A tipping paper overwrapping carton apparatus

By designing a paper-packing and cardboard-wrapping equipment, and utilizing pneumatic slip rings and clamping devices to achieve automated paperboard packaging, the problems of high labor intensity and inconsistent tightness caused by manual operation are solved, thereby improving the efficiency and quality of paperboard packaging.

CN117302633BActive Publication Date: 2026-06-05GUANGXI ZHENLONG IND

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
GUANGXI ZHENLONG IND
Filing Date
2023-10-12
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In the existing technology, the outer white cardboard wrapping of the splicing paper requires manual operation, which results in high labor intensity, time and effort, and inconsistent tightness, affecting product quality.

Method used

Design a paper-wrapping device that uses components such as pneumatic slip rings, clamping devices, and drive motors to achieve automated paper packaging and ensure consistent tightness.

Benefits of technology

It improves the efficiency and quality of cardboard packaging, reduces manual labor intensity, ensures consistent tightness of each roll of cardboard, and enhances product stability.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN117302633B_ABST
    Figure CN117302633B_ABST
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Abstract

The application discloses a tipping paper outer wrapping cardboard equipment and belongs to the technical field of cardboard packaging. The cardboard equipment solves the problems of low efficiency and poor product quality of the existing manual outer wrapping cardboard. The cardboard equipment comprises a rack, winding air expansion shaft supports and unwinding air expansion shaft supports are arranged at the two sides of the upper end of the rack, a winding air expansion shaft for mounting a winding disc is rotatably arranged on the winding air expansion shaft support, a pneumatic slip ring is sleeved on the winding air expansion shaft, the pneumatic slip ring is mounted on one end of the winding air expansion shaft support, an unwinding air expansion shaft for mounting an unwinding disc is rotatably arranged on the unwinding air expansion shaft support, a driving device for driving the winding air expansion shaft to rotate is arranged below the rack, and a winding limiting baffle is arranged on the winding air expansion shaft. The tipping paper outer wrapping cardboard equipment improves the packaging quality of the cardboard and the working efficiency, and has the characteristics of convenient use and high practicability.
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Description

Technical Field

[0001] This invention relates to the field of cardboard packaging technology, and more particularly to a cardboard packaging device for tipping paper. Background Technology

[0002] Tipping paper is used to wrap around the cigarette filter tip and attach the filter rod to the end of the cigarette pack. With market demand, tipping paper production has added a product with sweetener. In the printing process, the last two colors are sweetener. To ensure the stability of the sweetener during storage and transportation and when it is finally put into use, the tipping paper needs to be wrapped with a layer of white cardboard after production.

[0003] Since the white cardstock and the splicing paper cannot be stuck together, manual wrapping of the cardstock is required. The following two problems exist in the operation: ① The annual output is more than 40,000 rolls, weighing about 300 tons. The labor intensity is high and it is time-consuming and laborious. ② The tightness of the cardstock wrapping for each roll is inconsistent, and the cardstock often comes loose and needs to be reworked. Summary of the Invention

[0004] The technical problem to be solved by the present invention is to address the above-mentioned shortcomings of the prior art by providing a paper-wrapping device for paperboard, which improves the packaging quality of paperboard and increases work efficiency, and is characterized by ease of use and strong practicality.

[0005] The technical solution adopted in this invention is as follows: a paper-wrapping and cardboard-packing device, comprising a frame, with a winding air shaft support and an unwinding air shaft support respectively provided on both sides of the upper end of the frame. A winding air shaft for mounting a winding reel is rotatably mounted on the winding air shaft support. A pneumatic slip ring is sleeved on the winding air shaft and installed on one end of the winding air shaft support. An unwinding air shaft for mounting an unwinding reel is rotatably mounted on the unwinding air shaft support. A driving device for driving the winding air shaft to rotate is provided below the frame. A winding limit baffle is provided on the winding air shaft. A pressing device for pressing the cardboard to follow the rotation of the winding reel is provided on the winding limit baffle. An electrical cabinet is provided in the middle of the frame. A pressure roller device for pressing the cardboard is provided on the door of the electrical cabinet.

[0006] As a further modification, the drive device includes a drive motor and a timing belt. The drive motor is mounted below the frame and is connected to the take-up air shaft via the timing belt.

[0007] Furthermore, the pressing device includes a first pressing block, a second pressing block, a first lateral telescopic cylinder, a second lateral telescopic cylinder, a first pressing cylinder, and a second pressing cylinder. The first pressing cylinder and the second pressing cylinder are respectively installed on the winding limiting baffle. The first lateral telescopic cylinder and the second lateral telescopic cylinder are respectively installed on the output ends of the first pressing cylinder and the second pressing cylinder. The first pressing block and the second pressing block are respectively installed on the output ends of the first lateral telescopic cylinder and the second lateral telescopic cylinder. The first lateral telescopic cylinder, the second lateral telescopic cylinder, the first pressing cylinder, and the second pressing cylinder are all connected to an external air pump.

[0008] Furthermore, the distance between the first pressing block and the second pressing block is 4 to 10 cm.

[0009] Furthermore, the pressure roller device includes a paper feeding roller, a pressure roller wheel, and a pressing cylinder. The paper feeding roller is rotatably mounted on the cabinet door, and the pressure roller wheel is rotatably mounted on the cabinet door above the paper feeding roller via a connecting rod. The pressing cylinder is mounted on the cabinet door, and the output end of the pressing cylinder is connected to the middle position of the connecting rod.

[0010] Furthermore, a guide roller is provided on one side of the pressing device, and the card paper passes through the pressure roller device and the guide roller in sequence from the unwinding reel and then winds around the rewinding reel.

[0011] Furthermore, the electrical cabinet is equipped with an unwinding pressure regulating valve, a pressure roller pressure regulating valve, and a rewinding pressure regulating valve. The unwinding pressure regulating valve, the pressure roller pressure regulating valve, and the rewinding pressure regulating valve are connected to the unwinding air shaft, the pressing cylinder, and the rewinding air shaft respectively through air pipes. The unwinding pressure regulating valve, the pressure roller pressure regulating valve, and the rewinding pressure regulating valve are all connected to an external air pump.

[0012] Furthermore, the unwinding pressure regulating valve, the pressure roller pressure regulating valve, and the winding pressure regulating valve are all connected to a pressure gauge.

[0013] Furthermore, a zero-position sensor is provided on the rear side of the frame via a sensor bracket, and the zero-position sensor is aligned with the take-up air shaft.

[0014] Furthermore, a tension adjuster is provided on one end of the unwinding air shaft, which is away from the unwinding reel.

[0015] Beneficial effects

[0016] Compared with the prior art, the present invention has the following advantages:

[0017] This invention discloses a tipping paper packaging device. The unwinding reel contains packaging paper, and the rewinding reel contains tipping paper. Initially, the unwinding and rewinding reels are mounted onto the unwinding and rewinding air shafts, respectively. An air pump supplies air to the unwinding and rewinding air shafts, ensuring their secure mounting. The packaging paper then passes sequentially from the unwinding reel through a pressure roller device and a guide roller, and is then pressed against the tipping paper on the rewinding reel. Next, the first pressing cylinder and the first lateral telescopic cylinder are controlled to press the packaging paper firmly against the first pressure block. Finally, the drive motor is started, which drives the rewinding air... The expansion shaft rotates once to complete the packaging of the cardboard. Then, the pneumatic slip ring transmits a signal to the PLC controller. The PLC controller controls the movement of the second pressing cylinder and the second lateral telescopic cylinder simultaneously as the first pressing cylinder and the first lateral telescopic cylinder lift. This causes the second pressure block to press the packaged cardboard tightly, making it easy for the operator to cut the cardboard. After cutting, the operator can use tape to secure it. The entire cardboard packaging process is simple and efficient, and it can effectively ensure that the tightness of the outer cardboard of each reel of paper is consistent, effectively improving product quality. It is convenient to use and highly practical. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the main structure of the present invention;

[0019] Figure 2 This is an enlarged schematic diagram of the left-side view structure in this invention;

[0020] Figure 3 This is an enlarged schematic diagram of the right-side view structure in this invention.

[0021] The components are as follows: 1-Frame, 2-Drive motor, 3-Pressure roller device, 4-Pressure device, 5-Rewinding reel, 6-Rewinding air shaft, 7-Paper jam, 8-Guide roller, 9-Cabinet door, 10-Rewinding pressure regulating valve, 11-Pressure roller pressure regulating valve, 12-Unwinding pressure regulating valve, 13-Pressure gauge, 14-Unwinding air shaft, 15-Unwinding reel, 16-Electrical cabinet, 17-Unwinding air shaft bracket, 18-Rewinding air shaft bracket, 19-Tension regulator, 20-Pneumatic slip ring, 21-Zero position sensor, 22-Rewinding limit baffle, 31-Pressure roller wheel, 32-Connecting rod, 33-Paper feed roller, 34-Pressure cylinder, 41-First pressure block, 42-Second pressure block, 43-First transverse telescopic cylinder, 44-Second transverse telescopic cylinder, 45-Second downward pressure cylinder, 46-First downward pressure cylinder. Detailed Implementation

[0022] The present invention will be further described below with reference to specific embodiments shown in the accompanying drawings.

[0023] See Figure 1-3As shown, a paper-wrapping and carding device of the present invention includes a frame 1. A winding air shaft bracket 18 and an unwinding air shaft bracket 17 are respectively provided on both sides of the upper end of the frame 1. A winding air shaft 6 for mounting a winding reel 5 is rotatably mounted on the winding air shaft bracket 18. A pneumatic slip ring 20 is sleeved on the winding air shaft 6 and installed on one end of the winding air shaft bracket 18. An unwinding air shaft 14 for mounting an unwinding reel 15 is rotatably mounted on the unwinding air shaft bracket 17. A device for driving the winding is located below the frame 1. The drive device for rotating the air shaft 6 includes a winding limit baffle 22 on the winding air shaft 6, and a clamping device 4 on the winding limit baffle 22 for clamping the cardboard 7 as it rotates with the winding reel 5. An electrical cabinet 16 is located in the middle of the frame 1, and a pressure roller device 3 for clamping the cardboard 7 is located on the cabinet door 9 of the electrical cabinet 16. The unwinding reel 15 is loaded with cardboard 7 for packaging, and the winding reel 5 is loaded with tipping paper. Initially, the unwinding reel 15 and the winding reel 5 are installed on the unwinding air shaft 14 and the winding air shaft 6, respectively. Air is supplied to the unwinding air shaft 14 and the rewinding air shaft 6 by an air pump, so that the unwinding reel 15 and the rewinding reel 5 are firmly installed on the shaft. Then, the cardboard 7 passes from the unwinding reel 15 through the pressure roller device 3 and the guide roller 8 in sequence and is then attached to the paper on the rewinding reel 5. Next, the first pressing cylinder 46 and the first lateral telescopic cylinder 43 are controlled so that the first pressure block 41 presses the cardboard. Then, the drive motor 2 is started, and the drive motor 2 drives the rewinding air shaft 6 to rotate one revolution, completing the packaging of the cardboard 7. Then, the pneumatic slip ring 20 sends the signal... The signal is transmitted to the PLC controller. The PLC controller controls the second pressing cylinder 45 and the second lateral telescopic cylinder 44 to move simultaneously as the first pressing cylinder 46 and the first lateral telescopic cylinder 43 are raised. This causes the second pressing block 42 to press the packaged cardboard 7 tightly, making it easier for the operator to cut the cardboard. After cutting, the operator can use tape to fix it. The entire packaging process of the cardboard 7 is simple and efficient, and can effectively ensure that the tightness of the outer cardboard 7 of each reel of paper is consistent, thus effectively improving the quality of the product.

[0024] Specifically, the drive device includes a drive motor 2 and a synchronous belt. The drive motor 2 is installed below the frame 1. The drive motor 2 is connected to the take-up air shaft 6 through the synchronous belt. One end of the take-up air shaft 6 is provided with a synchronous gear. The two ends of the synchronous belt are respectively sleeved on the output end of the drive motor 2 and the synchronous gear, so that the synchronous belt completes the transmission and the drive motor 2 can drive the take-up air shaft 6 to rotate.

[0025] Preferably, the pressing device 4 includes a first pressing block 41, a second pressing block 42, a first lateral telescopic cylinder 43, a second lateral telescopic cylinder 44, a first pressing cylinder 46, and a second pressing cylinder 45. The first pressing cylinder 46 and the second pressing cylinder 45 are respectively mounted on the winding limit baffle 22. The first lateral telescopic cylinder 43 and the second lateral telescopic cylinder 44 are respectively mounted on the output ends of the first pressing cylinder 46 and the second pressing cylinder 45. The first pressing block 41 and the second pressing block 42 are respectively mounted on the output ends of the first lateral telescopic cylinder 43 and the second lateral telescopic cylinder 44. 4. Both the first pressing cylinder 46 and the second pressing cylinder 45 are connected to an external air pump. Controlling the first pressing cylinder 46 and the first lateral telescopic cylinder 43 causes the first pressing block 41 to press the cardboard tightly. Then, the drive motor 2 is started, which drives the winding air shaft 6 to rotate one revolution, completing the packaging of the cardboard 7. Then, the pneumatic slip ring 20 transmits a signal to the PLC controller. The PLC controller controls the second pressing cylinder 45 and the second lateral telescopic cylinder 44 to move while the first pressing cylinder 46 and the first lateral telescopic cylinder 43 are raised, so that the second pressing block 42 presses the packaged cardboard 7 so that the operator can cut the cardboard.

[0026] Furthermore, the distance between the first pressing block 41 and the second pressing block 42 is 4 to 10 cm, so that after the cardboard 7 is rotated once, a section of the cardboard 7 overlaps, which facilitates the subsequent pasting of the cardboard.

[0027] Furthermore, the pressure roller device 3 includes a paper feed roller 33, a pressure roller wheel 31, and a pressing cylinder 34. The paper feed roller 33 is rotatably mounted on the cabinet door 9. The pressure roller wheel 31 is rotatably mounted on the cabinet door 9 above the paper feed roller 33 via a connecting rod 32. The pressing cylinder 34 is mounted on the cabinet door 9. The output end of the pressing cylinder 34 is connected to the middle position of the connecting rod 32. Under the action of the pressing cylinder 34, the pressure roller wheel 31 presses the paper feed roller 33, making the paper jam 7 transport more smoothly.

[0028] Furthermore, a guide roller 8 is provided on one side of the pressing device 4. The paper 7 passes through the pressure roller device 3 and the guide roller 8 in sequence from the unwinding reel 15 and then winds around the reel 5. Both the guide roller 8 and the pressure roller device 3 play a guiding role, making the paper 7 transport more smoothly.

[0029] Furthermore, the electrical cabinet 16 is equipped with an unwinding pressure regulating valve 12, a pressure roller pressure regulating valve 11, and a take-up pressure regulating valve 10. The unwinding pressure regulating valve 12, the pressure roller pressure regulating valve 11, and the take-up pressure regulating valve 10 are connected to the unwinding air shaft 14, the pressing cylinder 34, and the take-up air shaft 6 respectively through air pipes. The unwinding pressure regulating valve 12, the pressure roller pressure regulating valve 11, and the take-up pressure regulating valve 10 are all connected to an external air pump. The air volume of the unwinding air shaft 14, the pressing cylinder 34, and the take-up air shaft 6 is controlled by the unwinding pressure regulating valve 12, the pressure roller pressure regulating valve 11, and the take-up pressure regulating valve 10 respectively, so as to realize the installation and disassembly of the take-up reel 5 and the unwinding reel 15.

[0030] Furthermore, pressure gauges 13 are connected to the unwinding pressure regulating valve 12, the pressure roller pressure regulating valve 11, and the winding pressure regulating valve 10, allowing operators to more intuitively view the air pressure and facilitating maintenance.

[0031] Furthermore, a zero-position sensor 21 is installed on the rear side of the frame 1 via a sensor bracket. The zero-position sensor 21 is aligned with the take-up air shaft 6. The zero-position sensor 21 can control the drive motor 2 to rotate once to package the jammed paper 7.

[0032] Furthermore, a tension adjuster 19 is provided on one end of the unwinding air shaft 14, which is away from the unwinding reel 15, making it more convenient to adjust the tension of the paper 7.

[0033] In this embodiment, a paper-wrapping device for tipping paper is used. The unwinding reel 15 contains paper for packaging (card 7), and the rewinding reel 5 contains tipping paper. Initially, the unwinding reel 15 and rewinding reel 5 are mounted onto the unwinding air shaft 14 and rewinding air shaft 6, respectively. Air is supplied to the unwinding air shaft 14 and rewinding air shaft 6 via an air pump, ensuring the unwinding reel 15 and rewinding reel 5 are securely mounted on the shafts. Then, the card 7 passes sequentially from the unwinding reel 15 through the pressure roller device 3 and guide roller 8, and is then bonded to the tipping paper on the rewinding reel 5. Next, the first pressing cylinder 46 and the first lateral telescopic cylinder 43 are controlled to press the card 7 firmly onto the first pressing block 41. Finally, the drive motor is started. 2. The drive motor 2 drives the winding air shaft 6 to rotate one revolution, completing the packaging of the cardboard 7. Then, the pneumatic slip ring 20 transmits a signal to the PLC controller. The PLC controller controls the first pressing cylinder 46 and the first lateral telescopic cylinder 43 to lift, while simultaneously controlling the second pressing cylinder 45 and the second lateral telescopic cylinder 44 to move, so that the second pressure block 42 presses the packaged cardboard 7 tightly, making it easy for the operator to cut the cardboard. After cutting, the operator can use tape to fix it. The entire packaging process of the cardboard 7 is simple and efficient, effectively improving work efficiency and ensuring that the tightness of the outer cardboard 7 for each reel of spliced ​​paper is consistent, effectively improving product quality. The spliced ​​paper outer cardboard packaging equipment of the present invention improves the packaging quality of cardboard while increasing work efficiency. It is convenient to use, highly practical, and has a wide range of applications.

[0034] The above description is only a preferred embodiment of the present invention. It should be noted that those skilled in the art can make several modifications and improvements without departing from the structure of the present invention, and these will not affect the effectiveness of the implementation of the present invention or the practicality of the patent.

Claims

1. A paper-wrapping and carding device, characterized in that, The machine includes a frame (1), on which a take-up air shaft bracket (18) and a unwind air shaft bracket (17) are respectively provided on both sides of the upper end. A take-up air shaft (6) for mounting a take-up reel (5) is rotatably mounted on the take-up air shaft bracket (18). A pneumatic slip ring (20) is sleeved on the take-up air shaft (6). The pneumatic slip ring (20) is mounted on one end of the take-up air shaft bracket (18). An unwind air shaft bracket (17) for mounting an unwind air shaft (15) is rotatably mounted on the unwind air shaft bracket (17). Shaft (14), a drive device for driving the rotation of the take-up air shaft (6) is provided below the frame (1), the take-up air shaft (6) is provided with a take-up limiting baffle (22), the take-up limiting baffle (22) is provided with a pressing device (4) for pressing the cardboard (7) to rotate with the take-up reel (5), an electrical cabinet (16) is provided in the middle of the frame (1), the cabinet door (9) of the electrical cabinet (16) is provided with a pressure roller device (3) for pressing the cardboard (7), the drive device includes The drive motor (2) and the timing belt are installed below the frame (1). The drive motor (2) is connected to the take-up air shaft (6) via the timing belt. The pressing device (4) includes a first pressing block (41), a second pressing block (42), a first transverse telescopic cylinder (43), a second transverse telescopic cylinder (44), a first pressing cylinder (46), and a second pressing cylinder (45). The first pressing cylinder (46) and the second pressing cylinder (45) are respectively installed on the take-up limiting baffle (22). The first lateral telescopic cylinder (43) and the second lateral telescopic cylinder (44) are respectively installed on the output ends of the first pressing cylinder (46) and the second pressing cylinder (45). The first pressing block (41) and the second pressing block (42) are respectively installed on the output ends of the first lateral telescopic cylinder (43) and the second lateral telescopic cylinder (44). The first lateral telescopic cylinder (43), the second lateral telescopic cylinder (44), the first pressing cylinder (46) and the second pressing cylinder (45) are all connected to an external air pump.

2. The paper splicing and packaging cardboard device according to claim 1, characterized in that, The distance between the first pressing block (41) and the second pressing block (42) is 4 to 10 cm.

3. The paper feeding and packaging equipment according to claim 1, characterized in that, The pressure roller device (3) includes a paper feed roller (33), a pressure roller wheel (31), and a pressing cylinder (34). The paper feed roller (33) is rotatably mounted on the cabinet door (9). The pressure roller wheel (31) is rotatably mounted on the cabinet door (9) above the paper feed roller (33) via a connecting rod (32). The pressing cylinder (34) is mounted on the cabinet door (9). The output end of the pressing cylinder (34) is connected to the middle position of the connecting rod (32).

4. The paper feeding and packaging equipment according to claim 1, characterized in that, The pressing device (4) is provided with a guide roller (8) on one side. The cardboard (7) passes through the pressure roller device (3) and the guide roller (8) in sequence from the unwinding reel (15) and then winds around the winding reel (5).

5. The paper feeding and packaging equipment according to claim 3, characterized in that, The electrical cabinet (16) is equipped with an unwinding pressure regulating valve (12), a pressure roller pressure regulating valve (11), and a rewinding pressure regulating valve (10). The unwinding pressure regulating valve (12), the pressure roller pressure regulating valve (11), and the rewinding pressure regulating valve (10) are respectively connected to the unwinding air shaft (14), the pressing cylinder (34), and the rewinding air shaft (6) through air pipes. The unwinding pressure regulating valve (12), the pressure roller pressure regulating valve (11), and the rewinding pressure regulating valve (10) are all connected to an external air pump.

6. The paper splicing and packaging carding device according to claim 5, characterized in that, The unwinding pressure regulating valve (12), the pressure roller pressure regulating valve (11), and the winding pressure regulating valve (10) are all connected to a pressure gauge (13).

7. The paper feeding and packaging equipment according to claim 1, characterized in that, A zero-position sensor (21) is provided on the rear side of the frame (1) via a sensor bracket, and the zero-position sensor (21) is aligned with the take-up air shaft (6).

8. The paper feeding and packaging equipment according to claim 1, characterized in that, A tension regulator (19) is provided on one end of the unwinding air shaft (14) away from the unwinding reel (15).