A feeding mechanism for an aluminum foil roll boxing machine
By designing adjustable baffle and limit mechanisms, the problem of poor flexibility in the feeding mechanism of aluminum foil roll boxing machines was solved, enabling efficient packaging of aluminum foil rolls of different diameters and lengths, reducing costs and saving space.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU FANHAO TECH CO LTD
- Filing Date
- 2025-09-04
- Publication Date
- 2026-06-30
AI Technical Summary
The feeding mechanism of existing aluminum foil roll boxing machines is not flexible and cannot adapt to aluminum foil rolls of different diameters and lengths. In addition, they are costly and occupy a lot of space.
A feeding mechanism including a frame, a baffle mechanism and a limiting mechanism was designed. Through the combination of cylinders and connecting blocks, the baffle can be flexibly adjusted to adapt to aluminum foil rolls of different diameters and lengths, thereby reducing costs and saving space.
It improves the flexibility and applicability of the feeding mechanism, reduces costs, saves space, and enables efficient packaging of different aluminum foil rolls.
Smart Images

Figure CN224428047U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aluminum foil roll packaging material feeding technology, specifically a material feeding mechanism for an aluminum foil roll boxing machine. Background Technology
[0002] Aluminum foil is a hot stamping material made by directly rolling metallic aluminum into thin sheets. Its hot stamping effect is similar to that of pure silver foil. Aluminum is soft, ductile, and has a silvery-white luster. Due to its excellent properties, aluminum foil is widely used in food, beverages, cigarettes, pharmaceuticals, photographic plates, and household daily necessities, and is commonly used as packaging material; material for electrolytic capacitors; insulation material for buildings, vehicles, ships, and houses; and it can also be used as decorative gold and silver threads, wallpaper, and decorative trademarks for various stationery printed materials and light industrial products.
[0003] When aluminum foil is used in household applications, it is typically packaged into rectangular boxes using a cartoning machine. Specifically, after being unloaded by a feeding mechanism, the foil rolls roll onto a packaging table. This table is equipped with a positioning mechanism and a pushing device that works in conjunction with the positioning mechanism. The packaging box is located to one side of the positioning mechanism, and the pushing device pushes the aluminum foil rolls from the positioning mechanism into the packaging box. To ensure individual feeding, the feeding mechanism of aluminum foil roll cartoning machines generally uses two cylinders with baffles, positioned one in front of the other. Most of these cylinders are not adjustable, resulting in poor flexibility. A few have adjustable cylinders, but these are usually adjusted via linear guides. This structure increases cost and occupies a large space. Therefore, an improved technology is urgently needed to solve this problem in the existing technology. Utility Model Content
[0004] The purpose of this utility model is to provide a feeding mechanism for an aluminum foil roll packaging machine to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a feeding mechanism for an aluminum foil roll packaging machine, comprising a frame, a blocking mechanism, and a limiting mechanism;
[0006] The frame includes side plates, inclined plates, columns and crossbeams. There are two side plates that are parallel to each other. An inclined plate is provided between the two side plates. The inclined plate has several rows of first screw holes, and each row of first screw holes has several holes. The lower end of each side plate is connected to a column. The tops of the two columns are connected to both ends of the crossbeam.
[0007] The material blocking mechanism includes a front cylinder, a rear cylinder, a front baffle, and a rear baffle. The front cylinder is connected to the side of the crossbeam closest to the inclined plate, and the rear cylinder is connected to the side of the crossbeam furthest from the inclined plate. The piston rod of the front cylinder faces downward and is mounted with a first connecting block. Several second screw holes are provided on both sides of the first connecting block. The front baffle is mounted on either side of the first connecting block through the second screw holes and bolts. The piston rod of the rear cylinder faces downward and is mounted with a second connecting block. Several third screw holes are provided on both sides of the second connecting block. The rear baffle is mounted on either side of the second connecting block through the third screw holes and bolts. The front baffle and the rear baffle are parallel to each other.
[0008] The limiting mechanism includes a left baffle and a right baffle. Both the left baffle and the right baffle are L-shaped plates and are symmetrically arranged on the upper surface of the inclined plate. The side of the left baffle and the right baffle that contacts the inclined plate is provided with an elongated waist hole. The waist holes on the side of the left baffle and the right baffle that contact the inclined plate correspond one-to-one with the first screw hole in the same row and are fastened together by bolts.
[0009] Preferably, the feeding mechanism for an aluminum foil roll packaging machine provided by this utility model has a folded edge at the bottom of each side plate, and the folded edge has a plurality of fixing holes.
[0010] Preferably, in the feeding mechanism for an aluminum foil roll packaging machine provided by this utility model, both the front cylinder and the rear cylinder are connected to the crossbeam via connecting plates and bolts.
[0011] Preferably, in the feeding mechanism for an aluminum foil roll packaging machine provided by this utility model, the height of the inclined plate gradually decreases from the end away from the crossbeam to the end closer to the crossbeam.
[0012] Preferably, the feeding mechanism for an aluminum foil roll packaging machine provided by this utility model has an anti-fall plate at the end of the inclined plate away from the crossbeam.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] (1) A front cylinder and a rear cylinder are respectively provided on both sides of the crossbeam. The piston rod of the front cylinder is mounted with a front baffle through the first connecting block, and the piston rod of the rear cylinder is mounted with a rear baffle through the second connecting block. The front baffle can be installed on either side of the first connecting block, and the rear baffle can be installed on either side of the second connecting block, thereby controlling the distance between the front baffle and the rear baffle to suit aluminum foil rolls of different diameters. The flexibility and application range are greatly improved. Moreover, compared with the method of adjusting the distance between the two baffles by the slide rail, the cost is lower and space is saved.
[0015] (2) The inclined plate also has several first screw holes. The left baffle and the right baffle are respectively connected to bolts through their respective waist holes, so that the distance between the left baffle and the right baffle can be adjusted according to the length of the aluminum foil roll, and the flexibility is further improved. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the structure of this utility model;
[0017] Figure 2 This is a top view of the structure of this utility model;
[0018] Figure 3 This is a side view of the structure of this utility model.
[0019] In the diagram: Side plate 1, inclined plate 2, column 3, crossbeam 4, first screw hole 5, front cylinder 6, rear cylinder 7, front baffle 8, rear baffle 9, first connecting block 10, second screw hole 11, second connecting block 12, third screw hole 13, left baffle 14, right baffle 15, waist hole 16, folded edge 17, connecting plate 18, anti-fall plate 19. Detailed Implementation
[0020] The technical solution of this 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 this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0021] It should be noted that in the description of this utility model, the terms "inner", "outer", "upper", "lower", "both sides", "one end", "the other end", "left", "right", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They 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. Therefore, they should not be construed as limitations on this utility model.
[0022] Please see Figure 1-3 This utility model provides a technical solution: a feeding mechanism for an aluminum foil roll boxing machine, including a frame, a material blocking mechanism and a limiting mechanism;
[0023] The frame includes side plates 1, inclined plates 2, columns 3 and crossbeams 4. There are two side plates 1 that are parallel to each other. An inclined plate 2 is set between the two side plates 1. The inclined plate 2 has several rows of first screw holes 5. Each row of first screw holes 5 has several holes. The lower end of the side plate 1 is connected to a column 3. The tops of the two columns 3 are connected to the two ends of the crossbeam 4 respectively. The bottom of each side plate 1 is provided with a folded edge 17. The folded edge 17 has several fixing holes. Through the folded edge 17 and its fixing holes, the feeding mechanism can be connected to the machine base at the feeding end of the cartoning machine by the cooperation of bolts and fixing holes. The height of the inclined plate 2 gradually decreases from the end away from the crossbeam 4 to the end close to the crossbeam 4, so that the aluminum foil roll rolls roll down along the inclined plate 2 towards the front cylinder 6 and the rear cylinder 7. An anti-fall plate 19 is provided at the end of the inclined plate 2 away from the crossbeam 4 to prevent the aluminum foil roll from falling from the rear end.
[0024] The material-stopping mechanism includes a front cylinder 6, a rear cylinder 7, a front baffle 8, and a rear baffle 9. The front cylinder 6 is connected to the side of the crossbeam 4 closest to the inclined plate 2, and the rear cylinder 7 is connected to the side of the crossbeam 4 furthest from the inclined plate 2. Both the front cylinder 6 and the rear cylinder 7 are connected to the crossbeam 4 via a connecting plate 18 and bolts. The connecting plate 18 can have a slotted hole to adjust the installation height of the front cylinder 6 and the rear cylinder 7, thereby preventing the front baffle 8 and the rear baffle 9 from colliding with the inclined plate 2 when they descend. The front cylinder 6... The piston rod of the rear cylinder 7 faces downward and is equipped with a first connecting block 10. Several second screw holes 11 are opened on both sides of the first connecting block 10. A front baffle 8 is installed on either side of the first connecting block 10 through the second screw holes 11 and bolts. The piston rod of the rear cylinder 7 faces downward and is equipped with a second connecting block 12. Several third screw holes 13 are opened on both sides of the second connecting block 12. A rear baffle 9 is installed on either side of the second connecting block 12 through the third screw holes 13 and bolts. The front baffle 8 and the rear baffle 9 are parallel to each other.
[0025] The limiting mechanism includes a left baffle 14 and a right baffle 15. Both the left baffle 14 and the right baffle 15 are L-shaped plates and are symmetrically arranged on the upper surface of the inclined plate 2. The side of the left baffle 14 and the right baffle 15 that contacts the inclined plate 2 is provided with an elongated waist hole 16. The waist holes 16 on the side of the left baffle 14 and the right baffle 15 that contact the inclined plate 2 correspond one-to-one with the first screw hole 5 in the same row and are fastened together by bolts.
[0026] Installation method and operating principle: First, weld the inclined plate 2 between the two side plates 1. Then, install the two columns 3 on the outside of the side plates 1 with bolts and nuts and at one end of the bottom of the inclined plate 2. Next, connect the crossbeam 4 to the top of the two columns 3 with bolts to complete the assembly of the frame. The inclined plate 2 has multiple rows of first screw holes 5. The front cylinder 6 and the rear cylinder 7 are respectively installed on both sides of the crossbeam 4, with the front cylinder 6 located on the side of the crossbeam 4 closer to the inclined plate 2. The piston rods of the front cylinder 6 and the rear cylinder 7 are respectively equipped with a first connecting block 10 and a second connecting block 12. The first connecting block 10 has second screw holes 11 on both sides, and the second connecting block 12 has third screw holes 13 on both sides. Depending on the diameter of the aluminum foil roll, the front baffle 8 can be bolted to either side of the first connecting block 10, and the rear baffle 9 can be bolted to either side of the second connecting block 12. When the front baffle 8 is installed on the side of the first connecting block 10 closer to the inclined plate 2, and the rear baffle 9 is installed on the side of the second connecting block 12 away from the inclined plate 2, the distance between the front baffle 8 and the rear baffle 9 is the largest, which is suitable for aluminum foil rolls with large diameters. Depending on the length of the aluminum foil roll, the left baffle 14 and the right baffle 15 are symmetrically installed on the inclined plate 2 with bolts and waist holes 16 to limit the two ends of the aluminum foil roll. When the aluminum foil rolls are placed on the inclined plate 2, the front cylinder 6 drives the front baffle 8 to descend, and the rear cylinder 7 drives the rear baffle 9 to descend. The aluminum foil rolls line up at the front baffle 8. The front cylinder 6 drives the front baffle 8 to rise, and the first aluminum foil roll rolls down and is blocked by the rear baffle 9. At this time, the front baffle 8 descends, and the rear baffle 9 rises. The aluminum foil rolls roll to the positioning mechanism of the cartoning machine, and are pushed into the corresponding packaging box by the pushing device. The above steps are repeated to realize the feeding of aluminum foil rolls one by one. This utility model has a reasonable structure. A front cylinder 6 and a rear cylinder 7 are respectively arranged on both sides of the crossbeam 4. The piston rod of the front cylinder 6 is mounted with a front baffle 8 through the first connecting block 10, and the piston rod of the rear cylinder 7 is mounted with a rear baffle 9 through the second connecting block 12. The front baffle 8 can be installed on either side of the first connecting block 10, and the rear baffle 9 can be installed on either side of the second connecting block 12, thereby controlling the distance between the front baffle 8 and the rear baffle 9 to suit aluminum foil rolls of different diameters. The flexibility and application range are greatly improved. Moreover, compared with the method of adjusting the distance between the two baffles by a slide rail, the cost is lower and space is saved. The inclined plate 2 also has several first screw holes 5. The left baffle 14 and the right baffle 15 are respectively engaged with bolts through their respective waist holes 16, so that the distance between the left baffle 14 and the right baffle 15 can be adjusted according to the length of the aluminum foil roll, further improving the flexibility. Of course, in special cases, only the left baffle 14 or the right baffle 15 can be used for limiting.
[0027] Any aspects of this utility model not described in detail are well-known technologies to those skilled in the art.
[0028] Finally, it should be noted that the above specific embodiments are only used to illustrate the technical solution of this utility model and not to limit it. Although this utility model has been described in detail with reference to the embodiments, those skilled in the art should understand that modifications and equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications and substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A cutting mechanism for an aluminum foil roll packing machine, characterized by: Includes frame, stop mechanism and limit mechanism; The frame includes a side plate (1), an inclined plate (2), a column (3) and a crossbeam (4). There are two side plates (1) that are parallel to each other. An inclined plate (2) is provided between the two side plates (1). The inclined plate (2) has several rows of first screw holes (5). There are several first screw holes (5) in each row. The lower end of each side plate (1) is connected to a column (3). The tops of the two columns (3) are connected to the two ends of the crossbeam (4). The material blocking mechanism includes a front cylinder (6), a rear cylinder (7), a front baffle (8), and a rear baffle (9). The front cylinder (6) is connected to the side of the crossbeam (4) near the inclined plate (2), and the rear cylinder (7) is connected to the side of the crossbeam (4) away from the inclined plate (2). The piston rod of the front cylinder (6) faces downward and is equipped with a first connecting block (10). Several second screw holes (11) are opened on both sides of the first connecting block (10). The front baffle (8) is installed on any side of the first connecting block (10) through the second screw holes (11) and bolts. The piston rod of the rear cylinder (7) faces downward and is equipped with a second connecting block (12). Several third screw holes (13) are opened on both sides of the second connecting block (12). The rear baffle (9) is installed on any side of the second connecting block (12) through the third screw holes (13) and bolts. The front baffle (8) and the rear baffle (9) are parallel to each other. The limiting mechanism includes a left baffle (14) and a right baffle (15). The left baffle (14) and the right baffle (15) are both L-shaped plates and are symmetrically arranged on the upper surface of the inclined plate (2). The side of the left baffle (14) and the right baffle (15) that contacts the inclined plate (2) is provided with a long waist hole (16). The waist hole (16) on the side of the left baffle (14) and the right baffle (15) that contacts the inclined plate (2) corresponds one-to-one with the first screw hole (5) in the same row and is fastened to it with bolts.
2. The feeding mechanism for an aluminum foil roll packaging machine according to claim 1, characterized in that: The bottom of each side plate (1) is provided with a folded edge (17), and the folded edge (17) has several fixing holes.
3. The feeding mechanism for an aluminum foil roll packaging machine according to claim 1, characterized in that: The front cylinder (6) and the rear cylinder (7) are both connected to the crossbeam (4) via a connecting plate (18) and bolts.
4. The feeding mechanism for an aluminum foil roll packaging machine according to claim 1, characterized in that: The height of the inclined plate (2) gradually decreases from the end away from the crossbeam (4) to the end closer to the crossbeam (4).
5. The feeding mechanism for an aluminum foil roll packaging machine according to claim 1, characterized in that: An anti-fall plate (19) is provided at the end of the inclined plate (2) away from the crossbeam (4).