CN216995009U - Full-automatic packaging machine for cylindrical film - Google Patents

Abstract

The utility model relates to the technical field of packaging equipment, and discloses a full-automatic packaging machine for a tubular film, which comprises a tubular film bag cutting mechanism, a feeding mechanism and a feeding mechanism, wherein the tubular film bag cutting mechanism is used for pulling out and conveying a double-layer film raw material to be cut step by step along a first direction; the sucking disc transferring mechanism is arranged at the downstream of the discharging and supporting component and can transfer the cylindrical film bag on the discharging and supporting component to a charging position; the vacuum adsorption conveying belt passes through the material loading position, can adsorb the lower surface of the cylindrical film bag and conveys the cylindrical film bag along a second direction vertical to the first direction; the card paper feeding mechanism is used for pushing the card paper into the cylindrical film bags positioned at the bagging position of the vacuum adsorption conveying belt one by one; the heat sealing mechanism is arranged at the downstream of the bagging position; the paperboard conveying component, the tube film bag cutting mechanism and the heat sealing mechanism are uniformly arranged on the same side of the vacuum adsorption conveying belt along the first direction. The full-automatic paperboard packaging machine can realize full-automatic packaging of paperboard, and is high in automation level and compact in structure.

Description

Full-automatic packaging machine for cylindrical film

Technical Field

The utility model relates to the technical field of packaging equipment, in particular to a full-automatic packaging machine for a cylindrical film.

Background

With the continuous development of automatic equipment, various types of packaging machines are on the market at present for meeting the requirements of packaging automation, such as vegetable dish, fruit packaging, carton packaging, paperboard packaging and the like. The paperboard package refers to packaging paperboard in a plastic film bag.

The existing paperboard packing machine has large volume and insufficiently compact structure, and is not beneficial to arrangement in places with more limited space; in addition, the automation level is low, and the mobile phone is mostly semi-automatic phone equipment.

Therefore, it is highly desirable to provide a full-automatic packaging machine for tubular film, which can realize full-automatic packaging of paper jam, and has high automation level and compact structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a full-automatic barrel film packaging machine which can realize full-automatic packaging of paperboard, and is high in automation level and compact in structure.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a full-automatic packaging machine for cylindrical films comprises:

the film tube bag cutting mechanism comprises a material roller tensioning and conveying component, a cutting component and a discharging and supporting component, wherein the material roller tensioning and conveying component is used for pulling out and conveying a double-layer film raw material to be cut step by step along a first direction, the cutting component is arranged at the downstream of the material roller tensioning and conveying component and is used for cutting out single film tube bags, and the discharging and supporting component is arranged at the downstream of the cutting component;

the sucker transferring mechanism is arranged at the downstream of the discharging bearing component and can adsorb and transfer the cylindrical film bag on the discharging bearing component to an upper material level;

the vacuum adsorption conveying belt passes through the feeding position, can vacuum adsorb the lower surface of the cylindrical film bag and conveys the cylindrical film bag along a second direction perpendicular to the first direction;

the card paper feeding mechanism comprises a card paper conveying component, a bagging pushing component and a tubular film bag opening component, a discharge port of the card paper conveying component is communicated with a bagging position of the vacuum adsorption conveying belt, the tubular film bag opening component is arranged on one side of the bagging position and can be lifted by vacuum adsorption to form an opening, the upper surface of the tubular film bag positioned on the bagging position can be lifted by vacuum adsorption, and the bagging pushing component is arranged on one side of the discharge port of the card paper conveying component and can push the card paper on the card paper conveying component into the tubular film bag positioned on the bagging position one by one;

the heat sealing mechanism is arranged at the downstream of the bagging position and is used for heat sealing the cylindrical film bag;

the paperboard conveying component, the tube film bag cutting mechanism and the heat sealing mechanism are uniformly distributed on the same side of the vacuum adsorption conveying belt along the first direction.

Optionally, the vacuum adsorption conveyor belt comprises:

the conveying frame is rotatably provided with a driving roller, a driven roller, a tensioning sleeve, an annular belt and a vacuum adsorption body, wherein the driving roller, the driven roller and the annular belt are arranged on the driven roller, the vacuum adsorption body is located on the inner side of the annular belt, and a through hole of the vacuum adsorption body is communicated with a plurality of adsorption through holes formed in the annular belt.

Optionally, the material roller tensioning and conveying component comprises:

the winding drum frame is used for rotatably loading a double-layer film raw material roll;

the tensioning feeding guide roller assembly is arranged on a feeding path of the material roller tensioning conveying component to tension the double-layer film raw material;

carry the drive roller subassembly, it includes driven roller and the drive roller that sets up side by side from top to bottom, form the pay-off passageway between driven roller and the drive roller, the driven roller with the drive roller can press from both sides tightly the double-layer film raw materials and rotate through the drive to the pan feeding mouth of cutting part carries the double-layer film raw materials that treat the cutting.

Optionally, the material roller tensioning and conveying component comprises:

a pressure head on the heat-sealing edge;

the lower heat-sealing edge base is arranged right below the pressure head on the heat-sealing edge, and heat-sealing channel openings for the double-layer film raw material to pass through are formed at intervals and are positioned at the upstream of the cutting part;

go up the pressure head driving source, with the pressure head drive connection on the heat-seal edge is with the drive the pressure head is relative on the heat-seal edge the heat-seal motion is done to base under the heat-seal edge, in order to form the edge on the bilaminar membrane raw materials the banding that the second direction extends.

Optionally, the cutting member comprises:

an upper cutter body assembly;

the lower cutter body assembly is arranged below the upper cutter body assembly, and a cutting channel which is opposite to the material roller tensioning and conveying component is formed at intervals;

and the upper cutter driving source is in driving connection with the upper cutter body assembly so as to drive the upper cutter body assembly to do cutting motion relative to the lower cutter body assembly.

Optionally, the discharge supporting member is a conveyor belt.

Optionally, the suction cup transfer mechanism comprises:

the transfer sucker frame is provided with a plurality of transfer suckers arranged in an array;

the displacement guide rail extends along the first direction and is arranged at the downstream of the discharging and supporting part;

the sliding block is inserted in the displacement guide rail in a sliding mode, and the transfer sucker frame is fixed on the sliding block;

and the displacement driving component is in transmission connection with the sliding block.

Optionally, the jam transport member includes:

the paperboard conveying frame is provided with a conveying channel extending along the first direction;

the paper jam conveying assembly comprises an annular transmission chain which is positioned below the conveying channel and used for forming power transmission along the first direction, and a pushing convex head which is arranged on the outer peripheral surface of the annular transmission chain at intervals, wherein the pushing convex head can penetrate through the bottom opening of the conveying channel to extend into the conveying channel;

and the paper jam conveying driving source is used for driving the annular transmission chain.

Optionally, the bagging push member comprises:

a linear driving source provided at one side of the discharge port of the jam paper conveying member, an output end of the linear driving source being capable of reciprocating in the first direction;

the rotary driving source is arranged at the output end of the linear driving source;

and the pushing hand plate is fixed at the output end of the rotating driving source, and the rotating driving source can selectively drive the pushing hand plate to be separated from or enter the conveying channel of the paper jam conveying component along the vertical direction.

Optionally, the opening member of the film cartridge bag comprises:

the lifting cylinder is fixed on one side of the discharge hole of the paperboard conveying component;

and the opening sucker is fixed at the output end of the lifting cylinder.

The utility model has the beneficial effects that:

the automatic film cutting and production of the tubular film bag is realized through the tubular film bag cutting mechanism, the tubular film bag is automatically conveyed to the vacuum adsorption conveying belt through the sucking disc conveying mechanism, the opening treatment of the tubular film bag and the loading of the paperboard into the tubular film bag are automatically realized through the paperboard feeding mechanism, the heat sealing treatment of the tubular film bag is realized through the heat sealing mechanism, and the full-automatic packaging treatment of the tubular film is realized; meanwhile, the paperboard conveying component, the tube film bag cutting mechanism and the heat sealing mechanism are uniformly distributed on the same side of the vacuum adsorption conveying belt along the first direction, so that the tube film full-automatic packaging machine is compact in arrangement and convenient to arrange in places with limited space; the vacuum adsorption conveyer belt passes through vacuum adsorption section of thick bamboo membrane bag lower surface, and the mouth part is opened to cooperation section of thick bamboo membrane bag realizes that section of thick bamboo membrane bag is automatic to open a mouthful through vacuum adsorption section of thick bamboo membrane bag lower surface, and the structure integrated level is high.

Drawings

FIG. 1 is a schematic view of a fully automatic web film wrapping machine provided by the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic transmission diagram of a partial structure of the tubular film bag cutting mechanism.

In the figure:

x, a first direction; y, a second direction;

1. a film tube bag cutting mechanism; 11. the material roller tensions the conveying component; 111. a reel frame; 112. tensioning the feed guide roller assembly; 113. a transport drive roller assembly; 1131. a driven roller; 1132. a drive roller; 114. a pressure head on the heat-sealing edge; 115. thermally sealing the edge lower base; 12. a cutting member; 121. an upper cutter body assembly; 122. a lower cutter body assembly; 13. a discharge support member;

2. a suction cup transfer mechanism; 21. transferring the suction disc frame; 22. transferring a sucker; 23. a displacement guide rail; 24. a slider; 25. a displacement drive assembly;

3. vacuum adsorption conveying belt; 31. a conveying frame; 32. an endless belt;

4. a paperboard feeding mechanism; 41. a jam conveying member; 411. a paperboard conveying frame; 412. the bottom is opened; 42. a bagging pushing member; 421. a handle plate; 422. a rotation drive source; 43. a film bag opening part; 431. a lifting cylinder; 432. a mouth opening sucker;

5. and a heat sealing mechanism.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted and the technical effects achieved by the present invention clearer, the technical solutions of the present invention are further described below by way of specific embodiments with reference to the accompanying drawings.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings, and are only for convenience of description and simplicity of operation, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to be limiting.

As shown in fig. 1 to 3, the present embodiment provides a full-automatic tube film packaging machine, which can realize full-automatic packaging of a paperboard, and has a high automation level and a compact structure. In the figure, X represents a first direction and Y represents a second direction. The full-automatic tube film packaging machine comprises a tube film bag cutting mechanism 1, a sucker transfer mechanism 2, a vacuum adsorption conveying belt 3, a paperboard feeding mechanism 4 and a heat sealing mechanism 5. The tube film bag cutting mechanism 1 comprises a material roller tensioning and conveying component 11, a cutting component 12 and a discharging and supporting component 13, wherein the material roller tensioning and conveying component 11 is used for pulling out and conveying double-layer film raw materials to be cut in a stepping manner along a first direction, the cutting component 12 is arranged at the downstream of the material roller tensioning and conveying component 11 and used for cutting a single tube film bag, and the discharging and supporting component 13 is arranged at the downstream of the cutting component 12; the sucker transferring mechanism 2 is arranged at the downstream of the discharging bearing component 13, and the sucker transferring mechanism 2 can adsorb and transfer the cylindrical film bag on the discharging bearing component 13 to an upper material level; the vacuum adsorption conveying belt 3 passes through the material loading position, can vacuum adsorb the lower surface of the cylindrical film bag and conveys the cylindrical film bag along a second direction vertical to the first direction; the jam feeding mechanism 4 comprises a jam conveying component 41, a bagging pushing component 42 and a tubular film bag opening component 43, wherein a discharge hole of the jam conveying component 41 is communicated with a bagging position of the vacuum adsorption conveying belt 3, the tubular film bag opening component 43 is arranged on one side of the bagging position and can lift the upper surface of a tubular film bag positioned in the bagging position in a vacuum adsorption mode to form an opening, the bagging pushing component 42 is arranged on one side of the discharge hole of the jam conveying component 41 and can push the jams on the jam conveying component 41 into the tubular film bag positioned in the bagging position one by one; the heat-sealing mechanism 5 is arranged at the downstream of the bagging position, and the heat-sealing mechanism 5 is used for heat-sealing the opening of the tubular film bag; the jammed paper conveying component 41, the tube film bag cutting mechanism 1 and the heat sealing mechanism 5 are all arranged on the same side of the vacuum adsorption conveying belt 3 in the first direction.

In the embodiment, the automatic film cutting and production of the tubular film bag is realized through the tubular film bag cutting mechanism 1, the tubular film bag is automatically transferred to the vacuum adsorption conveying belt 3 through the sucking disc transferring mechanism 2, the opening treatment of the tubular film bag and the loading of the paperboard into the tubular film bag are automatically realized through the paperboard feeding mechanism 4, the heat sealing treatment of the tubular film bag is realized through the heat sealing mechanism 5, and the full-automatic packaging treatment of the tubular film is realized; meanwhile, the paperboard conveying component 41, the tubular film bag cutting mechanism 1 and the heat sealing mechanism 5 are uniformly arranged on the same side of the vacuum adsorption conveying belt 3 along the first direction, so that the tubular film full-automatic packaging machine is compact in arrangement and convenient to arrange in places with limited space; vacuum adsorption conveyer belt 3 opens a mouthful part through vacuum adsorption section of thick bamboo membrane bag lower surface, cooperation section of thick bamboo membrane bag, and the automation of section of thick bamboo membrane bag is opened a mouthful through vacuum adsorption section of thick bamboo membrane bag lower surface, and the structure integrated level is high.

Specifically, as shown in fig. 1 to 3, in the present embodiment, the vacuum adsorption conveyor belt 3 includes a conveyor frame 31 and an endless belt 32. Wherein, rotatable being provided with drive roller, driven roller, tensioning cover on the carriage 31 locates the endless belt 32 on drive roller and the driven roller and be located the inboard vacuum adsorption body of endless belt 32, a plurality of absorption through-holes intercommunication that offer on vacuum adsorption body's through-hole and the endless belt 32, and then realize the absorption location to a section of thick bamboo membrane bag.

Further, the material roller tensioning and conveying component 11 comprises a reel frame 111, a tensioning feeding guide roller assembly 112 and a conveying driving roller assembly 113. The reel frame 111 is used for rotatably loading a double-layer film raw material reel; the tensioning feeding guide roller assembly 112 is arranged on a feeding path of the material roller tensioning conveying part 11 to tension the double-layer film raw material; the conveying driving roller assembly 113 comprises a driven roller 1131 and a driving roller 1132 which are arranged side by side up and down, a feeding channel is formed between the driven roller 1131 and the driving roller 1132, and the driven roller 1131 and the driving roller 1132 can clamp the double-layer film raw material and convey the double-layer film raw material to be cut to the feeding port of the cutting part 12 through driving rotation.

In addition, as shown in fig. 1 to 3, in this embodiment, the material roller tensioning and conveying component 11 includes a heat-sealing edge pressing head 114, a heat-sealing edge lower base 115, and an upper pressing head driving source, which may be an existing driving cylinder and transmission structure, and is not limited in particular. Wherein, the heat-seal edge lower base 115 is arranged right below the heat-seal edge pressure head 114 to form heat-seal passage ports for the double-layer film raw material to pass through at intervals, and the heat-seal passage ports are positioned at the upstream of the cutting part 12; and the upper pressure head driving source is in driving connection with the heat-sealing edge pressure head 114 to drive the heat-sealing edge pressure head 114 to perform heat-sealing movement relative to the heat-sealing edge lower base 115 so as to form a sealed edge extending along the second direction on the double-layer film raw material.

Further, as shown in fig. 1-3, the cutting member 12 includes an upper blade body assembly 121, a lower blade body assembly 122, and an upper blade drive source. The lower cutter body assembly 122 is arranged below the upper cutter body assembly 121 to form a cutting channel opposite to the material roller tensioning and conveying part 11 at intervals; the upper knife driving source is in driving connection with the upper knife body assembly 121 to drive the upper knife body assembly 121 to make cutting movement relative to the lower knife body assembly 122.

Further, as shown in fig. 1-3, the discharging support member 13 is a conveyor belt.

In addition, in this embodiment, the suction cup transferring mechanism 2 includes a transferring suction cup frame 21, a transferring suction cup 22, a displacement guide rail 23, a slider 24 and a displacement driving assembly 25, and the displacement driving assembly 25 may be a driving structure formed by a motor, a transmission belt and a transmission wheel. Wherein, a plurality of transfer suckers 22 arranged in an array are arranged on the transfer sucker frame 21; the displacement guide rail 23 extends along the first direction and is arranged at the downstream of the discharging and supporting part 13; the sliding block 24 is inserted in the displacement guide rail 23 in a sliding manner, and the transferring suction disc frame 21 is fixed on the sliding block 24; the displacement driving component 25 is in transmission connection with the sliding block 24, so that the cylindrical film bag on the discharging bearing component 13 is directly transferred to the vacuum adsorption conveying belt 3 at the feeding position along the first direction, and the cylindrical film bag cutting mechanism 1 and the vacuum adsorption conveying belt 3 are arranged in a mutually perpendicular mode.

Further, as shown in fig. 1 to 3, the jam conveyance member 41 includes a jam conveyance carriage 411, a jam conveyance assembly, and a jam conveyance drive source. A conveying channel extending along a first direction is formed in the paperboard conveying frame 411; the paperboard conveying assembly comprises an annular transmission chain which is positioned below the conveying channel and used for forming conveying power along a first direction, and a pushing convex head which is arranged on the outer peripheral surface of the annular transmission chain at intervals, wherein the pushing convex head can penetrate through a bottom opening 412 of the conveying channel to extend into the conveying channel; the jam conveying driving source is used for driving the annular transmission chain, and the jam conveying driving source can be a motor and gear transmission driving structure, and is not limited specifically.

Further, as shown in fig. 1 to 3, the bagging push member 42 includes a linear drive source, a rotational drive source 422, and a push handle plate 421. The linear driving source may be a linear cylinder, and the rotary driving source 422 may be a rotary cylinder or a motor. Wherein, the linear driving source is arranged at one side of the discharge port of the jam conveying component 41, and the output end of the linear driving source can move back and forth along the first direction; the rotary driving source 422 is arranged at the output end of the linear driving source; the pushing plate 421 is fixed at the output end of the rotating driving source 422, and the rotating driving source 422 can selectively drive the pushing plate 421 to separate from or enter the conveying passage of the jam conveying component 41 along the vertical direction, so that jams are pushed one by one through the pushing plate 421, and automatic bagging is realized.

Further, as shown in fig. 1 to 3, the film bag opening member 43 includes a lifting cylinder 431 and an opening suction cup 432. Wherein, the lifting cylinder 431 is fixed at one side of the discharge port of the paper jam conveying component 41; the flared suction cup 432 is fixed to the output end of the lift cylinder 431. The upper surface is sucked by the mouth opening sucking disc 432, and the sucked upper surface is lifted by the lifting cylinder 431, so that the mouth opening is realized automatically, the structure is simple, and the cost is low. In addition, it should be noted that the heat sealing mechanism 5 may be implemented by using the existing heat sealing equipment, which is not described in detail herein; and the bi-layer film stock is primarily a bi-layer film wound on a roll.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (10)

1. The utility model provides a full automatic packaging machine of section of thick bamboo membrane which characterized in that includes:

the film tube bag cutting mechanism (1) comprises a material roller tensioning and conveying component (11), a cutting component (12) and a discharging and supporting component (13), wherein the material roller tensioning and conveying component (11) is used for pulling out and conveying double-layer film raw materials to be cut in a stepping mode along a first direction, the cutting component (12) is arranged at the downstream of the material roller tensioning and conveying component (11) and used for cutting out single film tube bags, and the discharging and supporting component (13) is arranged at the downstream of the cutting component (12);

the sucking disc transferring mechanism (2) is arranged at the downstream of the discharging bearing component (13) and can adsorb and transfer the cylindrical film bag on the discharging bearing component (13) to an upper material level;

the vacuum adsorption conveying belt (3) passes through the feeding position, can vacuum adsorb the lower surface of the cylindrical film bag and conveys the cylindrical film bag along a second direction perpendicular to the first direction;

the carton feeding mechanism (4) comprises a carton conveying part (41), a bagging pushing part (42) and a tube film bag opening part (43), a discharge hole of the carton conveying part (41) is communicated with a bagging position of the vacuum adsorption conveying belt (3), the tube film bag opening part (43) is arranged on one side of the bagging position and can be lifted by vacuum adsorption to form an opening, the upper surface of the tube film bag positioned in the bagging position is lifted, the bagging pushing part (42) is arranged on one side of the discharge hole of the carton conveying part (41), and the cartons on the carton conveying part (41) can be pushed into the tube film bag positioned in the bagging position one by one;

the heat-sealing mechanism (5) is arranged at the downstream of the bagging position and is used for heat-sealing the cylindrical film bag;

the paperboard conveying component (41), the bobbin bag cutting mechanism (1) and the heat sealing mechanism (5) are uniformly arranged on the same side of the vacuum adsorption conveying belt (3) along the first direction.

2. The full-automatic packaging machine for tubular films according to claim 1, characterized in that said vacuum-suction conveyor belt (3) comprises:

the conveying frame (31) is rotatably provided with a driving roller, a driven roller and a tensioning sleeve, the driving roller, the driven roller are provided with an annular belt (32) and a vacuum adsorption body, the annular belt (32) is located on the driving roller, the vacuum adsorption body is located on the inner side of the annular belt (32), and through holes of the vacuum adsorption body are communicated with a plurality of adsorption through holes formed in the annular belt (32).

3. The full-automatic packaging machine for tubular films according to claim 1, characterized in that said material roller tensioning and conveying means (11) comprise:

a reel frame (111) for rotatably loading a roll of double-layer film stock;

the tensioning feeding guide roller assembly (112) is arranged on a feeding path of the material roller tensioning conveying component (11) to tension the double-layer film raw material;

conveying drive roller assembly (113), it includes driven roller (1131) and drive roller (1132) that set up side by side from top to bottom, form the pay-off passageway between driven roller (1131) and drive roller (1132), driven roller (1131) with drive roller (1132) can press from both sides tightly the double-layer film raw materials and through the drive rotation to the pan feeding mouth of cutting member (12) carries the double-layer film raw materials that wait to cut.

4. The full-automatic packaging machine for tubular films according to claim 1, characterized in that said material roller tensioning and conveying means (11) comprise:

a heat-seal edge presser (114);

a heat-seal edge lower base (115) arranged right below the heat-seal edge pressure head (114) to form heat-seal passage openings for the double-layer film raw material to pass through at intervals, wherein the heat-seal passage openings are positioned at the upstream of the cutting part (12);

go up the pressure head driving source, with pressure head (114) drive connection on the heat-seal edge, in order to drive pressure head (114) is relative under the heat-seal edge base (115) do the heat-seal motion, in order to form on the bilayer membrane raw materials along the banding that the second direction extends.

5. The full-automatic packaging machine for tubular films according to claim 1, characterized in that said cutting means (12) comprise:

an upper cutter body assembly (121);

the lower cutter body assembly (122) is arranged below the upper cutter body assembly (121) and forms a cutting channel opposite to the material roller tensioning and conveying component (11) at intervals;

and the upper cutter driving source is in driving connection with the upper cutter body assembly (121) so as to drive the upper cutter body assembly (121) to do cutting motion relative to the lower cutter body assembly (122).

6. The machine according to claim 1, characterised in that said outfeed support member (13) is a conveyor belt.

7. The full-automatic web film packaging machine according to claim 1, wherein said suction cup transfer mechanism (2) comprises:

the transfer sucker frame (21) is provided with a plurality of transfer suckers (22) which are arranged in an array;

a displacement guide rail (23) extending in the first direction and disposed downstream of the discharge support member (13);

the sliding block (24) is inserted into the displacement guide rail (23) in a sliding mode, and the transfer suction disc frame (21) is fixed on the sliding block (24);

and the displacement driving component (25) is in transmission connection with the sliding block (24).

8. The full-automatic bobbin film packaging machine according to claim 1, wherein the jam feeding means (41) comprises:

the paperboard conveying frame (411) is provided with a conveying channel extending along the first direction;

the paper jam conveying assembly comprises an annular transmission chain which is positioned below the conveying channel and used for forming conveying power along the first direction, and a pushing convex head which is arranged on the outer peripheral surface of the annular transmission chain at intervals and can penetrate through a bottom opening (412) of the conveying channel to extend into the conveying channel;

and a paper jam conveying driving source for driving the endless transmission chain.

9. The full-automatic tubular film packaging machine according to claim 1, wherein said bagging pusher (42) comprises:

a linear drive source provided on one side of a discharge port of the jam transport member (41), an output end of the linear drive source being capable of reciprocating in the first direction;

a rotary drive source (422) provided at an output end of the linear drive source;

and a pushing plate (421) fixed to an output end of the rotation driving source (422), wherein the rotation driving source (422) selectively drives the pushing plate (421) to be separated from or enter a conveying passage of the jam conveying member (41) in a vertical direction.

10. The full-automatic web film packaging machine according to claim 1, wherein said web film bag opening member (43) comprises:

a lifting cylinder (431) fixed on one side of the discharge port of the paper jam conveying component (41);

and the opening sucker (432) is fixed at the output end of the lifting cylinder (431).

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