An environmentally friendly transfer device for cardboard production
By using a lifting box seat structure and a feeding roller design, the problem of low efficiency in transfer equipment during cardboard production is solved, automated feeding is achieved, and the working efficiency and stability of the equipment are improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIAXING YOUHENG PACKAGING MATERIAL CO LTD
- Filing Date
- 2025-09-01
- Publication Date
- 2026-06-30
AI Technical Summary
In the current paperboard production process, the transfer equipment is inefficient and the feeding is not smooth. Due to the influence of the table connection height, manual or robotic arm assistance is required for feeding, which makes it difficult to meet the requirements of high efficiency and automation.
It adopts a lifting box seat structure. The transfer box seat is driven to move up and down by a lifting drive cylinder. Combined with the inclined bottom surface and feeding rollers, it realizes automated feeding, adapts to different equipment tables, and automatically loads materials without the need for manual or robotic arm assistance.
It realizes automated feeding of cardboard materials, improves feeding efficiency, saves manpower, adapts to the feeding needs of different equipment, and ensures the stability and efficiency of feeding.
Smart Images

Figure CN224429541U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of environmentally friendly paperboard production technology, specifically to a transfer device for environmentally friendly paperboard production. Background Technology
[0002] Paperboard, also known as board paper, is a thick sheet of paper made from various plant fibers and mixed with non-plant fibers through interweaving. As a type of paperboard, environmentally friendly paperboard is a new type of environmentally friendly material that has emerged after honeycomb paperboard. It uses recycled waste paper and old corrugated cardboard boxes as raw materials and has the characteristics of being lightweight, high-strength, and having excellent cushioning performance.
[0003] In the paperboard production process, in order to process the board material in sequence, it is necessary to frequently transfer and transport the board material between different equipment. Existing transfer equipment mostly adopts a flatbed stacking working structure. After transfer, the board material needs to be fed into the processing equipment in sequence by manual labor or external robotic arms. This is not only inefficient, but also difficult to ensure the smoothness of board material feeding due to the influence of the table connection height. Therefore, an environmentally friendly transfer equipment for paperboard production is proposed. Utility Model Content
[0004] The purpose of this utility model is to provide an environmentally friendly transfer device for cardboard production, so as to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an environmentally friendly paperboard production transfer device, including a frame base mechanism and a feeding mechanism. The frame base mechanism is used for the transfer and storage of paperboard materials. The frame base mechanism includes a transfer frame base, casters, a lifting drive cylinder, and a transfer box base. The casters are supported and installed on the lower part of the transfer frame base, and the transfer box base is dynamically lifted and installed on the upper part of the transfer frame base by the lifting drive cylinder.
[0006] The feeding mechanism is used for feeding and driving cardboard materials. The feeding mechanism includes a feeding roller and a roller drive motor. The feeding roller is driven by the roller drive motor to rotate on a fixed shaft and is installed in the lower part of the inner cavity of the transfer box. The bottom surface of the inner cavity of the transfer box is set with an incline. The side of the transfer box is provided with a discharge channel.
[0007] Preferably, multiple casters are provided, and the upper top seat of each caster is fixedly installed to the lower part of the transfer frame by bolts.
[0008] Preferably, the rear and sides of the aforementioned transfer frame are provided with support rails, the middle of which is fixedly fitted with an anti-slip rubber sleeve, the front of the transfer frame is open, and the two sides of the front of the transfer frame are fixedly installed with docking hole seats.
[0009] Preferably, guide slots are fixedly provided on the left and right inner frame sides of the aforementioned transfer frame, and lifting guide blocks are fixed on both sides of the transfer box. After installation, the lifting guide blocks are slidably fitted into the slots of the guide slots.
[0010] Preferably, the above-mentioned lifting drive cylinders are arranged in pairs. The lower two sides of the transfer box seat are symmetrically fixed with mounting supports. The two sets of lifting drive cylinders are fixedly installed to the upper parts of the two sets of mounting supports by bolts. The lower two sides of the transfer frame seat are fixed with lever supports. The cylinder rod of the lifting drive cylinder is fixedly installed with the lever support.
[0011] Preferably, the sides of the aforementioned transfer frame are fixedly mounted with a power supply box and an operation panel in a parallel arrangement using bolts, and the power supply box contains a storage battery.
[0012] Preferably, the aforementioned transfer box is box-shaped, with a storage cavity in the middle, a guide slope at the bottom of the storage cavity, and a discharge channel extending through the front side of the guide slope.
[0013] Preferably, a roller mounting groove is provided through the lower front part of the aforementioned guide slope. The feeding roller is mounted on the inner side of the roller mounting groove by means of a shaft column for fixed-axis rotation. The roller drive motor is fixedly mounted on the lower part of the transfer box by bolts. Both the transmission output shaft end of the roller drive motor and the side shaft end of the feeding roller are fixed with transmission pulleys. A transmission toothed belt is installed on the upper part of the two sets of transmission pulleys.
[0014] Compared with the prior art, the present invention, by adopting the above technical solution, has the following technical effects:
[0015] This transfer equipment adopts a lifting box base structure. The transfer box base is driven by a lifting drive cylinder to be moved and lifted on the upper part of the transfer frame. By adjusting the lifting, the discharge channel at the bottom of the transfer box base can be perfectly connected with the table of different equipment, so that the device can meet the feeding connection requirements of different equipment. The bottom surface of the transfer box base is set with a slope and a feeding roller is set on the discharge channel side. After the table is connected, the rotation of the feeding roller can feed the cardboard material into the feed side of the processing equipment in sequence. Automatic feeding of cardboard material can be realized without manual or robotic arm assistance. The feeding is stable and efficient, saving manpower and effectively improving the feeding efficiency of the equipment. Attached Figure Description
[0016] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0017] Figure 1 This is a three-dimensional structural diagram of the overall installation front side of this utility model;
[0018] Figure 2 This is a schematic diagram of the overall three-dimensional structure of the present invention after installation;
[0019] Figure 3 This is a schematic diagram of the transfer box base in the rising state of this utility model;
[0020] Figure 4 This is a three-dimensional structural diagram of the transfer box base of this utility model;
[0021] Figure 5 This is a schematic diagram of the cross-sectional structure of the middle part of the transfer box base of this utility model;
[0022] Figure 6 This is a schematic diagram of the feeding roller drive installation structure of this utility model.
[0023] Explanation of reference numerals in the attached drawings: 1. Transfer frame seat; 2. Casters; 3. Lifting drive cylinder; 4. Transfer box seat; 5. Guide groove seat; 6. Lifting guide block; 7. Docking hole seat; 8. Anti-slip rubber sleeve; 9. Feeding roller; 10. Roller drive motor; 11. Transmission pulley; 12. Transmission toothed belt; 13. Discharge chute; 14. Power supply box seat; 15. Control panel. Detailed Implementation
[0024] 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.
[0025] It should be noted that the structures, proportions, sizes, etc., shown in the accompanying drawings of this specification are only used to complement the content disclosed in the specification for those skilled in the art to understand and read, and are not intended to limit the conditions under which this application can be implemented. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in the proportions, or adjustments to the size, without affecting the effects and purposes that this application can produce, should still fall within the scope of the technical content disclosed in this application.
[0026] Example
[0027] Please see Figure 1-6 This utility model provides a technical solution: an environmentally friendly paperboard production transfer device, including a frame base mechanism and a feeding mechanism. The frame base mechanism is used for the transfer and storage of paperboard materials. The frame base mechanism includes a transfer frame base 1, casters 2, a lifting drive cylinder 3, and a transfer box base 4. The casters 2 are supported and installed on the lower part of the transfer frame base 1 for supporting the movement and turning of the device. Specifically, see attached... Figure 1 As shown, four casters 2 are provided. The upper part of the casters 2 is fixedly installed to the lower part of the transfer frame 1 by bolts. While providing mobile support for the transfer frame 1, it also allows the device to move freely. To facilitate the support, protection and pushing support of the upper part of the transfer frame 1, as shown in the attached figure... Figure 2 As shown, support railings are provided at the rear and sides of the transfer frame 1. Anti-slip rubber sleeves 8 are fixedly fitted in the middle of the support railings. The front of the transfer frame 1 is open. To facilitate docking and installation with processing equipment, docking hole seats 7 are fixedly installed on both sides of the front of the transfer frame 1.
[0028] The transfer box base 4 is dynamically lifted and installed on the upper part of the transfer frame base 1 by the lifting drive cylinder 3, as shown in the attached figure. Figure 3 As shown, to facilitate the lifting and guiding installation of the transfer box base 4, guide slot seats 5 are fixedly installed on the left and right inner frame sides of the transfer frame base 1, and lifting guide blocks 6 are fixed on both sides of the transfer box base 4. After installation, the lifting guide blocks 6 are slidably fitted into the slots of the guide slot seats 5. The lifting drive cylinder 3 is a servo electric cylinder in the prior art. The lifting drive cylinder 3 is set in pairs. To facilitate the installation and support of the servo electric cylinder, mounting supports are fixed symmetrically on both sides of the lower part of the transfer box base 4. The two sets of lifting drive cylinders 3 are fixedly installed to the upper parts of the two sets of mounting supports by bolts. Lever supports are fixed on both sides of the lower part of the transfer frame base 1, and the cylinder rod of the lifting drive cylinder 3 is fixedly installed to the lever supports. The device adopts a lifting box base structure. The transfer box base 4 is driven by the lifting drive cylinder 3 to be moved and lifted on the upper part of the transfer frame base 1. By adjusting the lifting, the discharge channel 13 at the bottom of the transfer box base 4 can be perfectly connected with the table of different equipment, so that the device can meet the feeding connection requirements of different equipment. In order to facilitate the operation and control of the device, the power supply box base 14 and the operation panel 15 are fixedly installed side by side on the side of the transfer frame base 1 by bolts. The power supply box base 14 and the drive working part of the device are connected to the interface of the operation panel 15 through the multi-connection wiring. In order to facilitate the operation of the device, a storage battery is installed inside the power supply box base 14.
[0029] The feeding mechanism is used for feeding and driving cardboard materials. The feeding mechanism includes a feeding roller 9 and a roller drive motor 10, as shown in the attached diagram. Figure 3 As shown, the transfer box base 4 is box-shaped. To facilitate the storage of cardboard materials, a storage cavity is provided in the middle of the transfer box base 4. To facilitate the feeding and guiding of cardboard materials, a guide slope is provided at the bottom of the storage cavity. To facilitate the guiding and discharging of cardboard materials, a discharge groove 13 is provided through the front side of the guide slope. The feeding roller 9 is driven by a roller drive motor 10 to rotate on a fixed shaft and is installed in the lower part of the inner cavity of the transfer box base 4. Specifically, see attached... Figure 5 As shown, to facilitate the connection and installation of the feeding roller 9, a roller mounting groove is provided through the lower front part of the guide slope. The feeding roller 9 is mounted on the inner side of the roller mounting groove by means of a shaft column for fixed-axis rotation. The roller drive motor 10 is fixedly mounted on the lower part of the transfer box base 4 by bolts. Specifically, see attached... Figure 6 As shown, a reducer is provided on the drive side of the roller drive motor 10. The roller drive motor 10 and the transmission input shaft end of the reducer are fixedly installed. The transmission output shaft end of the reducer and the side shaft end of the feeding roller 9 are both fixed with transmission pulleys 11. Transmission toothed belts 12 are installed on the upper part of the two sets of transmission pulleys 11. The bottom surface of the transfer box 4 is set with an incline and the feeding roller 9 is set on the side of the discharge channel 13. After the table is connected, the paperboard material can be fed into the feeding side of the processing equipment by the rotation of the feeding roller 9. Automatic feeding of paperboard material can be achieved without manual or robotic arm assistance. The feeding is stable and efficient, which can effectively improve the feeding efficiency of the equipment while saving manpower.
[0030] Working principle or structural principle: In use, the device is moved to the feeding side of the equipment by pushing, then the position of the transfer frame 1 is adjusted and the device is connected to the feeding side of the equipment by bolts and mating holes 7. Then, the lifting drive cylinder 3 is controlled by the operation panel 15 to move the transfer box 4 upward so that the discharge channel 13 is aligned with the feeding table of the equipment. After the equipment is debugged, the parameters are input into the operation panel 15 according to the feeding requirements. Then, the roller drive motor 10 drives the feeding roller 9 to feed the board material into the processing equipment in sequence. Automatic feeding of cardboard materials can be achieved without manual or robotic arm assistance. After that, the bolts on the upper part of the mating hole 7 are loosened and the device is moved out of the processing area by pushing. Similarly, the device is moved to the discharge side of the processing equipment by pushing. After the docking is completed, the device is adjusted by lifting to complete the receiving docking of the device with the discharge table of the equipment. Then, the transfer box 4 is used to receive and stack the materials to realize the collection and storage of the board material.
[0031] In summary, this transfer equipment adopts a lifting box base structure. The transfer box base 4 is driven by the lifting drive cylinder 3 to be moved and lifted on the upper part of the transfer frame base 1. By adjusting the lifting, the discharge channel 13 at the bottom of the transfer box base 4 can be perfectly connected with the table of different equipment, so that the device can meet the feeding connection requirements of different equipment. Furthermore, the bottom surface of the transfer box base 4 is set with an incline and a feeding roller 9 is set on the side of the discharge channel 13. After the table is connected, the cardboard material can be fed into the feeding side of the processing equipment by the rotation of the feeding roller 9. Automatic feeding of cardboard material can be achieved without manual or robotic arm assistance. The feeding is stable and efficient, which can effectively improve the feeding efficiency of the equipment while saving manpower.
[0032] Those skilled in the art will understand that the features described in the various embodiments and / or claims of this utility model can be combined or combined in various ways, even if such combinations or combinations are not explicitly described in this utility model. In particular, the features described in the various embodiments and / or claims of this utility model can be combined or combined in various ways without departing from the spirit and teachings of this utility model. All such combinations and / or combinations fall within the scope of this utility model.
Claims
1. An environmentally friendly transfer device for paperboard production, comprising a frame support mechanism and a feeding mechanism, characterized in that, The frame base mechanism is used for the transfer and storage of cardboard materials. The frame base mechanism includes a transfer frame base (1), casters (2), a lifting drive cylinder (3), and a transfer box base (4). The casters (2) are supported and installed on the lower part of the transfer frame base (1), and the transfer box base (4) is driven to move and lift on the upper part of the transfer frame base (1) by the lifting drive cylinder (3). The feeding mechanism is used for feeding and driving paperboard materials. The feeding mechanism includes a feeding roller (9) and a roller drive motor (10). The feeding roller (9) is driven by the roller drive motor (10) to rotate on a fixed shaft and is installed in the lower part of the inner cavity of the transfer box (4). The bottom surface of the inner cavity of the transfer box (4) is set as an inclined surface. The side of the transfer box (4) is provided with a discharge channel (13).
2. The environmentally friendly paperboard production transfer equipment according to claim 1, characterized in that, Multiple casters (2) are provided, and the upper top seat of the caster (2) is fixedly installed to the lower part of the transfer frame seat (1) by bolts.
3. The environmentally friendly paperboard production transfer equipment according to claim 2, characterized in that, The rear and side of the transfer frame (1) are provided with support railings. The middle of the support railing is fixedly fitted with an anti-slip rubber sleeve (8). The front of the transfer frame (1) is open. The two sides of the front of the transfer frame (1) are fixedly installed with docking hole seats (7).
4. The environmentally friendly paperboard production transfer equipment according to claim 3, characterized in that, The left and right inner frame sides of the transfer frame (1) are fixedly provided with guide slot seats (5), and the two sides of the transfer box seat (4) are fixed with lifting guide blocks (6). After installation, the lifting guide blocks (6) and the slot opening of the guide slot seats (5) are slidably fitted together.
5. The environmentally friendly paperboard production transfer equipment according to claim 4, characterized in that, The lifting drive cylinders (3) are arranged in pairs. The lower two sides of the transfer box seat (4) are symmetrically fixed with mounting supports. The two sets of lifting drive cylinders (3) are fixedly installed to the upper parts of the two sets of mounting supports by bolts. The lower two sides of the transfer frame seat (1) are fixed with lever supports. The cylinder rod of the lifting drive cylinder (3) is fixedly installed with the lever support.
6. The environmentally friendly paperboard production transfer equipment according to claim 5, characterized in that, The side of the transfer frame (1) is fixedly mounted with a power supply box (14) and an operation panel (15) in a parallel arrangement by bolts. The power supply box (14) is equipped with a storage battery.
7. The environmentally friendly paperboard production transfer equipment according to claim 1, characterized in that, The transfer box seat (4) is box-shaped, and a storage cavity is provided in the middle of the transfer box seat (4). A guide slope is provided at the bottom of the storage cavity, and the discharge channel (13) is opened through the front side of the guide slope.
8. The environmentally friendly paperboard production transfer equipment according to claim 7, characterized in that, The front lower side of the guide slope is provided with a roller mounting groove. The feeding roller (9) is mounted on the inner side of the roller mounting groove by means of a shaft column. The roller drive motor (10) is fixedly mounted on the lower part of the transfer box seat (4) by bolts. The transmission output shaft end of the transmission part of the roller drive motor (10) and the side shaft end of the feeding roller (9) are both fixed with transmission pulleys (11). The upper part of the two sets of transmission pulleys (11) is equipped with transmission toothed belts (12).