around the plurality of first injection flow passages 14; the preform forming mold is disposed below the first injection flow passage 14, and a circumferential distribution comprising: a preform cavity 17, a clamp 18, a preform core 19; a second injection flow path 15 disposed between the first injection flow path 14 and the preform cavity 17; the injection switch 16, set It is disposed on a flow path composed of the first injection flow path 14 and the second injection flow path 15. The injection system 12 is a circumferentially uniform plurality of sets of preform molds consisting of a preform cavity 17, a clamp 18, and a preform core 19, one by one. The first injection flow path 14 of plastic is a hot runner provided with a heating rod 13 which allows the plastic to maintain a suitable temperature in the first injection flow path 14. During the manufacture of a single preform 98, there is an injection switch device 16 that injects or stops the injection according to the needs of the embryo making system 1. The production process of a single preform 98 consists of four stages of mold clamping, injection molding, cooling, and mold opening. These four stages are completed in continuous rotation. Preferably, the injection system 11 is vertically or horizontally disposed. As shown in Fig. 2, Fig. 3 and Fig. 4, the injection system 11 of the continuous rotary type embryo making system 1 is vertically disposed, the nozzle 12 is downward, and a plurality of radially first injection flow paths 14 are horizontally arranged and injected. The nozzles 12 of the system 11 are located at the intersection of the first injection flow paths 14. In the vicinity of the first injection flow path 14, a heating rod 13 is disposed, and under the outer end of each of the first injection flow paths 14, a preform type moonlight 17, a jig 18, a preform core 19, and the like are provided correspondingly. a preform molding die, a second injection flow path 16 is disposed between the first injection flow path 14 and the preform cavity 17, and an injection switch 16 is disposed on the second injection flow path 16, and of course the injection switch 16 is also It may be disposed on the first injection flow path 14. The injection system 11, the first injection flow path 14 and the components such as the preform molding die are rotated in synchronization. When the jig 18 without the preform 98 is fed into the embryo making system 1 by the sixth transition turntable 88, the preform core 19 and the clamp 18 are raised, and when the preform cavity 17 forms a closed cavity, the injection switch 16 is opened. The injection system 11 4 bar melted plastic is injected into the cavity closed by the preform core 19, the clamp 18, and the preform cavity 17 through the first injection flow path 14 and the second injection flow path 15, and is maintained at a set time. After the pressure is lowered, the injection switch 16 is closed, the preform core 19 and the clamp 18 are lowered at different speeds, and the prepared preform 98 leaves the preform cavity 17 with the clamp 18, and the preform core 19 is also separated from the preform 98. The preform 98 remains on the jig 18 and is taken out of the embryo making system 1 by the first transition carousel 81. Since the entire embryo making system 1 is continuously rotated, a plurality of preforms are circumferentially distributed to continuously produce a large number of preforms 98. As shown in FIG. 5, preferably, the heating system 2 includes: a ventilation system 21 for equalizing the appearance and internal temperature of the preform 98; a multi-layer heating tube 22, wherein each layer of the heating tube 22 can be individually controlled to ensure the preform 98 is moderately heated up and down, and the preform 98 is provided with an appropriate number of heating systems 2 on the way of transport. The prepared preform 98 is passed through the heating system 2 under the conveyance of the first conveyor chain 82 to give the preform 98 a set heating effect. When the jig 18 carrying the preform 98 passes through the heating system 2, the core portion of the jig 18 is continuously rotated to ensure uniform heating of the circumference of the preform 98 carried thereby. Preferably, the jig 18 carrying the preform 98 participates in the production of the preform 98 during the production of the embryo, and is used to carry the preform 98 through the heating system 2 when heated, and participate in the stretching and blowing when blowing System 30 works. As shown in FIG. 6 and FIG. 7, preferably, the plurality of blowing units of the blowing system 3 are circumferentially distributed, and the blowing unit comprises: an opening and closing mold system 30; a bottom film 31; a blowing cavity 32; ; Stretching the air blowing system 33. Preferably, the clamp 18 for holding the preform 98 participates in the production of the preform 98 during the preparation of the embryo. When heated, it is used to hold the preform 98 through the heating system 2, and when blowing, participate in the blowing system 3 jobs. Preferably, the single set of blow molds 32 may be a single chamber or a multiple chamber. As shown in FIG. 6 and FIG. 7, the second transition dial 83 takes the clamp 18 carrying the preform 98 from the first conveyor chain 82 and feeds it into the blowing unit of the continuous rotation operation of the blowing system 3, and the bottom mold 31 descends. The opening and closing mold system 30 is closed, the stretching and blowing system 33 works, and the heated preform 98 is stretched and blown, and after being cooled and set by the pressure, the blowing cavity 32 is opened, the bottom mold 31 is lifted, and the clamp 18 is clamped. The bottle 99 is carried away by the third transition carousel 84. This blowing unit is then transferred to the position where it is in contact with the second transition turntable 83 to start a new bottle making cycle. From the above description, it can be seen that the above-described embodiment of the present invention achieves the following technical effects: Since the filling machine according to the present invention has the function of cleaning the blown empty bottle, the overcoming due to The "embryo-blow-fill-seal-sealing, four-in-one filling machine" produced by Hunan Qianshan Pharmaceutical Machinery Co., Ltd., when blowing in the blowing system, the compressed air used for blowing may be brought in. The problem of the bottle being contaminated by the particles, etc., thereby achieving the effect of cleaning the bottle. The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is to those skilled in the art The invention may be variously modified and changed. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claims A filling machine characterized in that it comprises:

Embryo system (1) for making preforms (98);

a heating system (2) for reheating the preform (98) produced by the embryo making system (1);

a blowing system (3) for stretching and blowing the heated preform (98) into a bottle (99); and a cleaning system (4) for granulating the adsorption of the inner wall of the bottle (99);

Filling system (5) for liquid filling of the cleaned bottle (99); sealing system (6) for capping the bottle (99) filled with liquid; upper cover system ( 7), a cover for providing the sealing system (6) for bottle sealing; a conveying system that will produce the seeding system (1), the heating system (2), the blowing system (3), the cleaning system ( 4), the filling system (5), the sealing system (6), the upper cover system (7) are sequentially connected together, and the conveying system is responsible for the preform (98), the clamp (18), the bottle (99) and The transfer of the cap. The filling machine according to claim 1, characterized in that the embryo making system (1) comprises: an injection system (11) having a continuous extrusion function, provided with a downward nozzle (12); An injection flow path (14) is disposed horizontally, and a nozzle (12) of the injection system (11) is located at an intersection of the plurality of first injection flow paths (14);

a heating member (13) disposed around the plurality of first injection flow paths (14); a preform molding die (17, 18, 19) disposed under the first injection flow path (14), and Circumferentially distributed, comprising: a preform cavity (17), a clamp (18), a preform core (19), and a second injection flow path (15) connected to the first injection flow path (14) Between the preform cavity (17);

An injection switch (16) is disposed on the flow path formed by the first injection flow path (14) and the second injection flow path (15).

3. Filling machine according to claim 2, characterized in that the injection switch (16) is arranged on the first injection flow channel (14) or the injection switch (16) is arranged in the second Injection channel (15).

4. Filling machine according to claim 2, characterized in that the injection system (11) is arranged vertically or horizontally.

5. Filling machine according to claim 1, characterized in that the heating system (2) comprises: a multi-layer heating tube (22), wherein each layer of heating tubes (22) can be individually controlled; ventilation system (21 ), disposed around the multi-layer heating tube (22) for adjusting the temperature of the surface layer of the preform (23).

6. The filling machine according to claim 1, wherein the blowing system (3) is composed of a plurality of sets of blowing units, the plurality of blowing units are circumferentially distributed, wherein the blowing unit Including: opening and closing system (30); base film (31); blowing cavity (32); fixture (18); stretching and blowing system (33), blowing system (3) responsible for the preform (98) Blowing the bottle (99), wherein the blowing cavity (32) is a single chamber or a multi-chamber.

7. The filling machine according to claim 1, wherein the clamp (18) for holding the preform (98) participates in the production of the preform (98) during the preparation of the embryo, and is used during heating. Carrying the preform (98) through the heating system (2), participating in the stretch blowing system during blowing

(30) Work.

8. The filling machine according to claim 1, wherein the sealing system (6) is composed of a plurality of sealing units, the plurality of sealing units are circumferentially distributed; and the filling system (5) ) consisting of a plurality of filling units, and the plurality of filling units are circumferentially distributed.

9. Filling machine according to claim 1, characterized in that the cleaning system (5) is an ion air cleaning system or a water cleaning system.

10. Filling machine according to claim 1, characterized in that the sealing system (6) is a welded lid sealing system or a capping sealing system or a capping sealing system.

11. The filling machine according to claim 1, wherein the conveying system comprises:

a first transition carousel (81) connected to the embryo making system (1) for transferring the jig (18) holding the preform (18) of the embryo making system (1); a first transmission chain (82) connected to the first transition turntable (81) and passing through the heating system (2), the first transmission chain (82) passing through the heating system (2) Partly provided with a chain (821), when the first transmission chain (82) is passed from the first transition dial (81) to the clamp (18) carrying the preform (98) through the heating system (2) When the chain (821) drives the clamp (18) carrying the preform (98) to rotate, the preform (98) is uniformly heated, and the first transmission chain (82) also has a change fixture (18) Giant role, blowing in a suitable blowing system (3);

a second transition carousel (83) connected between the first transmission chain (82) and the blowing system (3), the second transition carousel (83) from the first transmission chain (82) The clamp (18) carrying the preform (98) is taken up and sent to the blowing system (3);

a third transition carousel (84), connected to the blowing system (3), which passes from the blowing system (3) a clamp (18) carrying the bottle (99);

a fourth transition turntable (85) is connected to the third transition turntable (84), and receives a clamp (18) carrying the bottle (99) from the third transition turntable (84), and the bottle ( 99) and the clamp (18) is separated on the fourth transition turntable (85), and then the empty clamp (18);

a second transmission chain (86) connected to the fourth transition turntable (85) and from which an empty clamp (18) is uploaded, the second transmission chain (86) also having a change in the spacing of the clamps (18) The role of the embryo making system ( 1 ) takes up less space;

a fifth transition turntable (87), connected to the second drive chain (86), and an empty clamp (18) is uploaded therefrom;

a sixth transition turntable (88) is connected between the fifth transition turntable (87) and the seed making system (1), and transmits the hollow jig (18) of the fifth transition turntable (87) and And returning to the embryo making system (1);

a seventh transition turntable (89), connected to the fourth transition turntable (85), and from the fourth transition turntable (85) is connected to the bottle (99) separated from the clamp (18);

An eighth transition turntable (90) is connected between the seventh transition turntable (89) and the cleaning system (4), receives a bottle (99) from the seventh transition turntable (89), and transmits Give cleaning system (4);

a ninth transition turntable (91) is connected between the cleaning system (4) and the filling system (5), and the bottle (99) cleaned in the cleaning system (5) is transmitted and transmitted to The filling system (5); a tenth transition turntable (92) connected between the filling system (5) and the sealing system (6), and the bottle (99) filled with liquid in the filling system (5) is transmitted out And transmitted to the sealing system (6);

The bottle opening turntable (93) is connected to the sealing system (6), the bottle discharging turntable (93) is a double-layer turntable, and the lower turntable turns the sealed bottle (99) from the sealing system (6) The device is ejected and sent out, and the upper turntable conveys the cover for sealing to the sealing system (6).