CN220884984U - Bagging machine suitable for double-station filling equipment - Google Patents

Abstract

The utility model provides a bagging machine suitable for double-station filling equipment, which relates to the technical field of packaging machine equipment and comprises a frame, a bag storage part, a bag taking part, a bag conveying part and an upper bag part, wherein at least one bag feeding part is arranged, the upper bag part is arranged on the frame through a mounting frame, and the upper bag part is driven by a translation driving assembly to reciprocate on the mounting frame; the translation driving assembly drives the upper bag component to be in butt joint with the bag feeding component, the packaging bag is taken out from the bag feeding component, the translation driving assembly drives the upper bag component to move to a position corresponding to the filling station, the upper bag component executes bagging action, and the packaging bag is sleeved on a filling port of the filling station. The automatic feeding and discharging device aims to solve the problems that the two sets of feeding machines are matched with the double-station discharging barrel, the equipment cost is high, the occupied area is large, the feeding and bagging efficiency of the two sets of feeding machines is redundant, and the feeding machines are in a starting state, so that unnecessary electric power waste is caused.

Description

Bagging machine suitable for double-station filling equipment

Technical Field

The utility model relates to the technical field of packaging machine equipment, in particular to a bagging machine suitable for double-station filling equipment.

Background

In the existing material filling field, especially in the filling field of materials such as flour, multi-station filling and discharging are mostly adopted, for example, six-station filling and discharging packaging are realized, and full-automatic bagging filling is realized by matching with an automatic bagging machine, so that the material filling efficiency can be greatly improved. However, a batch of double-station filling, blanking and packaging equipment also exists in the current market, and the double-station filling, blanking and packaging equipment generally adopts a mode that a packaging bag is sleeved on a double-station filling and blanking port manually, so that the labor cost is high, and the working strength of bagging operators is high. If the automatic bagging machine is used for the existing double-station filling and bagging packaging equipment, the equipment cost is high, the occupied area is large, and the resource waste exists.

For example, in Chinese patent literature, the publication number is CN210364601U, the publication date is 2020, 4 and 21, the name is double-station paper bag flat-mouth intelligent bagging machine comprises a frame, a bag storage part, an upper bag part, a mouth opening part, a material supporting part and a discharging part, wherein the bag storage part is arranged on the left side and the right side of the frame, and a bag storage part Cheng Fangping is arranged in a bag; the upper bag part is arranged above the storage bag part and is used for taking out the packaging bag from the storage bag part and executing bagging work; the opening supporting part is arranged above the frame, and the material supporting part is arranged below the opening supporting part and is positioned at the rear part of the frame; the discharging part is arranged below the frame supporting part.

Among the above-mentioned prior art, adopt two sets of bag feeding machine adaptation duplex position feed cylinder, equipment cost is high, area is big, and the last bag efficiency of two sets of bag feeding machines is limited by duplex position feed cylinder's unloading efficiency, even go up the bag and open bag efficiency and be high again, just can continue the cover bag after waiting to accomplish the filling in the duplex position feed cylinder and shifting out the wrapping bag of accomplishing the filling, consequently, it is redundant to lead to the fact the last bag cover bag efficiency of two sets of bag feeding machines, it is in the start-up state to go up the bag machine, cause unnecessary electric power waste.

Disclosure of utility model

In order to solve the defects in the prior art, the utility model provides a bagging machine suitable for double-station filling equipment, and aims to solve the problems of high cost, wide occupied area, redundant bagging efficiency and unnecessary power waste caused by the fact that the bagging machine is in a starting state in the prior art.

The utility model is realized by the following technical scheme:

The bagging machine suitable for the double-station filling equipment comprises a frame, a bag storage part, a bag taking part, a bag conveying part and an upper bag part, and is characterized in that at least one set of upper bag part is arranged on the frame through a mounting frame, and the upper bag part is driven by a translation driving assembly to reciprocate on the mounting frame; the translation driving assembly drives the upper bag component to be in butt joint with the bag feeding component, the packaging bag is taken out from the bag feeding component, the translation driving assembly drives the upper bag component to move to a position corresponding to the filling station, the upper bag component executes bagging action, and the packaging bag is sleeved on a filling port of the filling station.

Further, two sets of upper bag parts are slidably assembled on the mounting frame, the translation driving assembly drives the two sets of upper bag parts to be in butt joint with the bag conveying parts alternately, the two sets of upper bag parts take out the packaging bags from the bag conveying parts alternately, the translation driving assembly drives the two sets of upper bag parts to be in butt joint with the two filling stations respectively, the upper bag parts execute bagging actions, and the two sets of upper bag parts sleeve the packaging bags on filling ports of the two filling stations simultaneously or alternately.

Further, the distance between the two sets of upper bag components is matched with the distance between the two filling stations; after the two sets of bag feeding parts take out the packaging bags from the bag feeding parts, the two sets of bag feeding parts are driven by the translation driving assembly to move together, the two sets of bag feeding parts respectively correspond to the two filling stations after moving in place, and the two sets of bag feeding parts act simultaneously to respectively sleeve the packaging bags on filling openings of the two filling stations.

Further, the mounting frame is provided with a support plate sliding relative to the mounting frame, and the upper bag component is assembled on the support plate.

Further, the translation drive assembly comprises a first drive motor and a transmission assembly, and the first drive motor drives the support plate to reciprocate on the mounting frame through the transmission assembly, so that the upper bag component on the support plate is driven to translate together.

Further, the transmission assembly comprises a rack and a gear, the gear is assembled with a first driving motor, the rack is assembled on the mounting frame, the first driving motor is fixed with the supporting plate, the first driving motor drives the reciprocating gear to rotate, and the supporting plate moves in a reciprocating manner relative to the mounting frame under the meshing action of the rack.

Further, the transmission assembly comprises a screw-nut pair, the screw is rotatably assembled on the mounting frame, the screw is driven by the first driving motor to rotate, a connecting seat in threaded fit with the screw is arranged at the bottom of the supporting plate, and the screw-nut pair is formed by the screw and the connecting seat; the first driving motor drives the screw rod to rotate in a reciprocating manner, so that the supporting plate is driven to translate in a reciprocating manner along the screw rod.

Further, the translation drive assembly comprises a sliding rail, a sliding block and a drive air cylinder, the sliding rail is assembled on the installation frame, a piston rod of the drive air cylinder is assembled with the sliding block, the sliding block is fixed with the support plate, the piston rod of the drive air cylinder stretches out and draws back to drive the sliding block to move in the sliding rail, and the support plate moves in a reciprocating manner relative to the installation frame.

Further, the upper bag component comprises an upper bag mounting seat, a second driving motor, an upper bag arm I, an upper bag arm II, a transmission shaft and a bag stretching driving piece; the transmission shaft is rotatably assembled on the upper bag mounting seat, and the second driving motor is connected with the transmission shaft and drives the transmission shaft to rotate in a reciprocating manner; one ends of the first upper bag arm and the second upper bag arm are respectively hinged to a transmission shaft, and a bagging clamping jaw is assembled at the other ends of the first upper bag arm and the second upper bag arm; one end of the bag stretching driving piece is movably connected to the first upper bag arm, the other end of the bag stretching driving piece is movably connected to the second upper bag arm, and the bag stretching driving piece stretches and drives the first upper bag arm and the second upper bag arm to be close to or far away from each other so as to stretch the bag.

Further, the upper bag part further comprises a connecting rod, one end of the connecting rod is hinged to a hinged shaft of the first upper bag arm and the bag stretching driving piece, and the other end of the connecting rod is hinged to a connecting lug plate of a hinged seat for hinging the second upper bag arm with the transmission shaft.

The working principle of the utility model is as follows:

The upper bag component is installed on the frame through the mounting frame, the translation driving component translates and drives the upper bag component to be in butt joint with the bag feeding component, the packaging bag is taken out of the bag feeding component, after the upper bag component takes out the packaging bag from the bag feeding component, the translation driving component drives the upper bag component to move to a position corresponding to the filling station, the upper bag component executes bagging action, and the packaging bag is sleeved on a filling port of the filling station, so that the reciprocating circulation is realized.

The beneficial effects of the utility model are as follows:

The upper bag component is installed on the frame through the mounting frame, and the translation driving component is used for driving the upper bag component to be in butt joint with the bag feeding component in turn, the packaging bag is taken out from the bag feeding component, after the upper bag component is taken out from the bag feeding component, the translation driving component is used for driving the upper bag component to move to a position corresponding to the filling station, the upper bag component is used for executing bagging action, and the packaging bag is sleeved on a filling port of the filling station. Compared with the prior art that two sets of bag feeding machines are adopted to adapt to double-station discharging barrels, the equipment cost is saved, the occupied area is reduced, waiting is not needed when the bags are sleeved and the materials are filled, time is saved, unnecessary electric power waste is avoided, and the equipment working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a bagging machine;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a top view of the present utility model;

Fig. 4 is a side view of the present utility model.

Reference numerals: the device comprises a 1-frame, a 2-bag storage part, a 3-bag taking part, a 4-bag feeding part, a 5-bag loading part, a 6-mounting frame, a 7-first driving motor, an 8-gear, a 9-rack, a 10-supporting plate, a 11-first bag loading arm, a 12-second bag loading arm, a 13-transmission shaft, a 14-second driving motor, a 15-bag stretching driving part and a 16-connecting rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The bagging machine suitable for the double-station filling equipment comprises a frame 1, a bag storage part 2, a bag taking part 3, a bag conveying part 4 and an upper bag part 5, wherein the upper bag part 5 is provided with a set, the upper bag part 5 of the set is arranged on the frame 1 through a mounting frame 6, and the upper bag part 5 is driven by a translation driving assembly to reciprocate on the mounting frame 6; the translation driving assembly drives the upper bag part 5 to be in butt joint with the bag feeding part 4, the packaging bag is taken out from the bag feeding part 4, the translation driving assembly drives the upper bag part 5 to move to a position corresponding to the first filling station, the upper bag part 5 executes bagging action, and the packaging bag is sleeved on a filling port of the first filling station; then the translation driving component drives the upper bag component 5 to be in butt joint with the bag feeding component 4, after the packaging bag is taken out from the bag feeding component 4 again, the translation driving component drives the upper bag component 5 to move to a position corresponding to the second filling station, the upper bag component 5 executes bagging action, and the packaging bag is sleeved on a filling port of the second filling station. In this way, an embodiment is realized in which the upper bag member 5 is alternately abutted against two filling stations.

In this embodiment, the bag storing part 2, the bag taking part 3, the bag delivering part 4 and the bag loading part 5 are all existing structural parts, and the translation driving assembly and the mounting frame 6 are only added to the existing structural parts. In particular, the specific structure of the upper bag member 5 is not limited to the structure shown in the drawing of the present application, and other structures of the upper bag member 5 capable of achieving the actions of taking, stretching and bagging can be applied.

In this embodiment, as shown in fig. 4, the upper bag member 5 may be rotated by an arbitrary angle. The rotation angle of the upper bag part 5 can be adjusted according to the situation so as to achieve the aim of accurately putting the bag.

Example 2

This example is a further elaboration and supplementation of the embodiments of the utility model on the basis of example 1.

As shown in fig. 1-3, the mounting frame 6 is slidably provided with two sets of upper bag parts 5, and the translational driving assembly drives the two sets of upper bag parts 5 to be alternately butted with the bag feeding part 4, so that the two sets of upper bag parts 5 alternately take out the packaging bags from the bag feeding part 4. In this embodiment, two sets of upper bag parts 5 are provided, when one set of upper bag parts 5 is in butt joint with the bag feeding part 4, the packaging bag with the bag opening at the bag feeding part 4 is taken out from the bag feeding part 4, the translation driving assembly drives the two sets of upper bag parts 5 to translate together until the other set of upper bag parts 5 is in butt joint with the bag feeding part 4, the packaging bag is taken out from the bag feeding part 4, and at the moment, the two sets of upper bag parts 5 take out the packaging bag from the bag feeding part 4.

As an implementation of this example, the distance between the two sets of upper bag parts 5 is adapted to the distance between the two filling openings; after the two sets of upper bag parts 5 take out the packaging bags from the bag feeding part 4, the two sets of upper bag parts 5 are driven by the translation driving assembly to move together, after moving in place, the two sets of upper bag parts 5 respectively correspond to the two filling stations, and the two sets of upper bag parts 5 simultaneously act to respectively cover the packaging bags on filling openings of the two filling stations.

Further, when the position of one of the two filling stations corresponds to the bag feeding part 4, the above embodiment may be further modified as follows: after the first bagging part 5 is used for taking bags, the second bagging part 5 is used for taking bags, at the moment, the second bagging part 5 is positioned between the first filling station and the second bagging part 4, the first bagging part 5 corresponds to the second filling station, after the second bagging part 5 is used for taking bags, the position of the second bagging part 5 does not need to be moved by the translation driving assembly, and after the filling station is used for filling the last packaging bag and outputting the packaging bag, the two bagging parts 5 act simultaneously, and the packaging bag which is opened on the second bagging part is sleeved on filling openings of the two filling stations.

In this embodiment, the bag taking process of the upper bag member 5 may be performed in synchronization with the filling process of the filling port, and the time taken for the two sets of upper bag members 5 to take out the package bags from the bag feeding member 4 alternately is within the filling time range of the filling process, that is, the bag taking time of the two sets of upper bag members 5 will not affect the bagging and the filling of the filling process.

As a further implementation manner of this embodiment, the two bagging parts 5 may perform bagging simultaneously, or may perform bagging at corresponding filling stations sequentially.

As another example of this embodiment, in the case that the space between the two station filling ports is limited, so that the two sets of upper bag parts 5 of the upper bags simultaneously interfere with each other, after the two sets of upper bag parts 5 take out the packaging bags from the bag feeding part 4, the translation driving assembly drives the two sets of upper bag parts 5 to translate, so that one set of upper bag parts 5 is in butt joint with one of the filling ports, and the packaging bags are sleeved on the two sets of upper bag parts; after the upper bag part 5 is reset, the translation driving assembly drives the two sets of upper bag parts 5 to translate, so that the other set of upper bag parts 5 are in butt joint with the other filling port, and the packaging bag is sleeved on the other set of upper bag parts; after bagging work of the two filling openings is completed, the translation driving assembly drives the two sets of upper bag parts 5 to translate together, the two sets of upper bag parts are alternately butted with the bag conveying parts 4, and bag taking operation is carried out from the bag conveying parts 4 again.

As yet another example of this embodiment, the translational driving assemblies may be two sets, corresponding to the number of the upper bag members 5, and corresponding to the upper bag members 5 one by one, and each set of upper bag members 5 is driven to translate by the translational driving assembly connected thereto.

Example 3

This example is a further elaboration and supplementation of the embodiments of the utility model on the basis of example 1 or example 2.

As an implementation of this embodiment, as shown in fig. 1 to 3, a support plate 10 that slides relative to the mounting frame 6 is provided on the mounting frame 6, and the upper bag member 5 is assembled on the support plate 10.

As a further implementation manner of this embodiment, the translation driving assembly includes a first driving motor 7 and a transmission assembly, where the first driving motor 7 drives the support plate 10 to reciprocate on the mounting frame 6 through the transmission assembly, so as to drive the upper bag component 5 on the support plate 10 to translate together. The first driving motor 7 can adopt a servo motor, the servo motor can realize accurate control on position, speed and moment, the high-speed performance is good, the overload resistance is strong, and the heating and noise are obviously reduced.

Example 4

This example is a further elaboration and supplementation of the embodiments of the utility model on the basis of example 3.

As an implementation manner of this embodiment, as shown in fig. 3, the transmission assembly includes a rack 9 and a gear 8, the gear 8 is assembled with the first driving motor 7, the rack 9 is assembled on the mounting frame 6, the first driving motor 7 is fixed with the supporting plate 10, the first driving motor 7 drives the reciprocating gear 8 to rotate, and the supporting plate 10 reciprocates and translates relative to the mounting frame 6 under the meshing effect of the rack 9.

As an example of this embodiment, the rack 9 may be mounted on the support plate 10, and the first drive motor 7 may be mounted on the mounting frame 6, i.e. the mounting positions of the rack 9 and the first drive motor 7 may be changed, and the control of the reciprocating translation between the support plate 10 and the mounting frame 6 may still be achieved.

As a further implementation manner of the embodiment, the transmission assembly comprises a screw-nut pair, a screw is rotatably assembled on the mounting frame 6, the first driving motor 7 drives the screw to rotate, a connecting seat in threaded fit with the screw is arranged at the bottom of the supporting plate 10, and the screw-nut pair is formed by the screw and the connecting seat; the first driving motor 7 drives the screw rod to reciprocate, so that the supporting plate 10 is driven to reciprocate along the screw rod. The first driving motor 7 is fixed, the weight of the components on the supporting plate 10 can be reduced, and the motion inertia of the components can be reduced during translation, so that the motion stability in the translation process is ensured.

As a further implementation manner of this embodiment, the translation driving assembly includes a sliding rail, a sliding block, and a driving cylinder, where the sliding rail is assembled on the mounting frame 6, a piston rod of the driving cylinder is assembled with the sliding block, the sliding block is fixed with the support plate 10, and the piston rod of the driving cylinder stretches and contracts to drive the sliding block to move in the sliding rail, and the support plate 10 reciprocates and translates relative to the mounting frame 6.

Example 5

This example is a further elaboration and supplementation of the embodiments of the utility model on the basis of example 1, example 2, example 3 or example 4.

As an implementation manner of this embodiment, as shown in fig. 1 to 3, the upper bag component 5 includes an upper bag mounting seat, a second driving motor 14, an upper bag arm one 11, an upper bag arm two 12, a transmission shaft 13 and a bag stretching driving member 15; the transmission shaft 13 is rotatably assembled on the upper bag mounting seat, and the second driving motor 14 is connected with the transmission shaft 13 and drives the transmission shaft 13 to rotate in a reciprocating manner; one ends of the first upper bag arm 11 and the second upper bag arm 12 are respectively hinged on a transmission shaft 13, and the other ends of the first upper bag arm 11 and the second upper bag arm 12 are provided with a bagging clamping jaw; one end of the bag stretching driving piece 15 is movably connected to the first upper bag arm 11, the other end of the bag stretching driving piece 15 is movably connected to the second upper bag arm 12, and the bag stretching driving piece 15 stretches and drives the first upper bag arm 11 and the second upper bag arm 12 to be close to or far away from each other so as to stretch the bag.

In this embodiment, when implemented by adopting the schemes of the above embodiments 1 and 2, the upper bag mount is slidably engaged with the mounting frame 6; when implemented using the scheme of embodiment 3 described above, the upper bag mount is one part of the support plate 10 for assembling the upper bag member 5, or the upper bag mount is directly fixed to the support plate 10.

As an example of the present embodiment, the second driving motor 14 is preferably a servo motor, which can achieve precise control at any position, speed and moment, has good high-speed performance, has strong overload resistance, and remarkably reduces heat generation and noise. The bag stretching driving piece 15 is preferably a double-stroke air cylinder or a bag stretching driving piece 15 consisting of two air cylinders; or a single cylinder. The bagging clamping claw is preferably used for clamping the air cylinder.

As a further implementation of this embodiment, as shown in fig. 1-3, the upper bag member 5 further includes a connecting rod 16, where one end of the connecting rod 16 is hinged to the hinge shaft where the upper bag arm 11 is hinged to the bag stretching driving member 15, and the other end is hinged to the connecting lug plate of the hinge seat where the upper bag arm 12 is hinged to the transmission shaft 13. When the upper bag arm I11 and the upper bag arm II 12 are opened, the fixed-length connecting rod 16 can ensure that the angles of the upper bag arm I11 and the upper bag arm II 12 are consistent when the upper bag arm I11 and the upper bag arm II 12 are opened, and simultaneously can ensure the opening and closing bag stretching stability between the upper bag arm I11 and the upper bag arm II 12.

Claims (10)

1. Bagging machine suitable for duplex position filling equipment, including frame (1), storage bag part (2), get bag part (3), send bag part (4) and go up bag part (5), its characterized in that: the upper bag part (5) is at least one set, the upper bag part (5) is arranged on the frame (1) through the mounting frame (6), and the upper bag part (5) is driven by the translation driving assembly to reciprocate on the mounting frame (6); the translation driving assembly drives the upper bag part (5) to be in butt joint with the bag feeding part (4), the packaging bag is taken out from the bag feeding part (4), the translation driving assembly drives the upper bag part (5) to move to a position corresponding to the filling station, the upper bag part (5) executes bagging action, and the packaging bag is sleeved on a filling port of the filling station.

2. The bagging machine suitable for use in a dual-station filling device of claim 1, wherein: the two sets of upper bag components (5) are slidably assembled on the mounting frame (6), the translational driving assembly drives the two sets of upper bag components (5) to be in butt joint with the bag feeding component (4), the two sets of upper bag components (5) take out the packaging bags from the bag feeding component (4) alternately, the translational driving assembly drives the two sets of upper bag components (5) to be in butt joint with the two filling stations respectively, the upper bag components (5) execute bagging action, and the two sets of upper bag components (5) sleeve the packaging bags on filling ports of the two filling stations simultaneously or alternately.

3. The bagging machine suitable for use in a dual-station filling device of claim 2, wherein: the distance between the two sets of upper bag parts (5) is matched with the distance between the two filling stations; after the two sets of upper bag parts (5) are taken out of the bag feeding part (4), the two sets of upper bag parts (5) are driven by the translation driving assembly to move together, the two sets of upper bag parts (5) respectively correspond to the two filling stations after moving in place, and the two sets of upper bag parts (5) act simultaneously to respectively cover the packaging bags on filling openings of the two filling stations.

4. A bagging machine for a duplex filling device according to any one of claims 1 to 3, wherein: the mounting frame (6) is provided with a supporting plate (10) which slides relative to the mounting frame (6), and the upper bag component (5) is assembled on the supporting plate (10).

5. The bagging machine for a dual-station filling device of claim 4 wherein: the translation driving assembly comprises a first driving motor (7) and a transmission assembly, wherein the first driving motor (7) drives the supporting plate (10) to reciprocate on the mounting frame (6) through the transmission assembly, so that the upper bag part (5) on the supporting plate (10) is driven to translate together.

6. The bagging machine for a dual-station filling device of claim 5, wherein: the transmission assembly comprises a rack (9) and a gear (8), the gear (8) is assembled with a first driving motor (7), the rack (9) is assembled on a mounting frame (6), the first driving motor (7) is fixed with a supporting plate (10), the first driving motor (7) drives a reciprocating gear (8) to rotate, and the supporting plate (10) moves in a reciprocating manner relative to the mounting frame (6) under the meshing effect of the rack (9).

7. The bagging machine for a dual-station filling device of claim 5, wherein: the transmission assembly comprises a screw-nut pair, a screw is rotatably assembled on the mounting frame (6), the screw is driven to rotate by the first driving motor (7), a connecting seat in threaded fit with the screw is arranged at the bottom of the supporting plate (10), and the screw and the connecting seat form the screw-nut pair; the first driving motor (7) drives the screw rod to rotate in a reciprocating manner, so that the supporting plate (10) is driven to translate in a reciprocating manner along the screw rod.

8. The bagging machine for a dual-station filling device of claim 4 wherein: the translation drive assembly comprises a sliding rail, a sliding block and a drive cylinder, wherein the sliding rail is assembled on the mounting frame (6), a piston rod of the drive cylinder is assembled with the sliding block, the sliding block is fixed with the supporting plate (10), the piston rod of the drive cylinder stretches and contracts to drive the sliding block to move in the sliding rail, and the supporting plate (10) moves in a reciprocating manner relative to the mounting frame (6).

9. A bagging machine for a duplex filling device according to any one of claims 1 to 3, wherein: the upper bag component (5) comprises an upper bag mounting seat, a second driving motor (14), an upper bag arm I (11), an upper bag arm II (12), a transmission shaft (13) and a bag stretching driving piece (15); the transmission shaft (13) is rotatably assembled on the upper bag mounting seat, and the second driving motor (14) is connected with the transmission shaft (13) to drive the transmission shaft (13) to rotate in a reciprocating manner; one ends of the first upper bag arm (11) and the second upper bag arm (12) are respectively hinged to a transmission shaft (13), and a bagging clamping jaw is arranged at the other ends of the first upper bag arm (11) and the second upper bag arm (12); one end of the bag stretching driving piece (15) is movably connected to the first upper bag arm (11), the other end of the bag stretching driving piece is movably connected to the second upper bag arm (12), and the bag stretching driving piece (15) stretches to drive the first upper bag arm (11) and the second upper bag arm (12) to be close to or far away from each other so as to stretch the bags.

10. The bagging machine for duplex filling devices of claim 9, wherein: the upper bag part (5) further comprises a connecting rod (16), one end of the connecting rod is hinged to a hinged shaft of the upper bag arm I (11) and the bag stretching driving piece (15), and the other end of the connecting rod is hinged to a connecting lug plate of a hinged seat for hinging the upper bag arm II (12) and the transmission shaft (13).