CN218368603U - Novel self-supporting bag packaging machine - Google Patents

Abstract

The utility model discloses a novel self-reliance bag packagine machine, carry the module including the self-reliance bag, automatically, supply the bag module, the filling module, the suction nozzle washs the module, the spiral cover module, the self-reliance bag is carried the module and is included first conveying sprocket, the second conveying chain, the conveying chain, a plurality of string bag pieces, first conveying sprocket and second conveying sprocket interval rotate the setting, the conveying chain tensioning is in first, on the second conveying sprocket, a plurality of string bag piece intervals set up in the outside of conveying chain, automatically, supply the outside that first conveying sprocket was located to the bag module, the filling module, the spiral cover module is located first conveying sprocket respectively, on the second conveying sprocket, the suction nozzle washs the mould and locates between filling module and the spiral cover module along the direction of transfer of self-reliance bag. Has the advantages that: the self-standing bag conveying module has very large filling, cleaning and cap screwing space on the basis of realizing continuous operation without stopping, and the suction nozzle cleaning module is connected with the conveying speed of the self-standing bag.

Description

Novel self-supporting bag packaging machine

Technical Field

The utility model relates to a equipment for packing field, in particular to novel self-supporting bag packagine machine.

Background

At present, the manufacture of the suction nozzle bag packaging finished product is usually completed by a manufacture line, and the suction nozzle bag manufactured by the manufacture line is sent to a packaging machine for filling, and then a sealing cover is installed.

For example, chinese patents CN114455157A, CN112744415A, etc. disclose some common self-standing bag packaging machines in the prior art, however, the prior art has the following disadvantages in the structure of the transfer of the self-standing bag and the cleaning of the suction nozzle of the self-standing bag:

for the transfer of the stand-up pouches, conventional stand-up pouch machines fill large volumes of stand-up pouch product using a step-wise structure or multiple turntables, requiring very long filling or multiple filling stations. Greatly influencing the production efficiency. Even in a continuous multi-turn-table type self-standing pouch filling and capping machine, since space is limited, when a large amount of self-standing pouch products are filled, the pouches interfere with each other, and thus capacity is limited.

To the suction nozzle washing, traditional self-reliance bag machine adopts marching type structure, wash the bag mouth and also adopt marching type's structure, the cleaning performance has directly been decided to the scavenging period, in order to promote the productivity, need adopt the self-reliance bag filling structure of high-speed continuous type, so need realize the continuous type operation of washing bag mouth structure, will avoid because the long complete machine functioning speed who causes of scavenging period descends, will avoid again washing the bag mouth pollution that does not thoroughly cause, still will avoid unable continuous operation in the cleaning process, cause and host computer speed mismatch, asynchronous phenomenon.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a novel self-supporting bag packaging machine is provided.

In order to achieve the purpose, the utility model discloses a novel self-supporting bag packaging machine, which comprises a self-supporting bag conveying module (2), an automatic bag supplying module (3), a filling module (4), a suction nozzle cleaning module (5) and a cover screwing module (6);

the self-standing bag conveying module (2) comprises a first conveying chain wheel (21), a second conveying chain wheel (22), a conveying chain (23) and a plurality of bag hanging pieces (24), wherein the first conveying chain wheel (21) and the second conveying chain wheel (22) are arranged at intervals in a rotating mode, the conveying chain (23) is tensioned on the first conveying chain wheel (21) and the second conveying chain wheel (22), the bag hanging pieces (24) are arranged on the outer side of the conveying chain (23) at intervals, the first conveying chain wheel (21) is driven to rotate through a main driving device (25), the second conveying chain wheel (22) is driven to rotate under the action of the conveying chain (23), and the conveying chain (23) drives the bag hanging pieces (24) to do rotary conveying movement;

the automatic bag feeding module (3) is arranged on the outer side of the first conveying chain wheel (21), the automatic bag feeding module (3) conveys the self-standing bags to the bag hanging sheet (24), the filling module (4) and the cover screwing module (6) are respectively arranged on the first conveying chain wheel (21) and the second conveying chain wheel (22), and the suction nozzle cleaning module (5) is arranged between the filling module (4) and the cover screwing module (6) along the conveying direction of the self-standing bags;

the suction nozzle cleaning module (5) comprises a first cleaning pipe (52), a second cleaning pipe (53), a rotary conveying device (54), a plurality of pressing devices (55) and a linkage driving device (56), wherein the first cleaning pipe (52) and the second cleaning pipe (53) are arranged above one side of the conveying chain (23) in a front-back opposite mode and are opposite to suction nozzles of self-standing bags hung on the bag hanging sheets (24), the pressing devices (55) are arranged on the rotary conveying device (54) at intervals respectively, the pressing devices (55) press down and seal the tops of the suction nozzles of the self-standing bags randomly, and the linkage driving device (56) is in transmission connection with the main driving device (25) and drives the rotary conveying device (54) to move, so that the pressing devices (55) move forwards along with the bag hanging sheets (24) synchronously.

Further, hang bag piece (24) with the chain link fixed connection of conveying chain (23), be provided with the joint breach that is used for joint self-reliance bag neck on hanging bag piece (24).

Furthermore, a transmission shaft (26) is arranged between the first conveying chain wheel (21) and the main driving device (25), a driving gear (251) is arranged on an output shaft of the main driving device (25), and a driven gear (261) meshed with the driving gear (251) is fixedly arranged on the periphery of the transmission shaft (26).

Furthermore, the distance between the plurality of pressing devices (55) corresponds to the plurality of bag hanging sheets (24).

Furthermore, the linkage driving device (56) comprises a transmission case (561), a first linkage chain wheel (562), a second linkage chain wheel (563) and a linkage chain (564), the transmission case (561) is arranged on the outer side of the rotary conveying device (54), an output shaft of the transmission case (561) is in transmission connection with the rotary conveying device (54), the first linkage chain wheel (562) is fixedly arranged on the periphery of the output shaft of the main driving device (25), the second linkage chain wheel (563) is fixedly arranged on the periphery of a power shaft of the transmission case (561), and the linkage chain (564) is tensioned on the first linkage chain wheel (562) and the second linkage chain wheel (563).

Further, a water conveying channel (521) is inwards arranged at one end, adjacent to the filling module (4), of the first cleaning pipe (52), an air conveying channel (522) is inwards arranged at one end, adjacent to the cover screwing module (6), of the first cleaning pipe (52), a plurality of water spraying holes (523) and a plurality of air blowing holes (524) are arranged on the periphery, adjacent to the bag hanging sheet (24), of the first cleaning pipe (52), and the plurality of water spraying holes (523) and the plurality of air blowing holes (524) are sequentially arranged in the conveying direction of the self-standing bag;

the second working pipe (53) has an integral structure in accordance with the first working pipe (52).

Further, the pressing device (55) comprises a supporting seat (551), a movable rod (552) and a pressing head (553), the supporting seat (551) is fixedly arranged on the outer side of the rotary conveying device (54), a movable through hole (551-1) for the movable rod (552) to pass through is formed in the middle of the supporting seat (551), the movable through hole (551-1) is concentrically arranged with a suction nozzle of a self-standing bag hung on the bag hanging sheet (24), the movable rod (552) vertically slides along the movable through hole (551-1), the pressing head (553) is fixedly arranged at the bottom end of the movable rod (552), the bottom surface of the pressing head (553) is in contact with the suction nozzle of the self-standing bag on the bag hanging sheet (24), and a limit ring is sleeved on the periphery of the top end of the movable rod (552).

Further, a buffer hole (551-2) is formed in the bottom surface of the support seat (551), and a buffer spring (554) is arranged between the buffer hole (551-2) and the periphery of the movable rod (552).

Further, the bottom surface of the lower pressure head (553) is provided with an arc-shaped concave surface (553-1) for pressing and holding the suction nozzle of the standing pouch.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the self-supporting bag conveying module adopts a chain wheel and chain mode, and is compared with transmission stepping equipment, so that on the basis of realizing continuous operation without stopping, the self-supporting bag conveying module has very large filling, cleaning and cover screwing spaces, and the bag body of a self-supporting bag product is not easy to interfere with each other, so that the bag body mutual interference is not easy to occur on the premise of ensuring the filling speed of a large-capacity self-supporting bag product, and the problems of insufficient filling capacity, overflow and the like after the filling speed is increased by high centrifugal force are solved.

To a plurality of hole for water sprayings, a plurality of hole for air blowing that set up guarantee to carry out all-round washing and weather the suction nozzle and guarantee the cleaning performance, simultaneously, because first scavenge pipe, the fixed setting of second scavenge pipe, also can guarantee operating time, the cleaning performance of washing bag mouth under the fast condition of host computer filling, can not influence the effect of washing bag mouth with host computer filling speed mutual interference.

The linkage driving device and the main driving device adopt a synchronous sampling driving form, the function of synchronous rotation of the rotary conveying device and the first conveying chain wheel can be realized, and meanwhile, the running speed of the rotary conveying device is consistent with that of the first conveying chain wheel.

The rotary conveying device adopts a transmission form of a chain wheel and a chain, and can realize high running speed, the pressing device synchronously moves along with the self-supporting bag, traditional stepping equipment cannot occur, and the suction nozzle cleaning module is not matched with the running speed of the host machine and interferes mutually.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the overall structure of the present invention;

FIG. 3 is a schematic side view of the nozzle cleaning module of the present invention;

FIG. 4 is a top view of the nozzle cleaning module of the present invention;

FIG. 5 is a schematic structural view of the first cleaning pipe and the second cleaning pipe of the present invention;

fig. 6 is a schematic side view of the structure of the pressing device of the present invention.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings of fig. 1 to 5.

Referring to fig. 1 and 2, the novel self-standing bag packaging machine comprises a rack 1, a self-standing bag conveying module 2, an automatic bag supplying module 3, a filling module 4, a suction nozzle cleaning module 5 and a cover screwing module 6.

The overall structure and operation of the automatic bag supplying module 3, the filling module 4 and the cap screwing module 6 are well known in the art, and will not be further described herein.

The self-supporting bag conveying module 2 comprises a first conveying chain wheel 21, a second conveying chain wheel 22, a conveying chain 23 and a plurality of bag hanging pieces 24, the first conveying chain wheel 21 and the second conveying chain wheel 22 are respectively arranged on two sides above the rack 1 in a rotating mode, the conveying chain 23 is tensioned on the first conveying chain wheel 21 and the second conveying chain wheel 22, the bag hanging pieces 24 are arranged on the outer side of the conveying chain 23 at intervals, and the bag hanging pieces 24 are fixedly connected with chain links of the conveying chain 23.

The first conveying chain wheel 21 is driven to rotate by a main driving device 25, and the second conveying chain wheel 22 is driven to rotate by the conveying chain 23.

The bag hanging piece 24 is provided with a clamping gap for clamping the neck of the self-standing bag.

The main drive 25 of this embodiment is preferably an electric motor. A transmission shaft 26 is arranged between the first conveying chain wheel 21 and the main driving device 25, the transmission shaft 26 is vertically and fixedly arranged in the middle of the first conveying chain wheel 21, a driving gear 251 is arranged on an output shaft of the motor, and a driven gear 261 engaged with the driving gear 251 is fixedly arranged on the periphery of the transmission shaft 26.

Automatic bag module 3 sets up in the outside of first conveying sprocket 21 and will stand up pouch and carry to hanging on the joint interface of bag piece 24. Filling module 4, spiral cover module 6 rotate respectively and set up on first conveying sprocket 21, second conveying sprocket 22, and filling module 4, spiral cover module 6 rotate along with first conveying sprocket 21, second conveying sprocket 22 respectively.

The suction nozzle cleaning module 5 is provided between the filling module 4 and the capping module 6 in the transfer direction of the self-standing bags, and cleans the bag nozzles of the self-standing bags mounted on the transfer chain 23.

Referring to fig. 1 and 3, the nozzle cleaning module 5 includes a support frame 51, a first cleaning pipe 52, a second cleaning pipe 53, a rotary conveying device 54, a plurality of pressing devices 55, and a linkage driving device 56.

The supporting frame 51 is arranged on the outer side of the conveying chain 23, the rotary conveying device 54 is fixedly arranged in the supporting frame 51, the plurality of pressing devices 55 are respectively arranged on the rotary conveying device 54 at intervals and are vertically opposite to the suction nozzle 7 of the self-standing bag arranged on the bag hanging sheet 25, and the rotary conveying device 54 drives the plurality of pressing devices 55 to perform rotary motion.

Preferably, the plurality of hold-down devices 55 are spaced apart a distance corresponding to the plurality of hanging bag panels 24.

The linkage driving device 56 is in transmission connection with the main driving device 25 and drives the rotary conveying device 54 to move.

The rotary conveyor 54 is preferably a double sprocket chain drive, and the rotary conveyor 54 is well known in the art and will not be described further herein.

Referring again to fig. 2, the linkage driving device 56 includes a transmission case 561, a first linkage sprocket 562, a second linkage sprocket 563, and a linkage chain 564, and the transmission case 561 is preferably a bevel gear right-angle transmission case in this embodiment.

The transmission case 561 is fixedly arranged on the outer side surface of the supporting frame 51, an output shaft of the transmission case 561 penetrates through the outer side surface of the supporting frame 51 and is arranged in the supporting frame 51, and a main transmission chain wheel of the rotary conveying device 54 is fixedly arranged on the output shaft of the transmission case 561.

The first link sprocket 562 is fixedly disposed on the outer periphery of the output shaft of the main drive unit 25, the second link sprocket 563 is fixedly disposed on the outer periphery of the power shaft of the transmission case 561, and the link chain 564 is tensioned on the first link sprocket 562 and the second link sprocket 563.

Referring to fig. 3, 4, and 5, the first cleaning pipe 52 and the second cleaning pipe 53 are respectively provided in the front and rear of the support frame 51, and face the mouth of the self-standing bag mounted on the bag mounting piece 24. The first cleaning pipe 52 and the second cleaning pipe 53 are fixedly connected to the inner side surface of the support frame 51 in the longitudinal direction.

One end of the first cleaning pipe 52 adjacent to the filling module 4 is provided with a water conveying channel 521 inwards, and one end of the first cleaning pipe 52 adjacent to the cap screwing module 6 is provided with a gas conveying channel 522 inwards.

The openings of the water delivery channel 521 and the gas delivery channel 522 are respectively connected with a water source and a gas source through pipelines.

The periphery of the first cleaning pipe 52 adjacent to the bag hanging piece 24 is provided with a plurality of blowholes 523 and a plurality of air blowing holes 524, and the plurality of blowholes 523 and the plurality of air blowing holes 524 are arranged in sequence along the conveying direction of the self-standing bag. The plurality of water spraying holes 523 and the plurality of air blowing holes 524 are respectively communicated with the water conveying channel 521 and the air conveying channel 522.

The overall structure of the second working pipe of this embodiment is identical to that of the first working pipe, and will not be further described here.

During operation, the plurality of water spraying holes 523 and the plurality of air blowing holes 524 of the first cleaning pipe 52 and the second cleaning pipe 53 spray water and blow air, the conveying chain 23 drives the self-standing bag to penetrate through the supporting rack 51, and the suction nozzle of the self-standing bag is cleaned between the first cleaning pipe 52 and the second cleaning pipe 53 by washing before drying.

A plurality of hole for water sprayings 523, a plurality of hole for air blowing 524 that the subtend set up guarantee to carry out all-round washing and weather the assurance cleaning performance to the suction nozzle, simultaneously, because first scavenge pipe 52, the fixed setting of second scavenge pipe 53, also can guarantee to wash operating time, the cleaning performance of bag mouth under the fast condition of host computer filling, can not interfere with host computer filling speed each other, influence the effect of washing bag mouth.

Referring to fig. 3 and 6, the pressing device 55 includes a support base 551, a movable rod 552, and a pressing tip 553. The support base 551 is disposed between the first and second revolving chains 541 and 542 of the revolving conveyor 54, and both sides of the support base 551 are connected to the links of the first and second revolving chains 541 and 542 by L-shaped blocks.

The middle part of the supporting seat 551 is provided with a movable through hole 551-1 for the movable rod 552 to pass through, and the movable through hole 551-1 is concentrically arranged with the suction nozzle of the self-standing bag hung on the bag hanging piece 24. The movable rod 552 slides vertically along the movable through-hole 551-1.

The bottom surface of the support base 551 is provided with a buffer hole 551-2, and a buffer spring 554 is arranged between the buffer hole 551-2 and the periphery of the movable rod 552. The diameter of the buffer hole 551-2 is larger than that of the movable through hole 551-1.

A limiting ring (not shown in the figure) is sleeved on the periphery of the top end of the movable rod 552, and the limiting ring is arranged in contact with the top surface of the supporting seat 551 in the initial state to prevent the movable rod 552 from being separated from the movable through hole 551-1.

A lower ram 553 is fixedly disposed at a bottom end of the movable rod 552. The bottom surface of the lower ram 553 is provided with an arcuate concave surface 553-1 for pressing against the spout 7 of the stand-up pouch.

During operation, the main driving device 25 drives the transmission shaft 26 to rotate so that the first conveying chain wheel 21 and the second conveying chain wheel 22 synchronously rotate, and the conveying chain 23 drives the self-standing bags on the bag hanging sheet 24 to sequentially pass through the filling module 4, the suction nozzle cleaning module 5 and the cap screwing module 6 to complete filling and packaging operations.

The rotary conveying device 54 drives a plurality of pressing devices 55 to do rotary motion above the conveying chain 23 under the action of the linkage driving device 56, and when the self-standing bags are conveyed into the supporting rack 51 through the conveying chain 23, the pressing devices 55 are correspondingly connected with the self-standing bags on the bag hanging sheet 24.

The suction nozzle of the self-standing bag is gradually cut into the arc-shaped concave surface, at the moment, the spring contraction movable rod 552 moves upwards to enable the arc-shaped concave surface to be in contact with the top of the suction nozzle of the self-standing bag, and the self-standing bag is pressed down under the elastic action of the buffer spring 554 to prevent sewage in the cleaning process from entering the self-standing bag to pollute products in the self-standing bag. The pressing device 55 moves forward following the pouch under the drive of the rotary conveyor 54.

During the conveying process of the conveying chain 23, the self-standing bag inevitably jumps slightly due to the gravity center of the self-standing bag, and the arc concave surface is always in contact with the top of the suction nozzle of the self-standing bag under the action of the elastic force of the buffer spring 554, so that the sewage in the cleaning process is further prevented from entering the self-standing bag to pollute the product in the self-standing bag.

Compared with the prior art, the self-supporting bag conveying module has the advantages that the conveying mode of the chain wheel chain type is adopted:

1. compared with the traditional stepping equipment, the continuous operation of the whole machine is realized, and the productivity is greatly improved.

2. On the basis of continuous operation of equipment, the self-supporting bag has very large filling, cleaning and cover screwing spaces due to the fact that chain conveying is adopted, the bag bodies of two adjacent self-supporting bags are not prone to mutual interference, and the self-supporting bag is suitable for high-speed filling of large-capacity self-supporting bag products.

3. The whole machine adopts a chain bag hanging mode, and can realize the phenomenon that the filling liquid of the self-supporting bag product is not full and overflows due to centrifugal force at high running speed. The operation position of the bag body of the self-supporting bag is relatively stable, and the filling capacity and the positioning position of the bag can be ensured on the premise of high productivity and high efficiency.

The linkage driving device and the main driving device adopt a synchronous sampling driving form, the function of synchronous rotation of the rotary conveying device and the first conveying chain wheel can be realized, and meanwhile, the running speed of the rotary conveying device is consistent with that of the first conveying chain wheel.

On the basis of above-mentioned advantage, rotary conveying device adopts the transmission form of sprocket chain, can realize under the high functioning speed, pushes down the device along with self-reliance bag simultaneous movement, traditional marching type equipment can not appear, and suction nozzle cleaning module does not match with host computer functioning speed, the condition of mutual interference.

Of course, the above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention, and all modifications made according to the spirit of the main technical solution of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. A novel self-supporting bag packaging machine is characterized by comprising a self-supporting bag conveying module (2), an automatic bag supply module (3), a filling module (4), a suction nozzle cleaning module (5) and a cover screwing module (6);

the self-standing bag conveying module (2) comprises a first conveying chain wheel (21), a second conveying chain wheel (22), a conveying chain (23) and a plurality of bag hanging pieces (24), wherein the first conveying chain wheel (21) and the second conveying chain wheel (22) are arranged at intervals in a rotating mode, the conveying chain (23) is tensioned on the first conveying chain wheel (21) and the second conveying chain wheel (22), the bag hanging pieces (24) are arranged on the outer side of the conveying chain (23) at intervals, the first conveying chain wheel (21) is driven to rotate through a main driving device (25), the second conveying chain wheel (22) is driven to rotate under the action of the conveying chain (23), and the conveying chain (23) drives the bag hanging pieces (24) to rotate and convey;

the automatic bag feeding module (3) is arranged on the outer side of the first conveying chain wheel (21), the automatic bag feeding module (3) conveys the self-standing bags to the bag hanging sheet (24), the filling module (4) and the cover screwing module (6) are respectively arranged on the first conveying chain wheel (21) and the second conveying chain wheel (22), and the suction nozzle cleaning module (5) is arranged between the filling module (4) and the cover screwing module (6) along the conveying direction of the self-standing bags;

suction nozzle cleaning module (5) include first scavenge pipe (52), second scavenge pipe (53), gyration conveyor (54), a plurality of push down device (55), linkage drive arrangement (56), first scavenge pipe (52), second scavenge pipe (53) front and back set up relatively in the top of conveying chain (23) one side to with hang carry in the suction nozzle of hanging the self-reliance bag on bag piece (24) is relative, a plurality of push down device (55) interval respectively set up in on gyration conveyor (54), arbitrary push down device (55) push down and seal the suction nozzle top of self-reliance bag, linkage drive arrangement (56) with main drive arrangement (25) transmission is connected and the drive gyration conveyor (54) move, make push down device (55) along with hang bag piece (24) synchronous forward motion.

2. A novel self-standing bag packaging machine according to claim 1, wherein the bag hanging sheet (24) is fixedly connected with the chain link of the conveying chain (23), and the bag hanging sheet (24) is provided with a clamping notch for clamping the neck of the self-standing bag.

3. The novel self-standing pouch packaging machine according to claim 1, wherein a transmission shaft (26) is arranged between the first conveying chain wheel (21) and the main driving device (25), a driving gear (251) is arranged on an output shaft of the main driving device (25), and a driven gear (261) meshed with the driving gear (251) is fixedly arranged on the periphery of the transmission shaft (26).

4. A new self-standing bag packaging machine according to claim 1, wherein said plurality of press-down means (55) are spaced apart a distance corresponding to said plurality of hanging bag sheets (24).

5. The novel self-standing bag packaging machine as claimed in claim 1, wherein the linkage driving device (56) comprises a transmission case (561), a first linkage chain wheel (562), a second linkage chain wheel (563), and a linkage chain (564), the transmission case (561) is disposed outside the rotary conveying device (54), an output shaft of the transmission case (561) is in transmission connection with the rotary conveying device (54), the first linkage chain wheel (562) is fixedly disposed on an outer periphery of an output shaft of the main driving device (25), the second linkage chain wheel (563) is fixedly disposed on an outer periphery of a power shaft of the transmission case (561), and the linkage chain (564) is tensioned on the first linkage chain wheel (562) and the second linkage chain wheel (563).

6. The novel self-standing bag packaging machine according to claim 1, wherein a water conveying channel (521) is inwardly arranged at one end of the first cleaning pipe (52) adjacent to the filling module (4), an air conveying channel (522) is inwardly arranged at one end of the first cleaning pipe (52) adjacent to the cover screwing module (6), a plurality of water spraying holes (523) and a plurality of air blowing holes (524) are arranged at the periphery of the first cleaning pipe (52) adjacent to the bag hanging sheet (24), and the plurality of water spraying holes (523) and the plurality of air blowing holes (524) are sequentially arranged along the conveying direction of the self-standing bag;

the second cleaning pipe (53) has an integral structure in accordance with the first cleaning pipe (52).

7. The novel self-standing bag packaging machine according to claim 1, wherein the pressing device (55) comprises a support base (551), a movable rod (552) and a pressing head (553), the support base (551) is fixedly arranged at the outer side of the rotary conveying device (54), a movable through hole (551-1) for the movable rod (552) to pass through is arranged in the middle of the support base (551), the movable through hole (551-1) is concentric with a suction nozzle of a self-standing bag hung on the bag hanging sheet (24), the movable rod (552) vertically slides along the movable through hole (551-1), the pressing head (553) is fixedly arranged at the bottom end of the movable rod (552), the bottom surface of the pressing head (553) is in contact with the suction nozzle of the self-standing bag on the bag hanging sheet (24), and a limit ring is sleeved at the periphery of the top end of the movable rod (552).

8. A novel self-standing bag packaging machine according to claim 7, wherein the bottom surface of the support base (551) is provided with a buffer hole (551-2), and a buffer spring (554) is provided between the buffer hole (551-2) and the outer periphery of the movable rod (552).

9. The new stand-up pouch packaging machine according to claim 7, characterized in that the bottom surface of the lower ram (553) is provided with an arc-shaped concave surface (553-1) for pressing against the stand-up pouch spout.

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