Rotary pulsatile soothing massage generator and system
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- AEW TECHNOLOGY GROUP CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-26
AI Technical Summary
In traditional pulsating soothing massage devices, the complex and difficult-to-control precise calculation of magnetic force can lead to the valve core not moving properly, affecting the venting effect and reducing the reliability and stability of the device.
The valve core is switched by mechanical control through the transmission component in the drive assembly abutting against the valve core protrusion, thereby controlling the opening and closing of the air circuit connector and preventing the valve core from moving out of position.
It improves the uniformity and comfort of the massage, enhances the reliability and stability of the device, and ensures the continuity of the massage effect.
Smart Images

Figure CN224403986U_ABST
Abstract
Description
Technical Field
[0001] This invention generally relates to the field of air circuit controller technology, and specifically to a rotary pulsating soothing massage generator and system. Background Technology
[0002] In the existing technology, car seats with soothing massage functions can effectively improve the comfort of driving and riding, significantly reduce physical discomfort caused by long-term driving or riding, and effectively relieve fatigue caused by long-term driving and riding.
[0003] Traditional pulsating massage devices primarily use a motor to drive a magnet to rotate, which in turn uses magnetic force to open and close an iron valve core. When the magnet on the turntable passes the position directly opposite the valve core, the valve core is attracted by the magnetic force and falls, thereby releasing air using an air assembly to achieve a massage effect.
[0004] However, during this process, the precise calculation of magnetic force is complex and difficult to control. This can lead to situations where the valve core fails to move properly when the disc reaches a certain rotational speed, thus affecting the air release effect. This not only impacts the uniformity and comfort of the massage but also reduces the reliability and stability of the device. Summary of the Invention
[0005] In view of the above-mentioned defects or deficiencies in the prior art, it is desirable to provide a rotary pulsating soothing massage generator and system.
[0006] On one hand, the present invention provides a rotary pulsating soothing massage generator, comprising:
[0007] A housing assembly having a first space inside; the housing assembly having at least one air passage connector;
[0008] A valve body assembly, which is connected to the air passage connector, includes at least one valve core, which is used to control the connection and disconnection of the air passage in the air passage connector with the first space.
[0009] A drive assembly is installed in the first space. The drive assembly includes a transmission member, and the transmission member has at least one abutment protrusion on the side near the valve core. The abutment protrusion is used to abut against the valve core to drive the valve core to move.
[0010] The valve core has a first state and a second state;
[0011] When in the first state, the valve core is separated from the abutting protrusion, and the air passage inside the air passage connector is blocked from the first space;
[0012] When in the second state, the valve core abuts against the abutting protrusion, and the air passage inside the air passage connector is unobstructed from the first space.
[0013] According to the technical solution provided by the present invention, the valve body assembly further includes:
[0014] A fixing component is fixedly installed inside the first space; the fixing component has a second space communicating with the air passage connector; the valve core is disposed in the second space, including a valve core body and an abutment portion, the abutment portion being disposed at the end of the valve core body near the transmission component;
[0015] A first elastic element is disposed within the second space and abuts against the inner wall of the housing assembly and the valve core, respectively.
[0016] According to the technical solution provided by the present invention, the valve body assembly further includes:
[0017] The first sealing element is sleeved at the position where the valve core body and the abutment portion are connected, and is used to abut against the fixing element to seal the gap between the valve core body and the fixing element;
[0018] A second sealing element is also provided between the fixing member and the housing assembly to maintain the airtightness between the fixing member and the housing assembly;
[0019] When the valve core is in the first state, the first sealing member abuts against the fixing member, the abutting part protrudes from the fixing member, and the air passage inside the air passage connector is in a blocked state.
[0020] When the valve core is in the second state, the first elastic element is compressed, the first sealing element and the fixing element are separated from each other, the abutting part is in the second space, and the air passage in the air passage connector is unobstructed with the first space.
[0021] According to the technical solution provided by the present invention, the driving component further includes:
[0022] A first driving device is fixedly installed in the first space;
[0023] The transmission component includes a first transmission component, which is fixedly connected to the drive shaft of the first drive device; the abutting protrusion includes a first abutting protrusion, which is located on the side of the first transmission component near the valve body assembly.
[0024] The first transmission component is used to rotate under the drive of the first driving device, so that the first abutting protrusion abuts against the valve core, thereby controlling the opening and closing of the air passage in the air passage connector and the first space.
[0025] According to the technical solution provided by the present invention, the extending direction of the valve body assembly is parallel to the drive shaft of the first drive device;
[0026] The first abutment protrusion is located on the outer wall of the first transmission member near the valve body assembly.
[0027] According to the technical solution provided by the present invention, the driving component includes:
[0028] The second drive device is fixedly installed in the first space;
[0029] A planetary gear set, which is installed in the first space and connected to the drive shaft of the second drive device;
[0030] The transmission component includes a second transmission component, which is rotatably disposed within the first space; the abutting protrusion includes a second abutting protrusion, which is located on the side of the second transmission component near the valve body assembly.
[0031] The planetary gear set is used to drive the second transmission component to rotate under the action of the second drive device, so that the second abutting protrusion abuts against the valve core, thereby controlling the opening and closing of the air passage in the air passage connector and the first space.
[0032] A support assembly is installed inside the housing assembly and connected to the planetary gear set for supporting the planetary gear set.
[0033] According to the technical solution provided by the present invention, the planetary gear set includes:
[0034] The sun gear is fixedly connected to the drive shaft of the second drive device;
[0035] Planetary gears, the rotation axis of which is connected to the support assembly, and the planetary gears mesh with the sun gear and the internal gear ring respectively.
[0036] According to the technical solution provided by the present invention, the supporting component includes:
[0037] A support frame, which is fixedly installed on the inner sidewall of the housing assembly;
[0038] A rotating shaft is rotatably mounted on the support frame and connected to the planetary gears.
[0039] According to the technical solution provided by the present invention, the extending direction of the valve body assembly is perpendicular to the drive shaft of the second drive device;
[0040] The second abutment protrusion is located on the outer wall of the second transmission member near the valve body assembly.
[0041] On the other hand, the present invention provides a rotary pulsating soothing massage system, comprising: a rotary pulsating soothing massage generator as described in any of the above claims;
[0042] Also includes:
[0043] A gas source and multiple gas-using components; the gas source is connected to the multiple gas-using components, and the gas-using components have an inflated state and a deflated state.
[0044] The air connector on the rotary pulsating soothing massage generator is connected to multiple air-using components;
[0045] The control module is used to control the start and stop of the air source and the rotary pulsating soothing massage generator respectively; it is also used to control the inflation and deflation states of the multiple air-using components.
[0046] The beneficial effects of this invention are as follows:
[0047] The housing assembly has an air passage connector and an internal first space. The valve body assembly includes at least one valve core for controlling the connection and disconnection between the air passage connector and the first space. A drive assembly is installed within the first space and includes a transmission component. The transmission component has at least one abutment protrusion on its side near the valve core for abutting the valve core, controlling the movement of the valve core to switch its state and control the connection and disconnection between the air passage connector and the first space. Thus, by mechanically controlling the opening and closing of the valve body assembly, the opening and closing of the air passage connector can be controlled, achieving a rapid, regular, intermittent air release function, thereby achieving a pulsating massage effect. At higher speeds, the valve core will not fail to move into position, avoiding affecting the air release effect. This structural design improves reliability and stability, as well as the uniformity and comfort of the massage. Attached Figure Description
[0048] Other features, objects, and advantages of the invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0049] Figure 1 A schematic diagram of the structure of a rotary pulsating soothing massage generator;
[0050] Figure 2 An exploded view of a rotary pulsating soothing massage generator with a narrower first abutment protrusion in the first embodiment;
[0051] Figure 3 An exploded view of a rotary pulsating soothing massage generator with a wider first abutment protrusion in the first embodiment;
[0052] Figure 4 An exploded view of the rotary pulsating soothing massage generator in the second embodiment;
[0053] Figure 5 for Figure 4 A magnified view of a portion of the image;
[0054] Figure 6 This is a cross-sectional view in the main view direction of the second embodiment;
[0055] Figure 7 This is a top-view cross-sectional view of the second embodiment, showing the narrower second abutment protrusion.
[0056] Figure 8 This is a top-view cross-sectional view of the second embodiment, showing the wider second abutment protrusion.
[0057] Figure 9 A schematic diagram of a planetary gear set with a narrower second abutment protrusion;
[0058] Figure 10 A schematic diagram of a planetary gear set with a relatively wide second abutment protrusion;
[0059] Figure 11 This is a cross-sectional view of the planetary gear set from the front view direction;
[0060] Figure 12 This is a partial enlarged view of the valve body assembly in the first embodiment;
[0061] Figure 13 This is a partial enlarged view of the valve body assembly in the second embodiment;
[0062] Figure 14 A top view of a rotary pulsating soothing massage system with a relatively wide second abutment protrusion;
[0063] Figure 15 A cross-sectional view of a rotary pulsating soothing massage system when the air assembly is inflated before the first abutting protrusion abuts against the valve core;
[0064] Figure 16 A cross-sectional view of a rotary pulsating soothing massage system when the first abutting protrusion abuts against the valve core and the air assembly is venting.
[0065] Figure 17 A cross-sectional view of a rotary pulsating soothing massage system when the air assembly re-inflates after the first abutting protrusion abuts against the valve core.
[0066] Figure 18 This is a cross-sectional view of a rotary pulsating soothing massage system from the front view.
[0067] The components are as follows: 1. Housing assembly; 2. Air connector; 3. Valve body assembly; 4. Fixing component; 5. Valve core; 51. Valve core body; 6. Abutment part; 7. First sealing element; 8. First elastic element; 9. Second sealing element; 10. First driving device; 11. First transmission component; 12. First abutment protrusion; 13. Second driving device; 14. Planetary gear set; 15. Second abutment protrusion; 16. Support assembly; 17. Second transmission component; 18. Sun gear; 19. Planetary gear; 20. Support frame; 21. Rotating shaft; 22. Screw; 23. Air supply assembly; 24. Upper housing; 25. Lower housing; 26. Air source; 27. Vent hole. Detailed Implementation
[0068] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, only the parts relevant to the invention are shown in the accompanying drawings.
[0069] It should be noted that, unless otherwise specified, the embodiments and features described in the present invention can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0070] This application Figure 1-18 All arrows in the diagram indicate the direction of gas movement.
[0071] Example 1
[0072] Please refer to Figure 1 The present invention provides a rotary pulsating soothing massage generator, comprising:
[0073] The housing assembly 1 has a first space inside; the housing assembly 1 has at least one air passage connector 2.
[0074] Valve body assembly 3, which is connected to the air passage connector 2, includes at least one valve core 5, which is used to control the connection and disconnection of the air passage in the air passage connector 2 with the first space.
[0075] A drive assembly is installed in the first space. The drive assembly includes a transmission member. The transmission member has at least one abutment protrusion on the side near the valve core 5. The abutment protrusion is used to abut against the valve core 5 and drive the valve core 5 to move.
[0076] The valve core 5 has a first state and a second state;
[0077] When in the first state, the valve core 5 is separated from the abutting protrusion, and the air passage inside the air passage connector 2 is blocked from the first space;
[0078] When in the second state, the valve core 5 abuts against the abutting protrusion, and the air passage in the air passage connector 2 is unobstructed from the first space.
[0079] Specifically, the housing assembly 1 includes an upper housing 24 and a lower housing 25; the upper housing 24 and the lower housing 25 are connected by screws 22; the air connector 2 is disposed on the upper housing 24 and is connected to the air assembly 23.
[0080] The air-using component 23 (in this embodiment, an air bag) is connected to the air source 26 and the air connector 2 respectively. The air source 26 is used at least to inflate the air-using component 23. The air source 26 can also perform the function of deflating when the pulsating massage function is not activated. The rotary pulsating soothing massage generator provided by the present invention is used to deflate the air-using component 23.
[0081] Thus, the inflation and deflation of the air component 23 can be controlled, and the air component 23 can complete the pulsating massage function during repeated inflation and deflation.
[0082] In this embodiment, a vent hole may not be provided, and the gas discharged from the valve body assembly 3 may overflow into the environment through the installation gap of the housing assembly 1; alternatively, a vent hole 27 may be provided on the housing assembly, and the gas discharged from the valve body assembly 3 may overflow into the external environment through the vent hole 27.
[0083] Furthermore, the valve body assembly 3 also includes:
[0084] The fixing member 4 is fixedly installed inside the first space; the fixing member 4 has a second space communicating with the air connector 2; the valve core 5 is disposed in the second space, including a valve core body 51 and an abutment part 6, the abutment part 6 being disposed at the end of the valve core body 51 near the transmission member;
[0085] The first elastic element 8 is disposed in the second space and abuts against the inner wall of the housing assembly 1 and the valve core 5 respectively.
[0086] Specifically, the fixing member 4 is used to install the valve core 5 inside the housing assembly 1; the first elastic member 8 is a spring. The valve core 5 will switch to the second state under the abutting action of the abutting protrusion on the drive assembly, so that the first space and the second space are connected, and the air passage in the air passage connector 2 is in a smooth state with the first space.
[0087] Furthermore, the valve body assembly 3 also includes:
[0088] The first sealing element 7 is sleeved at the position where the valve core body 51 is connected to the abutment part 6, and is used to abut against the fixing element 4 to seal the gap between the valve core body and the fixing element 4.
[0089] A second sealing element 9 is also provided between the fixing member 4 and the housing assembly 1 to maintain the airtightness between the fixing member 4 and the housing assembly 1;
[0090] When the valve core 5 is in the first state, the first sealing member 7 abuts against the fixing member 4, the abutting part 6 protrudes from the fixing member 4, and the air passage in the air passage connector 2 is blocked from the first space.
[0091] When the valve core 5 is in the second state, the first elastic member 8 is compressed, the first sealing member 7 is separated from the fixing member 4, the abutting part 6 is in the second space, and the air passage in the air passage connector 2 is in a smooth state with the first space.
[0092] Specifically, both the first seal 7 and the second seal 9 are in the shape of a sealing ring.
[0093] The second sealing element 9 is used to maintain the airtightness between the fixing element 4 and the housing assembly 1, and to prevent gas from leaking from the gap between the fixing element 4 and the housing assembly 1 during the inflation stage.
[0094] In the first embodiment, refer to Figure 1-3 The driving component further includes:
[0095] A first driving device 10 is fixedly installed in the first space;
[0096] The transmission component includes a first transmission component 11, which is fixedly connected to the drive shaft of the first drive device 10; the abutment protrusion includes a first abutment protrusion 12, which is located on the side of the first transmission component 11 near the valve body assembly 3.
[0097] The first transmission component 11 is used to rotate under the drive of the first driving device 10, so that the first abutting protrusion 12 abuts against the valve core 5, thereby controlling the connection and disconnection of the air passage in the air passage connector 2 with the first space.
[0098] Specifically, the first drive device 10 can be a regular motor or a flat motor, and its drive shaft is fixedly connected to the first transmission component 11, which can drive the first transmission component 11 to rotate.
[0099] In some embodiments, the abutment protrusion can be designed to be narrow, abutting only one valve core 5 at a time; in other embodiments, the abutment protrusion can be designed to be wide, abutting several adjacent valve cores 5 at the same time. Increasing the width of the abutment protrusion can increase the opening time of the same valve core 5, resulting in a larger air release and a more pronounced pulsation effect.
[0100] The first transmission component 11 has a first abutting protrusion 12. The first abutting protrusion 12 can only abut against one or several adjacent valve cores 5 at the same time, thereby completing the air leakage control section air circuit connector 2.
[0101] Therefore, when the drive shaft of the first drive device 10 rotates at a high speed, there will be no situation where all valve body components leak air simultaneously. This structural design improves reliability and stability, as well as the uniformity and comfort of the massage.
[0102] Among them, the wider abutment protrusion can increase the opening time of the valve core 5, resulting in a larger air release volume and a more obvious pulsation effect; in addition, it can simultaneously open the internal air passages of multiple air passage connectors 2 corresponding to multiple valve cores 5, realizing the effect of simultaneous pulsating massage of multiple air-using components 23, and providing more diverse massage modes.
[0103] Furthermore, the extension direction of the valve body assembly is parallel to the drive shaft of the first drive device 10;
[0104] The first abutting protrusion 12 is located on the outer side wall of the first transmission member 11 near the valve body assembly 3.
[0105] In the first implementation method, refer to Figure 12 The valve core 5 moves in a direction parallel to the extension direction of the drive shaft of the first drive device 10; the air connector 2 is located on the top side wall of the upper housing 24. This embodiment occupies less lateral space and is suitable for situations where lateral space is limited.
[0106] In the second implementation, refer to Figure 4-6 The driving component includes:
[0107] The second drive device 13 is fixedly installed in the first space;
[0108] Planetary gear set 14, which is installed in the first space and connected to the drive shaft of the second drive device 13;
[0109] The transmission component includes a second transmission component 17 (an internal gear ring in this embodiment), which is rotatably disposed in the first space; the abutting protrusion includes a second abutting protrusion 15, which is provided on the side of the second transmission component 17 near the valve body assembly 3.
[0110] The planetary gear set 14 is used to drive the second transmission member 17 to rotate under the action of the second drive device 13, so that the second abutting protrusion 15 abuts against the valve core 5, thereby controlling the opening and closing of the air passage in the air passage connector 2 and the first space.
[0111] Support component 16, see reference Figure 7-8 The support component 16 is installed inside the housing component 1 and connected to the planetary gear set 14 to support the planetary gear set 14.
[0112] refer to Figure 5 The valve core 5 has a square cover that engages with the fixing member 4 at the end away from the first sealing member 7; a first elastic member 8 is provided on the side of the square cover near the valve core 5, with its two ends abutting against the valve core 5 and the square cover respectively, for driving the valve core 5 to reset.
[0113] Further, refer to Figure 9-11 The planetary gear set 14 includes:
[0114] Sun gear 18, which is fixedly connected to the drive shaft of the second drive device 13;
[0115] Planetary gear 19, the rotation axis of which is connected to the support assembly 16, and the planetary gear 19 meshes with the sun gear 18 and the second transmission member 17 respectively.
[0116] Specifically, in the second implementation method, refer to Figure 13 The air connector 2 is located on the edge side wall of the upper housing 24, and the valve core 5 is also located on the inner circumferential side wall of the housing assembly 1, corresponding to the air connector 2.
[0117] The movement direction of the valve core 5 is perpendicular to the extension direction of the drive shaft of the second drive device 13. Therefore, the second abutment protrusion 15 needs to be provided on the outer surface of the second transmission member 17; thus, when the second transmission member 17 rotates, it can drive the second abutment protrusion 15 to abut against the valve core 5 arranged circumferentially along the inner side of the housing assembly 1 in sequence.
[0118] Similar to the previous embodiment, the second abutment protrusion 15 also has two forms: a narrower second abutment protrusion 15 that can only abut against one valve core 5 at a time; and a wider second abutment protrusion 15 that can abut against several adjacent valve cores 5 at the same time.
[0119] Furthermore, the support component 16 includes:
[0120] Support frame 20, which is fixedly installed on the inner side wall of the housing assembly 1;
[0121] A rotating shaft 21 is rotatably mounted on the support frame 20 and connected to the planetary gear 19.
[0122] Specifically, the second drive unit 13 can be a conventional motor or a flat motor. The support frame 20 is fixedly installed inside the housing assembly 1, and multiple rotating shafts 21 are rotatably mounted on the support frame 20 and coaxially fixedly connected to multiple planetary gears 19. Thus, the planetary gears 19 can only rotate and will not translate; since the sun gear 18 is fixedly connected to the drive shaft of the second drive unit 13, it can only rotate as well; finally, the second transmission component 17 will rotate under the action of the planetary gears 19, driving the second abutment protrusion 15 to rotate, thereby achieving the effect of sequentially abutting against multiple valve cores 5.
[0123] When the drive shaft of the second drive unit 13 rotates at a relatively high speed, the planetary gear set 14 can produce a deceleration effect, reducing the rotation speed of the second transmission component 17, so as to achieve a stable massage effect.
[0124] Furthermore, the extension direction of the valve body assembly is perpendicular to the drive shaft of the second drive device 13;
[0125] The second abutment protrusion 15 is located on the outer side wall of the second transmission member 17 near the valve body assembly 3.
[0126] In the second embodiment, the air connector 2 is located on the circumferential position of the outer side wall of the upper housing 24, thus occupying less longitudinal space and is suitable for situations where the longitudinal space is small.
[0127] Example 2
[0128] refer to Figure 14-18 The present invention provides a rotary pulsating soothing massage system, comprising: a rotary pulsating soothing massage generator as described in the above embodiments;
[0129] Also includes:
[0130] A gas source 26 and multiple gas-using components 23; the gas source 26 is connected to the multiple gas-using components 23, and the gas-using components 23 have an inflated state and a deflated state.
[0131] The air connector 2 on the rotary pulsating soothing massage generator is connected to multiple air-using components 23;
[0132] The control module is used to control the start and stop of the air source 26 and the rotary pulsating soothing massage generator respectively; it is also used to control the inflation and deflation states of the multiple air-using components 23.
[0133] Specifically, Figure 15Before the first abutting protrusion 12 abuts against the valve core 5, the air source 26 inflates the air-using component.
[0134] Figure 16 When the first abutting protrusion 12 abuts against the valve core 5, the air assembly releases air through the air connector 2.
[0135] Figure 17 After the first abutting protrusion 12 abuts against the valve core 5, the air source 26 refills the air-using component with air.
[0136] The working principle of the entire massage system is as follows:
[0137] Taking a gas-using component 23 (air bag) as an example, after the gas source 26 inflates the gas-using component 23 to a certain extent (the maximum air pressure for safe use of the gas-using component), the control module controls the gas source 26 to stop inflating.
[0138] During the rotation of the contact protrusion, it repeatedly contacts the valve core 5, causing multiple deflations to the air-using component 23. During this process, the valve core 5 rapidly opens and closes multiple times, intermittently deflation, and vibration is achieved through the regular release of airflow, followed by repeated inflation. Alternatively, contact with the protrusion may cause a large amount of air to be deflated from the air-using component 23 in a single instance, and the control module controls the air source 26 to quickly inflate it. This allows for a wider variety of massage modes.
[0139] refer to Figure 15 The control module opens the air-using component 23 and activates the drive components of the air source 26 and the rotary pulsating soothing massage generator. This causes the abutment protrusions on the drive components to abut against one or more valve cores 5 in sequence. The multiple air-using components 23 sequentially switch between states where the air source 26 is inflated and the valve cores 5 are open and intermittently deflating. Thus, the multiple air-using components 23 can complete the pulsating massage function.
[0140] refer to Figure 16 During the inflation process of the gas-using component 23, the control module has the maximum inflation pressure; when the maximum inflation pressure is reached in the gas-using component 23, the control gas source 26 is cut off from the gas-using component 23, and inflation is stopped.
[0141] When massage is not needed, turn off the air source 26 and rotate the abutment protrusion one more turn to depress all air-using components 23, and then turn off the drive component; this completes the purpose of depressing all air-using components 23.
[0142] The above description is merely a preferred embodiment of the present invention and an explanation of the technical principles employed. Those skilled in the art should understand that the scope of the invention is not limited to the specific combination of the above-described technical features, but also includes other technical solutions formed by arbitrary combinations of the above-described technical features or their equivalents without departing from the inventive concept. For example, technical solutions formed by substituting the above-described features with (but not limited to) technical features with similar functions disclosed in this invention.
Claims
1. A rotary pulsating soothing massage generator, characterized in that, include: The housing assembly (1) has a first space inside; the housing assembly (1) has at least one air connector (2). Valve body assembly (3), which is connected to the air passage connector (2), the valve body assembly (3) includes at least one valve core (5), the valve core (5) is used to control the connection and disconnection of the air passage in the air passage connector (2) and the first space; A drive assembly is installed in the first space. The drive assembly includes a transmission member. The transmission member has at least one abutment protrusion on the side near the valve core (5). The abutment protrusion is used to abut against the valve core (5) and drive the valve core (5) to move. The valve core (5) has a first state and a second state; When in the first state, the valve core (5) is separated from the abutting protrusion, and the air passage inside the air passage connector (2) is blocked from the first space; When in the second state, the valve core (5) abuts against the abutting protrusion, and the air passage inside the air passage connector (2) is in a smooth state with the first space.
2. A rotating pulsating soothing massage generator according to claim 1, characterized in that The valve body assembly (3) also includes: The fixing member (4) is fixedly installed inside the first space; the fixing member (4) has a second space communicating with the air connector (2); the valve core (5) is disposed in the second space, including the valve core body (51) and the abutment part (6), the abutment part (6) is disposed at the end of the valve core body (51) near the transmission member; The first elastic element (8) is disposed in the second space and abuts against the inner wall of the housing assembly (1) and the valve core (5) respectively.
3. A rotary pulsating soothing massage generator according to claim 2, characterized in that, The valve body assembly (3) also includes: The first sealing element (7) is sleeved at the position where the valve core body (51) and the abutment (6) are connected, and is used to abut against the fixing element (4) to seal the gap between the valve core body (51) and the fixing element (4). A second sealing element (9) is also provided between the fixing element (4) and the housing assembly (1) to maintain the airtightness between the fixing element (4) and the housing assembly (1); When the valve core (5) is in the first state, the first sealing member (7) abuts against the fixing member (4), the abutting part (6) protrudes from the fixing member (4), and the air passage inside the air passage connector (2) is in a blocked state; When the valve core (5) is in the second state, the first elastic element (8) is compressed, the first sealing element (7) and the fixing element (4) are separated from each other, the abutting part (6) is in the second space, and the air passage in the air passage connector (2) is in a smooth state with the first space.
4. A rotary pulsating soothing massage generator according to claim 1, characterized in that, The driving component also includes: The first drive device (10) is fixedly installed in the first space; The transmission component includes a first transmission component (11), which is fixedly connected to the drive shaft of the first drive device (10); the abutment protrusion includes a first abutment protrusion (12), which is located on the side of the first transmission component (11) near the valve body assembly (3). The first transmission component (11) is used to rotate under the drive of the first driving device (10) so that the first abutting protrusion (12) abuts against the valve core (5) and controls the opening and closing of the air passage in the air passage connector (2) and the first space.
5. A rotary pulsating soothing massage generator according to claim 4, characterized in that, The valve body assembly extends in a direction parallel to the drive shaft of the first drive device (10); The first abutting protrusion (12) is located on the outer wall of the first transmission member (11) near the valve body assembly (3).
6. A rotary pulsating soothing massage generator according to claim 1, characterized in that, The driving component includes: The second drive device (13) is fixedly installed in the first space; Planetary gear set (14), which is installed in the first space and connected to the drive shaft of the second drive device (13); The transmission component includes a second transmission component (17), which is rotatably disposed within the first space; the abutment protrusion includes a second abutment protrusion (15), which is located on the side of the second transmission component (17) near the valve body assembly (3). The planetary gear set (14) is used to drive the second transmission member (17) to rotate under the action of the second drive device (13), so that the second abutting protrusion (15) abuts against the valve core (5), thereby controlling the opening and closing of the air passage in the air passage connector (2) and the first space. A support assembly (16) is installed inside the housing assembly (1) and connected to the planetary gear set (14) for supporting the planetary gear set (14).
7. A rotary pulsating soothing massage generator according to claim 6, characterized in that, The planetary gear set (14) includes: Sun gear (18), which is fixedly connected to the drive shaft of the second drive device (13); Planetary gear (19), the rotation axis of the planetary gear (19) is connected to the support assembly (16), and the planetary gear (19) meshes with the sun gear (18) and the second transmission member (17) respectively.
8. A rotary pulsating soothing massage generator according to claim 7, characterized in that, The support component (16) includes: A support frame (20) is fixedly installed on the inner wall of the housing assembly (1); A rotating shaft (21) is rotatably mounted on the support frame (20) and connected to the planetary gear (19).
9. A rotary pulsating soothing massage generator according to claim 6, characterized in that, The valve body assembly extends perpendicularly to the drive shaft of the second drive device (13); The second abutment protrusion (15) is located on the outer wall of the second transmission member (17) near the valve body assembly (3).
10. A rotary pulsating soothing massage system, characterized in that, include: A rotary pulsating soothing massage generator as described in any one of claims 1-9; Also includes: A gas source (26) and multiple gas-using components (23); the gas source (26) is connected to the multiple gas-using components (23), and the gas-using components (23) have an inflated state and a deflated state; The air connector (2) on the rotary pulsating soothing massage generator is connected to a plurality of the air-using components (23); The control module is used to control the start and stop of the air source (26) and the rotary pulsating soothing massage generator respectively; it is also used to control the inflation and deflation states of the multiple air-using components (23).