Massage belt
By using a symmetrically designed waist belt body and battery assembly, combined with a flexible material waist belt body, the problem of wearing comfort of massage waist belts is solved, achieving uniform distribution of battery weight and uniform transmission of vibration force, thus improving wearing comfort and massage effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG SKG INTELLIGENT TECH CO LTD
- Filing Date
- 2025-05-16
- Publication Date
- 2026-06-09
AI Technical Summary
Massage belts are not very comfortable to wear, especially due to the shift in the center of gravity and localized pressure caused by the concentrated weight of the battery.
The belt body and battery assembly feature a symmetrical design, with the battery assembly symmetrically distributed on both sides of the belt. Combined with the flexible material of the belt body and the symmetrical design, this ensures that the battery weight is evenly distributed, reducing localized pressure. The flexible material of the belt body also conforms to the curves of the human body, enhancing wearing comfort.
It improves the wearing comfort and stability of the massage belt, ensures uniform vibration transmission, extends service life, and enhances the massage experience.
Smart Images

Figure CN224331212U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of massage belt technology, specifically to a massage belt. Background Technology
[0002] With social development and improved living standards, people are paying more and more attention to and managing their body shape. Massage belts are becoming increasingly popular. A massage belt is a device that massages the abdomen or waist, providing benefits such as muscle massage, fatigue relief, and aiding in weight loss.
[0003] Among related technologies, massage waist belts are not very comfortable to wear. Utility Model Content
[0004] The purpose of this application is to provide a massage belt to solve the technical problem of poor wearing comfort in related technologies.
[0005] In a first aspect, this application provides a massage belt, comprising:
[0006] The main body of the belt;
[0007] A massage component is provided on the main body of the belt;
[0008] A battery module is disposed on the waist belt body. The battery module includes a first battery component and a second battery component. Both the first battery component and the second battery component are electrically connected to the massage component. The first battery component and the second battery component have the same weight and are disposed on both sides of the massage component.
[0009] In the massage belt provided in this application, the massage component is disposed in the main body of the belt, and the battery module is disposed in the main body of the belt. The battery module includes a first battery component and a second battery component. Both the first battery component and the second battery component are electrically connected to the massage component. The first battery component and the second battery component have the same weight, and the first battery component and the second battery component are disposed on both sides of the massage component, which can improve the uniformity and stability of the vibration force transmission in the massage belt and improve the massage experience of the massage belt.
[0010] The main body of the belt is made of flexible material.
[0011] The massage belt includes a symmetrical surface, and the main body of the belt is symmetrical with respect to the symmetrical surface.
[0012] The first battery assembly and the second battery assembly are located on opposite sides of the plane of symmetry, and are symmetrically arranged with respect to the plane of symmetry.
[0013] The massage belt also includes a first heating component, which is disposed on the main body of the belt. The number of the first heating components is even, and the even number of the first heating components are evenly distributed on both sides of the massage component, and the even number of the first heating components are symmetrically arranged with respect to the symmetrical surfaces.
[0014] The massage belt also includes a housing assembly, which has the same weight on both sides of the plane of symmetry, and the massage component is disposed inside and connected to the housing assembly.
[0015] The massage component includes a motor and an eccentric block. The motor is connected to the eccentric block in a transmission manner. The housing assembly is connected to the waist belt body. The massage component is configured to drive the housing assembly to vibrate, thereby driving the waist belt body to vibrate.
[0016] The belt body includes a first body and a second body arranged along a first direction. The first body and the second body are respectively connected to the housing assembly. The first body and the second body are configured to vibrate under the drive of the housing assembly. The first body and the second body are connected and enclosed to form a receiving space. The battery module and the first heat therapy component are both disposed in the receiving space.
[0017] The housing assembly includes a housing, a first mounting base, and a second mounting base. The second mounting base is disposed between the first mounting base and the housing. The second mounting base is used to mount the motor. The second mounting base is connected to the second main body, and the first mounting base is connected to the first main body.
[0018] The waist belt body also includes a flexible filler, which is disposed between the first body and the second body, and the first heat therapy component is disposed on the flexible filler.
[0019] The flexible filler has a first mounting position and a second mounting position on the side facing the second body. The first mounting position is used to install the first battery assembly, and the second mounting position is used to install the second battery assembly.
[0020] The first heat-applying component is located on the side of the flexible filler opposite to the battery module, and the first heat-applying component and the battery module are respectively located on both sides of the flexible filler.
[0021] The first main body has a receiving position on the side facing the second main body, and the receiving position is used to receive the first heat therapy component.
[0022] The flexible filler has multiple hollowed-out portions, and at least a portion of the first main body and at least a portion of the second main body pass through the hollowed-out portions and are connected to each other.
[0023] The first main body is provided with a protrusion, which protrudes in a direction toward the second main body and passes through the hollow part and connects to the second main body;
[0024] Alternatively, the second body may have a protrusion that protrudes toward the first body and passes through the hollow portion and connects to the first body.
[0025] The massage belt also includes a second heating component, which is arranged sequentially with the massage component along the first direction. The second heating component has the same weight on both sides of the symmetrical plane.
[0026] The massage belt also includes a webbing, and the main body of the belt has through holes on both sides, through which the webbing passes.
[0027] The width of the webbing is H1, and H1 satisfies the following condition: 60mm ≤ H1 ≤ 100mm.
[0028] The width of the main body of the belt near the webbing is H2, and the ratio of H1 to H2 is β, wherein β satisfies: 0.8≤β≤1. Attached Figure Description
[0029] To more clearly illustrate the technical solutions of the embodiments of this application, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0030] Figure 1 This is a schematic diagram of the structure of a massage belt provided in an embodiment of this application;
[0031] Figure 2 This is a schematic cross-sectional view of a massage belt provided in an embodiment of this application. Figure 1 ;
[0032] Figure 3 This is a top view of a massage belt according to an embodiment of this application;
[0033] Figure 4 This is a schematic diagram of a structure in which a first battery assembly and a second battery assembly are symmetrically arranged, according to an embodiment of this application.
[0034] Figure 5This is an exploded structural diagram of a massage belt provided in an embodiment of this application;
[0035] Figure 6 This is a schematic cross-sectional view of a massage belt provided in an embodiment of this application. Figure 2 ;
[0036] Figure 7 This is an exploded view of a belt body, battery module, and first heating assembly provided in an embodiment of this application;
[0037] Figure 8 This is an exploded view of a belt body provided in an embodiment of this application.
[0038] Label Explanation:
[0039] Massage waist belt 100, waist belt body 10, first body 11, receiving position 111, protrusion 112, second body 12, flexible filler 13, first mounting position 131, second mounting position 132, hollow part 133, through hole 14, massage component 20, motor 21, eccentric block 22, battery module 30, first battery assembly 31, second battery assembly 32, first heating assembly 40, shell assembly 50, shell 51, first mounting seat 52, second mounting seat 53, second heating assembly 60, symmetry plane A, first direction D1. Detailed Implementation
[0040] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.
[0041] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this application are used to distinguish different objects, not to describe a specific order. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion.
[0042] In this specification, for convenience, terms such as "middle," "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," and "outer" are used to indicate orientation or positional relationships in conjunction with the accompanying drawings. This is solely for the purpose of facilitating the description and simplification, and does not imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, it should not be construed as a limitation of this disclosure. The positional relationships of the constituent elements may be appropriately varied depending on the orientation of the constituent elements being described. Therefore, the use of terms not limited to those described in the specification may be appropriately replaced as needed.
[0043] In this specification, unless otherwise expressly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they may refer to a fixed connection, a detachable connection, or an integral connection; a mechanical connection or an electrical connection; a direct connection or an indirect connection via an intermediate component, or a connection within two components. Those skilled in the art will understand the meaning of these terms in this disclosure as appropriate.
[0044] With social development and improved living standards, people are paying more and more attention to and managing their body shape. Massage belts are becoming increasingly popular. A massage belt is a device that massages the abdomen or waist, providing benefits such as muscle massage, fatigue relief, and aiding in weight loss.
[0045] Among related technologies, massage waist belts are not very comfortable to wear.
[0046] Please refer to Figures 1 to 4 , Figure 1 This is a structural schematic diagram of a massage belt provided in an embodiment of this application. Figure 2 This is a schematic cross-sectional view of a massage belt provided in an embodiment of this application. Figure 1 , Figure 3 This is a top view schematic diagram of a massage belt according to an embodiment of this application. Figure 4 This is a schematic diagram of a structure in which a first battery assembly and a second battery assembly are symmetrically arranged, according to an embodiment of this application.
[0047] This application provides a massage waist belt 100 to solve the technical problem of poor wearing comfort of massage waist belts in related technologies.
[0048] What is important is that the massage belt 100 described in this application has wide applicability and can be flexibly adapted to the massage needs of multiple parts of the human body, including but not limited to the abdomen, waist, and other muscle groups. For ease of explanation, this application uses waist massage as an example for detailed description, which does not constitute a limitation on the application scope of the massage belt 100. In actual use scenarios, users can use it for massage and care of different parts of the body according to their own needs, and this application does not impose any restrictions on this.
[0049] The massage belt 100 includes a belt body 10, a massage component 20, and a battery module 30. The massage component 20 is disposed on the belt body 10, and the battery module 30 is disposed on the belt body 10. The battery module 30 includes a first battery component 31 and a second battery component 32. Both the first battery component 31 and the second battery component 32 are electrically connected to the massage component 20. The first battery component 31 and the second battery component 32 have the same weight, and the first battery component 31 and the second battery component 32 are disposed on both sides of the massage component 20.
[0050] The massage component 20 is disposed on the waist belt body 10. The massage component 20 is used to massage the user's massage area. It should be noted that, optionally, the massage component 20 may be a vibration massage structure, an air wave massage structure, an electric pulse massage structure or other massage structures. This application uses the massage component 20 as a vibration massage structure as an example for illustration, and should not be construed as a limitation of this application.
[0051] The massage component 20 is a vibration massage structure, configured to generate periodic vibrations and transmit them to the waist belt body 10, thereby massaging the user's massage areas through the vibration of the waist belt body 10. The massage component 20 is connected to the waist belt body 10. Optionally, the massage component 20 and the waist belt body 10 may be directly or indirectly connected. In this embodiment, an indirect connection between the massage component 20 and the waist belt body 10 is used as an example. The connection structures connecting the massage component 20 and the waist belt body 10 will be described in detail later and should not be construed as limiting this application.
[0052] In this embodiment, the waist belt body 10 serves as a support platform for fixing the massage component 20 and the battery module 30, and provides wearing support. Furthermore, the waist belt body 10 is designed to fit the user's massage area, and the massage component 20 is spaced apart from the user's massage area. The massage component 20 is configured to drive the waist belt body 10 to vibrate, thereby vibrating the user's massage area to achieve massage.
[0053] Furthermore, the waist belt body 10 is made of a flexible material, which can conform to the curves of the massage area, enhancing the uniformity of the massage from the massage waist belt 100. Specifically, the flexible waist belt body 10 has good extensibility and deformation capability, allowing it to closely conform to the curvature and contour of the abdomen or waist, avoiding the localized pressure caused by the sharp edges or rigid contact of traditional hard materials. Moreover, the conformity of the flexible waist belt body 10 to the massage area allows the periodic vibrations generated by the massage component 20 to be transmitted more evenly to the massage area (such as the stomach and intestines in the abdomen, waist muscles, acupoints, etc.), reducing energy loss during transmission, ensuring consistent massage intensity distribution, and improving the precision of the massage effect.
[0054] Optionally, in this embodiment, the belt body 10 may include, but is not limited to, one or more of the following materials: silicone, sponge, thermoplastic polyurethane (TPU), elastic fabric, or other materials.
[0055] Optionally, in this embodiment, the hardness range of the belt body 10 is 30 Shore A to 70 Shore A. For example, the hardness of the belt body 10 can be 30 Shore A, or 35 Shore A, or 40 Shore A, or 45 Shore A, or 50 Shore A, or 55 Shore A, or 60 Shore A, or 65 Shore A, or 70 Shore A, or other values within the range of 30 Shore A to 70 Shore A. This application does not impose any limitations on this.
[0056] The battery module 30 includes a first battery component 31 and a second battery component 32. Both the first battery component 31 and the second battery component 32 are electrically connected to the massage component 20. The dual battery component composed of the first battery component 31 and the second battery component 32 can form a redundant power supply or a parallel power supply mode, thereby improving the power supply durability and reliability of the waist belt body 10.
[0057] For example, if the first battery assembly 31 and the second battery assembly 32 are designed in parallel, the battery capacity can be increased and the working time of the massage assembly 20 can be extended; if one of the first battery assembly 31 and the second battery assembly 32 is designed as a backup power source, when one set of batteries is depleted, the other set can continue to supply power, thus avoiding the interruption of the function of the massage belt 100.
[0058] In this embodiment, the first battery assembly 31 and the second battery assembly 32 have the same weight, and the first battery assembly 31 and the second battery assembly 32 are disposed on both sides of the massage assembly 20, which can improve the uniformity and stability of the vibration force transmission in the massage belt 100 and improve the massage experience of the massage belt 100.
[0059] Traditional single-battery belts may cause the user's waist to tilt to one side when wearing them because the battery is concentrated on one side, leading to problems such as user fatigue.
[0060] In this embodiment, the first battery assembly 31 and the second battery assembly 32 have the same weight, and the first battery assembly 31 and the second battery assembly 32 are located on both sides of the massage assembly 20, which can offset the weight load on one side and prevent the center of gravity of the massage belt 100 from shifting due to excessive local weight (such as one-sided drooping or uneven force on the massage area), making it easier for the user to pick up and improving the wearing comfort of the massage belt 100.
[0061] Furthermore, the first battery assembly 31 and the second battery assembly 32 form a dual-battery assembly, which can distribute the total weight of the battery module 30, avoid local pressure concentration on the massage belt 100, reduce the local pressure sensation when wearing the massage belt 100, and improve the fit and comfort of the massage belt 100. Further, the belt body 10 is made of flexible material, and the dual-battery assembly of the first battery assembly 31 and the second battery assembly 32 further distributes the weight of the battery module 30, preventing the material of the belt body 10 from deforming due to local stress, extending the service life of the belt body 10, and improving the structural stability of the massage belt 100.
[0062] Furthermore, the first battery assembly 31 and the second battery assembly 32 are located on both sides of the massage assembly 20, and both are located on the waist belt body 10. This fully utilizes the unused space of the waist belt body 10, accommodating a larger capacity battery without increasing the thickness of the waist belt body 10. Moreover, the first battery assembly 31 and the second battery assembly 32 can be independently disassembled and replaced; if one side of the battery is damaged, only the corresponding component needs to be replaced, improving the maintenance convenience of the massage waist belt 100.
[0063] It should be noted that the first battery component 31 and the second battery component 32 have the same weight, including but not limited to the fact that the weights of the first battery component 31 and the second battery component 32 are exactly the same numerically, or that the weights of the first battery component 31 and the second battery component 32 are equal within a reasonable tolerance range, wherein the reasonable tolerance is 3g. In other words, if the weight difference between the first battery component 31 and the second battery component 32 is within 3g (including 3g), it is also considered that the first battery component 31 and the second battery component 32 have the same weight, and should not be construed as a limitation of this application.
[0064] It should be further noted that in this embodiment, the first battery assembly 31 includes one battery, and the second battery assembly 32 includes one battery, with both batteries having the same weight and size. This application does not limit the number, shape, or size of the batteries in the first battery assembly 31 and the second battery assembly 32, and this should not be construed as a limitation of this application. For example, in other embodiments, the number of batteries in the first battery assembly 31 and the second battery assembly 32 may differ, but the weight of the first battery assembly 31 and the second battery assembly 32 may be the same. Alternatively, the first battery assembly 31 may include two batteries of different sizes and weights, and the second battery assembly 32 may also include two batteries of different sizes and weights, but the weight of the first battery assembly 31 and the second battery assembly 32 may be the same.
[0065] In the massage belt 100 provided in this application, the massage component 20 is disposed on the belt body 10, and the battery module 30 is disposed on the belt body 10. The battery module 30 includes a first battery component 31 and a second battery component 32. Both the first battery component 31 and the second battery component 32 are electrically connected to the massage component 20. The first battery component 31 and the second battery component 32 have the same weight, and the first battery component 31 and the second battery component 32 are disposed on both sides of the massage component 20, which can improve the uniformity and stability of the vibration force transmission in the massage belt 100 and enhance the massage experience of the massage belt 100.
[0066] Please refer to Figures 1 to 4 In one embodiment, the massage belt 100 includes a symmetry plane A, and the belt body 10 is symmetrical with respect to the symmetry plane A.
[0067] The waist belt body 10 is symmetrical with respect to the symmetry plane A, meaning that the weight of the waist belt body 10 is the same on both sides when worn, which helps to improve the wearing comfort of the massage waist belt 100. Furthermore, the human waist and abdomen have bilateral symmetry; the symmetrical design of the waist belt body 10 can better conform to the physiological curvature of the lumbar spine and abdomen, reducing friction or gaps between the waist belt body 10 and the user's massage area, thus improving the wearing comfort and stability of the waist belt body 10.
[0068] Furthermore, the waist belt body 10 has a symmetrical structure, and the stress on both sides of the waist belt body 10 is consistent when stretched or bent, which can reduce the risk of fracture caused by local stress concentration and improve the structural stability and service life of the waist belt body 10.
[0069] Furthermore, the waist belt body 10 has a symmetrical structure, so users do not need to distinguish between left and right sides when wearing it, allowing for quick and easy wearing of the waist belt body 10 and improving the convenience of wearing the massage waist belt 100. In addition, the symmetrical design of the waist belt body 10 conforms to ergonomic aesthetics, making the product appearance of the massage waist belt 100 more harmonious.
[0070] Please refer to Figures 1 to 4 Furthermore, in one embodiment, the first battery assembly 31 and the second battery assembly 32 are disposed on both sides of the symmetry plane A, and the first battery assembly 31 and the second battery assembly 32 are symmetrically arranged with respect to the symmetry plane A.
[0071] The first battery assembly 31 and the second battery assembly 32 have the same weight and are symmetrically distributed, so that the total center of gravity of the battery module 30 coincides with the symmetry plane A, avoiding the overall center of gravity shift of the massage belt 100 due to the different weight on one side, and further improving the wearing comfort of the massage belt 100.
[0072] Furthermore, the first battery assembly 31 and the second battery assembly 32 are symmetrically arranged, so that the wire lengths from the first battery assembly 31 and the second battery assembly 32 to the massage assembly 20 are similar, reducing problems such as current imbalance caused by resistance differences and improving circuit stability.
[0073] Furthermore, the first battery assembly 31 and the second battery assembly 32 are symmetrically arranged, and the first battery assembly 31 and the second battery assembly 32 have the same shape. When assembling the first battery assembly 31 and the second battery assembly 32, there is no need to distinguish between left and right, which can improve the assembly speed and production efficiency of the massage belt 100. Moreover, if either the first battery assembly 31 or the second battery assembly 32 fails or its battery life decreases, it can be replaced with the same spare battery structure.
[0074] Please refer to Figures 1 to 4 In one embodiment, the massage waist belt 100 further includes a first heat therapy component 40, which is disposed on the waist belt body 10. The number of the first heat therapy components 40 is even, and the even number of the first heat therapy components 40 are evenly distributed on both sides of the massage component 20, and the even number of the first heat therapy components 40 are symmetrically arranged with respect to the symmetry plane A.
[0075] The first heating component 40 is disposed on the waist belt body 10. The massage component 20 drives the waist belt body 10 to vibrate, thereby causing the first heating component 40 to vibrate synchronously. The massage component 20 drives the large-area first heating component 40 to vibrate, achieving both large-area heating and large-area vibration on the user's massage area, further enhancing the massage effect of the massage waist belt 100.
[0076] Furthermore, it should be noted that if the massage component 20 is directly connected to the first heating component 40, the vibration energy of the massage component 20 will be directly transmitted to the first heating component 40 when it vibrates, which may cause collisions, compression, or other impacts to the first heating component 40. This could not only damage the first heating component 40, such as causing it to crack or its wiring to break, but the heat emitted by the first heating component 40 may also affect the normal operation of the massage component 20, reducing the service life and stability of the massage belt 100.
[0077] The massage component 20 is configured to drive the waist belt body 10 to vibrate, thereby driving the first heating component 40 to vibrate. This avoids direct connection between the massage component 20 and the first heating component 40 and direct transmission of vibration energy to the first heating component 40. It also prevents the components of the first heating component 40 from shifting, breaking, or making poor contact due to high-intensity vibration, and does not affect the normal operation of the massage component 20. This helps to improve the service life and stability of the massage component 20 and the first heating component 40, thereby improving the service life and stability of the massage waist belt 100.
[0078] The number of the first heat therapy components 40 is an even number. Optionally, the number of the first heat therapy components 40 can be 2, 4, 6, or other even numbers. This application does not limit this number.
[0079] The number of the first heating components 40 is even and they are arranged symmetrically. The total weight and thickness of the multiple first heating components 40 are completely balanced on both sides of the symmetry plane A, which avoids the overall center of gravity of the massage belt 100 shifting due to the different weight on one side, and further improves the wearing comfort of the massage belt 100.
[0080] Furthermore, an even number of the first heating components 40 are symmetrically arranged, and each of the first heating components 40 has the same shape. When assembling the even number of first heating components 40, there is no need to distinguish between left and right, which can improve the assembly speed and production efficiency of the massage belt 100. Moreover, if one of the even number of first heating components 40 malfunctions, it can be replaced with the same spare first heating component 40.
[0081] Please refer to Figures 1 to 6 , Figure 5 This is an exploded structural diagram of a massage belt according to an embodiment of this application. Figure 6 This is a schematic cross-sectional view of a massage belt provided in an embodiment of this application. Figure 2 .
[0082] In one embodiment, the massage belt 100 further includes a housing assembly 50, the housing assembly 50 having the same weight on both sides of the symmetry plane A, and the massage component 20 being disposed within and connected to the housing assembly 50.
[0083] The weight of the housing assembly 50 is the same on both sides of the symmetry plane A. Together with the first battery assembly 31, the second battery assembly 32, and an even number of first heating components 40 distributed inside, the overall center of gravity of the massage belt 100 is completely aligned with the symmetry plane A. This avoids the overall center of gravity of the massage belt 100 shifting due to the different weight on one side, and further improves the wearing comfort of the massage belt 100.
[0084] Furthermore, the weight of the housing assembly 50 is the same on both sides of the symmetry plane A, and the massage assembly 20 is fixed at the center of the housing assembly 50. When the massage assembly 20 is working, the vibration force generated is evenly transmitted to both sides along the symmetry plane A, so as to avoid the uneven vibration effect of the waist belt body 10 caused by the strong vibration on one side of the housing assembly 50, thereby improving the uniformity of the massage effect of the massage waist belt 100.
[0085] Furthermore, the weight of the housing assembly 50 is the same on both sides of the symmetry plane A. When the symmetrically weighted housing assembly 50 is subjected to external pressure (such as when a user bends over or sits down and squeezes the waist belt), the stress distribution on both sides of the housing assembly 50 is uniform, reducing the risk of the housing assembly 50 cracking.
[0086] It should be noted that the weight of the housing assembly 50 is the same on both sides of the plane of symmetry A, including but not limited to the fact that the weight of the housing assembly 50 on both sides of the plane of symmetry A is completely identical in value, or that the weight of the housing assembly 50 on both sides of the plane of symmetry A is equal within a reasonable tolerance range, wherein the reasonable tolerance is 3g. In other words, if the weight difference of the housing assembly 50 on both sides of the plane of symmetry A is within 3g (including 3g), it is also considered that the weight of the housing assembly 50 on both sides of the plane of symmetry A is the same, and should not be construed as a limitation of this application.
[0087] Please refer to Figures 1 to 6 In one embodiment, the massage component 20 includes a motor 21 and an eccentric block 22, the motor 21 being drivenly connected to the eccentric block 22, the housing component 50 being connected to the waist belt body 10, and the massage component 20 being configured to drive the housing component 50 to vibrate, thereby driving the waist belt body 10 to vibrate.
[0088] The massage component 20 includes the motor 21 and the eccentric block 22. The motor 21 is configured to drive the eccentric block 22 to rotate, so that the massage component 20 generates periodic vibrations.
[0089] The massage component 20 is disposed within and connected to the housing component 50. Specifically, the massage component 20 is installed inside the housing component 50 and rigidly fixed to the housing component 50 through a mechanical connection structure. The fixed connection method between the massage component 20 and the housing component 50 includes, but is not limited to, screw fixing, snap-fit engagement, etc. The rigid fixed connection between the massage component 20 and the housing component 50 ensures that the vibration energy generated when the motor 21 of the massage component 20 drives the eccentric block 22 to rotate can be transmitted to the housing component 50 with no loss or minimal loss, avoiding vibration attenuation or abnormal noise caused by loose connection between the massage component 20 and the housing component 50.
[0090] Please refer to Figures 1 to 6 In one embodiment, the waist belt body 10 includes a first body 11 and a second body 12 disposed along a first direction D1. The first body 11 and the second body 12 are respectively connected to the housing assembly 50. The first body 11 and the second body 12 are configured to vibrate under the drive of the housing assembly 50. The first body 11 and the second body 12 are connected and enclosed to form a receiving space. The battery module 30 and the first heat therapy component 40 are both disposed in the receiving space.
[0091] When the massage belt 100 is placed close to the skin on a horizontal surface, the vertically upward direction is the first direction D1 (the direction in the height direction that is away from the horizontal placement surface, such as...). Figure 2 (As shown).
[0092] The first body 11 and the second body 12 are fixedly connected so that the belt body 10 formed by the first body 11 and the second body 12 can transmit the vibration energy of the housing assembly 50 to the massage area with little or no loss. Optionally, the connection method of the first body 11 and the second body 12 includes, but is not limited to, adhesive bonding, edge sewing, heat fusion pressing, etc.
[0093] Please refer to Figures 1 to 6 In one embodiment, the housing assembly 50 includes a housing 51, a first mounting base 52 and a second mounting base 53. The second mounting base 53 is disposed between the first mounting base 52 and the housing 51. The second mounting base 53 is used to mount the motor 21. The second mounting base 53 is connected to the second body 12, and the first mounting base 52 is connected to the first body 11.
[0094] In this embodiment, the second mounting base 53 is fixed to the first mounting base 52, and the outer shell 51 is fixed to the second mounting base, thereby achieving mutual fixation between the outer shell 51, the second mounting base 53, and the first mounting base 52. In other embodiments, the outer shell 51 and the first mounting base 52 may be fixedly connected, and the second mounting base 53 may be pressed and fixed between the outer shell 51 and the first mounting base 52; this application does not limit this.
[0095] Furthermore, in this embodiment, the first mounting base 52 is connected to the first main body 11, the second mounting base 53 is connected to the second main body 12, the massage component 20 is configured to drive the first mounting base 52 to vibrate and thus drive the first main body 11 to vibrate, and the massage component 20 is configured to drive the second mounting base 53 to vibrate and thus drive the second main body 12 to vibrate.
[0096] Please refer to Figures 1 to 6 In one embodiment, the waist belt body 10 further includes a flexible filler 13, which is disposed between the first body 11 and the second body 12, and the first heat therapy component 40 is disposed on the flexible filler 13.
[0097] The flexible filler 13 is disposed between the first body 11 and the second body 12, so that the waist belt body 10 forms a flexible integrated structure. The waist belt body 10 can better fit the massage area for massage, which can improve the massage uniformity and massage effect of the massage waist belt 100, and further improve the wearing comfort of the massage waist belt 100.
[0098] Optionally, the flexible filler 13 may be made of materials such as sponge, silicone, hydrogel, or latex. In this embodiment, the flexible filler 13 is exemplified as a sponge and should not be construed as a limitation of this application.
[0099] The flexible filling element 13 of this application is a sponge. The memory properties of the sponge allow it to maintain its shape after the belt body 10 is worn, enhancing the fit and stability of the belt body 10. Furthermore, the flexible filling element 13 is a sponge, which has good heat retention properties and can form a closed thermal field, thereby improving the heat therapy effect of the massage belt 100.
[0100] Furthermore, in this embodiment, the flexible filler 13 and the first body 11 are connected by adhesive, and the flexible filler 13 and the second body 12 are also connected by adhesive. The first body 11 and the second body 12 are respectively glued to both sides of the flexible filler 13 to improve the overall stability of the belt body 10.
[0101] Furthermore, the flexible filler 13 can absorb and buffer some noise, making the massage belt 100 quieter during use and providing a more comfortable user environment.
[0102] Please refer to Figures 1 to 7 , Figure 7 This is an exploded view of a belt body, battery module, and first heating assembly provided in an embodiment of this application.
[0103] In one embodiment, the flexible filler 13 has a first mounting position 131 and a second mounting position 132 on the side facing the second body 12. The first mounting position 131 is used to mount the first battery assembly 31, and the second mounting position 132 is used to mount the second battery assembly 32.
[0104] The flexible filler 13 can serve as a carrier for the first battery assembly 31 and the second battery assembly 32. In other words, the flexible filler 13 can be used to install and fix the first battery assembly 31 and the second battery assembly 32, so as to avoid displacement or misalignment of the first battery assembly 31 and the second battery assembly 32 and improve the stability of the massage belt 100.
[0105] Installing the first battery assembly 31 in the first mounting position 131 and the second battery assembly 32 in the second mounting position 132 allows the first battery assembly 31, the second battery assembly 32, and the flexible filler 13 to better integrate and form a relatively stable overall structure. When the massage belt 100 is subjected to vibration, tension, or other external forces during use, the first mounting position 131 and the second mounting position 132 can provide a certain degree of fixation and protection for the first battery assembly 31 and the second battery assembly 32, reducing the possibility of displacement or loosening of the first battery assembly 31 and the second battery assembly 32. This ensures that the first battery assembly 31 and the second battery assembly 32 maintain a good working condition during long-term use, extending the service life of the massage belt 100. The flexible filler 13, positioned in the first mounting position 131 and the second mounting position 132, serves as a battery compartment. When the first battery assembly 31 or the second battery assembly 32 expands, the elasticity of the flexible filler 13 can buffer the deformation, preventing the first battery assembly 31 and the second battery assembly 32 from compressing the first heating component 40 and causing secondary malfunctions.
[0106] Please refer to Figures 1 to 7 In one embodiment, the first heat-applying component 40 is disposed on the side of the flexible filler 13 opposite to the battery module 30, and the first heat-applying component 40 and the battery module 30 are respectively disposed on both sides of the flexible filler 13.
[0107] The first heating component 40 is attached to the flexible filler 13, which typically has a certain heat-insulating property, effectively storing and transferring heat. When the heat generated by the first heating component 40 is transferred to the flexible filler 13, the flexible filler 13 can evenly distribute the heat across the entire waist belt body 10, thereby transferring it to the massage area and improving the uniformity and effectiveness of the heating.
[0108] When the first heating component 40 is in operation, its surface temperature is relatively high. If the first heating component 40 is in direct contact with the battery module 30, the battery module 30 may remain in the critical temperature range for an extended period, accelerating the decomposition of the electrolyte in the battery module 30, affecting its lifespan, and even posing a risk of thermal runaway. The flexible filler 13, as a natural insulating medium, can isolate the first heating component 40 and the battery module 30, preventing the battery module 30 from remaining in the critical temperature range for a long time and improving the service life of the battery module 30.
[0109] Furthermore, in one embodiment, the first body 11 is provided with a receiving position 111 on the side facing the second body 12, the receiving position 111 being used to receive the first heat therapy component 40.
[0110] The receiving position 111 allows the first heating component 40 to be closer to the first body 11, thereby better transferring heat to the first body 11. Furthermore, the receiving position 111 can reduce the contact area between the first heating component 40 and the outside air, reducing the rate of heat loss and allowing the heat emitted by the first heating component 40 to be utilized more efficiently, thus improving the heating efficiency of the massage belt 100.
[0111] It should be noted that, optionally, in this embodiment, the first heating component 40 is a heating film. In other embodiments, the first heating component 40 may also be a heating pad, heating wire, or other heating structure. This application does not limit this.
[0112] Please refer to Figures 1 to 8 , Figure 8 This is an exploded view of a belt body provided in an embodiment of this application.
[0113] In one embodiment, the flexible filler 13 is provided with a plurality of hollow portions 133, and at least a portion of the first body 11 and at least a portion of the second body 12 pass through the hollow portions 133 and are connected to each other.
[0114] It should be noted that, in this embodiment, the edges of the first main body 11 and the second main body 12 are connected by means of adhesive bonding, edge sewing, hot melt pressing, etc. The middle area of the first main body 11 and the middle area of the second main body 12 also pass through the hollow part 133 and are connected to each other, which helps to further improve the connection firmness of the first main body 11 and the second main body 12, thereby improving the stability and firmness of the entire belt body 10. At the same time, it is also conducive to the transmission of vibration force, so that there can be a strong vibration force even at the edge of the belt body 10.
[0115] Furthermore, in this embodiment, the first body 11 is provided with a protrusion 112, the protrusion 112 protrudes in the direction toward the second body 12, the protrusion 112 passes through the hollow portion 133 and connects to the second body 12.
[0116] Optionally, the connection method between the protrusion 112 of the first body 11 and the second body 12 includes, but is not limited to, connection by means of adhesive bonding, edge sewing, hot melt pressing, etc.
[0117] Furthermore, in another embodiment, the second body 12 may be provided with a protrusion 112, the protrusion 112 protruding in the direction toward the first body 11, the protrusion 112 passing through the hollow portion 133 and connecting to the first body 11.
[0118] Optionally, the connection between the protrusion 112 of the second body 12 and the first body 11 may include, but are not limited to, connection by means of adhesive bonding, edge sewing, hot melt pressing, etc.
[0119] Please refer to Figures 1 to 8 In one embodiment, the massage belt 100 further includes a second heat therapy component 60, which and the massage component 20 are arranged sequentially along the first direction D1, and the second heat therapy component 60 has the same weight on both sides of the symmetry plane A.
[0120] The second heating component 60 and the massage component 20 are arranged along the first direction D1. Integrating the second heating component 60 and the massage component 20 into one area can avoid increasing the thickness of other areas of the massage belt 100, thereby reducing the overall volume of the massage belt 100.
[0121] The second heat therapy component 60 has the same weight on both sides of the symmetry plane A, which avoids the overall center of gravity of the massage belt 100 shifting due to the different weight on one side, and further improves the wearing comfort of the massage belt 100.
[0122] It should be noted that the weight of the second heating component 60 on both sides of the plane of symmetry A is the same, including but not limited to the fact that the weight of the second heating component 60 on both sides of the plane of symmetry A is completely identical in value, or that the weight of the second heating component 60 on both sides of the plane of symmetry A is equal within a reasonable tolerance range, wherein the reasonable tolerance is 3g. In other words, if the weight difference of the second heating component 60 on both sides of the plane of symmetry A is within 3g (including 3g), it is also considered that the weight of the second heating component 60 on both sides of the plane of symmetry A is the same, and should not be construed as a limitation of this application.
[0123] Please refer to Figures 1 to 8 In one embodiment, the massage belt 100 further includes a webbing, and the belt body 10 has through holes 14 on both sides, through which the webbing passes.
[0124] The webbing can pass through the through holes 14 on both sides of the waist belt body 10 and form a closed loop to fix the waist belt body 10 to the user's massage area. Even when the user is exercising, bending over, turning around, etc., the massage waist belt 100 is not easy to shift or slip off, ensuring that the massage component 20 always acts in the correct position and maintaining the stability of the massage effect of the massage waist belt 100.
[0125] The through hole 14 provides a reliable connection point for the webbing. Compared with the method of directly sewing or pasting to the waist belt body 10, the connection strength of the webbing through the through hole 14 structure is higher, it can withstand greater tensile force, and extend the service life of the massage waist belt 100.
[0126] Furthermore, the webbing can slide freely within the through hole 14. By adjusting the tightness of the webbing, the user can flexibly adjust it according to the waist circumference of different users, and the massage waist belt 100 can fit the massage area, ensuring that the massage component 20, the first heat therapy component 40 and other functional modules can accurately act on the target area.
[0127] Further, optionally, in this embodiment, the webbing is made of a flexible material, including but not limited to elastic fabric, nylon, or cotton. When the flexible webbing wraps around the waist, it can evenly distribute the weight of the waistband body 10 and its internal functional modules, avoiding discomfort caused by excessive localized stress.
[0128] Please refer to Figures 1 to 8 In one embodiment, the width of the webbing is H1, and H1 satisfies: 60mm≤H1≤100mm.
[0129] If the width H1 of the webbing is too small (H1 < 60mm), the narrow webbing may result in poor stability of the massage waist belt 100, or even excessive local pressure on the webbing, causing skin marks or discomfort for the user. If the width H1 of the webbing is too large (H1 > 100mm), the width of the webbing may be too wide, which may make the user appear bulky when wearing the massage waist belt 100, affecting the user's wearing experience.
[0130] Therefore, in this embodiment, when the width dimension H1 of the webbing satisfies 60mm≤H1≤100mm, the width dimension of the webbing is moderate, which can not only enable the webbing to effectively fix the waist belt body 10, but also avoid the webbing being too narrow, causing excessive local pressure and resulting in skin marks or discomfort for the user.
[0131] Optionally, the width dimension H1 of the webbing can be 60mm, 65mm, 70mm, 75mm, 80mm, 85mm, 90mm, 95mm, or 100mm, or other dimensions within the range of 60mm-100mm, and this application does not impose any restrictions on this.
[0132] Furthermore, in this embodiment, the width dimension of the waist belt body 10 near the webbing side is H2, and the ratio of H1 to H2 is β, wherein β satisfies: 0.8≤β≤1, and β satisfies the relationship: β=H1 / H2.
[0133] Specifically, β≥0.8 ensures that the width of the webbing is not significantly smaller than the width of the waistband body 10, thereby improving the connection stability between the webbing and the waistband body 10, preventing the waistband body 10 from slapping, and improving the comfort of vibration transmission. β≤1 prevents the width of the webbing from significantly exceeding the width of the waistband body 10, preventing wrinkles, curling, or excess material from accumulating during wear, which could affect the wearing stability of the massage waistband 100.
[0134] The condition β satisfies 0.8 ≤ β ≤ 1, which reduces the gap and relative sliding between the webbing and the waistband body 10. Furthermore, the webbing width is sufficient and matches the width of the waistband body 10, ensuring that the connection between the webbing and the waistband body 10 is evenly stressed when adjusting tension or bearing external forces (such as pulling during exercise). This reduces the risk of webbing breakage or edge damage to the through-hole 14 due to stress concentration, thus extending the service life of the massage waistband 100.
[0135] In this application, the terms "embodiment" and "implementation" mean that a specific feature, structure, or characteristic described in connection with an embodiment can be included in at least one embodiment of this application. The appearance of these phrases in various locations throughout the specification does not necessarily refer to the same embodiment, nor are they independent or alternative embodiments mutually exclusive with other embodiments. Those skilled in the art will understand, explicitly and implicitly, that the embodiments described in this application can be combined with other embodiments. Furthermore, it should be understood that the features, structures, or characteristics described in the various embodiments of this application can be arbitrarily combined to form another embodiment that does not depart from the spirit and scope of the technical solution of this application, provided there is no contradiction between them.
[0136] The above description represents some embodiments of this application. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of this application, and these improvements and modifications are also considered to be within the scope of protection of this application.
Claims
1. A massage belt (100), characterized in that, include: Belt body (10); A massage component (20) is disposed on the waist belt body (10); A battery module (30) is disposed on the waist belt body (10). The battery module (30) includes a first battery component (31) and a second battery component (32). The first battery component (31) and the second battery component (32) are both electrically connected to the massage component (20). The first battery component (31) and the second battery component (32) have the same weight, and the first battery component (31) and the second battery component (32) are disposed on both sides of the massage component (20).
2. The massage belt (100) according to claim 1, characterized in that, The main body (10) of the belt is made of flexible material.
3. The massage belt (100) according to claim 1, characterized in that, The massage belt (100) includes a symmetrical plane (A), and the belt body (10) is symmetrical with respect to the symmetrical plane (A).
4. The massage belt (100) according to claim 3, characterized in that, The first battery assembly (31) and the second battery assembly (32) are disposed on both sides of the symmetry plane (A), and the first battery assembly (31) and the second battery assembly (32) are symmetrically arranged with respect to the symmetry plane (A).
5. The massage belt (100) according to claim 3, characterized in that, The massage waist belt (100) further includes a first heating component (40), which is disposed on the waist belt body (10). The number of the first heating components (40) is even, and the even number of the first heating components (40) are evenly distributed on both sides of the massage component (20), and the even number of the first heating components (40) are symmetrically arranged with respect to the symmetry plane (A).
6. The massage belt (100) according to claim 5, characterized in that, The massage belt (100) also includes a housing assembly (50) having the same weight on both sides of the plane of symmetry (A), and the massage assembly (20) being disposed within and connected to the housing assembly (50).
7. The massage belt (100) according to claim 6, characterized in that, The massage component (20) includes a motor (21) and an eccentric block (22), the motor (21) being connected to the eccentric block (22) in a transmission manner, the housing assembly (50) being connected to the waist belt body (10), and the massage component (20) being configured to drive the housing assembly (50) to vibrate, thereby driving the waist belt body (10) to vibrate.
8. The massage belt (100) according to claim 7, characterized in that, The waist belt body (10) includes a first body (11) and a second body (12) arranged along a first direction (D1). The first body (11) and the second body (12) are respectively connected to the housing assembly (50). The first body (11) and the second body (12) are configured to vibrate under the drive of the housing assembly (50). The first body (11) and the second body (12) are connected and enclosed to form a receiving space. The battery module (30) and the first heat therapy component (40) are both disposed in the receiving space.
9. The massage belt (100) according to claim 8, characterized in that, The housing assembly (50) includes a housing (51), a first mounting base (52) and a second mounting base (53). The second mounting base (53) is disposed between the first mounting base (52) and the housing (51). The second mounting base (53) is used to mount the motor (21). The second mounting base (53) is connected to the second main body (12), and the first mounting base (52) is connected to the first main body (11).
10. The massage belt (100) according to claim 8, characterized in that, The waist belt body (10) also includes a flexible filler (13), which is disposed between the first body (11) and the second body (12), and the first heat therapy component (40) is disposed on the flexible filler (13).
11. The massage belt (100) according to claim 10, characterized in that, The flexible filler (13) has a first mounting position (131) and a second mounting position (132) on the side facing the second body (12). The first mounting position (131) is used to mount the first battery assembly (31), and the second mounting position (132) is used to mount the second battery assembly (32).
12. The massage belt (100) according to claim 11, characterized in that, The first heat-applying component (40) is disposed on the side of the flexible filler (13) away from the battery module (30), and the first heat-applying component (40) and the battery module (30) are respectively disposed on both sides of the flexible filler (13).
13. The massage belt (100) according to claim 12, characterized in that, The first body (11) has a receiving position (111) on the side facing the second body (12), and the receiving position (111) is used to receive the first heat therapy component (40).
14. The massage belt (100) according to claim 10, characterized in that, The flexible filler (13) has a plurality of hollowed-out portions (133), at least a portion of the first body (11) and at least a portion of the second body (12) pass through the hollowed-out portions (133) and are connected to each other.
15. The massage belt (100) according to claim 14, characterized in that, The first body (11) is provided with a protrusion (112), the protrusion (112) protrudes in the direction toward the second body (12), the protrusion (112) passes through the hollow part (133) and connects to the second body (12); Alternatively, the second body (12) is provided with a protrusion (112) that protrudes in the direction toward the first body (11) and passes through the hollow part (133) and connects to the first body (11).
16. The massage belt (100) according to claim 3, characterized in that, The massage belt (100) also includes a second heat therapy component (60), the second heat therapy component (60) and the massage component (20) are arranged sequentially along a first direction (D1), and the second heat therapy component (60) has the same weight on both sides of the symmetry plane (A).
17. The massage belt (100) according to claim 1, characterized in that, The massage belt (100) also includes a webbing, and the belt body (10) has through holes (14) on both sides, through which the webbing passes.
18. The massage belt (100) according to claim 17, characterized in that, The width of the webbing is H1, and H1 satisfies the following condition: 60mm≤H1≤100mm.
19. The massage belt (100) according to claim 18, characterized in that, The width dimension of the waist belt body (10) near the webbing side is H2, and the ratio of H1 to H2 is β, wherein β satisfies: 0.8≤β≤1.