An ultrasonic label cutting device

By designing an ultrasonic label cutting device, the ultrasonic label cutter and the washing label printer can work together automatically, which solves the problems of low production efficiency and high cost, improves production efficiency and cut quality.

CN224408747UActive Publication Date: 2026-06-26GUANGZHOU KAIFENG ELECTRONIC TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU KAIFENG ELECTRONIC TECHNOLOGY CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-26

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Abstract

The utility model discloses a kind of ultrasonic label cutting devices, including device main body, control assembly is arranged in device main body, device main body is fixedly provided with ultrasonic wave component, blade component is provided below ultrasonic wave component, ultrasonic wave component is electrically connected with control assembly, blade component is electrically connected with control assembly, control assembly is used to receive the signal of washing label printer to control ultrasonic wave component and blade component cooperation to cut washing water label. After control assembly receives the signal of washing label printer, ultrasonic wave component and blade component cooperation cutting washing water label will be controlled, so that washing water label output by washing label printer can be timely cut by ultrasonic wave component and blade component under the signal received by control assembly, without first winding washing water label and then input to ultrasonic label cutting device, to solve the problem of current ultrasonic label cutting machine low efficiency, high cost.
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Description

Technical Field

[0001] This utility model belongs to the field of label cutting equipment, and specifically relates to an ultrasonic label cutting device. Background Technology

[0002] Currently, commonly available printed care labels, such as those made of ribbon or silk, typically involve two processes. First, the label is printed using a printer, and then manually rolled up. Next, the rolled material is transferred to a separate ultrasonic label cutter for further processing. This segmented process is not only cumbersome and time-consuming, but also has low overall production efficiency and relatively high labor costs.

[0003] Although some manufacturers have attempted to place ultrasonic label cutters and washing label printers on the same work surface, the printed washing labels still need to be manually collected before being fed into the label cutter. Even with the two machines relatively close together, true automation cannot be achieved, making it difficult to improve overall efficiency and effectively reduce production costs. Utility Model Content

[0004] The purpose of this invention is to provide an ultrasonic label cutting device to solve the problems of low efficiency and high cost caused by the relatively independent setup of current ultrasonic label cutting machines and washing label printers.

[0005] To solve the above-mentioned technical problems, this utility model provides an ultrasonic label cutting device, including a device body, a control component inside the device body, an ultrasonic component fixedly mounted on the device body, a blade assembly below the ultrasonic component, the ultrasonic component being electrically connected to the control component, and the blade assembly being electrically connected to the control component. The control component is used to receive signals from the label printer to control the ultrasonic component and the blade assembly to cooperate in cutting the wash label.

[0006] Furthermore, the ultrasonic component includes an ultrasonic transducer and an ultrasonic transducer. The ultrasonic transducer is fixedly connected to the main body of the device, and the ultrasonic transducer is provided on the side of the ultrasonic transducer facing the ground.

[0007] Furthermore, the main body of the device includes a central plate, which is horizontally positioned, and the ultrasonic components are positioned above the central plate.

[0008] The blade assembly includes a blade drive motor, a blade moving assembly, and a blade section. The blade section is fixedly connected to the blade moving assembly. The top of the blade section is a wedge-shaped cutting end, and the blade section is located directly below the ultrasonic transducer section. The blade drive motor is located below the middle plate of the device.

[0009] Furthermore, the blade moving assembly includes several connecting rods, one end of which is connected to the blade drive motor, and the other end is connected to the blade fixing part. A blade part is fixedly connected to one side of the blade fixing part, and a slider part is fixedly connected to the opposite side of the blade fixing part. A track part is slidably connected to the slider part, and the track part is fixedly connected to the main body of the device.

[0010] Furthermore, a spring is also fitted onto the connecting rod, with one end of the spring fixedly connected to the blade fixing part.

[0011] Furthermore, the main body of the device is also equipped with a washing label input component, which is used to transport the washing label output by the washing label printer to the ultrasonic transducer and the blade section for cutting.

[0012] Furthermore, the label input component includes two label placement plates and two label conveying cylinders. The label placement plates are arranged horizontally and are fixedly connected to the main body of the device. The two label conveying cylinders are arranged vertically. One end of the label conveying cylinder is fixedly connected to the motor shaft of the conveying cylinder motor, and the other end is rotatably connected to the main body of the device. The conveying cylinder motor is used to drive the label conveying cylinder to rotate and convey the washing labels on the label placement plate near the label printer to the other label placement plate. The conveying cylinder motor is electrically connected to the control component.

[0013] Furthermore, the main body of the device is fixedly connected to a wash label output component, which is used to output the wash labels cut by the ultrasonic component and the blade component.

[0014] Furthermore, an electrostatic eliminator is installed above the label output component, and the electrostatic eliminator is fixedly connected to the main body of the device.

[0015] Furthermore, the main body of the device is provided with an operating component, which includes a button section and a display section. The button section and the display section are electrically connected to the control component. The display section is used to display information, and the button section is used to send commands.

[0016] The beneficial effects of the ultrasonic label cutting device provided by this utility model are as follows: Because the device includes a main body with a control component inside, the control component can receive signals from the label printer. An ultrasonic component is fixedly mounted on the main body, and a blade assembly is located below the ultrasonic component. Upon receiving the signal from the label printer, the control component controls the ultrasonic component and the blade assembly to cooperate in cutting the wash label. This allows the wash label output by the label printer to be promptly cut by the ultrasonic component and the blade assembly under the signal received by the control component, eliminating the need to first roll up the wash label before feeding it into the ultrasonic label cutting device. This solves the problems of low efficiency and high cost of current ultrasonic label cutting machines. Attached Figure Description

[0017] Figure 1This is a first side view of the ultrasonic label cutting device;

[0018] Figure 2 This is a second side view of the ultrasonic label cutting device. Detailed Implementation

[0019] To better understand the purpose, structure, and function of this utility model, the following description is in conjunction with the appendix. Figure 1 and attached Figure 2 The present invention provides a more detailed description of an ultrasonic label cutting device.

[0020] like Figure 1 and Figure 2 As shown, an ultrasonic label cutting device according to an embodiment of this utility model includes a device body 100, a control component inside the device body 100, an ultrasonic component 200 fixedly mounted on the device body 100, and a blade assembly below the ultrasonic component 200. The ultrasonic component 200 is electrically connected to the control component, and the blade assembly is also electrically connected to the control component. The control component receives signals from a label printer to control the ultrasonic component 200 and the blade assembly to cooperate in cutting the wash label. The ultrasonic component 200 includes an ultrasonic transducer 210 and an ultrasonic vibrator 220. The ultrasonic transducer 210 is fixedly connected to the device body 100, and the ultrasonic vibrator 220 is located on the side of the ultrasonic transducer 210 facing the ground. The device body 100 includes a device middle plate 110, which is horizontally arranged, and the ultrasonic component 200 is positioned above the device middle plate 110.

[0021] The blade assembly includes a blade drive motor 310, a blade moving assembly 320, and a blade part 330. The blade part 330 is fixedly connected to the blade moving assembly 320. The top end of the blade part 330 is a wedge-shaped cutting end 331. The blade part 330 is located directly below the ultrasonic transducer part 220. The blade drive motor 310 is located below the middle plate 110 of the device.

[0022] In this utility model, the blade moving assembly 320 includes several connecting rods 321. One end of the connecting rod 321 is connected to the blade drive motor 310, and the other end is connected to the blade fixing part 322. A blade part 330 is fixedly connected to one side of the blade fixing part 322. A slider part 323 is fixedly connected to the opposite side of the blade fixing part 330. A track part 324 is slidably connected to the slider part 323. The track part 324 is fixedly connected to the main body 100 of the device.

[0023] The principle behind this cutting method is to use high-frequency mechanical vibration energy to locally and instantaneously melt or fracture the material, achieving efficient and precise cutting. Currently, some cold cutting methods on the market (such as using scissors) involve shearing, which can cause wire to bleed out of the cut, affecting subsequent use. However, this thermal cutting method, which uses a combination of ultrasonic component 200 and blade assembly, causes melting at the cut, creating a relatively sealed cut that effectively prevents wire from bleeding out.

[0024] When using this product, the control unit needs to be connected to the signal output port of the wash label printer first. Some wash label printers will emit signals during operation, such as a power-on signal or a signal to output the wash label. It is compatible with many wash label printers, such as the Japanese a-pos mercury series, the Japanese Sato 4nx series, the German cab xdq series, and the Japanese Chuwa CMM Vega / spica series. Some models of these wash label printers also have cutting devices, but these are all cold-cutting blades.

[0025] When the control component receives a signal to start the label printer, it sends a command to the acoustic component 200, at which point the acoustic component 200 begins operation. When the label printer sends a cutting signal, based on a pre-calibrated time difference, the control component sends a signal to the blade assembly, causing the blade drive motor 310 to start running. This pushes the connecting rod 321 upwards, which in turn moves the blade fixing part 322 upwards. The blade fixing part 322 then moves the blade part 330 closer to the ultrasonic transducer part 220. Finally, the cutting ends 331 of the ultrasonic transducer part 220 and the blade part 330 clamp the label in the middle, performing heat cutting and fusing the edges. Here, an eccentric wheel can be installed on the motor shaft of the blade drive motor 310. The rotation of the eccentric wheel pushes the connecting rod 321 upwards.

[0026] The ultrasonic transducer 210 converts electrical energy into a high-frequency electrical signal. The piezoelectric material inside the ultrasonic transducer 220 generates longitudinal stretching vibrations under the action of an alternating electric field, converting electrical energy into mechanical vibrations of the same frequency. When this high-frequency vibration comes into contact with the material of the wash label, it generates intense friction, causing the local temperature to rise instantaneously to the material's melting point (e.g., 200–300℃ for synthetic fibers), melting and softening the contact area and reducing the shear strength of the wash label. The molten material re-solidifies at the moment of cutting, forming a smooth, sealed edge, preventing the wash label's threads from fraying or the fibers from coming apart. From receiving the start signal to the cutting signal from the control component, the control component controls the ultrasonic component 200 and the blade component to perform different actions. This allows the wash labels output by the printer to be automatically and directly cut directly from the printer without needing to be re-rolled and sent to the ultrasonic label cutting device. This process eliminates the need for manual roll-up and re-feeding of the wash labels, reducing human intervention and thus improving efficiency and reducing costs. It can also improve the shearing quality of wash labels.

[0027] In some embodiments, a spring portion 325 is also fitted onto the connecting rod 321, with one end of the spring portion 325 fixedly connected to the blade fixing portion 322. This design can reduce the impact of the blade portion 330 on the ultrasonic transducer portion 220 when the blade drive motor 310 pushes the blade portion 330 upward, thereby reducing the possibility of the blade portion 330 damaging the ultrasonic transducer portion 220.

[0028] The main body 100 of the device is also fixed with a label input component, which is used to transport the wash labels output by the wash label printer to the ultrasonic transducer 220 and the blade 330 for cutting. The label input component includes two wash label placement plates 410 and two wash label conveying cylinders 420. The wash label placement plates 410 are arranged horizontally and are fixedly connected to the main body 100 of the device. The two wash label conveying cylinders 420 are arranged vertically. One end of the wash label conveying cylinder 420 is fixedly connected to the motor shaft of the conveying cylinder motor 430, and the other end is rotatably connected to the main body 100 of the device. The conveying cylinder motor 430 is used to drive the wash label conveying cylinder 420 to rotate and transport the wash labels on the wash label placement plate 410 close to the wash label printer to the other wash label placement plate 410. The conveying cylinder motor 430 is electrically connected to the control component.

[0029] To more efficiently transport the wash label between the ultrasonic component 200 and the blade section 330 for cutting, a wash label input component is provided. This component consists of two wash label placement plates 410, two wash label conveying cylinders 420, and a conveying cylinder motor 430. When the wash label enters the wash label placement plate 410 closest to the wash label printer, it slides to the two wash label conveying cylinders 420 due to inertia. The two conveying cylinders 420 are arranged vertically with a gap in the middle for the wash label to pass through. When the wash label reaches the wash label conveying cylinder 420, the conveying cylinder 420, driven by the conveying cylinder motor 430, rotates and transports the wash label to the other wash label placement plate 410. At this point, the wash label, driven by inertia, slides between the ultrasonic component 200 and the blade section 330, where it is cut. Typically, after the control component receives the start signal of the label printer, it sends a command to the conveyor motor 430, causing the label conveyor 420 to start rotating.

[0030] Understandably, the main body 100 of the device is fixedly connected to a label output assembly 500, which is used to output the label cut by the ultrasonic component 200 and the blade component. To efficiently collect the cut labels, the label output assembly 500 is provided, and this assembly 500 can utilize a conveyor belt. The cut labels fall onto the output assembly 500, which then carries the labels to the next process step.

[0031] In this utility model, a static electricity elimination component 600 is provided above the washing label output component 500, and the static electricity elimination component 600 is fixedly connected to the main body 100 of the device.

[0032] To facilitate better operation of the ultrasonic label cutting device, an operation component 700 is provided in the main body 100. The operation component 700 includes a button section 710 and a display section 720, which are electrically connected to a control component. The display section 720 displays information, and the button section 710 sends commands. The operator can see the current operating status of the device through the display section 720. Through the button section 710, the operator can send commands to the control component, thereby manually controlling the ultrasonic label cutting device, such as stopping it.

[0033] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the scope of protection of this utility model.

Claims

1. An ultrasonic label cutting device, characterized in that, The device includes a main body (100), inside which a control component is provided. An ultrasonic component (200) is fixedly installed on the main body (100), and a blade assembly is provided below the ultrasonic component (200). The ultrasonic component (200) is electrically connected to the control component, and the blade assembly is electrically connected to the control component. The control component is used to receive signals from the label printer to control the ultrasonic component (200) and the blade assembly to cooperate in cutting the label.

2. The ultrasonic label cutting device according to claim 1, characterized in that, The ultrasonic component (200) includes an ultrasonic transducer (210) and an ultrasonic transducer (220). The ultrasonic transducer (210) is fixedly connected to the main body (100) of the device. The ultrasonic transducer (220) is provided on the side of the ultrasonic transducer (210) facing the ground.

3. The ultrasonic label cutting device according to claim 2, characterized in that, The main body (100) of the device includes a middle plate (110), which is horizontally arranged, and the ultrasonic component (200) is arranged above the middle plate (110); The blade assembly includes a blade drive motor (310), a blade moving assembly (320), and a blade section (330). The blade section (330) is fixedly connected to the blade moving assembly (320). The top end of the blade section (330) is a wedge-shaped cutting end (331). The blade section (330) is located directly below the ultrasonic transducer section (220). The blade drive motor (310) is located below the middle plate (110) of the device.

4. The ultrasonic label cutting device according to claim 3, characterized in that, The blade moving assembly (320) includes several connecting rods (321). One end of each connecting rod (321) is connected to the blade drive motor (310), and the other end is connected to a blade fixing part (322). A blade part (330) is fixedly connected to one side of the blade fixing part (322). A slider part (323) is fixedly connected to the opposite side of the blade part (330) by the blade fixing part (322). A track part (324) is slidably connected to the slider part (323), and the track part (324) is fixedly connected to the main body (100) of the device.

5. The ultrasonic label cutting device according to claim 4, characterized in that, A spring portion (325) is also sleeved on the connecting rod (321), and one end of the spring portion (325) is fixedly connected to the blade fixing portion (322).

6. The ultrasonic label cutting device according to claim 5, characterized in that, The main body (100) of the device is also fixed with a washing label input component, which is used to transport the washing label output by the washing label printer to the ultrasonic transducer (220) and the blade (330) for cutting.

7. The ultrasonic label cutting device according to claim 6, characterized in that, The label input component includes two label placement plates (410) and two label conveying cylinders (420). The label placement plates (410) are arranged horizontally and are fixedly connected to the main body (100) of the device. The two label conveying cylinders (420) are arranged vertically. One end of the label conveying cylinder (420) is fixedly connected to the motor shaft of the conveying cylinder motor (430), and the other end is rotatably connected to the main body (100) of the device. The conveying cylinder motor (430) is used to drive the label conveying cylinder (420) to rotate and convey the label on the label placement plate (410) near the label printer to the other label placement plate (410). The conveying cylinder motor (430) is electrically connected to the control component.

8. The ultrasonic label cutting device according to claim 1, characterized in that, The main body (100) of the device is fixedly connected to a washing label output assembly (500), which is used to output the washing label cut by the ultrasonic component (200) and the blade assembly.

9. The ultrasonic label cutting device according to claim 8, characterized in that, A static electricity elimination component (600) is provided above the washing label output component (500), and the static electricity elimination component (600) is fixedly connected to the main body (100) of the device.

10. The ultrasonic label cutting device according to claim 1, characterized in that, The main body (100) of the device is provided with an operation component (700), which includes a button part (710) and a display part (720). The button part (710) and the display part (720) are electrically connected to the control component. The display part (720) is used to display information, and the button part (710) is used to send commands.