CN219296814U - High-stability automatic bag stacking machine - Google Patents

Abstract

The utility model relates to a high-stability automatic bag stacking machine, which comprises a frame, wherein a supporting mechanism is arranged on the upper side of the frame, the supporting mechanism comprises an upper supporting structure and a lower supporting structure, the lower supporting structure comprises a lower fixing plate, the upper side of the lower fixing plate is provided with two lower clamping plates through a guide rail sliding block structure, the two lower clamping plates are respectively connected with a lower screw rod through nuts, one end of the lower screw rod is provided with a lower motor, the upper side of the lower fixing plate is provided with an upper fixing plate through a support column, the upper side of the upper fixing plate is provided with two upper clamping plates through a guide rail sliding block structure, the two upper clamping plates are respectively connected with the upper screw rod through nuts, one end of the upper screw rod is provided with an upper motor, the movement directions of the upper motors of the two upper clamping plates are opposite, and the two upper clamping plates or the lower clamping plates are controlled by the motors to move, so that an upright post of a spreading mechanism and an inner stacking mechanism are clamped and fixed.

Description

High-stability automatic bag stacking machine

Technical Field

The utility model relates to the field of bag folding equipment, in particular to a high-stability automatic bag folding machine.

Background

The applicant previously applied for an automatic bag stacking machine (publication No. CN 217534939U) with full high stability, the device can be used for placing rolled bags, specifically, the feeding mechanism is used for placing the bags, the opening mechanism is used for opening the inner side of the starting end according to the inner diameter of the bags along the tensioning mechanism and the cutting mechanism, the outer stacking mechanism is combined with the opening mechanism to press and fix the outer side of the bags after opening, the inner stacking mechanism is used for opening the inner side of the starting end of the bags outwards according to the folding height, the outer stacking mechanism is used for downwards folding, the outer stacking mechanism is downwards pulled out, the outer side of the folding part is upwards pressed and fixed, the inner stacking mechanism is upwards pulled out and then is opened and downwards folded again, so that the cycle is completed, when the bag is folded according to the length specification, the cutting mechanism is used for cutting the breaking point of the conveyed bags according to the length specification, the breaking point is cut off along the breaking point tearing line through the cutting mechanism, the folded bags are free to fall down to the next procedure, finally, the automatic folding of the bags is realized, the intelligent folding machine is high in applicability, and the folding efficiency is improved, and the applicability is low.

In this structure, the supporting mechanism is fixed the mechanism of strutting and interior folding mechanism in corresponding position, and at this moment, the bearing structure is the cylinder through a plurality of different directions and controls the removal of grip block to fix the stand of strutting the mechanism, because adopt a plurality of cylinders to control the removal of grip block this moment, and be independent control between the cylinder again, consequently, the removal of grip block and the stability of grip block to the stand centre gripping are relatively poor, the unstable condition of centre gripping can appear, thereby influence the stability of strutting mechanism and interior folding structure.

Disclosure of Invention

Based on this, it is necessary to provide a high-stability automatic bag stacking machine aiming at the problems in the prior art.

The high-stability automatic bag stacking machine is characterized by comprising a frame, wherein a feeding mechanism, a cutting mechanism, a spreading mechanism, an inner stacking mechanism, an outer stacking mechanism, a supporting mechanism and a cutting mechanism are arranged on the upper side of the frame, the supporting mechanism is used for fixing the spreading mechanism and the inner stacking mechanism at preset positions,

the supporting mechanism comprises an upper supporting structure and a lower supporting structure, the lower supporting structure comprises a lower fixing plate, two lower clamping plates are arranged on the upper side of the lower fixing plate through guide rail sliding blocks, the two lower clamping plates are connected with a lower screw rod through nuts respectively, a lower motor is arranged at one end of the lower screw rod, an upper fixing plate is arranged on the upper side of the lower fixing plate through a supporting column, two upper clamping plates are arranged on the upper side of the upper fixing plate through guide rail sliding blocks, the two upper clamping plates are connected with the upper screw rod through nuts respectively, an upper motor is arranged at one end of the upper screw rod, the two lower clamping plates move oppositely under the action of the lower motor, and the moving directions of the upper motors of the upper clamping plates are opposite.

In one embodiment, the two lower clamping plates and the two nuts connected with the lower screw rod are opposite in screw threads, and the two upper clamping plates and the two nuts connected with the upper screw rod are opposite in screw threads.

In one embodiment, the inner sides of the upper clamping plate and the lower clamping plate are respectively provided with a sensor for detecting whether the upper clamping plate and the lower clamping plate fix the opening mechanism and the inner stacking mechanism.

In one embodiment, the middle parts of the lower fixing plate and the upper fixing plate are provided with channels.

In one embodiment, the cutting mechanism comprises a cutter rest bottom plate fixed on the side face of the frame, a through hole for the bag body to pass through is formed in the middle of the cutter rest bottom plate, a bag pressing bottom plate is arranged on the outer side of the cutter rest bottom plate through a support, a cutting bag pressing plate and an electric cutter rest which move up and down are arranged on the outer side of the cutter rest bottom plate, the cutting bag pressing plate and the electric cutter rest are respectively located at the upper side position and the lower side position of the bag pressing bottom plate, a cutter is arranged on the electric cutter rest, a cutter groove is formed in the cutter rest bottom plate and the cutting bag pressing plate, and when the cutter moves up and down, the cutter is arranged in the cutter groove in the cutter rest bottom plate and the cutting bag pressing plate.

In one embodiment, the upper side surface of the bag pressing bottom plate is equal to the center of the through hole of the knife rest bottom plate.

In one embodiment, the electric knife rest further comprises an outer fixing plate fixed on the outer side of the knife rest bottom plate, the outer side of the outer fixing plate is connected with a blade fixing plate through a guide rail sliding block structure, a blade base is arranged on the outer side of the blade fixing plate, a blade pressing plate is connected on the outer side of the blade base through a fastener, the cutting knife is fixed between the blade base and the blade pressing plate, a blade motor is arranged on the lower side of the outer fixing plate, and a shaft of the blade motor is connected with a sliding block of the guide rail sliding block structure and used for controlling the up-down movement of the blade fixing plate.

In one embodiment, the cutter comprises a plurality of blades which are arranged in parallel, a gap is arranged between every two adjacent blades, the cutting edge of each blade faces upwards, and a sharp top is arranged at the cutting edge of the upper end of each blade.

In one embodiment, the cutting bag pressing plate is arranged on the outer side of the tool rest bottom plate through a pressing plate structure, the pressing plate structure comprises a pressing plate fixing plate fixed on the outer side of the tool rest bottom plate, the outer side of the pressing plate fixing plate is connected with a module platform through a guide rail sliding block structure, a pressing plate sliding block is arranged on the outer side of the module platform, the cutting bag pressing plate is fixed on the lower side of the pressing plate sliding block, a pressing plate motor is arranged on the upper side of the pressing plate fixing plate, and a crankshaft of the pressing plate motor is connected with a sliding block of the guide rail sliding block structure and used for controlling up-and-down movement of the module platform.

In one embodiment, the pressing plate sliding seat block is connected with the module platform through a guide rail sliding block structure, and the guide rail sliding block structure between the pressing plate sliding seat block and the module platform is provided with a locking structure for fixing the pressing plate sliding seat block with the module platform.

Above-mentioned automatic bag machine of folding of high stability, the removal of clamping plate or lower clamping plate is gone up through the motor control, can guarantee two last clamping plates, two lower clamping plates and remove in step respectively this moment, and the stand that will strut mechanism and interior folding mechanism presss from both sides fixedly, because two last clamping plates, two lower clamping plates remove in step respectively, consequently, can guarantee comparatively stable at the in-process of pressing from both sides tightly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a high-stability automatic bag stacking machine according to the utility model;

FIG. 2 is a schematic structural view of a support mechanism of the high-stability automatic bag stacking machine of the utility model;

FIG. 3 is a schematic structural view of a cutting mechanism of the high-stability automatic bag stacking machine;

FIG. 4 is a schematic structural view of a part of a propping structure of the high-stability automatic bag folding machine;

wherein, 1, the frame; 2. a support mechanism; 21. a lower fixing plate; 22. a lower clamping plate; 23. a lower motor; 24. an upper fixing plate; 25. an upper clamping plate; 26. a motor is arranged; 3. a cutting mechanism; 31. a tool rest base plate; 32. a through hole; 33. pressing a bag bottom plate; 34. cutting a bag pressing plate; 340. a platen structure; 341. a platen fixing plate; 342. a module platform; 343. a platen slide block; 344. a platen motor; 345. a locking structure; 35. an electric tool rest; 351. an outer fixing plate; 352. a blade fixing plate; 353. a blade base; 354. a blade pressing plate; 355. a blade motor; 36. a cutter; 37. a cutter groove; 41. a positioning plate; 42. and a motor.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 3, the high-stability automatic bag stacking machine comprises a frame 1, wherein a feeding mechanism, a cutting mechanism 3, a spreading mechanism, an inner stacking mechanism, an outer stacking mechanism, a supporting mechanism 2 and a cutting mechanism are arranged on the upper side of the frame 1, the supporting mechanism 2 is used for fixing the spreading mechanism and the inner stacking mechanism at preset positions,

the supporting mechanism 2 comprises an upper supporting structure and a lower supporting structure, the lower supporting structure comprises a lower fixing plate 21, two lower clamping plates 22 are arranged on the upper side of the lower fixing plate 21 through a guide rail sliding block structure, the two lower clamping plates 22 are respectively connected with a lower screw rod through nuts, one end of the lower screw rod is provided with a lower motor 23, the upper side of the lower fixing plate 21 is provided with an upper fixing plate 24 through a supporting column, the upper side of the upper fixing plate 24 is provided with two upper clamping plates 25 through a guide rail sliding block structure, the two upper clamping plates are respectively connected with the upper screw rod through nuts, one end of the upper screw rod is provided with an upper motor 26, the moving directions of the two lower clamping plates 22 under the action of the lower motor 23 are opposite, and the moving directions of the upper motors 26 of the upper clamping plates 25 are opposite.

The two upper clamping plates 25 or the lower clamping plates 22 are controlled to move through the motor, at the moment, the two upper clamping plates 25 and the two lower clamping plates 22 can be ensured to move synchronously respectively, the upright posts of the expanding mechanism and the inner folding mechanism are clamped and fixed, and the two upper clamping plates 25 and the two lower clamping plates 22 can move synchronously respectively, so that the clamping process can be ensured to be stable.

At this time, the upper clamping plate 25 and the lower clamping plate 22 mainly clamp the upright, and in order to ensure stability in the clamping process, the two upper clamping plates 25 (or the two lower clamping plates 22) need to be simultaneously contacted with the upright, that is, the moving distance of the two upper clamping plates 25 (or the lower clamping plates 22) is ensured to be equal in the moving process, specifically, the two upper clamping plates 25 (or the lower clamping plates 22) are connected with the screw rod through nuts, so that the moving distance of the two upper clamping plates 25 (or the lower clamping plates 22) can be ensured to be the same.

At this time, in order to ensure that the two upper clamping plates 25 (the two lower clamping plates 22) can be moved synchronously toward the middle or toward the outside during the movement, the two lower clamping plates 22 are screwed in opposite directions to the two nut screws connected to the lower screw, and the two upper clamping plates 25 are screwed in opposite directions to the two nut screws connected to the upper screw. When two different screw threads are adopted, the moving directions of the two corresponding upper clamping plates 25 (or the two lower clamping plates 22) are different, so that under the action of the upper motor 26, the two upper clamping plates 25 can move towards the middle position (upright position) or away from the middle position at the same time, the moving distances are the same, under the action of the lower motor 23, the two lower clamping plates 22 can move towards the middle position (upright position) or away from the middle position at the same time, so that the upright is clamped or the clamping action on the upright is released, and for the movement of the upper clamping plates 25 or the lower clamping plates 22, the control can be realized only by controlling the forward and reverse rotation of the upper motor 26 or the lower motor 23, and the control process is simpler and more convenient and the control process is more stable.

When the upper motor 26 controls the upper clamping plate 25 to move (the lower motor 23 controls the lower clamping plate 22 to move), it is necessary to detect whether the upper clamping plate 25 or the lower clamping plate 22 clamps the column, and therefore, in this embodiment, sensors are respectively provided on the inner sides of the upper clamping plate 25 and the lower clamping plate 22 for detecting whether the upper clamping plate 25 and the lower clamping plate 22 fix the opening mechanism and the stacking mechanism. The sensor adopted at this time is a pressure sensor, and whether the upper clamping plate 25 or the lower clamping plate 22 is in contact with the upright column is detected through the pressure sensor parameter, so that whether the upper clamping plate 25 or the lower clamping plate 22 is moved to a position for clamping the upright column is judged, the position of the upper clamping plate 25 or the lower clamping plate 22 can be detected through other sensors, after the upright column is detected to be clamped by the upper clamping plate 25 or the lower clamping plate 22, the upright column is loosened by controlling the lower clamping plate 22 or the lower clamping plate 22 through the lower motor 23 or the upper motor 26, and therefore, the upright column is clamped by only the upper clamping plate 25 or the lower clamping plate 22 all the time, and the unloading process of the folded bag is realized.

In order to ensure that the folded bag can smoothly move downwards from the positions of the upper and lower fixing plates 24, 21, in this embodiment, the middle parts of the lower and upper fixing plates 21, 24 are provided with channels. The passage at this time, i.e., the drop hole, is a passage through which the bag moves downward after folding.

For the automatic bag stacking machine, as the continuous bag is divided into the folded bags, and the folded bags exist independently, a cutting mechanism 3 is arranged for forming a 'easy-to-tear line' with a plurality of holes on the continuous bag body, specifically, the cutting mechanism 3 comprises a knife rest bottom plate 31 fixed on the side surface of the frame 1, a through hole 32 for the bag body to pass through is arranged in the middle of the knife rest bottom plate 31, a bag pressing bottom plate 33 is arranged on the outer side of the knife rest bottom plate 31 through a bracket, a cutting bag pressing plate 34 and an electric knife rest 35 which move up and down are arranged on the outer side of the knife rest bottom plate 31, the cutting bag pressing plate 34 and the electric knife rest 35 are respectively positioned on the upper side position and the lower side position of the bag pressing bottom plate 33, the electric knife rest 35 is provided with a cutter 36, and the knife rest bottom plate 31 and the cutting bag pressing plate 34 are provided with a cutter groove 37, and when the cutter moves up and down, the knife rest bottom plate 31 and the cutter bag pressing plate 34 are provided with the cutter groove 37.

In the original technical scheme, the cutting mechanism 3 is provided with a cylinder in the side, and the cut-off knife can be moved about under the effect of cylinder, and overall structure is complicated relatively, and in this application, under the effect of electric knife rest 35, the cut-off knife reciprocates, at the in-process that the cut-off knife removed, the cut-off knife with be located the bag body contact between pressing bag bottom plate 33 and the cut-off pressing bag board 34 to form a plurality of continuous holes on the bag body, form "easy tear line" on the bag body, make things convenient for the in-process to divide the bag body to open.

The cutter groove 37 is formed in the cutter rest base plate 31 and the cutting bag pressing plate 34, so that the cutter 36 can move upwards, and the cutter groove 37 can accommodate the cutter 36 at the moment, so that the cutter 36 can move upwards smoothly to cut a bag body.

The bag body needs to pass through the through hole 32 of the knife rest bottom plate 31, and meanwhile, when the cutting knife is in contact with the bag body, the bag body needs to be pressed, so in the embodiment, the upper side surface of the bag pressing bottom plate 33 is equal to the center of the through hole 32 of the knife rest bottom plate 31 in height.

For the specific structure of the electric knife rest 35, in this embodiment, the electric knife rest 35 further includes an outer fixing plate 351 fixed on the outer side of the knife rest bottom plate 31, the outer side of the outer fixing plate 351 is connected with a blade fixing plate 352 through a guide rail sliding block structure, the outer side of the blade fixing plate 352 is provided with a blade base 353, the outer side of the blade base 353 is connected with a blade pressing plate 354 through a fastener, the cutter is fixed between the blade base 353 and the blade pressing plate 354, the lower side of the outer fixing plate 351 is provided with a blade motor 355, and a shaft of the blade motor 355 is connected with a sliding block of the guide rail sliding block structure for controlling the up-down movement of the blade fixing plate 352.

After the cutter 36 acts on the bag body, an "easy-to-tear line" is mainly formed, so in this embodiment, the cutter 36 includes a plurality of blades arranged in parallel, a gap is provided between adjacent blades, the cutting edge of the blade faces upward, and a tip is provided at the cutting edge of the upper end of the blade. The blade upper end blade department is equipped with the peak, so in the in-process that the blade upwards moved, can be light insert the bag body in, set up the blade upwards, at the in-process that the blade upwards moved, can form the hole on the bag body, thereby a plurality of blade holes of arranging form "easily tear the line".

When the blade contacts with the bag body, the bag body needs to be pressed tightly to avoid the movement of the bag body, and in the folding process of the bag body, the bag body needs to move between the cutting bag pressing plate 34 and the bag pressing bottom plate 33, so that the up-and-down movement of the cutting bag pressing plate 34 needs to be controlled, specifically in this embodiment, the cutting bag pressing plate 34 is arranged on the outer side of the knife rest bottom plate 31 through the pressing plate structure 340, the pressing plate structure 340 comprises a pressing plate fixing plate 341 fixed on the outer side of the knife rest bottom plate 31, the outer side of the pressing plate fixing plate 341 is connected with a module platform 342 through a guide rail sliding block structure, a pressing plate sliding block 343 is arranged on the outer side of the module platform 342, the cutting bag pressing plate 34 is fixed on the lower side of the pressing plate sliding block 343, a pressing plate motor 344 is arranged on the upper side of the pressing plate fixing plate 341, and a shaft of the pressing plate motor 344 is connected with a sliding block of the guide rail sliding block structure to control the up-and-down movement of the module platform 342.

In the process of installing the platen slide block, for more convenient adjustment of the position of the platen slide block, in this embodiment, the platen slide block is connected with the module platform 342 through a guide rail slide block structure, and the guide rail slide block structure between the platen slide block and the module platform 342 is provided with a locking structure 345 for fixing the platen slide block with the module platform 342. After the platen slide block is adjusted to a required position, the platen slide block is fixed with the module platform 342 through the locking structure 345, at this time, the locking structure 345 is a locking piece fixed with the slide block through a fastener, the locking piece is provided with a clamping part clamped with a guide rail clamping groove, the slide block is moved to a corresponding position, and then the locking piece and the slide block are respectively fixed on the upper side and the lower side of the slide block through the fastener, so that the slide block and the guide rail are relatively fixed, and the platen slide block and the module platform 342 are relatively fixed. The platen slider moves up and down by the platen motor 344, thereby moving the cut bagging plate 34 up and down.

Meanwhile, for the stretching structure, the original structure adopts a rodless cylinder to control the movement of the positioning plate, in the application, the motor 42 is adopted to drive, the positioning plate 41 is specifically fixed on the outer side of the bottom supporting plate through a guide rail sliding block structure, the motor 42 is used for controlling the up-and-down movement of the positioning plate 41, the motor 42 is used for controlling the movement of the positioning plate 41, and in the using process, the position of the positioning plate 41 can be accurately controlled, so that the stretching structure acts more accurately.

Other structures in this embodiment, such as a feeding mechanism, a cutting mechanism, a spreading mechanism, an inner stacking mechanism, an outer stacking mechanism, and a cutting mechanism, all adopt the technical solutions of the previous application, and therefore are not described in detail herein.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The high-stability automatic bag stacking machine is characterized by comprising a frame, wherein a feeding mechanism, a cutting mechanism, a spreading mechanism, an inner stacking mechanism, an outer stacking mechanism, a supporting mechanism and a cutting mechanism are arranged on the upper side of the frame, the supporting mechanism is used for fixing the spreading mechanism and the inner stacking mechanism at preset positions,

the supporting mechanism comprises an upper supporting structure and a lower supporting structure, the lower supporting structure comprises a lower fixing plate, two lower clamping plates are arranged on the upper side of the lower fixing plate through guide rail sliding blocks, the two lower clamping plates are connected with a lower screw rod through nuts respectively, a lower motor is arranged at one end of the lower screw rod, an upper fixing plate is arranged on the upper side of the lower fixing plate through a supporting column, two upper clamping plates are arranged on the upper side of the upper fixing plate through guide rail sliding blocks, the two upper clamping plates are connected with the upper screw rod through nuts respectively, an upper motor is arranged at one end of the upper screw rod, the two lower clamping plates move oppositely under the action of the lower motor, and the moving directions of the upper motors of the upper clamping plates are opposite.

2. The high stability automatic bag folding machine of claim 1, wherein the two lower clamping plates are opposite in the direction of the two nut threads connected to the lower screw, and the two upper clamping plates are opposite in the direction of the two nut threads connected to the upper screw.

3. The high-stability automatic bag stacking machine according to claim 1, wherein the inner sides of the upper clamping plate and the lower clamping plate are respectively provided with a sensor for detecting whether the upper clamping plate and the lower clamping plate fix the opening mechanism and the inner stacking mechanism.

4. The high stability automatic bag stacking machine of claim 1, wherein the lower and upper fixing plates have a channel in the middle.

5. The high-stability automatic bag stacking machine according to any one of claims 1 to 4, wherein the cutting mechanism comprises a knife rest base plate fixed on a side face of the frame, a through hole for a bag body to pass through is formed in the middle of the knife rest base plate, a bag pressing base plate is arranged on the outer side of the knife rest base plate through a support, a cutting bag pressing plate and an electric knife rest which move up and down are arranged on the outer side of the knife rest base plate, the cutting bag pressing plate and the electric knife rest are respectively located at the upper side position and the lower side position of the bag pressing base plate, a cutting knife is arranged on the electric knife rest, a cutting knife groove is formed in the knife rest base plate and the cutting bag pressing plate, and when the cutting knife moves up and down, the cutting knife is moved up and down in the cutting knife groove.

6. The high stability automatic bag stacking machine of claim 5, wherein the upper side of the bag pressing bottom plate is at the same height as the center of the through hole of the knife rest bottom plate.

7. The high-stability automatic bag stacking machine according to claim 6, wherein the electric knife rest further comprises an outer fixing plate fixed on the outer side of the knife rest bottom plate, the outer side of the outer fixing plate is connected with a blade fixing plate through a guide rail sliding block structure, a blade base is arranged on the outer side of the blade fixing plate, a blade pressing plate is connected on the outer side of the blade base through a fastener, the cutting knife is fixed between the blade base and the blade pressing plate, a blade motor is arranged on the lower side of the outer fixing plate, and a shaft of the blade motor is connected with a sliding block of the guide rail sliding block structure and used for controlling up-down movement of the blade fixing plate.

8. The high-stability automatic bag stacking machine according to claim 7, wherein the cutter comprises a plurality of blades arranged in parallel, gaps are arranged between adjacent blades, the cutting edges of the blades face upwards, and a sharp top is arranged at the cutting edge of the upper end of the blades.

9. The high-stability automatic bag stacking machine according to claim 6, wherein the cutting bag pressing plate is arranged on the outer side of the tool rest base plate through a pressing plate structure, the pressing plate structure comprises a pressing plate fixing plate fixed on the outer side of the tool rest base plate, the outer side of the pressing plate fixing plate is connected with a module platform through a guide rail sliding block structure, a pressing plate sliding block is arranged on the outer side of the module platform, the cutting bag pressing plate is fixed on the lower side of the pressing plate sliding block, a pressing plate motor is arranged on the upper side of the pressing plate fixing plate, and a crankshaft of the pressing plate motor is connected with a sliding block of the guide rail sliding block structure and used for controlling up-down movement of the module platform.

10. The high-stability automatic bag stacking machine according to claim 9, wherein the pressing plate sliding seat block and the module platform are connected through a guide rail sliding block structure, and the guide rail sliding block structure between the pressing plate sliding seat block and the module platform is provided with a locking structure for fixing the pressing plate sliding seat block and the module platform.

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