Health-care clothes for human meridian and acupoint
By incorporating airbags and massage heads inside the garment, the problem of existing health care equipment being inconvenient to carry is solved, enabling acupoint massage and portability in mobile environments.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIAKUO HIGH FREQUENCY EQUIPMENT (XIAMEN) CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-07-14
AI Technical Summary
Existing health care equipment is not portable and cannot be used for acupressure massage in mobile environments.
Design a health care garment that includes airbags and massage heads, with the airbags positioned on the inner surface of the garment corresponding to the acupoints. The massage heads are compressed and relaxed by inflating and deflating the airbags. The massage heads are harder than the airbags, and the massage heads alternately press and relax the acupoints.
It enables effective massage of acupoints in mobile environments, and the clothing is easy to carry and fold.
Smart Images

Figure CN224483097U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of physiotherapy technology, and in particular to a health care garment for the meridians and acupoints of the human body. Background Technology
[0002] Traditional Chinese medicine believes that the human body's meridian system consists of meridians and collaterals. Meridians are like the main trunks, while collaterals are the side branches. There are 12 main meridians in the human body, known as the "Twelve Regular Meridians," as well as countless collaterals. These meridians crisscross the body, forming a complex network. The meridian system not only connects the internal organs but also the limbs and bones. Therefore, it covers all parts of the body, including the internal organs, bone marrow, muscles, skin, and hair. The main function of the meridians is to transport and circulate qi and blood, similar to the lubrication system in a machine. Hundreds of acupoints are distributed along these 12 meridians. These acupoints can be seen as nodes in the network. When a part of the body feels sore, it is usually because the qi and blood are not flowing smoothly. Massaging these acupoints can promote the flow of qi and blood and relieve discomfort. Therefore, to maintain health, we should massage acupoints regularly to ensure the smooth flow of qi and blood.
[0003] Currently, there are many health care devices on the market, such as massage beds, massage chairs, massage mats, and fitness equipment in outdoor parks. However, these massage devices are generally used in fixed locations and are not convenient to carry around. Utility Model Content
[0004] The purpose of this utility model is to provide a health care garment that connects to the meridians and acupoints of the human body. The technical problem it solves is to provide a health care garment that is easy to carry.
[0005] To achieve the above objectives, the solution of this utility model is: a health care garment for human meridians and acupoints, comprising the garment body and an air bag;
[0006] The air bladders are positioned on the inner surface of the garment so that when the garment is worn on the body, the position of the air bladders corresponds to the acupoints on the body.
[0007] The airbag includes an airbag body and a massage head. The airbag body is connected to the garment body and can be inflated and deflated. The massage head is located on the side of the airbag body facing the human body, protruding from the surface of the airbag body, and the hardness of the massage head is greater than that of the airbag body. When the airbag body is inflated, the massage head moves towards the human body to compress acupoints. When the airbag body deflates and retracts, the massage head moves away from the human body to relax acupoints.
[0008] Furthermore, after inflation, the airbag body takes the shape of a table tennis table, with a bottom surface and a top surface. The bottom surface is used to attach to the inner surface of the garment body, while the top surface faces the human body, and the massage head is set on the top surface.
[0009] Furthermore, the massage head is equipped with a connecting part, with the massage head located in the center of the connecting part and protruding from the connecting part. The connecting part is connected to the surface of the ball table, so that the massage head faces the side of the human body. The hardness of the connecting part is greater than that of the airbag body.
[0010] Furthermore, the inner surface of the garment is coated with a TPU film, and the bottom surface of the airbag is coated with the TPU film on the garment body.
[0011] Furthermore, the outer contour of the connecting part is consistent with the outer contour of the ball table surface, and the ratio between the outer diameter of the massage head, the outer diameter of the ball table surface, and the outer diameter of the ball table bottom is 2:3:5. After inflation, the ratio between the height of the massage head and the height of the airbag body is 1:4 to 1:4.5.
[0012] Furthermore, the inner surface of the garment comes into contact with the human body.
[0013] Furthermore, there are multiple air sacs, which are arranged along the meridians of the human body.
[0014] Furthermore, it also includes an inflation / deflation assembly and a controller. The inflation / deflation assembly is connected to each airbag, and the controller is electrically connected to the inflation / deflation assembly to control the inflation / deflation assembly to inflate and deflate each airbag.
[0015] Furthermore, the airbag is made of TPU, silicone, or PVC materials, and the massage head is injection molded or drip molded.
[0016] Furthermore, there are multiple garment bodies, each used to be worn on different parts of the human body. These garment bodies include vest bodies, pants bodies, upper limb sleeve bodies, headgear bodies, and foot covers, etc. The vest body is worn on the upper body, the pants body is worn on the lower body, the upper limb sleeve body is worn on the upper limbs, the headgear body is worn on the head, and the foot covers are worn on the feet.
[0017] The beneficial effects of this utility model after adopting the above solution are as follows: The airbag is set on the inner surface of the garment body. When the garment body is worn on the human body, the airbag can correspond to the acupoints of the human body. The airbag includes an airbag body and a massage head. The airbag body can be inflated and deflated. The massage head is set on the side of the airbag body facing the human body. When the airbag body is inflated, the massage head can approach the human body and squeeze the acupoints. When the airbag body is deflated, the airbag body retracts, and the massage head moves away from the human body with the airbag body to relax the acupoints. Since the hardness of the massage head is greater than that of the airbag body, the massage head will not collapse or deform after the airbag body is deflated and retracted, and can always maintain a certain strength to ensure the pressure on the acupoints. Through the repeated alternating inflation and deflation of the airbag body, the massage head can alternately press and relax the acupoints, realizing the massage of the acupoints. In addition, the garment body can be folded for easy storage and carrying. Attached Figure Description
[0018] Figure 1 This is an exploded structural diagram of the airbag and the garment body of this utility model.
[0019] Figure 2 This is a schematic diagram of the structure of the airbag after inflation.
[0020] Figure 3 This is a schematic diagram of the structure of the airbag after deflation.
[0021] Figure 4 This is a schematic diagram of the structure of the vest body of this utility model.
[0022] Figure 5 This is a structural schematic diagram of the pants body of this utility model.
[0023] Figure 6 This is a schematic diagram of the upper limb sleeve body of this utility model.
[0024] Figure 7 This is a schematic diagram of the structure of the headgear body of this utility model.
[0025] Figure 8 This is a schematic diagram of the structure of the foot cover body of this utility model.
[0026] Label Explanation:
[0027] 1-Clothing body, 2-Airbag, 3-Airbag body, 4-Massage head, 5-Connecting part, 6-Inflation and deflation assembly, 7-Controller, 11-Vest body, 12-Pants body, 13-Upper limb sleeve body, 14-Headgear body, 15-Foot sleeve body, 31-Bottom of the table tennis table, 32-Surface of the table tennis table. Detailed Implementation
[0028] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
[0029] Unless otherwise expressly defined, the use of directional terms such as "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," and "counterclockwise" in the claims, description, and accompanying drawings of this utility model is merely for the convenience of describing the utility model and simplifying the description, and is not intended to indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation. Therefore, it should not be construed as limiting the specific protection scope of this utility model.
[0030] like Figures 1 to 8 As shown in the figure, this utility model provides a health care garment for human meridian acupoints, including a garment body 1 and an airbag 2. The airbag 2 is disposed on the inner surface of the garment body 1, so that when the garment body 1 is worn on the human body, the inner surface of the garment body 1 is in contact with the human body, and the airbag 2 is attached to the surface of the human body. The position of the airbag 2 corresponds to the acupoints of the human body. The airbag 2 includes an airbag body 3 and a massage head 4. The airbag body 3 is connected to the garment body 1, so that the airbag body 3 can be fixed to the garment body 1, which can be achieved by adhesive bonding or other methods. The airbag body 3 can inflate and deflate. The massage head 4 is located on the side of the airbag body 3 facing the human body. The massage head 4 protrudes from the surface of the airbag body 3 and the hardness of the massage head 4 is greater than that of the airbag body 3. When the airbag body 3 is inflated, the massage head 4 moves closer to the human body to squeeze the acupoints. When the airbag body 3 deflates and retracts, the massage head 4 moves away from the human body to relax the acupoints. When the airbag body 3 is alternately inflated and deflated, the massage head 4 can alternately press and relax the acupoints.
[0031] In this specific embodiment, the airbag body 3, after inflation, takes the shape of a frustum, having a bottom surface 31 and a surface 32. The bottom surface 31 is attached to the inner surface of the garment body 1, and the surface 32 faces the human body. The massage head 4 is disposed on the surface 32, and a connecting part 5 is provided on the massage head 4. The massage head 4 is located in the center of the connecting part 5 and protrudes from the connecting part 5. The connecting part 5 is connected to the surface 32, so that the massage head 4 faces the human body. The hardness of the connecting part 5 is greater than that of the airbag body 3, and it is used for key bonding. Figure 3As shown, after the airbag body 3 deflates and retracts, due to the high rigidity of the massage head 4 and the connecting part 5, the massage head 4 will not collapse or deform and can move away from the acupoint along with the connecting part 5. When the airbag body 3 is inflated, the massage head 4 gradually extends towards the acupoint. The massage head 4 maintains a certain rigidity and can squeeze the acupoint, ensuring the pressure intensity on the acupoint. As the airbag body 3 repeatedly inflates and deflates alternately, the massage head 4 can alternately squeeze and relax the acupoint, achieving a massage effect.
[0032] To enhance massage comfort, the massage head 4 is spherical.
[0033] Key points combined Figure 1-3 As shown, in order to ensure the pressing effect of the massage head 4 and to maintain a certain tension after the airbag 2 is inflated to support the massage head 4, the outer contour of the connecting part 5 is consistent with the outer contour of the ball table surface 32. Preferably, the ratio between the outer diameter of the massage head 4, the outer diameter of the ball table surface 32, and the outer diameter of the ball table bottom surface 31 is 2:3:5. After inflation, the ratio between the height of the massage head 4 and the height of the airbag body 3 is 1:4 to 1:4.5.
[0034] In this specific embodiment, the airbag 2 is made of TPU, silicone or PVC, etc., which is soft, highly elastic, has good aging resistance, and does not irritate the skin when in contact with it for a long time. The massage head is injection molded or drip molded.
[0035] In this specific embodiment, the garment body 1 is made of nylon or spandex, or a blend of nylon and spandex. The inner surface of the garment body 1 is coated with a TPU film layer. The bottom surface 31 of the airbag 2 is coated on the TPU film layer of the garment body 1. The specific coating method is high-frequency heat fusion. High-frequency heat fusion is used in the plastics processing and textile industries. It is an existing bonding technology with the characteristics of being fast, efficient, and strong. The connection between the aforementioned connecting part 5 and the airbag body 3 can also be fixed by high-frequency heat fusion. Of course, in other embodiments, low-frequency heat sealing or adhesive bonding can also be used. Those skilled in the art can design according to specific circumstances.
[0036] Key points combined Figure 4 As shown, there are multiple air sacs 2, which are arranged along the meridians of the human body and can correspond to various acupoints of the human body.
[0037] Key points combined Figure 4As shown, it also includes an inflation / deflation assembly 6 and a controller 7. The inflation / deflation assembly 6 is connected to each airbag 2, and the controller 7 is electrically connected to the inflation / deflation assembly 6 to control the inflation / deflation assembly 6 to inflate and deflate each airbag 2. Specifically, the inflation / deflation assembly 6 is any existing miniature air pump capable of repeated inflation and deflation. It also includes a pressure sensor, which is communicatively connected to the controller 7. The pressure sensor is used to detect the pressure of the airbag 2, and the pressure adjustment range is 0-50 kPa. Specifically, the inflation pressure is adjusted by the controller 7 to adapt to different human massages. In addition, the controller 7 is any existing MCU or circuit board capable of controlling the inflation / deflation assembly 6. Controlling the air pump inflation / deflation via an MCU or circuit board is existing technology and will not be described in detail. Of course, the controller 7 can also communicate with a mobile phone to wirelessly control the air pump. In this specific embodiment, each airbag body 3 is interconnected, so that the inflation / deflation assembly 6 can simultaneously inflate and deflate each airbag body 3.
[0038] like Figure 4-8 As shown, to achieve massage on different parts of the human body and for easy portability, multiple garment bodies 1 are provided. These multiple garment bodies 1 are worn on various parts of the body, including vest body 11, pants body 12, upper limb cover body 13, headgear body 14, and foot cover body 15. The vest body 11 is worn on the upper body to massage acupoints when the airbag body 3 inflates and deflates. The pants body 12 is worn on the lower body to massage acupoints when the airbag body 3 inflates and deflates. The upper limb cover body 13 is worn on the upper limbs to massage acupoints on the arms, wrists, elbows, or forearms when the airbag body 3 inflates and deflates. The headgear 14 is worn on the human head to massage acupoints on the head when the airbag 3 is inflated and deflated. The footgear 15 is worn on the human feet to massage acupoints on the feet when the airbag 3 is inflated and deflated. Of course, the clothing body 1 can also be a waistband for massaging the waist or a leg warmer for massaging the legs. Those skilled in the art can design it according to specific circumstances without specific limitations. In use, the clothing body 1 is first worn on the corresponding part of the human body, and the inner surface of the clothing body 2 is attached to the human body so that the airbag 2 is close to the human body. Then, the controller 7 controls the inflation and deflation of the inflation and deflation assembly 6 to make the massage head 4 alternately squeeze and relax the acupoints.
[0039] The above description is only a preferred embodiment of this utility model and is not intended to limit the design of this case. All equivalent changes made based on the key design of this case shall fall within the protection scope of this case.
Claims
1. A health-care garment featuring acupoints along the human meridians, characterized in that: Includes the garment body (1) and the airbag (2); The airbag (2) is set on the inner surface of the garment body (1) so that when the garment body (1) is worn on the human body, the position of the airbag (2) corresponds to the acupoints of the human body; The airbag (2) includes an airbag body (3) and a massage head (4). The airbag body (3) is connected to the garment body (1) and can be inflated and deflated. The massage head (4) is located on the side of the airbag body (3) facing the human body and protrudes from the surface of the airbag body (3). After inflation, the airbag body (3) takes the shape of a table tennis table, with a bottom surface (31) and a surface (32). The bottom surface (31) is used to attach to the inner surface of the garment body (1), and the surface (32) faces the human body. The massage head (4) is set on the surface (32). The size of the massage head (4) is smaller than that of the airbag body (3), and the outer diameter of the surface (32) is smaller than that of the bottom surface (31). The massage head (4) is harder than the airbag body (3), so that when the airbag body (3) is inflated, the massage head (4) moves closer to the human body to squeeze the acupoints, and when the airbag body (3) deflates and retracts, the massage head (4) moves away from the human body to relax the acupoints.
2. The health care clothing based on human meridians and acupoints as described in claim 1, characterized in that: The massage head (4) is provided with a connecting part (5). The massage head (4) is located in the center of the connecting part (5) and protrudes from the connecting part (5). The connecting part (5) is connected to the ball table surface (32) so that the massage head (4) faces the human body. The hardness of the connecting part (5) is greater than that of the airbag body (3).
3. The health care clothing based on human meridians and acupoints as described in claim 1, characterized in that: The inner surface of the garment body (1) is coated with a TPU film layer, and the bottom surface (31) of the ball table of the airbag (2) is coated on the TPU film layer of the garment body (1).
4. The health care clothing based on human meridians and acupoints as described in claim 2, characterized in that: The outer contour of the connecting part (5) is consistent with the outer contour of the ball table surface (32). The ratio between the outer diameter of the massage head (4), the outer diameter of the ball table surface (32), and the outer diameter of the ball table bottom surface (31) is 2:3:
5. After inflation, the ratio between the height of the massage head (4) and the height of the airbag body (3) is 1:4 to 1:4.
5.
5. The health care clothing based on human meridians and acupoints as described in claim 1, characterized in that: The inner surface of the garment body (1) is in contact with the human body.
6. The health care garment based on human meridians and acupoints as described in claim 1, characterized in that: The number of air sacs (2) is multiple, and the multiple air sacs (2) are arranged along the meridians of the human body.
7. The health care garment based on human meridians and acupoints as described in claim 6, characterized in that: It also includes an inflation / deflation assembly (6) and a controller (7). The inflation / deflation assembly (6) is connected to each airbag (2), and the controller (7) is electrically connected to the inflation / deflation assembly (6) to control the inflation / deflation assembly (6) to inflate and deflate each airbag (2).
8. The health care clothing based on human meridians and acupoints as described in claim 1, characterized in that: The airbag (2) is made of TPU, silicone or PVC material, and the massage head (4) is injection molded or drip molded.
9. The health care clothing based on human meridians and acupoints as described in claim 1, characterized in that: The number of the garment body (1) is multiple, and the multiple garment bodies (1) are respectively used to be worn on different parts of the human body. The multiple garment bodies (1) are respectively a vest body (11), a trouser body (12), an upper limb cover body (13), a head cover body (14) or a foot cover body (15). The vest body (11) is used to be worn on the upper body of the human body, the trouser body (12) is used to be worn on the lower body of the human body, the upper limb cover body (13) is used to be worn on the upper limbs of the human body, the head cover body (14) is used to be worn on the head of the human body, and the foot cover body (15) is used to be worn on the feet of the human body.