A baling press

By introducing a telescopic mechanism and a strapping mechanism into the packing machine, and utilizing the coordinated work of the electric telescopic rod and hydraulic components, the problem of having to complete the strapping on one side first during the strapping process is solved, achieving a fast and stable strapping effect and improving packaging efficiency.

CN224409750UActive Publication Date: 2026-06-26TANGSHAN GUANGJI PLASTIC PRODUCTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TANGSHAN GUANGJI PLASTIC PRODUCTS CO LTD
Filing Date
2025-07-05
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing compression machines require one side to be bundled before the compression plate can be retracted, resulting in low bundling efficiency.

Method used

It employs a telescopic mechanism and a strapping mechanism, with the electric telescopic rod and hydraulic components working together to increase the contact area of ​​the extrusion plate and melt-connect the strapping line during strapping, thus achieving rapid strapping.

Benefits of technology

It improves bundling efficiency, increases packaging speed, and ensures the smoothness and efficiency of the bundling process.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224409750U_ABST
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Abstract

The utility model relates to ton bag production equipment technical field discloses a kind of pressing machine, including hollow table, the top of hollow table is fixedly connected with U-shaped pillar, the inner wall top of U-shaped pillar is slidably connected with extrusion plate, the top of extrusion plate is provided with telescopic mechanism, the telescopic mechanism is used to facilitate after binding to remove, the inner wall top of hollow table is evenly provided with binding mechanism before and after side, the binding mechanism is used to bind after extruding packaging bag, the right side of hollow table is provided with pay-off assembly, the inner wall right side of hollow table is provided with wire arrangement assembly, the top of U-shaped pillar is provided with hydraulic assembly. In the utility model, by starting electric telescopic rod one, make telescopic block slide in limit groove, connecting plate extends and increases contact area, convenient to discharge air, binding is completed, electric telescopic rod one contracts, telescopic block slides into limit groove, to better remove the packaging bag that is bound.
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Description

Technical Field

[0001] This utility model relates to the technical field of ton bag production equipment, and in particular to a bag pressing machine. Background Technology

[0002] In the production of ton bags and woven bags, a type of compression bag machine is a key piece of equipment in the finished product packaging process. It is mainly used to compress and package finished woven bags to achieve space-efficient storage and transportation. By stacking multiple woven bags into a packaging bag, the mechanical pressure plate or hydraulic system of the compression bag machine is used to squeeze the air inside the bag, and the sealing mechanism completes the binding, so that the loose materials are formed into compact packages. It is widely used in the finished product packaging process of fertilizer, chemical and grain industries, effectively improving warehousing and transportation efficiency and reducing logistics costs.

[0003] A search revealed Chinese patent publication number CN222792879U, which discloses a waste material compression machine. The machine includes a compression machine body with a flattening chamber at its lower interior. A feed inlet is located on one side of the upper part of the machine body. A discharge gate is located on one side of the flattening chamber, and a push plate opposite the discharge gate is located on the other side. The push plate is driven by a drive device to move towards or away from the discharge gate. A conveyor belt is installed on one side of the machine body, with its upper inclined end extending to the inside of the feed inlet and its lower inclined end near the ground. A guide plate can obliquely guide the compressed and fallen materials, allowing the material to fall directly onto the lower inclined section of the conveyor belt. On the inclined end of the conveyor belt, other waste items can be directly thrown onto the first guide plate and fall onto the conveyor belt. Since the feeding port and the first guide plate are at a low height and are on the same horizontal line, it is more convenient to put waste items in. It is suitable for both mechanical and manual methods, which improves the applicability of the device. However, in actual use, when compressing and packing multiple stacked woven bags, the area of ​​the compression plate is large. After pressing the packaging bag, it is necessary to complete the binding on one side first, and then retract the compression plate before binding on other directions. This results in the binding process not being completed quickly, thus leading to low packing efficiency. Utility Model Content

[0004] To overcome the above shortcomings, this utility model provides a packaging press machine, which aims to improve the problem in the prior art that after pressing the packaging bag, it is necessary to complete the binding on one side first and then retract the pressing plate before binding in other directions, resulting in the binding process not being completed quickly.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a packaging machine, comprising a hollow platform, a U-shaped support fixedly connected to the top of the hollow platform, a compression plate slidably connected to the top of the inner wall of the U-shaped support, a telescopic mechanism provided at the top of the compression plate for easy removal after bundling, bundling mechanisms provided on both the front and rear sides of the top of the inner wall of the hollow platform for bundling the compressed packaging bags, a thread feeding assembly provided on the right side of the hollow platform, a thread organizing assembly provided on the right side of the inner wall of the hollow platform, and a hydraulic assembly provided at the top of the U-shaped support.

[0006] The telescopic mechanism includes multiple electric telescopic rods, the bottoms of which are fixedly connected to the top of the extrusion plate. One end of each electric telescopic rod is fixedly connected to a telescopic block. A connecting plate is fixedly connected to the adjacent side of each of the two telescopic blocks on the left and right sides. Multiple limiting grooves are provided on the top of the extrusion plate, and grooves are provided on the front and rear sides of the extrusion plate.

[0007] The above technical solution involves placing the packaging bag on top of the hollow platform. By activating the hydraulic components, the extrusion plate can smoothly extrude the packaging bag. Before pressing down, the electric telescopic rod extends, causing the telescopic block to slide out of the limiting groove, which in turn causes the connecting plate to extend, thereby increasing the contact area of ​​the extrusion plate. This allows the air in the packaging bag to be expelled more effectively during the extrusion process. When the binding is complete, the electric telescopic rod retracts, causing the telescopic block to slide into the limiting groove, making it easier to bind the packaging bag more securely.

[0008] As a further description of the above technical solution:

[0009] The binding mechanism includes two T-shaped hollow blocks. The tops of the two T-shaped hollow blocks are fixedly connected to the front and rear sides of the top of the hollow platform, respectively. Electric telescopic rods are fixedly connected to the front and rear sides of the left side of the inner wall of the hollow platform. A U-shaped sliding column is fixedly connected to one end of the electric telescopic rod. The left side of the U-shaped sliding column passes through the outer wall of the T-shaped hollow block and is fixedly connected to an L-shaped hollow block. A trapezoidal hot melt block is slidably connected to the right side of the L-shaped hollow block. A guide component is provided on the right side of the T-shaped hollow block. A drive component is provided on the front side of the T-shaped hollow block. Long strip notches are opened on the front and rear sides of the top of the hollow platform.

[0010] Through the above technical solution: after the packaging bag is squeezed, the strapping wire conveyed by the wire management component wraps around the material through the drive component. Then, the electric telescopic rod is activated to retract, which in turn moves the U-shaped sliding column and the L-shaped hollow block. The trapezoidal hot melt block is activated and heated to a certain temperature. During the movement of the L-shaped hollow block, it will come into contact with the T-shaped hollow block. The inclined characteristic above the trapezoidal hot melt block causes the trapezoidal hot melt block to rise above the L-shaped hollow block, thereby melting and connecting the strapping wires together, thus completing the strapping of the packaging bag and improving the packaging speed.

[0011] As a further description of the above technical solution:

[0012] The hydraulic assembly includes a base plate, the bottom of which is fixedly connected to the top center of the U-shaped support column. Hydraulic rods are fixedly connected to the front and rear sides of the top of the base plate. One end of each hydraulic rod passes through the base plate and the U-shaped support column and is fixedly connected to the top of the extrusion plate. U-shaped limiting rods are fixedly connected to the left and right sides of the top of the extrusion plate. The outer wall of the U-shaped limiting rod passes through the top of the U-shaped support column and the base plate.

[0013] The above technical solution involves activating the hydraulic rod, which in turn drives the extrusion plate to squeeze the packaging bag. Under the constraint of the U-shaped limit rod, the extrusion plate falls more smoothly, while the base plate provides better installation space for the hydraulic rod.

[0014] As a further description of the above technical solution:

[0015] The feeding assembly includes a feeding device. The left side of the feeding device is fixedly connected to the right side of the hollow platform. Rotating columns are rotatably connected to both the front and rear sides of the feeding device. Multiple locking strips are fixedly connected to the outer wall of the rotating column. A feeding block is provided on the outer wall of the rotating column. The inner wall of the feeding block engages with the outer wall of the multiple locking strips.

[0016] The above technical solution involves placing the binding coil above the feeding block, then locking the feeding block above the rotating column, and using the locking strip to better lock the feeding block above the rotating column.

[0017] As a further description of the above technical solution:

[0018] The cable management assembly includes a fixing rod, the front and rear ends of which are fixedly connected to the right side of the inner wall of the hollow platform, and rotating columns are rotatably connected to the front and rear sides of the outer wall of the fixing rod.

[0019] The above technical solution provides installation space for the rotating column, and the rotating column facilitates the guidance and transmission of the binding wire.

[0020] As a further description of the above technical solution:

[0021] The guiding component includes two hollow guide strips. The left sides of the two hollow guide strips are respectively fixedly connected to the right sides of the corresponding T-shaped hollow blocks. U-shaped guide strips are fixedly connected to the bottom of the two telescopic blocks on the left and right sides.

[0022] The above technical solution allows for the convenient guidance of the cable bundling wires transported by the cable management assembly using hollow guide strips and U-shaped guide strips.

[0023] As a further description of the above technical solution:

[0024] The drive assembly includes two servo motors, the rear sides of which are fixedly connected to the front sides of the corresponding T-shaped hollow blocks. Feeding rollers are fixedly connected to the left and right sides of the inner wall of the T-shaped hollow blocks. The output end of the servo motor passes through the T-shaped hollow block and is fixedly connected to the front end of the left feeding roller. The rear sides of the two feeding rollers on the left and right sides pass through the corresponding T-shaped hollow blocks and are fixedly connected to gears. The outer walls of the two gears on the left and right sides are meshed with each other.

[0025] The above technical solution involves starting a servo motor, which in turn drives the feeding roller to rotate. Through gear meshing, the binding thread conveyed by the thread handling component is guided by hollow guide strips and U-shaped guide strips to wrap around the material.

[0026] As a further description of the above technical solution:

[0027] The inner wall of the limiting groove is slidably connected to the outer wall of the telescopic block, and the inner wall size of the groove is the same as the size of the connecting plate.

[0028] Through the above technical solution: the inner wall of the limiting groove is slidably connected to the outer wall of the telescopic block, making the telescopic block more stable during movement, and the inner wall size of the groove is the same as the size of the connecting plate, so that the connecting plate can be locked in the groove when it is retracted.

[0029] This utility model has the following beneficial effects:

[0030] 1. In this utility model, by placing the packaging bag on a hollow platform, activating the hydraulic assembly to move the extrusion plate downward to apply pressure to the material, activating the electric telescopic rod to make the telescopic block slide in the limiting groove, and extending the connecting plate to increase the contact area and facilitate the expulsion of air. After the binding is completed, the electric telescopic rod retracts and the telescopic block slides into the limiting groove, thereby making it easier to remove the packaging bag when binding it.

[0031] 2. In this utility model, by starting the servo motor, the feeding roller is driven to rotate. The gear transmission guides the binding line to wrap around the material. The electric telescopic rod retracts, pushing the U-shaped sliding column and the L-shaped hollow block to move. The trapezoidal hot melt block is heated. When the L-shaped hollow block contacts the T-shaped hollow block, the trapezoidal hot melt block rises, causing the binding line to melt and connect, thereby completing the packaging bag binding and improving the packaging speed. Attached Figure Description

[0032] Figure 1 This is a perspective view of a packing machine proposed in this utility model;

[0033] Figure 2 This is a front view of a packing machine proposed in this utility model;

[0034] Figure 3 This is a schematic diagram of the hydraulic components of a packing machine proposed in this utility model;

[0035] Figure 4 This is a schematic diagram of the wire feeding assembly of a pressing machine according to the present invention;

[0036] Figure 5 This is a cross-sectional view of the hollow platform of a pressing machine proposed in this utility model;

[0037] Figure 6 This is a schematic diagram of the binding mechanism of a bagging machine proposed in this utility model.

[0038] Legend:

[0039] 1. Hollow platform; 2. Telescopic mechanism; 201. Electric telescopic rod one; 202. Telescopic block; 203. Connecting plate; 204. Limiting groove; 205. Groove; 3. Binding mechanism; 301. T-shaped hollow block; 302. Electric telescopic rod two; 303. U-shaped sliding column; 304. L-shaped hollow block; 305. Trapezoidal hot melt block; 306. Guide assembly; 3061. Hollow guide strip; 3062. U-shaped guide strip; 307. Drive assembly; 3071, servo motor; 3072, feeding roller; 3073, gear; 308, long strip notch; 4, U-shaped support column; 5, extrusion plate; 6, wire feeding assembly; 601, feeding device; 602, rotating column; 603, clamping strip; 604, feeding block; 7, wire management assembly; 701, fixing rod; 702, rotating column; 8, hydraulic assembly; 801, base plate; 802, hydraulic rod; 803, U-shaped limit rod. Detailed Implementation

[0040] 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.

[0041] Reference Figure 1 , Figure 3 and Figure 4This utility model provides an embodiment of a bag-pressing machine, including a hollow platform 1. A U-shaped support column 4 is fixedly connected to the top of the hollow platform 1. A compression plate 5 is slidably connected to the top of the inner wall of the U-shaped support column 4. A telescopic mechanism 2 is provided on the top of the compression plate 5 to facilitate removal after bundling. Bundling mechanisms 3 are provided on both the front and rear sides of the top of the inner wall of the hollow platform 1 to bundle the compressed packaging bags. A thread feeding assembly 6 is provided on the right side of the hollow platform 1, and a thread organizing assembly 7 is provided on the right side of the inner wall of the hollow platform 1. A hydraulic assembly 8 is provided on the top of the U-shaped support column 4. The telescopic mechanism 2 includes multiple electrically operated telescopic components. The bottom of multiple electric telescopic rods 201 are fixedly connected to the top of the extrusion plate 5. One end of each electric telescopic rod 201 is fixedly connected to a telescopic block 202. A connecting plate 203 is fixedly connected to the adjacent side of each of the left and right telescopic blocks 202. When the electric telescopic rod 201 is activated, it extends, causing the telescopic blocks 202 to slide out within the limiting groove 204, thereby causing the connecting plate 203 to extend, thus increasing the contact area of ​​the extrusion plate 5. Multiple limiting grooves 204 are provided on the top of the extrusion plate 5, and grooves 205 are provided on the front and rear sides of the extrusion plate 5. The hydraulic assembly 8 includes a base plate 801. The bottom of the base plate 801 is fixedly connected to the top center of the U-shaped support column 4. Hydraulic rods 802 are fixedly connected to the front and rear sides of the top of the base plate 801. One end of each hydraulic rod 802 passes through the base plate 801 and the U-shaped support column 4 and is fixedly connected to the top of the extrusion plate 5. U-shaped limiting rods 803 are fixedly connected to the left and right sides of the top of the extrusion plate 5. When the hydraulic assembly 8 is activated, the upper hydraulic rods 802 drive the extrusion plate 5 down. Under the constraint of the U-shaped limiting rods 803, the extrusion plate 5 can smoothly extrude the packaging bag, ensuring that the extrusion plate 5 moves vertically and smoothly downwards, applying pressure to the material on the hollow platform 1. The U-shaped limiting rods 803... The outer wall of 03 penetrates the top of the U-shaped support column 4 and the base plate 801; the wire feeding assembly 6 includes a feeding device 601, the left side of which is fixedly connected to the right side of the hollow platform 1, and rotating columns 602 are rotatably connected to the front and rear sides of the feeding device 601. Multiple clamping strips 603 are fixedly connected to the outer wall of the rotating column 602, and a feeding block 604 is provided on the outer wall of the rotating column 602. The inner wall of the feeding block 604 is engaged with the outer wall of the multiple clamping strips 603. The binding wire is placed on the feeding block 604, and the feeding block 604 is engaged on the rotating column 602. Under the engagement of the clamping strips 603, the assembly is completed.

[0042] Specifically, the packaging bag is placed on top of the hollow platform 1. By activating the hydraulic assembly 8, the upper hydraulic rod 802 is activated, which in turn drives the extrusion plate 5 down. Under the restriction of the U-shaped limit rod 803, the extrusion plate 5 can smoothly extrude the packaging bag, ensuring that the extrusion plate 5 moves vertically and smoothly downwards, applying pressure to the material on the hollow platform 1. Before pressing down, the electric telescopic rod 201 is activated to extend, causing the telescopic block 202 to slide out of the limit groove 204, which in turn causes the connecting plate 203 to extend, thereby increasing the contact area of ​​the extrusion plate 5. This allows the air in the packaging bag to be expelled better during the extrusion process. When the binding is completed, the electric telescopic rod 201 is activated to retract, causing the telescopic block 202 to slide into the limit groove 204, making it easier to bind the packaging bag better. The binding line is placed on top of the material release block 604, and the material release block 604 is engaged on top of the rotating column 602. With the engagement of the locking strip 603, the assembly is completed.

[0043] Reference Figure 1 , Figure 2 and Figure 6 The binding mechanism 3 includes two T-shaped hollow blocks 301. The tops of the two T-shaped hollow blocks 301 are fixedly connected to the front and rear sides of the top of the hollow platform 1, respectively. Electric telescopic rods 302 are fixedly connected to the front and rear sides of the left side of the inner wall of the hollow platform 1. A U-shaped sliding column 303 is fixedly connected to one end of the electric telescopic rod 302. The left side of the U-shaped sliding column 303 penetrates the outer wall of the T-shaped hollow block 301 and is fixedly connected to an L-shaped hollow block 304. A trapezoidal hot melt block 305 is slidably connected to the right side of the L-shaped hollow block 304. A guide component 306 is provided on the right side of the T-shaped hollow block 301. A drive component 307 is provided on the front side of the T-shaped hollow block 301. Long strip notches 308 are provided on the front and rear sides of the top of the hollow platform 1. The guide component 306 includes two hollow guide strips 3061. The left sides of the two hollow guide strips 3061 are fixedly connected to the right sides of the corresponding T-shaped hollow blocks 301, and the bottoms of the two telescopic blocks 202 on the left and right sides are fixedly connected to the U-shaped guide strips 3062. The drive assembly 307 includes two servo motors 3071, the rear sides of the two servo motors 3071 are fixedly connected to the front sides of the corresponding T-shaped hollow blocks 301, the inner walls of the T-shaped hollow blocks 301 are fixedly connected to the left and right sides of the inner walls of the T-shaped hollow blocks 301, the output end of the servo motors 3071 passes through the T-shaped hollow blocks 301 and is fixedly connected to the front end of the left feeding roller 3072, the rear sides of the two feeding rollers 3072 on the left and right sides pass through the corresponding T-shaped hollow blocks 301 and are fixedly connected to the gears 3073, and the outer walls of the two gears 3073 on the left and right sides are meshed with each other.

[0044] Specifically, the servo motor 3071 is started by the drive component 307, which in turn drives the feeding roller 3072 to rotate. Through the meshing transmission of the gear 3073, the binding thread conveyed by the thread handling component 7 is guided by the hollow guide strip 3061 and the U-shaped guide strip 3062 to wrap around the material. Then, the electric telescopic rod 302 is activated to retract, which in turn drives the U-shaped sliding column 303 and the L-shaped hollow block 304 to move. The trapezoidal hot melt block 305 is activated to bring it to a certain temperature. At this time, during the movement of the L-shaped hollow block 304, it will come into contact with the T-shaped hollow block 301. The inclined characteristics of the trapezoidal hot melt block 305 cause it to rise above the L-shaped hollow block 304, thereby melting and connecting the binding thread together, thus completing the binding of the packaging bag and improving the packaging speed.

[0045] Reference Figure 1 , Figure 3 and Figure 5 The cable management assembly 7 includes a fixing rod 701, the front and rear ends of which are fixedly connected to the right side of the inner wall of the hollow platform 1. The front and rear sides of the outer wall of the fixing rod 701 are rotatably connected to rotating columns 702. The inner wall of the limiting groove 204 is slidably connected to the outer wall of the telescopic block 202. The inner wall size of the groove 205 is the same as the size of the connecting plate 203.

[0046] Specifically, the fixing rod 701 provides installation space for the rotating column 702, and the rotating column 702 can better guide the binding wire. The inner wall of the limiting groove 204 is slidably connected to the outer wall of the telescopic block 202, making the telescopic block 202 more stable during movement. The inner wall size of the groove 205 is the same as the size of the connecting plate 203, so that the connecting plate 203 can be engaged in the groove 205 when retracted.

[0047] Working principle: First, the packaging bag is placed on the hollow platform 1. After the hydraulic component 8 is activated, the upper hydraulic rod 802 moves accordingly, and the extrusion plate 5 descends. Under the constraint of the U-shaped limit rod 803, the extrusion plate 5 can smoothly extrude the packaging bag, ensuring its vertical and stable movement and applying appropriate pressure to the material on the hollow platform 1. Before pressing down, the extension of the electric telescopic rod 201 is activated, which drives the telescopic block 202 to slide in the limit groove 204, thereby causing the connecting plate 203 to extend, increasing the contact area of ​​the extrusion plate 5. In this way, the air in the packaging bag can be more effectively discharged during the extrusion process. After the binding is completed, the retraction of the electric telescopic rod 201 is activated, which causes the telescopic block 202 to slide into the limit groove 204, thereby facilitating better binding of the packaging bag.

[0048] Furthermore, through the strapping mechanism 3, after the packaging bag is fully compressed, the drive component 307 immediately starts the servo motor 3071, which in turn causes the feeding roller 3072 to rotate. Through the meshing transmission of the gear 3073, the strapping thread conveyed by the thread handling component 7 is guided by the hollow guide strip 3061 and the U-shaped guide strip 3062, and surrounds and wraps the material. Subsequently, the electric telescopic rod 302 begins to retract, driving the U-shaped sliding column 303 and the L-shaped hollow block 304 to move. At the same time, the trapezoidal hot melt block 305 is activated and heated to a certain temperature. During the movement of the L-shaped hollow block 304, it comes into contact with the T-shaped hollow block 301. Due to the inclined characteristics of the trapezoidal hot melt block 305, under the upward action above the L-shaped hollow block 304, the strapping thread is melted and connected, thereby realizing the strapping of the packaging bag. This process significantly improves the packaging speed.

[0049] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A pressing machine, comprising a hollow table (1), characterized in that: The top of the hollow platform (1) is fixedly connected to a U-shaped support column (4), and the top of the inner wall of the U-shaped support column (4) is slidably connected to a compression plate (5). The top of the compression plate (5) is provided with a telescopic mechanism (2), which is used to facilitate removal after bundling. The top of the inner wall of the hollow platform (1) is provided with a bundling mechanism (3) on both the front and back sides. The bundling mechanism (3) is used to bundle the extruded packaging bag. The right side of the hollow platform (1) is provided with a wire feeding assembly (6), the right side of the inner wall of the hollow platform (1) is provided with a wire organizing assembly (7), and the top of the U-shaped support column (4) is provided with a hydraulic assembly (8). The telescopic mechanism (2) includes multiple electric telescopic rods (201), the bottoms of which are fixedly connected to the top of the extrusion plate (5). One end of each electric telescopic rod (201) is fixedly connected to a telescopic block (202). A connecting plate (203) is fixedly connected to the adjacent side of each of the two telescopic blocks (202) on the left and right sides. Multiple limiting grooves (204) are provided on the top of the extrusion plate (5), and grooves (205) are provided on the front and rear sides of the extrusion plate (5).

2. The packing machine according to claim 1, characterized in that: The binding mechanism (3) includes two T-shaped hollow blocks (301). The tops of the two T-shaped hollow blocks (301) are fixedly connected to the front and rear sides of the top of the hollow platform (1). The front and rear sides of the left side of the inner wall of the hollow platform (1) are fixedly connected to electric telescopic rods (302). One end of the electric telescopic rods (302) is fixedly connected to a U-shaped sliding column (303). The left side of the U-shaped sliding column (303) passes through the outer wall of the T-shaped hollow block (301) and is fixedly connected to an L-shaped hollow block (304). The right side of the L-shaped hollow block (304) is slidably connected to a trapezoidal hot melt block (305). A guide component (306) is provided on the right side of the T-shaped hollow block (301). A drive component (307) is provided on the front side of the T-shaped hollow block (301). Long strip notches (308) are opened on the front and rear sides of the top of the hollow platform (1).

3. A pressing machine according to claim 1, characterized in that: The hydraulic assembly (8) includes a base plate (801), the bottom of which is fixedly connected to the top center of the U-shaped support column (4). Hydraulic rods (802) are fixedly connected to the front and rear sides of the top of the base plate (801). One end of each of the two hydraulic rods (802) passes through the base plate (801) and the U-shaped support column (4) and is fixedly connected to the top of the extrusion plate (5). U-shaped limiting rods (803) are fixedly connected to the left and right sides of the top of the extrusion plate (5). The outer wall of the U-shaped limiting rod (803) passes through the top of the U-shaped support column (4) and the base plate (801).

4. A packing machine according to claim 1, characterized in that: The wire feeding assembly (6) includes a feeding device (601). The left side of the feeding device (601) is fixedly connected to the right side of the hollow platform (1). Rotating columns (602) are rotatably connected to both the front and rear sides of the feeding device (601). Multiple locking strips (603) are fixedly connected to the outer wall of the rotating column (602). A feeding block (604) is provided on the outer wall of the rotating column (602). The inner wall of the feeding block (604) engages with the outer wall of the multiple locking strips (603).

5. A pressing machine according to claim 1, characterized in that: The cable management assembly (7) includes a fixing rod (701), the front and rear ends of which are fixedly connected to the right side of the inner wall of the hollow platform (1), and the front and rear sides of the outer wall of the fixing rod (701) are rotatably connected to a rotating column (702).

6. A packing machine according to claim 2, characterized in that: The guide component (306) includes two hollow guide strips (3061). The left sides of the two hollow guide strips (3061) are respectively fixedly connected to the right side of the corresponding T-shaped hollow block (301). The bottom of the two telescopic blocks (202) on the left and right sides are fixedly connected to U-shaped guide strips (3062).

7. A pressing machine according to claim 2, characterized in that: The drive assembly (307) includes two servo motors (3071). The rear sides of the two servo motors (3071) are respectively fixedly connected to the front side of the corresponding T-shaped hollow block (301). Feeding rollers (3072) are fixedly connected to the left and right sides of the inner wall of the T-shaped hollow block (301). The output end of the servo motor (3071) passes through the T-shaped hollow block (301) and is fixedly connected to the front end of the left feeding roller (3072). The rear sides of the two feeding rollers (3072) on the left and right sides pass through the corresponding T-shaped hollow block (301) and are fixedly connected to gears (3073). The outer walls of the two gears (3073) on the left and right sides are meshed with each other.

8. A pressing machine according to claim 1, characterized in that: The inner wall of the limiting groove (204) is slidably connected to the outer wall of the telescopic block (202), and the inner wall size of the groove (205) is the same as the size of the connecting plate (203).