Electric cupping device with identification function
By incorporating a sensing and triggering module into the electric cupping device, the device automatically identifies the cup model and matches the operating mode, thus solving the problem of misjudgment caused by manual identification by medical staff in existing technologies and improving efficiency and accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 广东斐瑞智能技术有限公司
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-05
AI Technical Summary
Existing electric cupping devices require medical staff to visually identify the cup model and manually select the working mode, which requires a high level of experience and is prone to misjudgment, affecting the effectiveness of use.
A sensor module and a trigger module are installed at the connection between the air extraction device and the container. The sensor module automatically identifies the container model and matches the corresponding working mode.
Automatic mode matching of the electric cupping device has been achieved, reducing human error and improving efficiency and accuracy.
Smart Images

Figure CN224320893U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of electric cupping devices, specifically relating to an electric cupping device with identification function. Background Technology
[0002] Current electric cupping devices often require the use of many different negative pressure cups. Different locations on the body generally require cups of different sizes and shapes. Electric cupping devices typically select different operating modes based on the shape of the cups, with varying suction times and pressures depending on the mode. Currently, medical personnel generally need to visually identify the cup type and select the appropriate mode when using existing electric cupping devices. This requires a high level of experience from the medical staff and is also time-consuming. When the cups are very similar in shape and size, it can easily lead to misjudgment by medical personnel, thus affecting the normal use of the electric cupping device. Utility Model Content
[0003] To address the aforementioned problems in existing technologies, this solution provides an electric cupping device with recognition functionality.
[0004] The technical solution adopted in this utility model is as follows:
[0005] An electric cupping device with identification function includes a cup and an air extraction device; the air extraction device is detachably connected to the cup and is used to extract air from inside the cup.
[0006] A sensor module is installed at the bottom or inside of the vacuum device, and a trigger module is installed at the connector of the can; the trigger module corresponds to the model of the can; after the vacuum device is connected to the can, the sensor module can sense the trigger module to identify the can.
[0007] As an alternative or supplement to the above structure: the connector is provided with multiple protruding teeth, which are distributed in a ring; the lower end of the air extraction device is provided with a connection port, and the side wall of the connection port is provided with grooves that mesh with the protruding teeth.
[0008] As an alternative or supplement to the above structure: the trigger module is disposed on the protruding tooth.
[0009] As an alternative or supplement to the above structure, one or more trigger modules are provided on each tooth.
[0010] As alternatives or supplements to the above structure: the trigger module is a magnetic block, and the sensing and identification module is a Hall sensor; or, the trigger module is an RFID electronic tag, and the sensing and identification module is an RFID reader; or, the trigger module is a raised mechanical contact, and the sensing and identification module is a position sensor; or, the trigger module is a color mark, and the sensing and identification module is a light sensor.
[0011] As an alternative or supplement to the above structure: the trigger module consists of multiple magnetic blocks, and the different arrangements of the multiple magnetic blocks cause the sensing and recognition module to generate different sensing signals.
[0012] As an alternative or supplement to the above structure: the connector is provided with an inner convex ring and an outer convex ring, and an annular groove is formed between the inner convex ring and the outer convex ring. The inner convex ring has a central hole, and the protruding teeth are provided on the outer side wall of the outer convex ring. An air extraction hole is provided at the bottom of the annular groove, and the electric cupping device extracts air from the cupping cup through the air extraction hole.
[0013] As an alternative or supplement to the above structure: an annular alignment groove is provided at the connection port, and when the can cup is connected to the air extraction device, both the inner and outer convex rings are inserted into the alignment groove.
[0014] As an alternative or supplement to the above structure: the air extraction device has different working modes, and the working mode of the air extraction device corresponds to the model of the container; the air extraction time or air extraction pressure of the air extraction device is different in different working modes.
[0015] The beneficial effects of this utility model are as follows: In the structure of this solution, due to the setting of the sensing and identification module, the trigger module on the cup can be identified accordingly, thereby identifying the model of the cup, which facilitates the automatic matching of the working mode of the electric cupping device, or facilitates medical staff to select the working mode, ensuring the normal use of the electric cupping device. Attached Figure Description
[0016] To more clearly illustrate the technical solutions in the embodiments of this scheme or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0017] Figure 1 This is an exploded structural diagram of the electric cupping device in this design.
[0018] Figure 2 This is a structural diagram of a jar / cup.
[0019] Figure 3 (a), (b), and (c) are structural diagrams of three different jars / cups;
[0020] Figure 4 This is a schematic diagram of the electric cupping device in this solution.
[0021] In the diagram: 1-End cap; 2-Main control board; 3-Evacuation assembly; 4-Induction recognition module; 5-Outer shell; 51-Connection port; 6-Can cup; 61-Plug; 62-Connector; 63-Trigger module; 64-Ring groove; 65-Center hole. Detailed Implementation
[0022] The technical solutions in this embodiment will be clearly and completely described below with reference to the accompanying drawings. The described embodiments are only a part of the embodiments, not all of them. All other embodiments obtained by those skilled in the art based on the embodiments in this solution without creative effort are within the protection scope of this solution.
[0023] like Figures 1 to 4 As shown, this embodiment designs an electric cupping device with identification function, including a cup 6 and an air extraction device. The air extraction device is detachably connected to the cup 6 and is used to extract air from inside the cup 6, thereby achieving the cupping effect.
[0024] A sensor module 4 is provided at the bottom or inside of the vacuum device, and a trigger module 63 is provided at the connector 62 of the can cup 6; the trigger module 63 corresponds to the model of the can cup 6; after the vacuum device is connected to the can cup 6, the sensor module 4 can sense the trigger module 63 to identify the can cup 6.
[0025] The trigger module 63 and the sensing and identification module 4 can have various structural forms. Specifically: when the trigger module 63 is a magnetic block, the sensing and identification module 4 is a Hall sensor; when the trigger module 63 is an RFID electronic tag, the sensing and identification module 4 is an RFID reader; when the trigger module 63 is a raised mechanical contact, the sensing and identification module 4 is a position sensor; when the trigger module 63 is a color mark, the sensing and identification module 4 is a light sensor.
[0026] The connector 62 is provided with an inner convex ring and an outer convex ring. The lower end of the suction device is provided with a connection port 51, and the connection port 51 is provided with an annular alignment groove. When the cup 6 is connected to the suction device, both the inner convex ring and the outer convex ring are inserted into the alignment groove. The inner convex ring has a central hole 65, through which a light installed on the suction device can shine on the cup 6. An annular groove 64 is formed between the inner convex ring and the outer convex ring, and a suction hole is provided at the bottom of the annular groove 64. The electric cupping device evacuates air from the cup 6 through the suction hole.
[0027] Multiple protruding teeth are provided at the connector 62. The protruding teeth are located on the outer side wall of the outer protruding ring and are distributed in a ring. Multiple grooves are provided on the side wall of the connector 51 (i.e., the groove wall outside the alignment groove). The grooves are distributed in a ring and correspond one-to-one with the protruding teeth. The protruding teeth can engage with the grooves, thereby realizing the detachable connection between the can cup 6 and the air extraction device.
[0028] The trigger module 63 can be mounted on the protrusion. One or more trigger modules 63 can be mounted on each protrusion. This allows the cup 6 to be installed at any angle, enabling sensing and recognition between the trigger module 63 and the sensing and recognition module 4.
[0029] The trigger module 63 can be composed of multiple magnetic blocks, which can be arranged in different ways to generate different sensing signals by the sensing and recognition module 4.
[0030] The vacuum pump includes a main control board 2, an end cap 1, a housing 5, and a vacuum assembly 3. The end cap 1 is located on top of the housing 5 and can close the housing. The main control board 2 is located in the center of the end cap 1 for easy button operation and parameter setting by medical personnel. The vacuum assembly 3 is located inside the housing 5. The main control board is connected to and powered by a battery, and a charging port can also be provided on the main control board to charge the battery. The main control board is used to control the power supply to the negative pressure air pump and the opening and closing of the solenoid valve.
[0031] This solution uses the sensing module 4 to identify the cup 6. After identification, the electric cupping device can automatically operate in the corresponding working mode and can also remind medical staff to select the appropriate working mode in the future, ensuring the normal use of the electric cupping device. The electric cupping device has different parameters such as suction volume, suction pressure, and suction time in different working modes. Specific parameters can be manually set according to the corresponding cup 6. For example, cup 6 is... Figure 1 The shape in, or Figure 3 When any of the shapes (a), (b), and (c) are present,
[0032] The above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation; it is neither necessary nor possible to exhaustively list all possible implementations. However, obvious variations or modifications derived therefrom remain within the scope of this technology.
Claims
1. An electric cupping device with identification function, characterized in that: Includes a canister (6) and an air extraction device; the air extraction device is detachably connected to the canister (6) and is used to extract air from inside the canister (6); A sensor identification module (4) is provided at the bottom or inside of the vacuum device, and a trigger module (63) is provided at the connector (62) of the can (6); the trigger module (63) corresponds to the model of the can (6); after the vacuum device is connected to the can (6), the sensor identification module (4) can sense the trigger module (63) so as to identify the can (6).
2. The electric cupping device with identification function according to claim 1, characterized in that: The connector (62) is provided with multiple protruding teeth, which are distributed in a ring shape; the lower end of the air extraction device is provided with a connection port (51), and the side wall of the connection port (51) is provided with a groove that bites into the protruding teeth.
3. The electric cupping device with identification function according to claim 2, characterized in that: The trigger module (63) is located on the protruding tooth.
4. The electric cupping device with identification function according to claim 3, characterized in that: Each tooth is equipped with one or more trigger modules (63).
5. The electric cupping device with identification function according to any one of claims 1-4, characterized in that: The trigger module (63) is a magnetic block, and the sensing and identification module (4) is a Hall sensor; or, the trigger module (63) is an RFID electronic tag, and the sensing and identification module (4) is an RFID reader; or, the trigger module (63) is a raised mechanical contact, and the sensing and identification module (4) is a position sensor; or, the trigger module (63) is a color mark, and the sensing and identification module (4) is a light sensor.
6. The electric cupping device with identification function according to claim 5, characterized in that: The trigger module (63) consists of multiple magnetic blocks. The different arrangements of the multiple magnetic blocks cause the sensing and recognition module (4) to generate different sensing signals.
7. The electric cupping device with identification function according to any one of claims 2-4, characterized in that: An inner convex ring and an outer convex ring are provided at the connector (62), and an annular groove (64) is formed between the inner convex ring and the outer convex ring. The inner convex ring has a central hole (65), and the protruding teeth are provided on the outer side wall of the outer convex ring. An air extraction hole is provided at the bottom of the annular groove (64), and the electric cupping device extracts air from the cup (6) through the air extraction hole.
8. The electric cupping device with identification function according to claim 7, characterized in that: An annular alignment groove is provided at the connection port (51). When the can cup (6) is connected to the air extraction device, both the inner and outer convex rings are inserted into the alignment groove.
9. The electric cupping device with identification function according to any one of claims 1-4, characterized in that: The air extraction device has different working modes, and the working mode of the air extraction device corresponds to the model of the canister (6); the air extraction time or air extraction pressure of the air extraction device is different under different working modes.