Transverse bag conveying structure of full-automatic ton bag machine
By setting up off-center load adjustment mechanisms and cable chains to transmit power on both sides of the ton bag conveyor frame, the problem of ton bags moving off the straight path was solved, achieving stable lateral movement of ton bags and efficient production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUXI BANGYAO AUTOMATIC CONTROL TECH CO LTD
- Filing Date
- 2025-06-25
- Publication Date
- 2026-06-26
AI Technical Summary
The existing bag opening support component of the ton bag machine is set on one side, causing the ton bag to deviate from the straight path during movement, which affects the flatness of the bag picking and the production efficiency.
The fully automatic ton bag machine adopts a transverse bag feeding structure, including off-center load adjustment mechanisms on both sides of the conveyor frame. The roller position is precisely controlled by the set screws to provide stable lateral and top support for the ton bags, and the power is transmitted through the drag chain to ensure smooth movement of the swing assembly.
Ensure the straight movement of the ton bags and the levelness of the bag picking during the lateral movement process to avoid subsequent filling failures, improve production efficiency and extend the service life of the equipment.
Smart Images

Figure CN224409820U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the bag feeding structure of a fully automatic ton bag machine, specifically the transverse bag feeding structure of a fully automatic ton bag machine. Background Technology
[0002] During the operation of the fully automatic ton bag machine, after the two layers of film of the ton bag are successfully separated, the inner support component of the bag opening will undertake the important task of lifting the ton bag and carrying it towards the filling port.
[0003] However, most common bag opening support components are currently only installed on both sides or one side of the conveyor frame. Installing them on both sides will occupy a lot of space, causing inconvenience in terms of equipment debugging and handling of emergencies. The single-side installation method also has obvious drawbacks: when installed on one side, the uneven weight distribution will cause the ton bag to deviate from the straight path during movement, thus affecting the levelness of bag picking. If the ton bag opening support component cannot ensure levelness during bag picking, it will not only affect the subsequent picking action of the ton bag, but also have a chain reaction on the subsequent filling process, ultimately reducing production efficiency. Utility Model Content
[0004] In order to solve the problems in related technologies, this utility model provides a transverse bag conveying structure for a fully automatic ton bag machine. This device solves the problem that the existing bag opening inner support component is prone to affecting the bag picking action due to the unilateral setting, thus affecting production efficiency.
[0005] To solve the above problems, the following technical solutions are provided:
[0006] The transverse bag conveying structure of the fully automatic ton bag machine is characterized by including two off-center load adjustment mechanisms that slide on the conveyor frame, and the conveyor frame has U-shaped grooves on both sides of its vertical surface.
[0007] The off-center load adjustment mechanism includes a first fixed plate and a first roller rotatably connected. The first roller is rotatably disposed within the trough plate. A second roller is rotatably disposed within the first roller. The outer circumferential surface of the second roller extends beyond the first roller on the side closest to the conveyor frame. A second fixed plate is fixed to the side of the first roller away from the conveyor frame. The second fixed plate is connected to the first fixed plate by a first set screw. The first set screw is used to press the second roller against the side of the trough plate corresponding to the conveyor frame. A third fixed plate is fixed to the bottom of the first fixed plate. The third fixed plate is installed at the bottom of the second fixed plate by a second set screw. The second set screw is used to press the top of the outer circumferential surface of the first roller against the conveyor frame above the trough plate.
[0008] Through the above technical solution, by setting the first and second set screws, the position of the second roller can be precisely controlled by adjusting the first set screw, so that its side can firmly abut against the side of the trough plate, thus providing stable lateral support for the lateral movement of the ton bag; by adjusting the second set screw, the position of the first roller can be precisely controlled, so that its top can firmly abut against the top of the trough plate, thus providing stable top support for the lateral movement of the ton bag. This ensures the linear movement of the ton bag and the levelness of the bag picking during the lateral movement, thereby avoiding subsequent filling failures or repeated operations caused by unstable movement of the ton bag, and ultimately ensuring production efficiency.
[0009] Furthermore, a bag opening inner support assembly for opening and picking up ton bags is slidably connected to one side of the conveyor frame. The first fixing plate is fixedly connected to the bag opening inner support assembly. The bag opening inner support assembly includes a swing assembly, a swing arm, and two sets of inner support assemblies. The swing assembly includes a swing fixing frame and a first cylinder. Both first fixing plates are fixedly connected to the swing fixing frame. The first cylinder is fixedly mounted on the swing fixing frame. The middle part of the swing arm is hinged to the swing fixing frame. The first cylinder and one end of the swing arm are connected in a linked manner. A connecting beam is fixedly mounted on the other end of the swing arm. Both sets of inner support assemblies are arranged along the length direction of the connecting beam.
[0010] Furthermore, the two sets of internal support components have the same structure. Both sets of internal support components include a fixed rod and an internal support rod. The top of each fixed rod is located at the bottom of the connecting beam. An external support plate is fixedly installed at one of the lower parts of each fixed rod that is close to each other. A first position detection photoelectric sensor is installed on the side surfaces of the two external support plates that are far apart from each other. A first through hole is installed on the external support plate corresponding to each first position detection photoelectric sensor.
[0011] Two inner support rods are disposed at the bottom of the connecting beam between the two fixed rods. The connecting beam is provided with two second cylinders respectively for corresponding to the inner support rods. An inner support plate is fixedly disposed at the lower part of each inner support rod. Each inner support plate is provided with a second through hole corresponding to the position of the first through hole.
[0012] Furthermore, a third cylinder is fixedly installed on each of the two external support plates on their mutually distant side surfaces. A push plate is fixedly installed on the output shaft of each third cylinder. A first anti-slip texture is provided on the side wall of each push plate away from the corresponding third cylinder. A third through hole is provided on the external support plate corresponding to each push plate. A protrusion is provided on each of the two internal support plates on their mutually distant side surfaces. Each protrusion corresponds to the position of the corresponding push plate. A second anti-slip texture is provided on the side wall of each protrusion away from the corresponding internal support plate.
[0013] Furthermore, the conveyor frame includes a support base and a conveyor belt; the two groove plates are respectively fixedly installed on the two sides of the support base in the width direction, and the top of the two ends of the support base in the length direction are respectively fixedly installed with an active bracket and a driven bracket, an active wheel and a driven wheel are respectively rotatably installed on the active bracket and the driven bracket, the conveyor belt is wound between the active wheel and the driven wheel, and a drive motor connected to the active wheel is installed on the active bracket;
[0014] A pressure plate is provided on the conveyor belt, and a notch with the same width as the conveyor belt is provided on the pressure plate. A section of the conveyor belt is located in the notch, and a toothed plate for fixing the conveyor belt is provided on the top of the pressure plate.
[0015] Furthermore, the swing fixing frame includes a first mounting plate and a second mounting plate. One end of the first mounting plate extends between the conveyor belt and the support seat. Each first fixing plate is disposed on the first mounting plate. The second mounting plate is fixedly disposed on the side surface of the first mounting plate near the connecting beam. A plurality of hinges for rotating connection with the swing arm are fixedly disposed on the second mounting plate.
[0016] A first support plate is fixedly installed on the side of the second mounting plate away from the connecting beam. Two buffers are installed on the first support plate, and a second support plate is installed at the other end of the two buffers. The second support plate is fixed on the swing arm.
[0017] Furthermore, it also includes a cable chain, one end of which is fixedly mounted on the conveyor belt. A movable bracket is fixedly mounted on the first mounting plate, and the movable bracket is arranged longitudinally. The upper part of the movable bracket is fixedly connected to the other end of the cable chain.
[0018] Through the above technical solution, by setting up a cable chain, the cable chain can transmit the power of the conveyor belt to the oscillating component, ensuring that the oscillating component can move smoothly and reliably with the conveyor belt, thereby improving the operating efficiency and reliability of the entire system.
[0019] Furthermore, a second position detection photoelectric sensor is provided in the middle of each of the slot plates. The second position detection photoelectric sensor is a source position detection photoelectric sensor. A third position detection photoelectric sensor is provided at both ends of the length direction of the slot plate. Each third position detection photoelectric sensor is a limit position detection photoelectric sensor.
[0020] By using the above technical solution and setting the photoelectric sensor at the original position, it can be ensured that the inner support component of the bag opening is reset to the same designated position after each bag feeding is completed. This ensures that the bag is in the same state every time it is operated, which helps to ensure consistent sealing quality of the packaging bag.
[0021] By setting two limit position detection photoelectric sensors, the slot plate between the two limit position detection photoelectric sensors is the range of distance that the off-center load adjustment mechanism can move. This can prevent overshooting and damage to the equipment, thereby extending the service life of the equipment and ensuring safety.
[0022] Furthermore, limit blocks are provided on both sides of each groove plate along its length.
[0023] With the above technical solution, by setting the limit blocks, when the second position detection photoelectric sensor and the dot detection photoelectric sensor on the slot plate fail, the bag opening inner support assembly can still continue to move along the length direction of the slot plate. At this time, the limit blocks at both ends can prevent the offset adjustment mechanism from falling off the slot plate, thereby reducing maintenance costs.
[0024] The above solution has the following advantages:
[0025] 1. By setting the first and second set screws, the position of the second roller can be precisely controlled by adjusting the first set screw, so that its side can firmly abut against the side of the trough plate, thus providing stable lateral support for the lateral movement of the ton bag; by adjusting the second set screw, the position of the first roller can be precisely controlled, so that its top can firmly abut against the top of the trough plate, thus providing stable top support for the lateral movement of the ton bag. This ensures the linear movement of the ton bag and the levelness of the bag picking during the lateral movement, thereby avoiding subsequent filling failures or repeated operations caused by unstable movement of the ton bag, and ultimately ensuring production efficiency.
[0026] 2. By using a cable chain, the power of the conveyor belt can be transmitted to the oscillating component, ensuring that the oscillating component can move smoothly and reliably with the conveyor belt, thereby improving the operating efficiency and reliability of the entire system. Attached Figure Description
[0027] To make the content of this utility model easier to understand, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings, wherein:
[0028] Figure 1 A schematic diagram of the transverse bag delivery structure of a fully automatic ton bag machine from one perspective;
[0029] Figure 2 This is a schematic diagram of the transverse bag delivery structure of a fully automatic ton bag machine from another perspective.
[0030] Figure 3 for Figure 2 A magnified view of part number A in the middle;
[0031] Figure 4 An exploded view of an off-center load adjustment mechanism in the transverse bag delivery structure of a fully automatic ton bag machine;
[0032] Figure 5 A schematic diagram of the transverse bag delivery structure of a fully automatic ton bag machine from three perspectives;
[0033] Figure 6 for Figure 5 A magnified view of part number B in the middle;
[0034] Figure 7 for Figure 1 A magnified view of part number C in the middle;
[0035] Explanation of reference numerals in the attached drawings: 1. Slot plate; 2. First fixing plate; 3. First roller; 4. Second roller; 5. Second fixing plate; 6. Third fixing plate; 7. Swing fixing frame; 701. First mounting plate; 702. Second mounting plate; 8. First cylinder; 9. Swing arm; 10. Connecting beam; 11. Fixing rod; 12. Inner support rod; 13. Outer support plate; 14. First position detection photoelectric sensor; 15. First through hole; 16. Second cylinder; 17. 18. Inner support plate; 19. Second through hole; 20. Third cylinder; 21. Push plate; 22. Protrusion; 23. Support seat; 24. Conveyor belt; 25. Drive wheel; 26. Drive motor; 27. Pressure plate; 28. Toothed plate; 29. First support plate; 30. Buffer; 31. Second support plate; 32. Cable chain; 33. Moving bracket; 34. Second position detection photoelectric sensor; 35. Third position detection photoelectric sensor; 36. Limit block. Detailed Implementation
[0036] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0037] In a specific embodiment, such as Figure 1-7 As shown, the fully automatic ton bag machine has a transverse bag conveying structure with two off-center load adjustment mechanisms that slide on the conveyor frame; the conveyor frame has U-shaped groove plates 1 on both sides of the vertical surface parallel to the bag opening inner support assembly.
[0038] The off-center load adjustment mechanism includes a first fixed plate 2 and a first roller 3. In this specific embodiment, the off-center load adjustment mechanism is provided with two first rollers 3. The first rollers 3 are rolled in the corresponding slot plate 1. A second roller 4 rotates inside the first roller 3, and the outer peripheral surface of the second roller 4 extends out of the first roller 3 near the side of the conveyor frame. A second fixed plate 5 is fixed to the side of the first roller 3 away from the conveyor frame. The second fixed plate 5 is connected to the first fixed plate 2 by a plurality of first set screws. The first set screws are used to press the second roller 4 against the side of the conveyor frame corresponding to the slot plate 1. In this specific embodiment, a first set screw is provided at each of the four corners of each second fixed plate 5. A third fixed plate 6 is fixed to the bottom of the first fixed plate 2, and the third fixed plate 6 is fixed by a plurality of second set screws. Installed at the bottom of the second fixing plate 5, in this specific embodiment, the third fixing plate 6 is provided with two second set screws. The second set screws are used to press the top of the outer peripheral surface of the first roller 3 against the corresponding conveyor frame above the trough plate 1. By adjusting the first set screws, the position of the second roller 4 can be precisely controlled so that its side can firmly press against the side of the trough plate 1, thereby providing stable lateral support for the lateral movement of the ton bag. By adjusting the second set screws, the position of the first roller 3 can be precisely controlled so that its top can firmly press against the top of the trough plate 1, thereby providing stable top support for the lateral movement of the ton bag. This ensures the linear movement of the ton bag and the flatness of the bag picking during the lateral movement, thereby avoiding subsequent filling failures or repeated operations caused by the unstable movement of the ton bag, and ultimately ensuring production efficiency.
[0039] like Figure 1-2 As shown, a bag opening inner support assembly for opening and picking up ton bags is slidably connected to one side of the conveyor frame. The first fixed plate 2 is fixedly connected to the bag opening inner support assembly. The bag opening inner support assembly includes a swing assembly, a swing arm 9, and two sets of inner support assemblies. The swing assembly includes a swing fixing frame 7 and a first cylinder 8. Both first fixed plates 2 are fixedly connected to the swing fixing frame 7. The first cylinder 8 is fixedly mounted on the swing fixing frame 7. The middle part of the swing arm 9 is hinged to the swing fixing frame 7. The first cylinder 8 and one end of the swing arm 9 are connected in a linked manner. The other end of the swing arm 9 is fixedly mounted with a connecting beam 10. Both sets of inner support assemblies are arranged along the length direction of the connecting beam 10.
[0040] like Figure 2 As shown, the two sets of internal support components have the same structure. Both sets of internal support components include a fixed rod 11 and an internal support rod 12. The top of each fixed rod 11 is set at the bottom of the connecting beam 10. An outer support plate 13 is fixedly set at one end of each fixed rod 11 that is close to each other. A first position detection photoelectric sensor 14 is set on the side surfaces of the two outer support plates 13 that are far apart from each other. A first through hole 15 is set on the outer support plate 13 corresponding to each first position detection photoelectric sensor 14.
[0041] Two inner support rods 12 are set at the bottom of the connecting beam 10 between the two fixed rods 11. The connecting beam 10 is provided with two second cylinders 16 respectively for the inner support rods 12. An inner support plate 17 is fixedly provided at the bottom of each inner support rod 12. Each inner support plate 17 is provided with a second through hole 18 corresponding to the position of the first through hole 15.
[0042] like Figure 1 and Figure 7 As shown, a third cylinder 19 is fixedly installed on the mutually distant side surfaces of the two outer support plates 13. A push plate 20 is fixedly installed on the output shaft of each third cylinder 19. A first anti-slip texture is provided on the side wall of each push plate 20 away from the corresponding third cylinder 19. A third through hole is provided on the outer support plate 13 corresponding to each push plate 20. A protrusion 21 is provided on the mutually distant side surfaces of the two inner support plates 17. Each protrusion 21 corresponds to the position of the corresponding push plate 20. A second anti-slip texture is provided on the side wall of each protrusion 21 away from the corresponding inner support plate 17.
[0043] The conveyor frame includes a support base 22 and a conveyor belt 23; two trough plates 1 are respectively fixedly installed on the two sides of the support base 22 in the width direction, and an active bracket and a driven bracket are respectively fixedly installed at the top of both ends in the length direction of the support base 22. An active wheel 24 and a driven wheel 25 are respectively rotatably installed on the active bracket and the driven bracket. The conveyor belt 23 is wound between the active wheel 24 and the driven wheel 25. A drive motor 26 connected to the active wheel 24 is installed on the active bracket.
[0044] A pressure plate 27 is provided on the conveyor belt 23. The pressure plate 27 has a notch with the same width as the conveyor belt 23. A section of the conveyor belt 23 is located in the notch. A toothed plate 28 for fixing the conveyor belt 23 is provided on the top of the pressure plate 27.
[0045] The swing fixing frame 7 includes a first mounting plate 701 and a second mounting plate 702. One end of the first mounting plate 701 extends between the conveyor belt 23 and the support seat 22. Each first fixing plate 2 is disposed on the first mounting plate 701. The second mounting plate 702 is fixedly disposed on the side of the first mounting plate 701 near the connecting beam 10. A plurality of hinges for rotating connection with the swing arm 9 are fixedly disposed on the second mounting plate 702.
[0046] A first support plate 29 is fixedly installed on the side of the second mounting plate 702 away from the connecting beam 10. Two buffers 30 are installed on the first support plate 29, and a second support plate 31 is installed at the other end of the two buffers 30. The second support plate 31 is fixed on the swing arm 9.
[0047] The transverse bag conveying structure of the fully automatic ton bag machine also includes a drag chain 32. One end of the drag chain 32 is fixedly mounted on the conveyor belt 23. A movable bracket 33 is fixedly mounted on the first mounting plate 701, and the movable bracket 33 is arranged longitudinally. The upper part of the movable bracket 33 is fixedly connected to the other end of the drag chain 32. The drag chain 32 can transmit the power of the conveyor belt 23 to the swing assembly, ensuring that the swing assembly can move smoothly and reliably with the conveyor belt 23, thereby improving the operating efficiency and reliability of the entire system.
[0048] Each slot plate 1 is equipped with a second position detection photoelectric sensor 34 in the middle. The second position detection photoelectric sensor 34 is the origin position detection photoelectric sensor. The origin position detection photoelectric sensor can ensure that after each bag feeding is completed, the bag opening support component is reset to the same designated position, which can ensure that it is in the same state every time it is operated, and helps to ensure that the sealing quality of the packaging bag is consistent.
[0049] The two ends of the slot plate 1 along the length direction are respectively provided with third position detection photoelectric ...
[0050] Limiting blocks 36 are provided on both sides of the longitudinal direction of each slot plate 1. Each limiting block 36 is fixed to the slot plate 1 by bolts. When the second position detection photoelectric sensor 34 and the dot detection photoelectric sensor on the slot plate 1 fail, the bag opening inner support assembly can still continue to move along the longitudinal direction of the slot plate 1. At this time, the limiting blocks 36 at both ends can prevent the offset adjustment mechanism from falling off the slot plate 1, thereby reducing maintenance costs.
[0051] Operating procedure: Adjust the first set screw to firmly press the side of the second roller against the side of the trough plate, and adjust the second set screw to firmly press the top of the first roller against the top of the trough plate. Start the drive motor, and the conveyor belt will move the bag opening support assembly, causing the two sets of support assemblies to move towards the bag opening of the ton bag, until the outer support plate and inner support plate of each set of two support assemblies have moved to the film at one end of the width direction of the opened ton bag opening. Control the two second cylinders to adjust the position of the inner support rod, thereby adjusting the position of the inner support plate, and use the third cylinder to firmly press the ton bag against the inner support plate. Start the first cylinder to drive the two sets of support assemblies to rotate, thereby adjusting the direction of the ton bag opening, and use the bag opening support assembly to drive the ton bag to move laterally along the conveyor belt.
[0052] In the description of this utility model, it should be understood that the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. In the description of this utility model, unless otherwise specified and limited, it should be noted that the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to mechanical or electrical connections, or internal connections between two components, and can be direct connections or indirect connections through an intermediate medium. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.
[0053] Obviously, the above embodiments are merely examples for clear illustration and are not intended to limit the implementation. For those skilled in the art, other variations or modifications can be made based on the above description. It is neither necessary nor possible to exhaustively list all implementation methods here, and any obvious variations or modifications derived therefrom are still within the protection scope of this utility model.
Claims
1. The transverse bag conveying structure of a fully automatic ton bag machine, characterized in that, It includes two off-center load adjustment mechanisms that slide on the conveyor frame, and the two sides of the conveyor frame have U-shaped grooves. The off-center load adjustment mechanism includes a first fixed plate and a first roller rotatably connected. The first roller is rotatably disposed within the trough plate. A second roller is rotatably disposed within the first roller. The outer circumferential surface of the second roller extends beyond the first roller on the side closest to the conveyor frame. A second fixed plate is fixed to the side of the first roller away from the conveyor frame. The second fixed plate is connected to the first fixed plate by a first set screw. The first set screw is used to press the second roller against the side of the trough plate corresponding to the conveyor frame. A third fixed plate is fixed to the bottom of the first fixed plate. The third fixed plate is installed at the bottom of the second fixed plate by a second set screw. The second set screw is used to press the top of the outer circumferential surface of the first roller against the conveyor frame above the trough plate.
2. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 1, characterized in that, A bag opening inner support assembly for opening and picking up ton bags is slidably connected to one side of the conveyor frame. The first fixing plate is fixedly connected to the bag opening inner support assembly. The bag opening inner support assembly includes a swing assembly, a swing arm and two sets of inner support assemblies. The swing assembly includes a swing fixing frame and a first cylinder. Both first fixing plates are fixedly connected to the swing fixing frame. The first cylinder is fixedly mounted on the swing fixing frame. The middle part of the swing arm is hinged to the swing fixing frame. The first cylinder and one end of the swing arm are connected in a linked manner. A connecting beam is fixedly mounted on the other end of the swing arm. Both sets of inner support assemblies are arranged along the length direction of the connecting beam.
3. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 2, characterized in that, The two sets of internal support components have the same structure. Both sets of internal support components include a fixed rod and an internal support rod. The top of each fixed rod is located at the bottom of the connecting beam. An external support plate is fixedly installed at one end of each fixed rod that is close to each other. A first position detection photoelectric sensor is installed on the side surfaces of the two external support plates that are far apart from each other. A first through hole is installed on the external support plate corresponding to each first position detection photoelectric sensor. Two inner support rods are disposed at the bottom of the connecting beam between the two fixed rods. The connecting beam is provided with two second cylinders respectively for corresponding to the inner support rods. An inner support plate is fixedly disposed at the lower part of each inner support rod. Each inner support plate is provided with a second through hole corresponding to the position of the first through hole.
4. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 3, characterized in that, A third cylinder is fixedly installed on each of the two outer support plates on their mutually distant side surfaces. A push plate is fixedly installed on the output shaft of each third cylinder. A first anti-slip texture is provided on the side wall of each push plate away from the corresponding third cylinder. A third through hole is provided on the outer support plate corresponding to each push plate. A protrusion is provided on each of the two inner support plates on their mutually distant side surfaces. Each protrusion corresponds to the position of the corresponding push plate. A second anti-slip texture is provided on the side wall of each protrusion away from the corresponding inner support plate.
5. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 3, characterized in that, The conveyor frame includes a support base and a conveyor belt; two groove plates are respectively fixedly installed on the two sides of the support base in the width direction, and an active bracket and a driven bracket are respectively fixedly installed at the top of both ends of the support base in the length direction. An active wheel and a driven wheel are respectively rotatably installed on the active bracket and the driven bracket. The conveyor belt is wound between the active wheel and the driven wheel, and a drive motor connected to the active wheel is installed on the active bracket. A pressure plate is provided on the conveyor belt, and a notch with the same width as the conveyor belt is provided on the pressure plate. A section of the conveyor belt is located in the notch, and a toothed plate for fixing the conveyor belt is provided on the top of the pressure plate.
6. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 5, characterized in that, The swing fixing frame includes a first mounting plate and a second mounting plate. One end of the first mounting plate extends between the conveyor belt and the support base. Each first fixing plate is disposed on the first mounting plate. The second mounting plate is fixedly disposed on the side surface of the first mounting plate near the connecting beam. A plurality of hinges for rotating connection with the swing arm are fixedly disposed on the second mounting plate. A first support plate is fixedly installed on the side of the second mounting plate away from the connecting beam. Two buffers are installed on the first support plate, and a second support plate is installed at the other end of the two buffers. The second support plate is fixed on the swing arm.
7. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 6, characterized in that, It also includes a cable chain, one end of which is fixedly mounted on the conveyor belt. A movable bracket is fixedly mounted on the first mounting plate, and the movable bracket is arranged longitudinally. The upper part of the movable bracket is fixedly connected to the other end of the cable chain.
8. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 3, characterized in that, A second position detection photoelectric sensor is provided in the middle of each of the slot plates. The second position detection photoelectric sensor is the origin position detection photoelectric sensor. A third position detection photoelectric sensor is provided at both ends of the length direction of the slot plate. Each third position detection photoelectric sensor is the limit position detection photoelectric sensor.
9. The transverse bag conveying structure of the fully automatic ton bag machine as described in claim 8, characterized in that, Limiting blocks are provided on both sides of each groove plate along its length.