CN204149592U - For the tube sealing machine of flexible containers - Google Patents

Abstract

A kind of tube sealing machine for flexible containers, comprise frame, rack-mounted flexible containers feeding mechanism respectively, filling tube feeding mechanism, intubation mechanism, point sealing mechanism, sack sealing mechanism and flexible containers delivering mechanism, described sack sealing mechanism comprises flexible containers transfer device and at least two closing devices, described flexible containers transfer device by the flexible containers that processes in intubation mechanism by intubation mechanism, each closing device, flexible containers delivering mechanism successively order transmits, described closing device comprises flexible containers and transmits rotating disk and at least one seal mould, described flexible containers transmits that rotating disk is rotating to be arranged in frame, described seal mould is arranged on the edge that flexible containers transmits rotating disk.The utility model, under the prerequisite ensureing sealing effect, is significantly enhanced productivity; Effectively simplify the structure of intubation mechanism, saved the consumption of the energy, reduced manufacturing cost and production cost, further increase production efficiency.

Description

For the tube sealing machine of flexible containers

Technical field

The utility model relates to a kind of tube sealing machine for flexible containers, more particularly, relates to the tube sealing machine being used for flexible containers that a kind of sack carrying out that fast filling tube can be inserted flexible containers seals.

Background technology

Traditional tube sealing machine for flexible containers, comprises the bag-loading mechanism be located in frame, intubation mechanism, intermittent transfer mechanism, sack sealing mechanism and bag receiving mechanism usually successively.But due to its complicated structure, the material therefore expended is many, production cost is higher.And due to the employing of traditional soft packaging tube sealing machine is intermittent transfer, successively flexible package is sent to each station, processes.First, flexible package is sent into intermittent transfer mechanism by bag-loading mechanism.Then, flexible package is sent into intubate station by intermittent transfer mechanism, and the sack of flexible package is opened by intubation mechanism, and inserts filling tube.Then, at least one heat-sealing station, at least one cold seal station are sent in flexible package by intermittent transfer mechanism successively, allow sack sealing mechanism seal.Finally, flexible package is delivered to bag receiving mechanism by intermittent transfer mechanism, arranges and sends.The time that intermittent transfer mechanism pauses at every turn is determined by most time-consuming step, therefore this traditional processing mode, usually per minutely can only process at most 30-40 flexible package, cannot effectively enhance productivity.

In addition, because the connecting gear of intermittent transfer is all adopt ring chain connecting gear to transmit flexible package usually.The volume ratio that this connecting gear takies is comparatively large, and utilization ratio is lower, and production cost is higher.And another kind of transmission mechanism, adopt the draw frame machines such as vacuum cup flexible package to be held, then with pneumatic actuator, next station is delivered in flexible package, therefore need the number of draw frame machine and pneumatic actuator many, complicated structure, production cost is also higher.

Sack sealing mechanism is then usual to be made up of upper hot squeeze-film mechanism and lower hot squeeze-film mechanism, and each hot squeeze-film mechanism is by driving mechanism and heat-sealing head composition, and driving mechanism adopts cylinder usually.During work, flexible package and filling tube junction are positioned in the middle of two heat-sealing heads, two heat-sealing head relative motions, carry out hot pressing to flexible package and filling drinking pipe junction.The clamping of this structure, the volume taken is excessive, adds the volume of soft packaging tube sealing machine, and needs the action of control circuit control cylinder, adds production cost.

In order to improve the production efficiency of the tube sealing machine for flexible containers, reduce production cost, notification number is that the Chinese patent literature " automatic tube sealing machine of standing pouch " of CN101670687 discloses a kind of automatic tube sealing machine of standing pouch, comprise Self stand bag feeding mechanism, sack opener, filling tube feeding mechanism, circulating production line and Self stand bag delivering mechanism, circulating production line comprises cyclic transfer mechanism, at least two heat sealing mechanisms and multiple Intubaction device, each Intubaction device is all located in cyclic transfer mechanism, it is characterized in that: described Self stand bag feeding mechanism, filling tube feeding mechanism, sack opener, all heat sealing mechanisms and Self stand bag delivering mechanism distribute to outlet along the outer sending mechanism in cycles successively from cyclic transfer mechanism entrance.Described heat sealing mechanism is rolling heat sealing mechanism.

But, applicant finds this tube sealing machine Shortcomings, its rolling heat sealing mechanism is difficult to the effect ensureing heat-sealing, and filling tube easily departs from the sack of Self stand bag, is difficult to the quality ensureing finished product, percent defective is difficult to reduce, therefore production efficiency is difficult to improve, and the structure of its intubation mechanism is still very complicated, inefficiency, easily break down, these problems cause production cost to be difficult to reduce.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of tube sealing machine for flexible containers, and this tube sealing machine for flexible containers under the prerequisite ensureing sealing effect, significantly can be enhanced productivity.The technical scheme adopted is as follows:

A kind of tube sealing machine for flexible containers, comprise frame, rack-mounted flexible containers feeding mechanism respectively, filling tube feeding mechanism, intubation mechanism, point sealing mechanism, sack sealing mechanism and flexible containers delivering mechanism, described sack sealing mechanism comprises flexible containers transfer device and at least two closing devices, described flexible containers transfer device by the flexible containers that processes in intubation mechanism by intubation mechanism, each closing device, flexible containers delivering mechanism successively order transmits, it is characterized in that: described closing device comprises flexible containers and transmits rotating disk and at least one seal mould, described flexible containers transmits that rotating disk is rotating to be arranged in frame, described seal mould is arranged on the edge that flexible containers transmits rotating disk.Namely the flexible containers processed in intubation mechanism is transferred on the seal mould of first closing device by described flexible containers transfer device successively, the flexible containers that the seal mould of first closing device processes is transferred to successively on the seal mould of next closing device, the flexible containers that the seal mould of last closing device processes is transferred on flexible containers delivering mechanism successively.The flexible containers processed in intubation mechanism is sequentially transferred to first closing device, the second closing device ..., until flexible containers delivering mechanism.Because flexible containers to transmit in dial rotation process (from flexible containers is admitted to seal mould at flexible containers, until flexible containers was sent seal mould in the past), seal mould carries out involution (traditional static involution) to flexible containers always, therefore sealing effect is good, both the problem that traditional sealing machine clearance-type transfer rate is slow had been solved, in turn ensure that sealing effect, reach in the object ensureing significantly to enhance productivity under the prerequisite of sealing effect.

Preferably scheme, described flexible containers delivering mechanism comprises at least two flexible containers transfer devices, described flexible containers transfer device comprises transfer rotating disk and two twilight orbits, and described two twilight orbits lay respectively between transfer rotating disk and closing device or shift between rotating disk and intubation mechanism.The flexible containers processed is delivered to the twilight orbit of first flexible containers transfer device by described intubation mechanism, and then this flexible containers takes on the seal mould of first closing device by the transfer rotating disk of first flexible containers transfer device.The flexible containers processing (heat-sealing) is delivered to the twilight orbit of second flexible containers transfer device by described first closing device, and then this flexible containers takes on the seal mould of second closing device by the transfer rotating disk of second flexible containers transfer device.By that analogy, the flexible containers finally completing cold seal is delivered to the twilight orbit of the 4th flexible containers transfer device by the 3rd closing device, then this flexible containers takes on flexible containers delivering mechanism by the transfer rotating disk of the 4th flexible containers transfer device.

Preferably scheme, the seal mould of at least one closing device described is heat seal die.

Preferably scheme, the seal mould of at least one closing device described is cold seal mould.

The application is object further, it is the structure simplifying intubation mechanism, allow intubation mechanism can complete intubate work fast and accurately, the technical scheme adopted is: described intubation mechanism comprises flexible containers and rotates conveyer frames, sack opener, driving mechanism, vertically-acting track, crosswise movement track and at least one flexible containers detent mechanism, described flexible containers rotates conveyer frames and is provided with at least one filling tube locating slot, described flexible containers rotates that conveyer frames is rotating to be arranged in frame, driving mechanism drives flexible containers to rotate conveyer frames and rotates, described vertically-acting track and crosswise movement track are separately fixed in frame, described flexible containers detent mechanism can the flexible containers that be arranged on of vertical lift rotate on conveyer frames, and described flexible containers detent mechanism can clamp vertically-acting track along vertically-acting orbital motion, described sack opener is arranged on flexible containers detent mechanism, and sack opener can clamp crosswise movement track along crosswise movement orbital motion.The height of described vertically-acting orbits controlling flexible containers detent mechanism, controls the rising of flexible containers detent mechanism to reach and declines thus complete the action of overlapping filling tube.The controlled terminal action (i.e. the change in location of controlled terminal in horizontal plane) of described crosswise movement orbits controlling sack opener, opens to reach control sack opener or closes thus complete the action of opening flexible containers sack.

Preferably scheme, described filling tube locating slot and both one_to_one corresponding identical with flexible containers detent mechanism number, flexible containers detent mechanism is positioned at above corresponding filling tube locating slot.After this can guarantee that flexible containers detent mechanism declines, flexible containers is wherein set in the filling tube of the filling tube locating slot being arranged in correspondence accurately.

Preferably scheme, described vertically-acting track comprises high-order section, low level inserting pipeline section is connected slope section with two, the height of the high-order section of aspect ratio of described low level inserting pipeline section is low, and the two ends of low level inserting pipeline section connect slope section respectively by described two and connect high-order section, form complete vertically-acting track.

More excellent scheme, described flexible containers detent mechanism comprises positioning seat, vertically-acting rail clamping mechanism, the liftable flexible containers that is arranged on of positioning seat rotates on conveyer frames, described vertically-acting rail clamping mechanism comprises two the first rollers and connecting rod, described connecting rod top is arranged on positioning seat, two the first rollers are rotating to be respectively arranged on the sidewall of connecting rod, and described two the first rollers contact respectively vertically-acting track upper surface and lower surface, clamp vertically-acting track.Two the first rollers that positioning seat follows connecting rod change its height, and when two the first rollers are positioned at vertically-acting track high position section, positioning seat is for higher height; When two the first rollers enter low level inserting pipeline section, then two the first rollers that positioning seat follows connecting rod reduce height, to complete the action packaging bag of flexible containers be set in filling tube.

More excellent scheme, described positioning seat front end is provided with flexible containers locating rack, and described flexible containers locating rack is positioned at above corresponding filling tube locating slot.Described flexible containers locating rack can position flexible containers more accurately, so that the packaging bag of flexible containers is set in filling tube.

Preferably scheme, described crosswise movement track comprise large basic arc section, little basic arc section, respectively with intubation mechanism, two convex sections corresponding to some sealing mechanism, described large basic arc section, little basic arc section and two convex sections connect into complete crosswise movement track; Described sack opener comprises crosswise movement rail clamping mechanism, inner elastic backstay, gear, outside locating rack, make a long driver lever, short drive rod, the first vacuum cup, the second vacuum cup.

More excellent scheme, described crosswise movement rail clamping mechanism comprises two the second rollers and spacer, described spacer is pressed on crosswise movement track by positioning seat, two the second rollers are rotating to be respectively arranged on the downside of spacer, and described two the second rollers contact respectively crosswise movement track inner surface and outer surface, clamp crosswise movement track, described inner elastic backstay is arranged on positioning seat front end, described lever of making a long driver, short drive rod is slidably arranged on described flexible containers detent mechanism respectively, described lever of making a long driver, short drive rod is parallel to each other and makes a long driver lever, all offer in the middle part of the sidewall that short drive rod is relative can with the tooth bar of gears meshing, described gear being rotatable be arranged on flexible containers detent mechanism, described lever of making a long driver, the tooth bar of short drive rod all and gears meshing, described two drive rods lay respectively at the both sides of spacer, drive spacer moves, making a long driver lever front end connects the motion end of inner elastic backstay, described first vacuum cup is arranged on the motion end of inner elastic backstay, described short drive rod front end connects locating rack rear end, outside, described second vacuum cup is arranged on locating rack front end, outside.When crosswise movement rail clamping mechanism enters convex section, second roller of contact crosswise movement track outer surface will be made a long driver lever and outwards be pushed up, the motion end of inner elastic backstay is travelled forward, surface inside first vacuum cup contact flexible containers, meanwhile, make a long driver lever driven gear rotate, short drive rod is moved backward, drive outside locating rack, second vacuum cup moves backward, surface outside second vacuum cup contact flexible containers, first vacuum cup, second vacuum cup move toward one another, contact and hold two surfaces of flexible containers, when crosswise movement rail clamping mechanism leaves convex section, enters large basic arc section or little basic arc section, second roller of contact crosswise movement track outer surface moves backward, then the motion end of inner elastic backstay sets back, moves backward under natural resiliency effect, outside locating rack travels forward, and the first vacuum cup, the second vacuum cup distinguish opposing motion, by two of packaging bag surfaces apart, complete the action of the sack opening packaging bag.

The utility model beneficial effect is against existing technologies, because seal mould is arranged on the edge that rotating flexible containers transmits rotating disk by closing device, continuous transmission flexible containers while allowing seal mould carry out traditional static sealing to flexible containers, therefore, it is possible under the prerequisite ensureing sealing effect, significantly enhance productivity; Adopt the structure of the parts compositions such as vertically-acting track, crosswise movement track to replace original multimachine structure matching mechanism due to intubation mechanism, effectively simplify the structure of intubation mechanism, the cooperation of each parts is better, and fault is less likely to occur, greatly save the consumption of the energy, effectively reduce manufacturing cost and production cost, further increase production efficiency.

Accompanying drawing explanation

Fig. 1 is the perspective view of the utility model preferred embodiment;

Fig. 2 is the top view of preferred embodiment shown in Fig. 1;

Fig. 3 is the perspective view of the intubation mechanism of preferred embodiment shown in Fig. 1;

Fig. 4 is the front view of the intubation mechanism of preferred embodiment shown in Fig. 1;

Fig. 5 is the top view that the intubation mechanism of preferred embodiment shown in Fig. 1 removes top cover;

The structure for amplifying schematic diagram in Tu6Shi Tu1Zhong A district;

The structure for amplifying schematic diagram in Tu7Shi Tu2Zhong B district.

Detailed description of the invention

As shown in Figure 1, the tube sealing machine for flexible containers in this preferred embodiment, comprises frame 2, is arranged on two flexible containers feeding mechanisms, 3, two filling tube feeding mechanisms 7 in frame 2, intubation mechanism 1, some sealing mechanism 4, sack sealing mechanism 5 and flexible containers delivering mechanism 6 respectively.Described flexible containers feeding mechanism 3, flexible containers delivering mechanism 6 can adopt existing technology, therefore do not add to describe.

As Fig. 1, shown in 2, described sack sealing mechanism 5 comprises three closing devices 501, the flexible containers transfer device be made up of four flexible containers transfer devices 502, described closing device 501 comprises flexible containers and transmits rotating disk 50101 and multiple seal mould 50102, described flexible containers transmits that rotating disk 50101 is rotating to be arranged in frame 2, described seal mould 50102 is arranged on the edge that flexible containers transmits rotating disk 50101, the flexible containers processed in intubation mechanism 1 is transferred on the seal mould 50102 of first closing device 501 by described flexible containers transfer device successively, the flexible containers that the seal mould 50102 of first closing device 501 processes is transferred to successively on the seal mould 50102 of next closing device 501, the flexible containers that the seal mould 50102 of last closing device 501 processes is transferred on flexible containers delivering mechanism 6 successively.

In described three closing devices 501, the seal mould 50102 of two closing devices 501 is heat seal die, and the seal mould 50102 of a closing device 501 is cold seal mould.

In this preferred embodiment, described flexible containers transfer device 502 comprises transfer rotating disk 50201 and two twilight orbits 50202, and the flexible containers that described two twilight orbits 50202 lay respectively at transfer rotating disk 50201 and closing device 501 transmits between rotating disk 50101 or shifts between rotating disk and intubation mechanism 1.The flexible containers processed is delivered to the twilight orbit 50202 of first flexible containers transfer device 502 by described intubation mechanism 1, and then this flexible containers takes on the seal mould 50102 of first closing device 501 by the transfer rotating disk 50201 of first flexible containers transfer device 502.The flexible containers processing (heat-sealing) is delivered to the twilight orbit 50202 of second flexible containers transfer device 502 by described first closing device 501, and then this flexible containers takes on the seal mould 50102 of second closing device 501 by the transfer rotating disk 50201 of second flexible containers transfer device 502.By that analogy, the flexible containers finally completing cold seal is delivered to the twilight orbit 50202 of the 4th flexible containers transfer device 502 by the 3rd closing device 501, then this flexible containers takes on flexible containers delivering mechanism 6 by the transfer rotating disk 50201 of the 4th flexible containers transfer device 502.

As in Figure 3-5, described intubation mechanism comprises flexible containers and rotates conveyer frames 101, flexible containers detent mechanism 102, sack opener 103, vertically-acting track 104, driving mechanism 106 and crosswise movement track 105, described flexible containers rotates that conveyer frames 101 is rotating to be arranged in frame 2, driving mechanism 106 drives flexible containers to rotate conveyer frames 101 and rotates, in this preferred embodiment, driving mechanism 106 is motor.

Described vertically-acting track 104 comprises high-order section 10401, low level inserting pipeline section 10402 is connected slope section 10403 with two, the height of the high-order section 10401 of aspect ratio of described low level inserting pipeline section 10402 is low, and the two ends of low level inserting pipeline section 10402 connect slope section 10403 respectively by described two and connect high-order section 10401, form complete vertically-acting track 104.

Described flexible containers detent mechanism 102 comprises positioning seat 10201, vertically-acting rail clamping mechanism 10202, the liftable flexible containers that is arranged on of positioning seat 10201 rotates on conveyer frames 101, described vertically-acting rail clamping mechanism 10202 comprises two the first rollers 1020201 and connecting rod 1020202, described connecting rod 1020202 top is arranged on positioning seat 10201, two the first rollers 1020201 are respectively on the rotating sidewall being arranged on connecting rod 1020202, and described two the first rollers 1020201 contact upper surface and the lower surface of vertically-acting track 104 respectively, clamp vertically-acting track 104.Two the first rollers 1020201 that positioning seat 10201 follows connecting rod 1020202 change its height, and when two the first rollers 1020201 are positioned at vertically-acting track 104 high-order section 10401, positioning seat 10201 is for higher height; When two the first rollers 1020201 enter low level inserting pipeline section 10402, then two the first rollers 1020201 that positioning seat 10201 follows connecting rod 1020202 reduce height, to complete the action packaging bag 8 of flexible containers 10 be set in filling tube 9.

Described flexible containers rotates conveyer frames 101 and is provided with multiple filling tube locating slot 107, described filling tube locating slot 107 and both one_to_one corresponding identical with flexible containers detent mechanism 102 number, flexible containers detent mechanism 102 is positioned at above corresponding filling tube locating slot 107.After this can guarantee that flexible containers detent mechanism 102 declines, flexible containers is wherein set in the filling tube 9 of the filling tube locating slot 107 being arranged in correspondence accurately.Described positioning seat 10201 front end is provided with flexible containers locating rack 108, and described flexible containers locating rack 108 is positioned at above corresponding filling tube locating slot 107.

Described crosswise movement track 105 comprise large basic arc section 10501, little basic arc section 10502, respectively with intubation mechanism 1, two convex sections 10503 corresponding to some sealing mechanism 4, described large basic arc section 10501, little basic arc section 10502 and two convex sections 10503 connect into complete crosswise movement track 105.

As shown in Figure 6,7, described sack opener 103 comprises crosswise movement rail clamping mechanism 10301, inner elastic backstay 10302, gear 10303, outside locating rack 10304, makes a long driver lever 10305, short drive rod 10306, first vacuum cup 10307, second vacuum cup 10308.

Described crosswise movement rail clamping mechanism 10301 comprises two the second rollers 1030101 and spacer 1030102, described spacer 1030102 is pressed on crosswise movement track 105 by positioning seat 10201, two the second rollers 1030101 are respectively on the rotating downside being arranged on spacer 1030102, and described two the second rollers 1030101 contact respectively crosswise movement track 105 inner surface and outer surface, clamp crosswise movement track 105.

Described inner elastic backstay 10302(is the C font of left and right upset) be arranged on positioning seat 10201 front end, described lever 10305 of making a long driver, short drive rod 10306 is slidably arranged on the positioning seat 10201 of described flexible containers detent mechanism 102 respectively, described lever 10305 of making a long driver, short drive rod 10306 is parallel to each other and makes a long driver lever 10305, the tooth bar 106 that can engage with gear 10303 is all offered in the middle part of the sidewall that short drive rod 10306 is relative, described gear 10303 is rotating to be arranged on the positioning seat 10201 of flexible containers detent mechanism, described lever 10305 of making a long driver, the tooth bar 106 of short drive rod 10306 all engages with gear 10303, described two drive rods lay respectively at the both sides of spacer 1030102, spacer 1030102 is driven to move, making a long driver lever 10305 front end connects the motion end of inner elastic backstay 10302, described first vacuum cup 10307 is arranged on the motion end of inner elastic backstay 10302, described short drive rod 10306 front end connects locating rack 10304 rear end, outside, described second vacuum cup 10308 is arranged on locating rack 10304 front end, outside.

When crosswise movement rail clamping mechanism 10301 enters convex section 10503, second roller 1030101 of contact crosswise movement track 105 outer surface will be made a long driver lever 10305 and outwards be pushed up, the motion end of inner elastic backstay 10302 is travelled forward, first vacuum cup 10307 contacts the surface inside flexible containers, meanwhile, make a long driver lever 10305 driven gear 10303 and rotate, short drive rod 10306 is moved backward, drive outside locating rack 10304, second vacuum cup 10308 moves backward, second vacuum cup 10308 contacts the surface outside flexible containers, first vacuum cup 10307, second vacuum cup 10308 move toward one another, contact and hold two surfaces of flexible containers, when crosswise movement rail clamping mechanism 10301 leaves convex section 10503, enters large basic arc section 10501 or little basic arc section 10502, second roller 1030101 of contact crosswise movement track 105 outer surface moves backward, then the motion end of inner elastic backstay 10302 sets back, moves backward under natural resiliency effect, outside locating rack 10304 travels forward, and the first vacuum cup 10307, second vacuum cup 10308 distinguishes opposing motion, by two of packaging bag 8 surfaces apart, complete the action of opening packaging bag 8 sack.

The course of work of tube sealing machine is: packaging bag 8 is sent into each flexible containers locating rack 108 by flexible containers feeding mechanism 3 successively, then the sack of packaging bag 8 opened and be set in corresponding filling tube 9, then put sealing mechanism 4 and an envelope is carried out to this flexible containers 10, packaging bag 8 and filling tube 9 are linked together, then above-mentioned flexible containers 10 is sent into sack sealing mechanism 5 and is sealed by flexible containers transfer device 502, after completing, the flexible containers 10 processed is delivered to flexible containers delivering mechanism 6 by flexible containers transfer device 502, arrange, send.

Through applicant's experiment, this tube sealing machine is per minute can be processed more than 400 flexible containers 10.

The foregoing is only preferred embodiment of the present utility model, be not used for limiting practical range of the present utility model; Namely all equivalents done according to right of the present utility model, are the utility model right and cover.

Claims (10)

1. the tube sealing machine for flexible containers, comprise frame, rack-mounted flexible containers feeding mechanism respectively, filling tube feeding mechanism, intubation mechanism, point sealing mechanism, sack sealing mechanism and flexible containers delivering mechanism, described sack sealing mechanism comprises flexible containers transfer device and at least two closing devices, described flexible containers transfer device by the flexible containers that processes in intubation mechanism by intubation mechanism, each closing device, flexible containers delivering mechanism successively order transmits, it is characterized in that: described closing device comprises flexible containers and transmits rotating disk and at least one seal mould, described flexible containers transmits that rotating disk is rotating to be arranged in frame, described seal mould is arranged on the edge that flexible containers transmits rotating disk.

2. as claimed in claim 1 for the tube sealing machine of flexible containers, it is characterized in that: described flexible containers delivering mechanism comprises at least two flexible containers transfer devices, described flexible containers transfer device comprises transfer rotating disk and two twilight orbits, and described two twilight orbits lay respectively between transfer rotating disk and closing device or shift between rotating disk and intubation mechanism.

3., as claimed in claim 2 for the tube sealing machine of flexible containers, it is characterized in that: the seal mould of at least one closing device described is heat seal die.

4., as claimed in claim 3 for the tube sealing machine of flexible containers, it is characterized in that: the seal mould of at least one closing device described is cold seal mould.

5. as the tube sealing machine for flexible containers in claim 1-4 as described in any one, it is characterized in that: described intubation mechanism comprises flexible containers and rotates conveyer frames, sack opener, driving mechanism, vertically-acting track, crosswise movement track and at least one flexible containers detent mechanism, described flexible containers rotates conveyer frames and is provided with at least one filling tube locating slot, described flexible containers rotates that conveyer frames is rotating to be arranged in frame, driving mechanism drives flexible containers to rotate conveyer frames and rotates, described vertically-acting track and crosswise movement track are separately fixed in frame, described flexible containers detent mechanism can the flexible containers that be arranged on of vertical lift rotate on conveyer frames, and described flexible containers detent mechanism can clamp vertically-acting track along vertically-acting orbital motion, described sack opener is arranged on flexible containers detent mechanism, and sack opener can clamp crosswise movement track along crosswise movement orbital motion.

6. as claimed in claim 5 for the tube sealing machine of flexible containers, it is characterized in that: described filling tube locating slot and both one_to_one corresponding identical with flexible containers detent mechanism number, flexible containers detent mechanism is positioned at above corresponding filling tube locating slot.

7. as claimed in claim 5 for the tube sealing machine of flexible containers, it is characterized in that: described vertically-acting track comprises high-order section, low level inserting pipeline section is connected slope section with two, the height of the high-order section of aspect ratio of described low level inserting pipeline section is low, and the two ends of low level inserting pipeline section connect slope section respectively by described two and connect high-order section, form complete vertically-acting track.

8. as claimed in claim 7 for the tube sealing machine of flexible containers, it is characterized in that: described flexible containers detent mechanism comprises positioning seat, vertically-acting rail clamping mechanism, the liftable flexible containers that is arranged on of positioning seat rotates on conveyer frames, described vertically-acting rail clamping mechanism comprises two the first rollers and connecting rod, described connecting rod top is arranged on positioning seat, two the first rollers are rotating to be respectively arranged on the sidewall of connecting rod, and described two the first rollers contact upper surface and the lower surface of vertically-acting track respectively, clamp vertically-acting track.

9. as claimed in claim 8 for the tube sealing machine of flexible containers, it is characterized in that: described positioning seat front end is provided with flexible containers locating rack, described flexible containers locating rack is positioned at above corresponding filling tube locating slot.

10. as claimed in claim 5 for the tube sealing machine of flexible containers, it is characterized in that: described crosswise movement track comprise large basic arc section, little basic arc section, respectively with intubation mechanism, two convex sections corresponding to some sealing mechanism, described large basic arc section, little basic arc section and two convex sections connect into complete crosswise movement track, described sack opener comprises crosswise movement rail clamping mechanism, inner elastic backstay, gear, outside locating rack, make a long driver lever, short drive rod, the first vacuum cup, the second vacuum cup, described crosswise movement rail clamping mechanism comprises two the second rollers and spacer, described spacer is pressed on crosswise movement track by positioning seat, two the second rollers are rotating to be respectively arranged on the downside of spacer, and described two the second rollers contact respectively crosswise movement track inner surface and outer surface, clamp crosswise movement track, described inner elastic backstay is arranged on positioning seat front end, described lever of making a long driver, short drive rod is slidably arranged on described flexible containers detent mechanism respectively, described lever of making a long driver, short drive rod is parallel to each other and makes a long driver lever, all offer in the middle part of the sidewall that short drive rod is relative can with the tooth bar of gears meshing, described gear being rotatable be arranged on flexible containers detent mechanism, described lever of making a long driver, the tooth bar of short drive rod all and gears meshing, described two drive rods lay respectively at the both sides of spacer, drive spacer moves, making a long driver lever front end connects the motion end of inner elastic backstay, described first vacuum cup is arranged on the motion end of inner elastic backstay, described short drive rod front end connects locating rack rear end, outside, described second vacuum cup is arranged on locating rack front end, outside.