Liftable shoulder and neck massage chair with pneumatic power-off release mechanism

By combining a pneumatic power-off release mechanism and a telescopic device, the problems of large footprint and safety hazards of folding massage chairs in public spaces are solved, and the massage chair can be reliably detached and space-saving in the event of a sudden power outage.

CN122140503APending Publication Date: 2026-06-05LE MO TECHNOLOGY SERVICES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
LE MO TECHNOLOGY SERVICES CO LTD
Filing Date
2026-03-30
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing folding massage chairs take up a large area in public spaces, pose safety hazards, and are difficult to detach smoothly in the event of a sudden power outage.

Method used

The device employs a pneumatic power-off release mechanism, which uses an airbag and a return spring to raise and lower the shoulder and neck massager. Combined with a telescopic device and a power mechanism, it ensures that the massage chair can reliably detach in the event of a sudden power outage, saving space without moving the device.

Benefits of technology

This effectively reduces the floor space occupied by the massage chair when not in use, improves safety and ease of emergency evacuation, and avoids the risk of crushing or damaging personal belongings.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present application relates to a kind of liftable shoulder and neck massaging chair with pneumatic power-off release mechanism, shoulder and neck massager is installed on the upper part of massaging chair body by lifting assembly;Lifting assembly includes movement mechanism of machine core, air pump and driving machine core to move up and down in the massaging chair body, machine core is connected with shoulder and neck massager by air bag;Air pump output end is connected with air bag by first air pipe, air valve is installed on first air pipe, air valve is communicated with atmosphere when power-off;First reset spring is arranged between machine core and shoulder and neck massager;The present application provides part of descending stroke by air bag inflation expansion in the process of shoulder and neck massager descending to massage the shoulder of user, when equipment suddenly power-off, air valve is automatically opened due to power-off, gas in air bag is discharged, air bag is contracted in sequence, and shoulder and neck massager is driven to rise a distance under the action of first reset spring, to help user to escape smoothly.
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Description

Technical Field

[0001] This invention relates to the field of massage chair system technology, specifically to a height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism. Background Technology

[0002] Massage chairs, as tools for relieving work fatigue, achieve a massage effect through mechanical rolling and squeezing, which can unblock meridians, promote blood circulation, and maintain the body's yin-yang balance. After use, they can relax muscles, improve joint flexibility, boost spirits, and eliminate fatigue, playing an important role in physical health.

[0003] Existing massage chairs are typically large and occupy significant public space. Therefore, folding structures are often used for storage. Some folding massage chairs already exist, such as the "Folding Massage Chair Structure" disclosed in patent number CN208693718U and the "Novel Structure Massage Chair" disclosed in CN203970816U, all of which improve storage convenience through folding. However, when massage chairs are used in public spaces, the more pressing need is to minimize their footprint when not in use, reducing their encroachment on the surrounding limited horizontal public space without moving them, rather than simply relying on folding for easy transport or storage. Existing folding structures still have significant limitations in such application scenarios.

[0004] In addition, existing folding massage chairs usually rely on a power unit to drive the folding process. If users leave behind personal items (such as backpacks, mobile phones, clothes, etc.) when they leave, the folding action may cause these items to be pinched or damaged, posing a safety hazard.

[0005] In certain emergencies, such as unexpected power outages, massage chairs with shoulder and neck massage mechanisms can easily become mechanically locked to the seat cushion, restricting the user's ability to dismount and affecting safety and user experience.

[0006] Therefore, there is an urgent need to develop a height-adjustable neck and shoulder massage chair with a pneumatic power-off release mechanism, so as to further improve the safety, environmental adaptability and convenience of emergency escape while taking into account the space-saving folding design. Summary of the Invention

[0007] To address the shortcomings of existing technologies, this invention provides a massage chair to solve the aforementioned problems.

[0008] This invention provides the following technical solution: A height-adjustable neck and shoulder massage chair with a pneumatic power-off release mechanism includes: The main body of the massage chair has a neck and shoulder massager installed on the upper part via a lifting mechanism. The lifting assembly includes a core mechanism, an air pump, and a power mechanism that drives the core mechanism to move up and down within the main body of the massage chair. The core mechanism is connected to the neck and shoulder massager via a deformable airbag. When the airbag is inflated, it pushes the neck and shoulder massager down relative to the core mechanism. The output end of the air pump is connected to the air bag through a first air pipe. An air valve is installed on the first air pipe. When the air valve is de-energized, it is connected to the atmosphere. A first reset spring is provided between the mechanism and the neck and shoulder massager. When the airbag deflates, the elastic force of the first reset spring pushes the neck and shoulder massager to rise and reset relative to the mechanism.

[0009] Preferably, the massage chair body includes an integral backrest and legs, with an obtuse angle between the backrest and legs, and the lower end of the legs is equipped with casters for rolling on the ground.

[0010] Preferably, multiple pull ropes are provided between the upper and lower parts of the hollowed-out area in the middle of the backrest.

[0011] Preferably, it also includes a support frame, the upper end of which is hinged to the backrest, and a telescopic device is provided between the support frame and the backrest.

[0012] Preferably, the airbag is connected to a pressure detector via a second air tube to monitor the air pressure inside the airbag.

[0013] Preferably, the massage chair body is fitted with a matching leather cover on the outside.

[0014] Preferably, the shoulder and neck massager is located on the outside of the leather case, and the shoulder and neck massager extends into the inside of the leather case via a connecting arm and is connected to the airbag.

[0015] Preferably, the connecting arm moves up and down relative to the movement via a guide assembly.

[0016] Preferably, a seat cushion is rotatably connected to the middle of the massage chair body via a pivot.

[0017] Preferably, the head of the massage chair body is equipped with an artificial intelligence interactive device.

[0018] The present invention has the following beneficial technical effects: This invention controls the unfolding and folding of the massage chair through a telescopic device. During the descent of the neck and shoulder massager to massage the user's shoulders, part of the descent is provided by the inflation of the airbags, while the remaining stroke is driven by a power mechanism such as a gear and rack. While providing the descent function, the airbags, by utilizing their ability to deform and their flexibility, effectively prevent rigid contact between the neck and shoulder massager and the user's shoulders. When the device experiences a sudden power outage, the air valve automatically opens to release the gas from the airbag. The airbag then contracts and, under the action of the first return spring, lifts the neck and shoulder massager a short distance, thus helping the user to get away smoothly. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall first-view structure of the present invention; Figure 2 This is a schematic diagram of the first-view structure of the concealed leather case of the present invention; Figure 3 This is a schematic diagram of the second-view structure of the concealed leather case of the present invention; Figure 4 This is a schematic diagram of the third-view structure of the concealed leather case of the present invention; Figure 5 This is a schematic diagram of the linkage structure between the seat cushion and the backrest of the present invention; Figure 6 for Figure 5 Schematic diagram of the structure after the connecting rod is concealed; Figure 7 This is a schematic diagram of the connecting rod structure of the present invention; Figure 8 This is a schematic diagram of the main structure of the massage chair of the present invention; Figure 9 This is a schematic diagram of the overall second-view structure of the present invention; Figure 10 This is a schematic diagram of the cushion structure of the present invention; Figure 11 This is a schematic diagram of the exploded structure of the seat cushion of the present invention; Figure 12 This is a schematic diagram of the inverted state of the upper shell and its mating components of the present invention; Figure 13 This is a schematic diagram of the rotating shaft of the present invention; Figure 14 This is a schematic diagram of the exploded structure of the rotating shaft of the present invention; Figure 15 This is a schematic diagram of the structure of the present invention with the seat cushion concealed. Figure 16 This is a first-view structural diagram of the lifting component of the present invention; Figure 17 This is a schematic diagram of the lifting component of the present invention from a second perspective.

[0020] The attached figures are labeled as follows: 1. Seat cushion; 11. Upper shell; 111. Soft cushion; 12. Lower shell; 13. Control panel; 14. First elastic element; 15. First micro switch; 16. Snake spring; 2. Neck and shoulder massager; 21. Mechanism; 22. Gear and rack transmission structure; 23. Connecting arm; 231. Guide assembly; 24. Air pump; 25. Airbag; 26. Air pressure detector; 3. Artificial intelligence interactive devices; 4. Telescopic device; 5. Massage chair body; 51. Backrest; 52. Leg support; 53. Casters; 54. Support; 541. Arc-shaped track groove; 55. Pull cord; 6. Leather case; 61. Back panel; 62. Second elastic element; 63. Second micro switch; 64. First arc-shaped part; 7. Support frame; 71. Base; 72. Bracket; 721. Protective shell; 722. Second arc-shaped part; 723. First rotating column; 73. Connecting rod; 731. Clearance groove; 74. Swing rod; 741. Second rotating column; 75. Rotating shaft; 751. First sleeve; 752. Intermediate rod; 753. Second sleeve; 754. U-shaped frame; 755. Pipe clamp; 756. Pin hole; 76. Second return spring; 8. Human body sensor; 9. Air cushion. Detailed Implementation

[0021] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0022] Example: A height-adjustable neck and shoulder massage chair with a pneumatic power-off release mechanism, such as Figures 1-17 As shown, it includes: Massage chair body 5, such as Figure 3 , Figure 4 , Figure 8 As shown, it includes an integrated backrest 51 and support legs 52, which form an obtuse angle. The lower end of the support legs 52 is equipped with a caster wheel 53 for rolling on the ground. A support 54 is provided at the joint between the backrest 51 and the support legs 52 or at the part of the backrest 51 near the support legs 52. Both the backrest 51 and the support legs 52 are made of steel pipes and other materials, resulting in a hollow center. Multiple pull ropes 55 are provided between the upper and lower parts of the hollow center of the backrest 51, which provide support when the user leans against the backrest 51.

[0023] Support frame 7, such as Figures 3-7As shown, the system includes a base 71 fixed to the ground, a bracket 72 hinged to the base 71 at its lower end, a connecting rod 73, a swing rod 74, a rotating shaft 75, and a second return spring 76. The lower end of the bracket 72 rotates relative to the base 71 within a set angle range. The upper end of the bracket 72 is hinged to the lower middle part of the backrest 51. A telescopic device 4 is connected between the upper part of the bracket 72 and the support leg 52. The telescopic device 4 can be a telescopic cylinder or a hydraulic cylinder, etc. The posture formed between the bracket 72 and the massage chair body 5 is adjusted by the telescopic extension and retraction of the telescopic device 4.

[0024] Under the influence of gravity, the moving wheels 53 at the lower end of the support leg 52 always roll horizontally on the ground. When the telescopic device 4 is extended to the first state, the backrest 51 is vertical relative to the ground, and the moving wheels 53 are close to the base 71. When the telescopic device 4 is extended to the second state, the backrest 51 is slightly tilted backward relative to the ground, and the moving wheels 53 are away from the base 71. This achieves two states for the support frame 7: extended and retracted.

[0025] like Figures 1-7 As shown, the seat cushion 1 is rotatably connected to the support 54 via a pivot 75, and a second return spring 76 is provided between the pivot 75 and the support 54. The elastic force of the second return spring 76 pushes the pivot 75 to rotate relative to the support 54 and return to its original position, so that the seat cushion 1 tends to rotate and fit against the backrest 51. The seat cushion 1 and the pivot 75 are fixedly arranged relative to each other. A swing rod 74 is fixedly arranged on the pivot 75. A second pivot 741 is arranged on the swing rod 74 at a position away from the pivot 75. An arc-shaped track groove 541 centered on the pivot 75 is opened on the support 54. The second pivot 741 slides arc-shapedly in the matching arc-shaped track groove 541. The second rotating column 741 is simultaneously connected to one end of the connecting rod 73. The other end of the connecting rod 73 away from the second rotating column 741 is provided with a relief groove 731. The upper part of the bracket 72 is provided with a first rotating column 723, and the first rotating column 723 slides within the corresponding relief groove 731.

[0026] When the telescopic device 4 is extended to the second state, the backrest 51 tilts slightly backward relative to the ground, and the moving wheel 53 moves away from the base 71. During this process, the distance between the pivot 75 and the first pivot 723 increases. At this time, the first pivot 723 is located near the end of the first pivot 723 in the clearance groove 731 and is limited, thereby driving the swing rod 74 to rotate around the pivot 75 to adapt, so that the seat cushion 1 rotates away from the state of fitting the backrest 51 to a roughly horizontal state.

[0027] When the telescopic device 4 is extended to the first state for storage, the backrest 51 rotates to be vertical relative to the ground, and the moving wheel 53 approaches the base 71. During this process, the distance between the pivot 75 and the first pivot 723 decreases, and the first pivot 723 moves away from the first pivot 723 in the clearance groove 731. Under the elastic force of the second return spring 76, the seat cushion 1 rotates from the horizontal state to fit against the backrest 51. The seat cushion 1 rotates because the elastic force of the second return spring 76 drives it to rotate instead of following the extension and retraction of the telescopic device 4, which can avoid the rigid clamping injury caused by leaving something between the seat cushion 1 and the backrest 51.

[0028] like Figure 9 As shown, a protective shell 721 is provided on the outside of the support 72, which encloses the support 72. A second arc-shaped portion 722 is formed at the upper edge of the protective shell 721. A leather cover 6 is provided on the outside of the massage chair body 5. A back panel 61 is provided on the back of the backrest. A first arc-shaped portion 64 is formed at the lower edge of the back panel 61. The first arc-shaped portion 64 and the second arc-shaped portion 722 are designed to work together and are concentrically designed with the upper end of the support 72 as the center of the hinge point between the upper end of the support 72 and the lower middle part of the backrest 51. This design helps to prevent pinching during the extension and retraction of the telescopic device 4.

[0029] like Figure 9 As shown, the back panel 61 can elastically deform within a small range. The upper end of the back panel 61 is relatively fixed to the leather sleeve 6, and a certain gap is left between the lower end of the back panel 61 and the leather sleeve 6. This gap is maintained by the second elastic element 62, and a second micro switch 63 is provided in the gap. During the extension and retraction of the telescopic device 4, if the back panel 61 collides with an external object while the backrest 51 moves relative to the ground, the gap between the back panel 61 and the leather sleeve 6 will decrease, thereby triggering the second micro switch 63. The second micro switch 63 is triggered and controls the telescopic device 4 to stop and issue an alarm signal to remind the user.

[0030] like Figures 10-14 As shown, the seat cushion 1 includes an upper shell 11 and a lower shell 12. The upper shell 11 is located closer to the backrest 51 than the lower shell 12. The upper shell 11 and the lower shell 12 can slide linearly through the guide post and guide groove. The lower shell 12 is installed on the upper shell 11 by a fixing assembly of elastic screws. A certain movable gap is left between the upper shell 11 and the lower shell 12. Several first elastic elements 14 are provided between the upper shell 11 and the lower shell 12 to keep the movable gap in the maximum state. A first micro switch 15 is provided between the upper shell 11 and the lower shell 12 to monitor whether the movable gap between the upper shell 11 and the lower shell 12 changes. The upper shell 11 has a soft cushion 111 on the side where the user sits (the side closer to the upper shell 11), and the upper shell 11 has a built-in serpentine spring 16 for supporting the soft cushion 111; a control panel 13 for control is installed on the side of the upper shell 11 or the lower shell 12; a human body sensor 8 is installed on the back of the lower shell 12 (the side away from the upper shell 11), and the human body sensor 8 can be a photoelectric sensor, millimeter-wave radar and ultrasonic sensor, etc.

[0031] Normally, the seat cushion 1 is in a vertical position that fits against the backrest 51. At this time, the human body sensor 8 on the back of the seat cushion 1 (lower shell 12) can detect whether anyone is approaching the massage chair.

[0032] During the process of the telescopic device 4 extending and retracting to rotate the seat cushion 1 away from the backrest 51 to a horizontal state, if the seat cushion 1 comes into contact with the outside, the gap between the upper shell 11 and the lower shell 12 will become smaller, thereby triggering the first micro switch 15. The first micro switch 15 is triggered to control the telescopic device 4 to stop through the central processing unit and issue an alarm signal to remind the user.

[0033] like Figure 13 , Figure 14 As shown, the rotating shaft 75 includes a first sleeve 751, an intermediate rod 752, a second sleeve 753, a U-shaped frame 754, and a pipe clamp 755. The U-shaped frame 754 and the pipe clamp 755 are installed in the upper shell 11 by their respective bolts and other fixing components. The U-shaped frame 754 has a non-circular through hole (regular hexagon) through which the intermediate rod 752 passes (relative to the axis of the rotating shaft 75). The two ends of the intermediate rod 752 are non-circular ends adapted to the non-circular through hole, and the middle is a circular cylinder with a small outer diameter. The inner diameter of the second sleeve 753 is the same as that of the middle part of the intermediate rod 752. The outer diameter of the first sleeve 751 is adapted to the outer diameter of the circular cylinder, the outer diameter of the second sleeve 753 is adapted to the inner diameter of the pipe clamp 755, the inner cavity of the first sleeve 751 is adapted to the non-circular end of the right end of the intermediate rod 752, the first sleeve 721 is rotatably connected to the support 54 through a bushing, etc., and one end of the swing rod 74 is fixed to the outer wall of the first sleeve 721; pin holes 756 are provided on both the non-circular end of the right end of the intermediate rod 752 and the first sleeve 721, and the pin is inserted into the pin holes 756 of the non-circular end of the right end of the intermediate rod 752 and the first sleeve 721 to fix the two together. The pipe clamp 755 presses and fixes the second sleeve 753 inside the upper shell 11 with bolts and other fixing components, and is located inside the U-shaped frame 754; the non-circular end of the left end of the intermediate rod 752 passes through the non-circular through hole of the U-shaped frame 754 and the second sleeve 753. At this time, the intermediate rod 752 can move relative to the other end along its axis, and the non-circular end of the right end of the intermediate rod 752 is inserted into the first sleeve 751; then the clamping screw on the second sleeve 753 further clamps the non-circular end of the left end of the intermediate rod 752 inside it, and the pin is inserted into the pin hole 756 of the non-circular end of the right end of the intermediate rod 752 and the first sleeve 721; the above steps realize the assembly and fixation of the rotating shaft 75 to the upper shell 11 of the seat cushion 1; By removing the clamping screw on the second sleeve 753 and pulling out the pin, the intermediate rod 75 can be moved relative to the first sleeve 751 along its axis, thereby pulling out the non-circular end of the right end of the intermediate rod 752. This separates the seat cushion 1 from the support 54, facilitating the maintenance of the disassembled seat cushion 1.

[0034] The middle rod 75 has a through channel along its axial direction, through which external cables and other equipment can be connected to the inside of the seat cushion 1.

[0035] like Figure 15 As shown, the front center of the leather case 6 (relative to the waist position) is provided with several independently controllable air cushions 9. Each air cushion 9 is connected to a corresponding inflation / deflation device (such as an air pump). By inflating and deflating several independent air cushions 9, pneumatic massage of the waist of the human body can be achieved.

[0036] like Figure 16 , Figure 17 As shown, a neck and shoulder massager 2 is installed on the upper part of the backrest 51 via a lifting assembly. The neck and shoulder massager 2 is located on the outside of the leather cover 6. The neck and shoulder massager 2 is used to massage the user's neck and shoulders. This is prior art and is not the focus of this application, so it will not be described in detail here.

[0037] The lifting assembly includes a mechanism 21 and a rack and pinion transmission structure 22 disposed within the backrest 51. The mechanism 21 moves up and down within the backrest 51 via the rack and pinion transmission structure 22. A drive motor is mounted on the mechanism 21 to rotate the gears in the rack and pinion transmission structure 22. The rack and pinion transmission structure 22 and the drive motor constitute the power mechanism for the mechanism 21 to move up and down within the backrest 51. The mechanism 21 is connected to the shoulder and neck massagers 2 on both sides via airbags 25. The inflation and deflation of the airbags 25 control the movement of the shoulder and neck massagers 2 on both sides. The mechanism 21 moves up and down, and the shoulder and neck massagers 2 on both sides extend into the leather case 6 and connect to the airbag 25 through their respective connecting arms 23. The connecting arms 23 on both sides are guided by the guide assembly 231 to move up and down relative to the mechanism 21. A first return spring (not shown in the figure) is also provided between the shoulder and neck massagers 2 and the mechanism 21. The elastic force of the first return spring is used to push the shoulder and neck massagers 2 to move up and return relative to the mechanism 21. The mechanism 21 is also guided up and down within the backrest 51 and the leather case 6 by the guide assembly. The lifting assembly also includes an air pump 24, a pressure detector 26, and an air valve (not shown in the attached diagram). The output end of the air pump 24 is connected to the airbag 25 through a first air pipe, and an air valve is installed on the first air pipe. The air valve can be a three-way valve or similar structure. For example, the first and second ends of the air valve are connected to the air pump 24 and the airbag 25, respectively. The third end of the air valve is open and connected to the outside atmosphere when the power is off, and is closed when the power is on. The three ports of the air valve are interconnected. The airbag 25 is connected to the pressure detector 26 through a second air pipe. The barometer 26 is connected to the airbag 25 via a separate second air tube, avoiding sharing a line with the first air tube delivered by the air pump 24, thereby improving the detection accuracy of the air pressure inside the airbag 25.

[0038] When a user sits on the cushion 1 and controls the neck and shoulder massager 2 to descend and massage the user's neck and shoulders via the control panel 13 or voice interaction with the artificial intelligence interactive device 3, firstly, the air pump 24 pneumatically inflates the airbag 25 to the set air pressure through the first air pipe and air valve. The air valve is energized and isolated from the atmosphere. The airbag 25 inflates and expands its size, causing the neck and shoulder massagers 2 on both sides to overcome the first return spring and descend to a certain height. Afterward, the drive motor drives the mechanism 21 to continue descending a set distance through the gear and rack structure 22 until the neck and shoulder massager 2 contacts the user's neck and shoulders. Because the airbag 25 is flexible and deformable, it reduces the rigid contact between the shoulder and neck massager 2 and the user, thus improving comfort.

[0039] If a sudden power outage occurs, the drive motor will be unable to work and thus cannot drive the mechanism 21 to rise and reset. At this time, after the air valve is de-energized, it will be connected to the atmosphere, and the gas in the airbag 25 will be discharged outward through the first air tube and the air valve. The airbag 25 will deflate and shrink to reset its shape. Then, under the action of the first reset spring, the shoulder and neck massager 2 will rise and reset a short distance relative to the mechanism 21. The shoulder and neck massager 2 rises and resets a short distance to separate from the user's shoulders and neck, making it convenient for the user to remove the device.

[0040] The upper part of the backrest 51 is equipped with an artificial intelligence interaction device 3. The artificial intelligence interaction device 3 is located on the outside of the leather case 6. The front of the artificial intelligence interaction device 3 is equipped with a display screen for display and a built-in speaker for voice interaction. The artificial intelligence interaction device 3 is also equipped with an AI system for intelligent interaction with the user and control of the whole machine.

[0041] The embodiments described above are merely illustrative of specific implementations of the present invention, and while the descriptions are detailed, they should not be construed as limiting the scope of the present invention. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of the present invention, and these modifications and improvements all fall within the scope of protection of the present invention.

Claims

1. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism, characterized in that, include: Massage chair body (5), and a neck and shoulder massager (2) is installed on the upper part of the massage chair body (5) through a lifting component; The lifting assembly includes a core (21), an air pump (24), and a power mechanism that drives the core (21) to move up and down within the massage chair body (5). The core (21) is connected to the neck and shoulder massager (2) via a deformable airbag (25). When the airbag (25) is inflated, it pushes the neck and shoulder massager (2) to descend relative to the core (21). The output end of the air pump (24) is connected to the air bag (25) through the first air pipe. An air valve is installed on the first air pipe. When the air valve is de-energized, it is connected to the atmosphere. A first reset spring is provided between the mechanism (21) and the neck and shoulder massager (2). When the airbag (25) deflates, the elastic force of the first reset spring pushes the neck and shoulder massager (2) to rise and reset relative to the mechanism (21).

2. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 1, characterized in that, The massage chair body (5) includes an integrated backrest (51) and a leg (52), with an obtuse angle between the backrest (51) and the leg (52), and a caster (53) for rolling on the ground is installed at the lower end of the leg (52).

3. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 2, characterized in that, Multiple pull ropes (55) are provided between the upper and lower parts of the hollowed-out part in the middle of the backrest (51).

4. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 2, characterized in that, It also includes a support frame (7), the upper end of which is hinged to the backrest (51), and a telescopic device (4) is provided between the support frame (7) and the backrest (51).

5. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 1, characterized in that, The airbag (25) is connected to the air pressure detector (26) via a second air tube to monitor the air pressure inside the airbag (25).

6. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 1, characterized in that, The massage chair body (5) is fitted with a matching leather cover (6) on the outside.

7. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 6, characterized in that, The shoulder and neck massager (2) is located on the outside of the leather case (6). The shoulder and neck massager (2) extends into the leather case (6) through the connecting arm (23) and is connected to the airbag (25).

8. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 7, characterized in that, The connecting arm (23) moves up and down relative to the mechanism (21) with the auxiliary guidance of the guide assembly (231).

9. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 1, characterized in that, The massage chair body (5) is rotatably connected to a seat cushion (1) via a pivot (75) in the middle.

10. A height-adjustable shoulder and neck massage chair with a pneumatic power-off release mechanism according to claim 1, characterized in that, The massage chair body (5) is equipped with an artificial intelligence interactive device (3) at its head.