A wire weighing and labeling turnover device
By integrating weighing, labeling, and flipping functions into a metal wire processing device, the problem of existing devices being unable to be integrated has been solved, improving processing efficiency and flexibility.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG SIAO INTELLIGENT TECH CO LTD
- Filing Date
- 2025-06-14
- Publication Date
- 2026-06-12
AI Technical Summary
Existing metal wire processing equipment cannot integrate the three functions of weighing, labeling, and flipping into one device, resulting in time-consuming and labor-intensive processing and reduced work efficiency.
Design a metal wire weighing, labeling and flipping device that integrates weighing, labeling and flipping functions into one device. It achieves multi-functional operation through the coordinated action of gripping structure, cylinder and motor, including gripping, moving, flipping and labeling.
It improves the efficiency of metal wire processing, saves processing time, and achieves flexible integration of weighing, labeling, and flipping, reducing time waste between processes.
Smart Images

Figure CN224349289U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of metal wire weighing and labeling technology, and in particular to a metal wire weighing, labeling and flipping device. Background Technology
[0002] Metal wire is a product made from metal coils, bars, or rods as raw materials. It is produced by using specialized equipment such as wire drawing equipment and annealing equipment, and undergoing multiple drawing-annealing-re-drawing-re-annealing processes to produce various specifications and models of wire. The processing of metal wire is characterized by numerous processes, high labor intensity, and high risk. Labeling is an indispensable and important process. The metal wire weighing, labeling, and flipping device is a piece of equipment that integrates weighing, labeling, and flipping functions and is specifically designed for the processing of metal wire.
[0003] However, the existing metal wire processing equipment uses separate equipment for weighing, labeling, and flipping, requiring three processing steps. These three steps cannot be performed on the same device for metal wire processing, which consumes a lot of time and effort, affecting subsequent processing efficiency and making it time-consuming and labor-intensive.
[0004] Therefore, to address the problem that existing metal wire processing devices cannot integrate weighing, labeling, and flipping functions into one, resulting in significant time consumption and reduced work efficiency in subsequent processing, a metal wire weighing, labeling, and flipping device can be designed. By integrating weighing, labeling, and flipping functions into one metal wire processing device, work efficiency is not only improved during processing, but also a significant amount of time is saved. This multifunctional device is also more flexible. Summary of the Invention
[0005] In order to overcome the problem that existing metal wire processing equipment cannot integrate the three functions of weighing, labeling and flipping, which consumes a lot of time and reduces work efficiency in subsequent processing.
[0006] The technical solution of this utility model is as follows: a metal wire weighing, labeling, and flipping device, comprising a metal wire processing device body, gripping structures on both the left and right sides inside the metal wire processing device body, a labeling structure below the metal wire processing device body, a flipping structure located below the metal wire processing device body on one side of the labeling structure, a motor on one side above the gripping structure, a gear mounted on the motor shaft, a second cylinder above the gripping structure, a third cylinder on each of the three end feet below the gripping structure, and claws below each of the three third cylinders. The labeling structure includes... The device includes a printer, a slide cylinder body on one side of the printer, a rotary cylinder body above the slide cylinder body, a pressing cylinder body at the front end of the rotary cylinder body, a label suction and labeling cylinder body at the rear end of the rotary cylinder body, a suction cup on one side of the label suction and labeling cylinder body, a material roll above the flipping structure, a support column inside the material roll, flipping plates on both the left and right sides below the material roll, a support frame below the material roll, bearings on both the left and right sides above the support frame, a flipping shaft located below the material roll between the two bearings, and a fourth cylinder below the flipping shaft.
[0007] Preferably, the wire is gripped by gripping structures on the left and right sides inside the metal wire processing device body. The second cylinder controls the up and down lifting of the gripping structure, and the motor controls the sliding of the gripping structure. Driven by the motor, the gripping structure moves on the guide rail of the metal wire processing device body in conjunction with the first slider. In this metal wire weighing, labeling and flipping device, after the material roll is placed on the flipping plate by the gripping structure, the gripping structure rises and slides through the second slider. The labeling structure then affixes the label to the material roll.
[0008] Preferably, the metal wire processing device body is provided with an outer shell, and the four ends of the metal wire processing device body are provided with support legs.
[0009] Preferably, a connecting bracket is provided between the two support legs and located below the support frame. Second sliders are provided on the left and right sides and front and rear ends below the support frame. A connecting block is provided between the second sliders, and a first cylinder is provided on one side of the connecting block.
[0010] Preferably, a floating joint is provided below the gripping structure, and an extension rod is provided below the floating joint.
[0011] Preferably, an irregular plate is provided above the three third cylinders and located below the gripping structure. A guide post is provided through the irregular plate and the four end feet of the upper surface of the gripping structure. A stop is provided above the guide post. A flange linear bearing is fitted between the guide post and the gripping structure.
[0012] Preferably, a sensor bracket is provided at the rear end of the gear, and multiple evenly arranged proximity switches are provided inside the sensor bracket. The four ends of the moving platform of the grasping structure are all provided with first sliders.
[0013] Preferably, a connecting plate is provided between the rotary cylinder body and the label-applying cylinder body, a base is provided below the labeling structure, and an elastic band is provided on one side of the pressing cylinder body.
[0014] The beneficial effects of this utility model are:
[0015] 1. This metal wire weighing, labeling, and flipping device integrates weighing, labeling, and flipping functions into one metal wire processing device body. This not only improves work efficiency during processing but also saves a lot of time. The multi-functional device is quite flexible. The wire is gripped by the gripping structures on the left and right sides inside the metal wire processing device body. The second cylinder controls the up and down lifting of the gripping structure, and the motor controls the sliding of the gripping structure. Driven by the motor, the gripping structure moves on the guide rail of the metal wire processing device body in conjunction with the first slider.
[0016] 2. The metal wire weighing, labeling and flipping device uses a gripping structure to place the wire roll onto a flipping plate. After the gripping structure is raised, it moves by sliding a second slider. The labeling structure then affixes a label to the wire roll, and the label contains information about the wire roll.
[0017] 3. The metal wire weighing, labeling and flipping device uses a gripping structure to grab the wire roll onto a flipping structure. After the printer prints a label, the label suction and labeling cylinder extends to pick up the label and applies it to the wire roll. After the label suction and labeling cylinder retracts to its original position, the pressing cylinder extends to ensure the rubber band is firmly attached to the label. Attached Figure Description
[0018] Figure 1 The diagram shown is a three-dimensional structural schematic of the metal wire processing device of this utility model.
[0019] Figure 2 The diagram shown is a three-dimensional structural schematic of the grasping structure of this utility model.
[0020] Figure 3 This utility model is shown. Figure 2 A magnified schematic diagram of the three-dimensional structure at point A;
[0021] Figure 4 The diagram shown is a three-dimensional structural schematic of the labeling structure of this utility model;
[0022] Figure 5 The diagram shown is a three-dimensional structural schematic of the flipping structure of this utility model.
[0023] Explanation of reference numerals in the attached drawings: 1. Main body of the metal wire processing device; 2. Gripping structure; 201. Motor; 202. Guide column; 203. Second cylinder; 204. Stop block; 205. Flange linear bearing; 206. First slider; 207. Gear; 208. Sensor bracket; 209. Floating joint; 210. Extension rod; 211. Proximity switch; 212. Third cylinder; 213. Claw; 3. Labeling structure; 301. Printer; 3 02. Slide table cylinder body; 303. Base; 304. Suction cup; 305. Pressing cylinder body; 306. Rotating cylinder body; 307. Rubber band; 308. Connecting plate; 309. Label suction and labeling cylinder body; 4. First cylinder; 5. Tilting structure; 501. Support column; 502. Material roll; 503. Tilting plate; 504. Bearing with seat; 505. Support frame; 506. Second slider; 507. Fourth cylinder; 508. Tilting shaft. Detailed Implementation
[0024] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0025] Please see Figures 1-5This utility model provides an embodiment: a metal wire weighing, labeling, and flipping device, including a metal wire processing device body 1, gripping structures 2 on both the left and right sides inside the metal wire processing device body 1, a labeling structure 3 below the metal wire processing device body 1, a flipping structure 5 located below the metal wire processing device body 1 on one side of the labeling structure 3, a motor 201 above the gripping structure 2, a gear 207 mounted on the motor shaft of the motor 201, a second cylinder 203 above the gripping structure 2, a third cylinder 212 at each of the three end feet below the gripping structure 2, and claws 213 below each of the three third cylinders 212. The labeling structure 3 includes a printer 301, a slide cylinder body 302 on one side of the printer 301, and a rotating cylinder body 306 above the slide cylinder body 302. A clamping cylinder body 305 is provided at the front end of the cylinder body 306, and a label-absorbing and labeling cylinder body 309 is provided at the rear end of the rotating cylinder body 306. A suction cup 304 is provided on one side of the label-absorbing and labeling cylinder body 309. A material roll 502 is provided above the flipping structure 5. A support column 501 is provided inside the material roll 502. Flipping plates 503 are provided on both the left and right sides below the material roll 502. A support frame 505 is provided below the material roll 502. Bearings 504 with seats are provided on both the left and right sides above the support frame 505. A flipping shaft 508 located below the material roll 502 is provided between the two bearings 504. A fourth cylinder 507 is provided below the flipping shaft 508. By integrating the three functions of weighing, labeling and flipping into one metal wire processing device body 1, not only is the work efficiency improved during the processing, but a lot of time is also saved. The multi-functional device is quite flexible.
[0026] Please see Figure 1 and Figure 5 In this embodiment, the metal wire processing device body 1 is provided with an outer shell. Support legs are provided at the four ends of the metal wire processing device body 1. A connecting bracket is provided between two support legs, located below the support frame 505. Second sliders 506 are provided at the left, right, front, and rear ends of the support frame 505. A connecting block is provided between the second sliders 506. A first cylinder 4 is provided on one side of the connecting block. A floating joint 209 is provided below the gripping structure 2, and an extension rod is provided below the floating joint 209. 210. The wire is gripped by the gripping structures 2 on the left and right sides inside the metal wire processing device body 1. The second cylinder 203 controls the up and down movement of the gripping structure 2. The operation of the third cylinder 212 controls the opening and closing movement of the claw 213. The operation of the motor 201 controls the sliding of the gripping structure 2. The operation of the proximity switch 211 controls the gripping structure 2 to stop at the work station. Under the drive of the motor 201, the gripping structure 2 moves on the guide rail of the metal wire processing device body 1 in conjunction with the first slider 206.
[0027] Please see Figures 2-4 In this embodiment, an irregular plate is provided above the three third cylinders 212, located below the gripping structure 2. A guide post 202 is provided through the irregular plate and the four ends of the upper surface of the gripping structure 2. A stop block 204 is provided above the guide post 202. A flange linear bearing 205 is fitted between the guide post 202 and the gripping structure 2. A sensor bracket 208 is provided at the rear end of the gear 207. Multiple evenly arranged proximity switches 211 are provided inside the sensor bracket 208. A first slider 206 is provided at each of the four ends of the moving stage of the gripping structure 2. A connecting plate 308 is provided between the rotary cylinder body 306 and the label-absorbing and label-applying cylinder body 309. A base 303 is provided below the 3, and a rubber band 307 is provided on one side of the pressing cylinder body 305. When the gripping structure 2 releases the material, the fourth cylinder 507 is in the extended state, and the flipping plate 503 is in the horizontal state. After the gripping structure 2 places the material roll 502 on the flipping plate 503, the gripping structure 2 rises and slides through the second slider 506. The labeling structure 3 will attach the label to the material roll 502. The material roll 502 is pushed to the flipping station by the lower fourth cylinder 507 through the flipping structure 5. After it is in place, the fourth cylinder 507 completely retracts the flipping plate 503, so that it is flipped to a certain angle. The material roll 502 will be hooked and fixed by the support column 501 to prevent the material roll 502 from falling.
[0028] During operation, the wire is first gripped by the gripping structures 2 on the left and right sides inside the main body 1 of the metal wire processing device. The second cylinder 203 controls the up and down movement of the gripping structures 2, and the operation of the third cylinder 212 controls the opening and closing movement of the claws 213. The operation of the motor 201 controls the sliding of the gripping structures 2, and the operation of the proximity switch 211 controls the gripping structures 2 to stop at the work station. Driven by the motor 201, the gripping structures 2 move on the guide rail of the main body 1 of the metal wire processing device in conjunction with the first slider 206. When the gripping structures 2 release the material, the fourth cylinder 507 is in the extended state, and the flipping plate 503 is in the horizontal state. After the gripping structures 2 place the material roll 502 on the flipping plate 503, the gripping structures 2 rise and slide through the second slider 506. The labeling structure 3 will affix a label to the material roll 502. The material roll 502 is pushed to the flipping station by the lower fourth cylinder 507. After it is in place, the fourth cylinder 507 completely retracts the flipping plate 503, causing it to flip to a certain angle. The material roll 502 is then hooked and fixed by the support column 501 to prevent the material roll 502 from falling. After the gripping structure 2 grips the material roll 502 onto the flipping structure 5, the printer 301 prints a label. The label suction and labeling cylinder body 309 extends to pick up the label. After picking up the label, the label suction and labeling cylinder body 309 retracts. After the rotating cylinder body 306 rotates to a certain angle, the sliding cylinder body 302 drives the labeling structure 3 to move to the left. After the sliding cylinder body 302 moves to the corresponding position, the label suction and labeling cylinder body 309 extends to stick the label onto the roll. After the label suction and labeling cylinder body 309 retracts to its original position, the pressing cylinder body 305 extends to make the rubber band 307 stick tightly to the label.
[0029] Through the above steps, by integrating the three functions of weighing, labeling, and flipping into one metal wire processing device body 1, not only is work efficiency improved during the processing, but a lot of time is also saved. The multi-functional device is more flexible, which solves the problem that existing metal wire processing devices cannot integrate the three functions of weighing, labeling, and flipping into one, which consumes a lot of time and reduces work efficiency in subsequent processing.
Claims
1. A metal wire weighing, labeling, and flipping device, comprising a metal wire processing device body (1), characterized in that: The metal wire processing device body (1) has gripping structures (2) on both the left and right sides inside. A labeling structure (3) is provided below the metal wire processing device body (1). A flipping structure (5) is provided on one side of the labeling structure (3) below the metal wire processing device body (1). A motor (201) is provided on one side above the gripping structure (2). A gear (207) is installed on the motor shaft of the motor (201). A second cylinder (203) is provided above the gripping structure (2). A third cylinder (212) is provided on each of the three end feet below the gripping structure (2). A claw (213) is provided below each of the three third cylinders (212). The labeling structure (3) includes a printer (301). A slide cylinder body (302) is provided on one side of the printer (301). A slide cylinder body (302) is provided above the slide cylinder body (302). A rotary cylinder body (306) is provided. A pressing cylinder body (305) is provided at the front end of the rotary cylinder body (306). A label suction and labeling cylinder body (309) is provided at the rear end of the rotary cylinder body (306). A suction cup (304) is provided on one side of the label suction and labeling cylinder body (309). A material roll (502) is provided above the flipping structure (5). A support column (501) is provided inside the material roll (502). Flipping plates (503) are provided on both the left and right sides below the material roll (502). A support frame (505) is provided below the material roll (502). A seated bearing (504) is provided on both the left and right sides above the support frame (505). A flipping shaft (508) located below the material roll (502) is provided between the two seated bearings (504). A fourth cylinder (507) is provided below the flipping shaft (508).
2. The metal wire weighing, labeling, and flipping device according to claim 1, characterized in that: The metal wire processing device body (1) is provided with an outer shell, and the four end feet below the metal wire processing device body (1) are provided with support legs.
3. The metal wire weighing, labeling, and flipping device according to claim 2, characterized in that: A connecting bracket is provided between the two support legs and below the support frame (505). Second sliders (506) are provided on the left and right sides and at the front and rear ends below the support frame (505). A connecting block is provided between the second sliders (506). A first cylinder (4) is provided on one side of the connecting block.
4. The metal wire weighing, labeling, and flipping device according to claim 1, characterized in that: A floating joint (209) is provided below the gripping structure (2), and an extension rod (210) is provided below the floating joint (209).
5. The metal wire weighing, labeling, and flipping device according to claim 1, characterized in that: An irregular plate is provided above the three third cylinders (212) and located below the gripping structure (2). A guide post (202) is provided between the irregular plate and the four end feet of the upper surface of the gripping structure (2). A stop block (204) is provided above the guide post (202). A flange linear bearing (205) is provided between the guide post (202) and the gripping structure (2).
6. The metal wire weighing, labeling, and flipping device according to claim 1, characterized in that: A sensor bracket (208) is provided at the rear end of the gear (207). Multiple proximity switches (211) are arranged evenly inside the sensor bracket (208). The four ends of the moving platform of the gripping structure (2) are provided with first sliders (206).
7. The metal wire weighing, labeling, and flipping device according to claim 1, characterized in that: A connecting plate (308) is provided between the rotary cylinder body (306) and the label-absorbing and labeling cylinder body (309). A base (303) is provided below the labeling structure (3). A rubber band (307) is provided on one side of the pressing cylinder body (305).