Multifunctional electric cupping device
By designing a multifunctional electric cupping device that combines an air pump and a drive assembly, the dual functions of cupping and fascia gun are achieved, solving the problem of the single function of existing cupping devices and enhancing practicality and therapeutic effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YONGKANG SHUANGJIN HEALTH EQUIP FACTORY
- Filing Date
- 2024-12-31
- Publication Date
- 2026-06-26
AI Technical Summary
Existing electric cupping devices have relatively limited functions, only performing the cupping effect and lacking versatility.
A multifunctional electric cupping device was designed, which combines an air pump and a drive assembly. It can be equipped with a cupping jar or a fascia gun head. The air pump generates negative pressure to achieve the cupping effect, and the drive assembly drives the reciprocating rod to achieve the function of a fascia gun, thus realizing the dual use of cupping and fascia gun.
It achieves the multi-functionality of cupping devices, enabling them to be used as fascia guns in addition to cupping, thus enhancing their practicality and achieving the effects of removing dampness, detoxifying, promoting blood circulation, and removing blood stasis.
Smart Images

Figure CN224403974U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of medical device technology, specifically referring to a multifunctional electric cupping device. Background Technology
[0002] Cupping therapy uses cups as tools, employing methods such as burning, suction, and squeezing to expel air from inside the cups, creating negative pressure. This causes the cups to adhere to specific areas of the body, producing widespread stimulation and resulting in local congestion or bruising, thus achieving the therapeutic effects of disease prevention, treatment, and strengthening the body. Currently available electric cupping devices create negative pressure within the cups, allowing them to adhere to selected areas. By causing subcutaneous and superficial muscle congestion, they stimulate the skin, meridians, and acupoints to achieve effects such as detoxification, meridian unblocking, and promoting blood circulation. However, current electric cupping devices on the market have relatively limited functions, only performing the cupping function. Therefore, it is necessary to provide a multi-functional cupping device. Summary of the Invention
[0003] The purpose of this invention is to provide a multifunctional electric cupping device with a simple structure that can be used not only as a cupping device but also as a fascia gun.
[0004] The purpose of this utility model is achieved as follows:
[0005] A multifunctional electric cupping device includes a main body, a working head mounting base disposed on the main body, an air pump disposed within the main body, and a control component for controlling the operation of the air pump. The working head mounting base forms an installation space. The air pump has an air extraction port connected to the installation space. The installation space can be used to install cupping jars or fascia gun heads. When the air pump operates, it can extract gas from the cupping jar. The main body also includes a reciprocating rod and a drive component for driving the reciprocating rod to reciprocate. The drive component includes a drive motor, a motor shaft disposed on the drive motor, and an eccentric component disposed on the motor shaft. The eccentric component is connected to the reciprocating rod, and the reciprocating rod is connected to the working head mounting base. The working head mounting base is slidably disposed on the main body. The control component can also control the operation of the drive motor. After the drive motor operates, it can drive the reciprocating rod to reciprocate through the eccentric component. The reciprocating rod can drive the working head mounting base and the fascia gun head installed in the installation space to reciprocate synchronously.
[0006] Furthermore, the working head mounting base is provided with a connection interface, the connection interface has a through hole communicating with the installation space, a hollow-formed air extraction pipe is provided between the connection interface and the air extraction interface, the two ends of the air extraction pipe are respectively connected to the connection interface and the air extraction interface, and the air pump is also provided with an exhaust port.
[0007] Furthermore, the eccentric component includes a connecting seat and an eccentric shaft disposed on the connecting seat. A connecting groove is provided at the bottom of the connecting seat, and the motor shaft is disposed in the connecting groove and fixedly connected to the connecting seat. The rear end of the reciprocating rod is connected to the eccentric shaft.
[0008] Furthermore, a linkage hole is provided at the rear end of the reciprocating rod, the eccentric shaft is disposed in the connecting groove, a bearing is provided in the linkage hole, and the bearing is sleeved on the eccentric shaft.
[0009] Furthermore, the front end of the main body is provided with a guide portion, and the guide portion is provided with a mounting groove. One end of the working head mounting seat passes through the main body and protrudes into the mounting groove. The mounting groove is provided with a guide ring, and the guide ring is provided with a guide hole. One end of the working head mounting seat is located in the guide hole.
[0010] Furthermore, the outer side of the guide portion is provided with an external thread, and the guide portion is provided with a pressure cap. The inner wall of the pressure cap is provided with an internal thread that matches the external thread. The pressure cap is threadedly connected to the guide portion and sleeved on the guide portion. The inner end of the pressure cap abuts against the guide ring. The pressure cap is provided with a movable hole, and the movable hole corresponds to the position of one end of the working head mounting seat.
[0011] Furthermore, the front end of the reciprocating rod is integrally formed with the working head mounting base.
[0012] Furthermore, the main body is provided with a fixing cavity and an installation cavity, the drive motor is fixedly installed in the fixing cavity, and the air pump is fixedly installed in the installation cavity.
[0013] Furthermore, the control component includes a circuit board and a first sensing control module and a second sensing control module disposed on the circuit board. The first sensing module and the second sensing module can be used to control the operation of the air pump and the drive motor, respectively. The main body is provided with a transparent cover corresponding to the position of the circuit board. The transparent cover is provided with a first control part corresponding to the position of the first sensing module and a second control part corresponding to the position of the second sensing module.
[0014] Furthermore, the main body is also equipped with a battery pack, which can provide power to the drive motor and the air pump.
[0015] The outstanding and beneficial technical effects of this utility model compared to the prior art are:
[0016] This utility model belongs to the technical field of cupping devices, specifically referring to a multifunctional electric cupping device. It includes a main body, a working head mounting base on the main body, an air pump installed within the main body, and a control component for controlling the air pump. The air pump is a common device used to extract air from a space. The air pump's suction port is connected to the mounting space within the working head mounting base. This mounting space can be used to install cupping jars or fascia gun heads. Most cupping jars on the market have a suction port on one end. When the user installs the cupping jar into the mounting space, the suction port inside the jar connects to the space. After the jar is placed against the skin, the user controls the air pump via the control component. The air pump then extracts air from the jar through the mounting space, creating negative pressure within the jar. This causes the jar to adhere tightly to the skin, resulting in a raised area of skin at the cupping jar location. This achieves the effects of removing dampness, detoxifying, promoting blood circulation, and improving blood flow. It has effects such as removing blood stasis. The main body is equipped with a reciprocating rod and a drive assembly that drives the reciprocating rod to reciprocate. The drive assembly consists of a drive motor, a motor shaft mounted on the drive motor, and an eccentric part mounted on the motor shaft. The eccentric part is connected to the reciprocating rod, and the reciprocating rod is connected to the working head mounting seat. The working head mounting seat is slidably mounted on the main body. The control assembly can also control the operation of the drive motor. When the user wants to use the cupping device as a fascia gun, the user can install one end of the fascia gun head into the installation space. The user can control the operation of the drive motor through the control assembly. When the drive motor is working, it will drive the motor shaft to rotate. The rotation of the motor shaft will drive the eccentric part to move eccentrically. The eccentric part will then drive the reciprocating rod to reciprocate. The reciprocating rod will drive the working head mounting seat to reciprocate relative to the main body, thereby causing the fascia head mounted on the working head mounting seat to reciprocate synchronously. This allows the electric cupping device to be used as a fascia gun, achieving a multi-functional effect and enhancing its practicality. Attached Figure Description
[0017] Figure 1 This is a perspective view of the present invention.
[0018] Figure 2 This is a schematic diagram of the installation of the fascia gun head according to this utility model.
[0019] Figure 3 This is a schematic diagram of the cupping device for this utility model.
[0020] Figure 4 This is an exploded view of the clamping cap, guide ring, and guide part of this utility model.
[0021] Figure 5 This is one of the internal structural diagrams of this utility model.
[0022] Figure 6This is the second schematic diagram of the internal structure of this utility model.
[0023] Figure 7 This is a cross-sectional view of the present invention.
[0024] Figure 8 yes Figure 7 A magnified view of a portion of point A in the middle.
[0025] Figure 9 This is an exploded view of the main body of this utility model, the circuit board, the air pump, the drive assembly, and the battery pack.
[0026] Figure 10 This is a three-dimensional view of the circuit board of this utility model.
[0027] Figure 11 This is a structural schematic diagram of the air pump, reciprocating rod, and working head mounting base of this utility model.
[0028] Figure 12 This is an exploded view of the air pump, working head mounting base, drive assembly, and reciprocating rod of this utility model.
[0029] Figure 13 This is an exploded view of the air pump and working head mounting base of this utility model.
[0030] Figure 14 This is an exploded view of the drive motor and eccentric component of this utility model.
[0031] Figure 15 This is a perspective view of the eccentric component of this utility model.
[0032] Figure 16 This is a perspective view of the working head mounting base and reciprocating rod of this utility model.
[0033] The meaning of the labels in the diagram:
[0034] 1-Main body; 2-Working head mounting base; 3-Air pump; 4-Installation space; 5-Air extraction interface;
[0035] 6-Cupping cup body; 7-Fascia gun head; 8-Reciprocating rod; 9-Drive motor; 10-Motor shaft;
[0036] 11-Eccentric component; 12-Connecting interface; 13-Through hole; 14-Ejection pipe; 15-Exhaust port;
[0037] 16-Connecting seat; 17-Eccentric shaft; 18-Connecting groove; 19-Linking hole; 20-Bearing;
[0038] 21-Guide section; 22-Mounting groove; 23-Guide ring; 24-Guide hole; 25-Pressure cap;
[0039] 26-Modible hole; 27-Fixed cavity; 28-Mounting cavity; 29-Circuit board; 30-First sensing control module;
[0040] 31-Second sensing control module; 32-Transparent cover; 33-First control unit;
[0041] 34-Second control unit; 35-Battery pack. Detailed Implementation
[0042] The present invention will be further described below with reference to specific embodiments:
[0043] This utility model belongs to the field of cupping device technology, specifically referring to a multi-functional electric cupping device, including a main body 1, a working head mounting base 2 disposed on the main body 1, an air pump 3 disposed within the main body 1, and a control component for controlling the operation of the air pump 3. The air pump 3 is a common device on the market used to extract air from a space. The air extraction port 5 on the air pump 3 is connected to the mounting space 4 within the working head mounting base 2. The mounting space 4 can be used to install the cupping jar body 6 or the fascia gun head 7. Currently, most cupping jar bodies 6 on the market have an air extraction hole at one end. After the user installs the cupping jar 6 into the installation space 4, the air extraction port inside the cupping jar 6 will connect with the installation space 4. Then, after the cupping jar 6 is placed against the skin, the user controls the air extraction pump 3 via the control component. The air extraction pump 3 will extract the air from the cupping jar 6 through the installation space 4, creating negative pressure inside the cupping jar 6. This causes the cupping jar 6 to adhere tightly to the skin, resulting in a raised area on the skin at the location of the cupping jar 6. This achieves effects such as removing dampness, detoxifying, promoting blood circulation, and removing blood stasis. As a result, the main body 1 also includes a reciprocating rod 8 and a drive assembly for driving the reciprocating rod 8 to reciprocate. The drive assembly consists of a drive motor 9, a motor shaft 10 mounted on the drive motor 9, and an eccentric component 11 mounted on the motor shaft 10. The eccentric component 11 is connected to the reciprocating rod 8, and the reciprocating rod 8 is connected to the working head mounting seat 2. The working head mounting seat 2 is slidably mounted on the main body 1. The control assembly can also control the operation of the drive motor 9. When the user wants to use the cupping device as a fascia gun, the user can install one end of the fascia gun head 7. Within the installation space 4, the user can control the drive motor 9 to operate via the control components. When the drive motor 9 operates, it will drive the motor shaft 10 to rotate. The rotation of the motor shaft 10 will drive the eccentric component 11 to perform eccentric motion. The eccentric component 11 will drive the reciprocating rod 8 to perform reciprocating motion. The reciprocating rod 8 will drive the working head mounting seat 2 to perform reciprocating motion relative to the main body 1, thereby causing the fascia head mounted on the working head mounting seat 2 to perform synchronous reciprocating motion. This allows the electric cupping device to be used as a fascia gun, achieving a multi-functional effect and enhancing its practicality.
[0044] Preferably, the working head mounting base 2 is provided with a connection interface 12, and the connection interface 12 has a through hole 13 communicating with the installation space 4. A hollow-formed suction pipe 14 is provided between the connection interface 12 and the suction port 5. The two ends of the suction pipe 14 are respectively connected to the connection interface 12 and the suction port 5. The suction pump 3 is also provided with an exhaust port 15. The connection interface 12 on the working head mounting base 2 and the suction port 5 of the suction pump 3 are connected through the hollow-formed suction pipe 14. When the suction pump 3 starts to work, the air in the cupping body 6 and the installation space 4 will be drawn out through the through hole 13. Finally, the drawn-out air will be drawn into the suction pump 3 through the suction pipe 14. The air in the suction pump 3 will be discharged to the outside of the suction pump 3 through the exhaust port 15, so that the suction pump 3 can work normally afterwards.
[0045] Preferably, the eccentric component 11 includes a connecting seat 16 and an eccentric shaft 17 disposed on the connecting seat 16. The bottom of the connecting seat 16 is provided with a connecting groove 18. The motor shaft 10 is disposed in the connecting groove 18 and fixedly connected to the connecting seat 16. The rear end of the reciprocating rod 8 is connected to the eccentric shaft 17. The eccentric component 11 is composed of the connecting seat 16 and the eccentric shaft 17 disposed on the connecting seat 16. The motor shaft 10 is disposed in the connecting groove 18 at the bottom of the connecting seat 16 and fixedly connected to the connecting seat 16. Thus, when the motor shaft 10 rotates, it can smoothly drive the connecting seat 16 to rotate. When the connecting seat 16 rotates, it can drive the eccentric shaft 17 to rotate. When the eccentric shaft 17 rotates, it can drive the reciprocating rod 8 to perform reciprocating motion, so that the cupping device can be used normally as a fascia gun.
[0046] Preferably, a linkage hole 19 is provided at the rear end of the reciprocating rod 8, the eccentric shaft 17 is disposed in the connecting groove 18, a bearing 20 is provided in the linkage hole 19, and the bearing 20 is sleeved on the eccentric shaft 17; the eccentric shaft 17 on the connecting seat 16 is located in the linkage hole 19 at the rear end of the reciprocating rod 8, and the bearing 20 in the linkage hole 19 is sleeved on the eccentric shaft 17, so that when the eccentric shaft 17 rotates, the friction between the eccentric shaft 17 and the reciprocating rod 8 can be reduced, thereby avoiding severe wear of the eccentric rod and increasing the service life of the eccentric shaft 17.
[0047] Preferably, the front end of the main body 1 is provided with a guide portion 21, and the guide portion 21 is provided with a mounting groove 22. One end of the working head mounting seat 2 passes through the main body 1 and protrudes into the mounting groove 22. The mounting groove 22 is provided with a guide ring 23, and the guide ring 23 is provided with a guide hole 24. One end of the working head mounting seat 2 is located in the guide hole 24. The guide portion 21 at the front end of the main body 1 is provided with a mounting groove 22, and the mounting groove 22 is provided with a guide ring 23. One end of the working head mounting seat 2 passes through the main body 1 and protrudes into the mounting groove 22 and is located in the guide hole 24 of the guide ring 23. When the working head mounting seat 2 reciprocates, the guide ring 23 can play a guiding role, thereby preventing the working head mounting seat 2 from deviating in angle during reciprocating motion, which would affect normal use.
[0048] Preferably, the outer surface of the guide portion 21 is provided with an external thread, and a clamping cover 25 is provided on the guide portion 21. The inner wall of the clamping cover 25 is provided with an internal thread that matches the external thread. The clamping cover 25 is threadedly connected to the guide portion 21 and sleeved on the guide portion 21. The inner end of the clamping cover 25 abuts against the guide ring 23. The clamping cover 25 has a movable hole 26, which corresponds to the position of one end of the working head mounting seat 2. The internal thread of the inner wall of the clamping cover 25 matches the external thread on the outer surface of the guide portion 21, so that the clamping cover 25 can be threadedly connected to the guide portion 21, and the inner end of the clamping cover 25 abuts against the guide ring 23, which can effectively restrict the guide ring 23 from moving with the working head mounting seat 2, so that the guide ring 23 cannot be dislodged from the mounting groove 22, and the clamping cover The movable hole 26 on the 25 corresponds to the position of one end of the working head mounting seat 2. When the working head mounting seat 2 reciprocates, one end of the working head mounting seat 2 will be exposed through the movable hole 26, so that the working head mounting seat 2 can reciprocate normally without being restricted by the clamping cover 25. The movable hole 26 also allows the cupping body 6 or the fascia gun head 7 to pass smoothly through the movable hole 26 and be installed into the installation space 4 of the working head mounting seat 2. When the guide ring 23 is severely worn after long-term use, the user can rotate the clamping cover 25 to separate the clamping cover 25 from the guide part 21, thereby quickly removing the old guide ring 23 and putting on the new one. This threaded connection structure between the clamping cover 25 and the guide part 21 facilitates the installation and removal of the guide ring 23.
[0049] Preferably, the front end of the reciprocating rod 8 is integrally formed with the working head mounting seat 2; the working head mounting seat 2 and the reciprocating rod 8 are integrally formed, making the connection between the working head mounting seat 2 and the reciprocating rod 8 more stable and firm, and the reciprocating rod 8 can directly drive the working head mounting seat 2 to perform reciprocating motion.
[0050] Preferably, the main body 1 is provided with a fixing cavity 27 and an installation cavity 28. The drive motor 9 is fixedly installed in the fixing cavity 27, and the air pump 3 is fixedly installed in the installation cavity 28. The fixing cavity 27 and the installation cavity 28 in the main body 1 are used to install the drive motor 9 and the air pump 3, respectively. The setting of the fixing cavity 27 and the installation cavity 28 prevents the drive motor 9 and the air pump 3 installed in the main body 1 from moving arbitrarily, so that the electric cupping device can be used normally.
[0051] Preferably, the control component includes a circuit board 29 and a first sensing control module 30 and a second sensing control module 31 disposed on the circuit board 29. The first sensing control module 30 and the second sensing control module 31 can be used to control the operation of the air pump 3 and the drive motor 9, respectively. The main body 1 is provided with a transparent cover 32 corresponding to the position of the circuit board 29. The transparent cover 32 is provided with a first control part 33 corresponding to the position of the first sensing control module 30 and a second control part 34 corresponding to the position of the second sensing control module 31. The first sensing control module 30 and the second sensing control module 31 on the circuit board 29 are used to control the operation of the air pump 3 and the drive motor 9, respectively. After the user installs the cupping canister 6 into the installation space 4 of the working head mounting seat 2, At this time, the user can place their finger on the first control part 33 of the transparent cover 32. After staying on the first control part 33 for one to two seconds, since the transparent cover 32 is transparent and the first control part 33 corresponds to the position of the first sensing module, the first sensing module will detect the finger and control the air pump 3 to start working. After the user installs the fascia head into the installation space 4 of the working head mounting base 2, the user can place their finger on the second control part 34 of the transparent cover 32. After staying on the second control part 34 for one to two seconds, the second sensing module will detect the finger and control the drive motor 9 to start working. This method of controlling the product to start via touch screen is a common type of touch screen sensor switch on the market, which makes it convenient for users to control the air pump 3 or the drive motor 9 to work independently.
[0052] Preferably, the main body 1 is provided with a battery pack 35, which can provide power to the drive motor 9 and the air pump 3. The battery pack 35 can provide power to the drive motor 9 and the air pump 3, so that the user can smoothly control the air pump 3 and the drive motor 9 to work through the first sensing control module 30 and the second sensing control module 31 respectively, so that the electric cupping device does not need an external power supply, making it convenient for the user to use.
[0053] The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Therefore, all equivalent changes made to the structure, shape, and principle of the present utility model should be covered within the scope of protection of the present utility model.
Claims
1. A multifunctional electric cupping device, comprising a main body (1), a working head mounting base (2) disposed on the main body (1), an air pump (3) disposed within the main body (1), and a control component for controlling the operation of the air pump (3), characterized in that: An installation space (4) is formed within the working head mounting base (2). The air pump (3) is provided with an air extraction port (5), which is connected to the installation space (4). The installation space (4) can be used to install the cupping jar (6) or the fascia gun head (7). When the air pump (3) is working, it can extract the gas from the cupping jar (6). The main body (1) is also provided with a reciprocating rod (8) and a drive assembly for driving the reciprocating rod (8) to reciprocate. The drive assembly includes a drive motor (9) and a motor shaft (10) mounted on the drive motor (9). And an eccentric component (11) is provided on the motor shaft (10). The eccentric component (11) is connected to the reciprocating rod (8). The reciprocating rod (8) is connected to the working head mounting seat (2). The working head mounting seat (2) is slidably provided on the main body (1). The control component can also control the drive motor (9) to work. After the drive motor (9) works, it can drive the reciprocating rod (8) to reciprocate through the eccentric component (11). The reciprocating rod (8) can drive the working head mounting seat (2) and the fascia gun head (7) installed in the installation space (4) to reciprocate synchronously.
2. The multifunctional electric cupping device according to claim 1, characterized in that: The working head mounting base (2) is provided with a connection interface (12), and the connection interface (12) is provided with a through hole (13) that communicates with the installation space (4). A hollow-formed suction pipe (14) is provided between the connection interface (12) and the suction interface (5). The two ends of the suction pipe (14) are respectively connected to the connection interface (12) and the suction interface (5). The suction pump (3) is also provided with an exhaust port (15).
3. The multifunctional electric cupping device according to claim 1, characterized in that: The eccentric component (11) includes a connecting seat (16) and an eccentric shaft (17) disposed on the connecting seat (16). A connecting groove (18) is provided at the bottom of the connecting seat (16). The motor shaft (10) is disposed in the connecting groove (18) and fixedly connected to the connecting seat (16). The rear end of the reciprocating rod (8) is connected to the eccentric shaft (17).
4. A multifunctional electric cupping device according to claim 3, characterized in that: The reciprocating rod (8) has a connecting hole (19) at its rear end. The eccentric shaft (17) is located in the connecting groove (18). The connecting hole (19) has a bearing (20) installed inside it. The bearing (20) is sleeved on the eccentric shaft (17).
5. A multifunctional electric cupping device according to any one of claims 1-4, characterized in that: The front end of the main body (1) is provided with a guide part (21), and the guide part (21) is provided with a mounting groove (22). One end of the working head mounting seat (2) passes through the main body (1) and protrudes into the mounting groove (22). The mounting groove (22) is provided with a guide ring (23), and the guide ring (23) is provided with a guide hole (24). One end of the working head mounting seat (2) is located in the guide hole (24).
6. A multifunctional electric cupping device according to claim 5, characterized in that: The outer side of the guide part (21) is provided with an external thread, and the guide part (21) is provided with a pressure cover (25). The inner wall of the pressure cover (25) is provided with an internal thread that matches the external thread. The pressure cover (25) is threadedly connected to the guide part (21) and sleeved on the guide part (21). The inner end of the pressure cover (25) abuts against the guide ring (23). The pressure cover (25) is provided with a movable hole (26), and the movable hole (26) corresponds to the position of one end of the working head mounting seat (2).
7. A multifunctional electric cupping device according to claim 5, characterized in that: The front end of the reciprocating rod (8) is integrally formed with the working head mounting seat (2).
8. A multifunctional electric cupping device according to claim 5, characterized in that: The main body (1) is provided with a fixed cavity (27) and an installation cavity (28). The drive motor (9) is fixedly installed in the fixed cavity (27), and the air pump (3) is fixedly installed in the installation cavity (28).
9. A multifunctional electric cupping device according to any one of claims 1-4, characterized in that: The control component includes a circuit board (29) and a first sensing control module (30) and a second sensing control module (31) disposed on the circuit board (29). The first sensing control module (30) and the second sensing control module (31) can be used to control the operation of the air pump (3) and the drive motor (9), respectively. The main body (1) is provided with a transparent cover (32) corresponding to the position of the circuit board (29). The transparent cover (32) is provided with a first control part (33) corresponding to the position of the first sensing control module (30) and a second control part (34) corresponding to the position of the second sensing control module (31).
10. A multifunctional electric cupping device according to claim 5, characterized in that: The main body (1) is also provided with a battery pack (35), which can provide power to the drive motor (9) and the air pump (3).