A new automatic hot stamping machine
By designing an automatic label feeding system and magnetic components, the health and safety issues of manual operation of automatic hot stamping machines have been solved, achieving safe production and high-precision hot stamping.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHUJI ZHISHEN SOCKS IND CO LTD
- Filing Date
- 2025-08-25
- Publication Date
- 2026-06-19
AI Technical Summary
When using an automatic heat-pressing labeling machine to heat-press labels onto socks, manual operation poses health risks and safety hazards, especially prolonged work in high-temperature environments, which can easily lead to skin damage and burns.
A novel automatic heat-pressing machine has been designed, which uses a liftable heat press plate, a rotatable label roll, a label feeding shaft, a positioning block, a feeding plate, and a magnetic suction component. The feeding plate is driven by a cylinder to automatically feed the socks to the bottom of the heat press plate for heat pressing, avoiding manual contact with the high-temperature heat press plate.
It reduces occupational health risks for operators, decreases burn accidents, improves hot stamping accuracy and product appearance quality, and provides a safe production environment.
Smart Images

Figure CN224375116U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of hot stamping label processing technology for socks, and in particular to a novel automatic hot stamping label machine. Background Technology
[0002] An automatic heat transfer labeling machine is a mechanical device that uses high temperature and pressure to quickly heat transfer labels (trademarks, patterns, and text, etc.) onto the surface of items. Automatic heat transfer labeling machines are widely used in industries such as textiles and packaging, primarily for fixing markings onto products.
[0003] Currently, when using automatic heat-sealing machines to heat-print labels on socks, it is often necessary to manually place the unlabeled product under a high-temperature hot press plate for heat printing. The temperature of the hot press plate is typically between 120℃ and 200℃. Working in such a high-temperature environment for extended periods can easily expose the skin to heat radiation, causing skin damage and, in severe cases, skin diseases, posing a significant health risk. Furthermore, the hot press plate is very close to the label strip; improper operation can easily result in direct burns, posing a substantial safety hazard. Utility Model Content
[0004] To solve the aforementioned technical problems, this utility model provides a novel automatic hot stamping machine. The problem it addresses is that manually placing products under a hot press plate for hot stamping poses significant health and safety risks to employees. The technical solution adopted by this utility model to solve these problems is as follows:
[0005] A new type of automatic hot stamping label machine includes:
[0006] frame;
[0007] The hot press plate is connected to the frame in a liftable structure.
[0008] Label roll, the label roll is connected to the frame in a rotatable manner;
[0009] The label feeding shaft is connected to the frame in a fixed manner.
[0010] The positioning block is connected to the frame in a fixed structure and is located directly below the hot press plate.
[0011] The first feeding plate is connected to the frame by a sliding structure.
[0012] The second feeding plate is connected to the frame by a sliding structure, and the second feeding plate is arranged symmetrically with the first feeding plate.
[0013] Cylinder A is used to drive the feeding plate to move to the bottom of the hot press plate. Cylinder A is connected to the frame in a fixed structure.
[0014] Cylinder B is used to drive the feed plate to reset. Cylinder B is connected to the frame in a fixed manner.
[0015] Furthermore, the lower end face of the hot press plate is provided with protrusions in a fixed structure.
[0016] Furthermore, a pad is fixedly provided on the upper surface of the positioning block, and the pad is positioned directly below the protrusion; the pad is made of high-temperature resistant silicone material.
[0017] Furthermore, the upper surface of the first feeding plate is provided with a placement plate A in a fixed structure, and the upper surface of the second feeding plate is provided with a placement plate B in a fixed structure. The placement plate A and the placement plate B are arranged symmetrically along an axis.
[0018] Furthermore, magnetic suction components are provided on the upper surface of both the first and second feeding plates.
[0019] Furthermore, the magnetic suction assembly includes a magnetic suction cup and a magnetic suction cover. The two magnetic suction cups are respectively fixedly arranged on the upper surfaces of the first feeding plate and the second feeding plate, and the magnetic suction cover is connected to the magnetic suction cup by magnetic attraction.
[0020] Furthermore, the bottom of the frame is provided with a sliding groove for the first and second feeding plates to slide towards the hot press plate.
[0021] The beneficial effects of this utility model are: by setting a first feeding plate and a second feeding plate, the unlabeled socks are moved to the bottom of the hot press plate under the action of the driving cylinder, and the socks are heat-printed with labels. This avoids frequent human contact with the hot press plate, reduces the risk of skin damage, reduces burn accidents caused by improper operation, and effectively reduces occupational health risks, providing operators with a safe production environment.
[0022] By setting up a magnetic component, socks can be easily and quickly fixed on the feeding plate, preventing them from accidentally falling off during transport to the pad under the hot press plate. The socks can also be stretched appropriately to ensure the consistency of the heat-printed markings and improve the appearance quality of the product. Attached Figure Description
[0023] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0024] Figure 2 This is a top view of the structure of this utility model.
[0025] In the picture:
[0026] 1. Frame, 2. Hot press plate, 3. Label roll, 4. Label feeding shaft, 5. Positioning block, 6. First feeding plate, 7. Second feeding plate, 8. Cylinder A, 9. Cylinder B, 10. Protrusion, 11. Pad, 12. Placement plate A, 13. Placement plate B, 14. Magnetic suction assembly, 141. Magnetic suction cup, 142. Magnetic suction cover, 15. Slide groove, 16. Labeling tape. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the utility model will now be described in further detail with reference to the accompanying drawings and the following embodiments, so that the public can better understand the implementation method of this utility model. The specific implementation scheme of this utility model is as follows:
[0028] A novel automatic heat-sealing labeling machine includes a frame 1, a heat-pressing plate 2 mounted on the frame 1 in a liftable structure, a label roll 3 mounted on the frame 1 in a rotatable structure, a label feeding shaft 4 and a positioning block 5 mounted on the frame 1 in a fixed structure, the positioning block 5 being located directly below the heat-pressing plate 2, and a first feeding plate 6 and a second feeding plate 7 mounted on the frame 1 in a sliding structure, the second feeding plate 7 being axially symmetrical to the first feeding plate 6. The frame 1 is fixedly equipped with a cylinder A8 for driving the feeding plates to move below the heat-pressing plate 2 and a cylinder B9 for driving the feeding plates to reset. By setting the first feeding plate 6 and the second feeding plate 7, the machine moves unlabeled socks to below the heat-pressing plate 2 under the action of the driving cylinders, allowing for heat-sealing labeling of the socks. This avoids frequent manual contact with the heat-pressing plate 2, reducing the risk of skin damage and burns caused by improper operation, effectively reducing occupational health risks and providing a safe production environment for operators.
[0029] It should be noted that the lower end face of the hot press plate 2 is provided with a protrusion 10 in a fixed structure; the width of the protrusion 10 is the same as the width of the marking strip below. This structure can ensure that the marking on the marking strip can be accurately aligned with the printed product when hot stamping, thereby improving the hot stamping accuracy.
[0030] It should be noted that a pad 11 is fixedly provided on the upper surface of the positioning block 5. The pad 11 is located directly below the protrusion 10 and is made of high-temperature resistant silicone material. This structure ensures that the hot press plate 2 can effectively heat-press the mark onto the product.
[0031] It should be noted that the upper surface of the first feeding plate 6 is provided with a placement plate A12 in a fixed structure, and the upper surface of the second feeding plate 7 is provided with a placement plate B13 in a fixed structure. The placement plates A12 and B13 are symmetrically arranged. Furthermore, the placement plates A12 and B13 are T-shaped, so that the part of the sock that needs to be marked is higher than the other parts, which helps to accurately heat-print the mark onto the predetermined position of the sock and reduce heat-printing errors. The upper surfaces of the placement plates A12 and B13 are flush with the upper surface of the pad 11, ensuring that the sock is not obstructed during the process of being fed above the pad 11.
[0032] Furthermore, magnetic suction components 14 are provided on the upper surfaces of both the first feeding plate 6 and the second feeding plate 7. The magnetic suction components 14 include magnetic suction cups 141 and magnetic suction covers 142. The two magnetic suction cups 141 are respectively fixedly arranged on the upper surfaces of the first feeding plate 6 and the second feeding plate 7. The magnetic suction cover 142 is connected to the magnetic suction cups 141 by magnetic attraction. This can conveniently and quickly fix the socks on the feeding plate, preventing them from accidentally falling off during transportation to the pad 11 below the hot press plate 2. It can also stretch the socks appropriately to ensure the consistency of the hot stamping markings and improve the appearance quality of the product.
[0033] It should be noted that the bottom of the frame 1 is provided with a slide groove 15 for the first feeding plate 6 and the second feeding plate 7 to slide towards the hot press plate 2; this structure helps the feeding plates to make more stable reciprocating motion.
[0034] The working principle and process of this utility model are as follows:
[0035] First, remove the magnetic cover 142 from the magnetic chuck 141. Then, place the socks to be heat-printed onto the upper surfaces of the placement plates A12 and B13. The ends of the socks will fall onto the magnetic chuck 141. Next, place the magnetic cover 142 onto the magnetic chuck 141. At this point, the socks are fixed to the feeding plate. Then, start the cylinder A8. The cylinder A8 will drive the first feeding plate 6 and the second feeding plate 7 to slide below the hot press plate 2. At this point, the socks are below the label strip. Start the heat-printing machine. The hot press plate 2 will descend, driving the protrusion 10 to heat-print the label onto the outer surface of the socks. Then, the hot press plate 2 will rise, and the protrusion 10 will rise along with the hot press plate 2. Then, start the cylinder B9. The cylinder B9 will send the first feeding plate 6 and the second feeding plate 7 along the slide groove 15 to the initial position. Remove the socks with the heat-printed label.
[0036] In the description of this utility model, it should be understood that the terms "center," "upper," "lower," "left," "right," "front," "rear," "lower left," "upper right," "outer," "clockwise," and "counterclockwise," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as limiting the scope of protection of this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance. Although this utility model has been described according to a limited number of embodiments, those skilled in the art should understand from the above description that other embodiments can be conceived within the scope of this utility model described herein.
Claims
1. A new automatic marking machine, characterized in that, include: Rack (1); Hot press plate (2), the hot press plate (2) is connected to the frame (1) in a liftable structure; The label roll (3) is connected to the frame (1) in a rotatable manner; The label feeding shaft (4) is connected to the frame (1) in a fixed structure. Positioning block (5) is connected to frame (1) in a fixed structure and is located directly below hot press plate (2); The first feeding plate (6) is connected to the frame (1) by a sliding structure; The second feeding plate (7) is connected to the frame (1) by a sliding structure. The second feeding plate (7) and the first feeding plate (6) are arranged symmetrically. Cylinder A (8) is used to drive the feeding plate to move below the hot press plate (2). Cylinder A (8) is connected to the frame (1) in a fixed structure. Cylinder B (9) is used to drive the feed plate to reset. Cylinder B (9) is connected to the frame (1) in a fixed structure.
2. A new automatic marking machine according to claim 1, characterized in that: The lower end face of the hot press plate (2) is provided with a protrusion (10) in a fixed structure.
3. A new automatic marking machine according to claim 1, characterized in that: The upper surface of the positioning block (5) is provided with a pad (11) in a fixed structure manner, and the pad (11) is located directly below the protrusion (10); The pad (11) is made of high-temperature resistant silicone material.
4. A new automatic marking machine according to claim 1, characterized in that: The upper surface of the first feeding plate (6) is provided with a placement plate A (12) in a fixed structure manner, and the upper surface of the second feeding plate (7) is provided with a placement plate B (13) in a fixed structure manner. The placement plate A (12) and the placement plate B (13) are symmetrically arranged.
5. A new automatic marking machine according to claim 4, characterized in that: Magnetic suction components (14) are provided on the upper surfaces of the first feeding plate (6) and the second feeding plate (7).
6. A new automatic marking machine according to claim 5, characterized in that: The magnetic suction assembly (14) includes a magnetic suction cup (141) and a magnetic suction cover (142). The two magnetic suction cups (141) are respectively fixed on the upper surfaces of the first feeding plate (6) and the second feeding plate (7). The magnetic suction cover (142) is connected to the magnetic suction cup (141) by magnetic attraction.
7. A new automatic marking machine according to claim 1, characterized in that: The bottom of the frame (1) is provided with a slide groove (15) for the first feeding plate (6) and the second feeding plate (7) to slide towards the hot press plate (2).