Massage assembly and massager

By employing a one-way transmission component and an axial cam eccentric wheel design in the massage component, the problems of single movement speed and poor linkage of the massage component are solved, realizing synchronous movement of neck and shoulder massage, and improving the massage effect and mode richness.

CN224403966UActive Publication Date: 2026-06-26SHENZHEN BREO TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN BREO TECH CO LTD
Filing Date
2024-12-31
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing massage components have a single massage speed and poor linkage with the shoulder and back massage components.

Method used

The transmission structure employs a shaft-driven gear and a second transmission gear, ensuring power transmission in one direction through a unidirectional transmission component. Combined with an axial cam and eccentric wheel design, it achieves synchronized movement of the neck and shoulder massage structures.

Benefits of technology

The reliability and linkage of the power transmission of the massage components have been improved, the massage modes have been enriched, and the effect of neck and shoulder massage has been enhanced.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224403966U_ABST
    Figure CN224403966U_ABST
Patent Text Reader

Abstract

The utility model provides a massage subassembly and massager, wherein the massage subassembly includes: the axle stem, first transmission gear and second transmission gear are arranged at the axle stem at intervals, drive part is respectively drivenly connected with first transmission gear and second transmission gear, first axial cam is arranged on the axle stem, and neck massage structure is sleeved on first axial cam, in first motion state, first transmission gear is driven by drive part and drives the axle stem unidirectionally through first one-way transmission part, in second motion state, second transmission gear is driven by drive part and drives the axle stem unidirectionally along with the same direction of first motion state through second one-way transmission part, and the axle stem drives first axial cam and neck massage structure to rotate. Through adopting above technical scheme, it realizes that first transmission gear and second transmission gear only transmit power in one direction, thereby ensuring the reliability of power transmission.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the technical field of massagers, and more specifically, to a massage component and a massager. Background Technology

[0002] In daily work and life, people often experience discomfort in the neck, shoulders, and back for various reasons, such as maintaining one posture for a long time at work or becoming a "text neck" person by looking at their phone for extended periods. If mild discomfort is not addressed with timely massage and relaxation, it can lead to long-term strain on the neck, shoulders, and back, and in severe cases, cervical spondylosis, causing even greater inconvenience to daily life and work.

[0003] Currently available massagers include massage components, but existing massage components have a single massage speed and poor linkage with shoulder and back massage components. Utility Model Content

[0004] The purpose of this utility model is to provide a massage component and massager to solve the technical problems of existing massage components having a single massage action speed and poor linkage with shoulder massage components and back massage components.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] In a first aspect, a massage component is provided, comprising:

[0007] The system comprises a shaft, a first transmission gear and a second transmission gear spaced apart on the shaft, a drive member that is respectively connected to the first transmission gear and the second transmission gear, a first axial cam on the shaft, and a neck massage structure sleeved on the first axial cam; a first one-way transmission member is connected between the first transmission gear and the shaft, and a second one-way transmission member is connected between the second transmission gear and the shaft.

[0008] The driving component has a first motion state and a second motion state. In the first motion state, the first transmission gear, driven by the driving component, drives the shaft to rotate in one direction through the first one-way transmission component. In the second motion state, the second transmission gear, driven by the driving component, drives the shaft to rotate in one direction along the same direction as in the first motion state through the second one-way transmission component. The shaft drives the first axial cam and the neck massage structure to rotate.

[0009] By adopting the above technical solution, the first transmission gear and the second transmission gear transmit power in only one direction, so that when one gear transmits power, it will not transmit power to the other gear, thus ensuring the reliability of power transmission.

[0010] In one embodiment, the massage assembly further includes a massage housing, a second axial cam disposed on the massage housing, an eccentric wheel coaxially disposed with the second axial cam, a swing arm pulsatingly connected to the second axial cam, a first swing ring disposed on the swing arm and movably sleeved on the second axial cam, a second swing ring movably sleeved on the eccentric wheel, a shoulder massage structure pulsatingly connected to the first swing ring and the swing arm, and a third one-way transmission member disposed between the drive member and the second axial cam; wherein, the drive member is used to drive the second axial cam and the eccentric wheel to rotate; in the first motion state, the drive member drives the second axial cam and the eccentric wheel to rotate synchronously, jointly driving the shoulder massage structure to perform a swing massage action; in the second motion state, the drive member drives the eccentric wheel to rotate, the second axial cam is stationary, and the eccentric wheel drives the shoulder massage structure to swing around the swing arm to perform a patting massage action.

[0011] In one embodiment, the massage housing is provided with a shoulder limiting groove, and the first swing ring is provided with a shoulder limiting member that is slidably connected to the shoulder limiting groove. The shoulder limiting member is used to limit the swing of the first swing ring under the drive of the second axial cam.

[0012] In one embodiment, the shoulder massage structure is connected to the swing arm via a swing shaft, and the second swing ring is movably connected to the shoulder massage structure via a shoulder shaft; in the second motion state, the shoulder shaft can drive the shoulder massage structure to move around the swing shaft to perform a patting massage action.

[0013] In one embodiment, the first axial cam is disposed between the first transmission gear and the second transmission gear, a first lubricating pad is provided between the first axial cam and the first transmission gear, and a second lubricating pad is provided between the first axial cam and the second transmission gear.

[0014] In one embodiment, the shaft, the first transmission gear, the second transmission gear, and the driving member are disposed inside the massage housing. The massage housing is provided with a neck massage structure limiting groove, and the neck massage structure is provided with a neck massage structure limiting member that slides in the neck massage structure limiting groove.

[0015] In one embodiment, the neck massage structure includes a neck massage structure body and a plurality of neck massage balls disposed on the neck massage structure body. The neck massage structure body is sleeved on the first axial cam, and the plurality of neck massage balls are arranged sequentially along a preset direction.

[0016] In one embodiment, the neck massage structure body defines two perpendicular bottom-viewing surfaces, front-viewing surfaces, and side-viewing surfaces. A plurality of neck massage balls are arranged sequentially along a preset arc on the bottom-viewing surface; a plurality of neck massage balls are arranged sequentially along a preset straight line on the front-viewing surface; and a plurality of neck massage balls are arranged sequentially along a curve that deviates from the center of the side-viewing surface.

[0017] In one embodiment, the radius of the preset arc is 30mm-80mm; when the multiple neck massage balls are arranged along the preset arc, the distance between the centers of the first and last two neck massage balls is 30mm-100mm; and the distance between the centers of two adjacent neck massage balls is 10mm-30mm.

[0018] Secondly, a massager is provided, including a massager main unit and the aforementioned massage components, wherein the massage components are disposed on the massager main unit.

[0019] By adopting the above technical solution, the massager of this embodiment, in addition to having the advantages of the massage components of the above embodiments, also has the advantage of good massage effect. Attached Figure Description

[0020] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0021] Figure 1 This is a three-dimensional structural diagram of the massager provided in an embodiment of this utility model.

[0022] Figure 2 The explosion of the massager provided in this embodiment of the utility model Figure 1 .

[0023] Figure 3 The explosion of the massager provided in this embodiment of the utility model Figure 2 .

[0024] Figure 4 This is an exploded view of the massage component provided in an embodiment of this utility model.

[0025] Figure 5 This is a three-dimensional structural diagram of the massage component provided in an embodiment of this utility model.

[0026] Figure 6 This is a partial view of the massager provided in an embodiment of the present utility model.

[0027] Figure 7This is a bottom view of the neck massage structure provided in this embodiment of the utility model.

[0028] Figure 8 This is a front view of the neck massage structure provided in an embodiment of this utility model.

[0029] Figure 9 This is a side view of the neck massage structure provided in an embodiment of the present invention.

[0030] The labels for the attached figures are as follows:

[0031] 100. Massage component; 101. Shaft; 102. First transmission gear; 103. Second transmission gear; 104. Drive component; 105. First axial cam; 106. Neck massage structure; 107. Massage housing;

[0032] 1021. First one-way transmission component; 1031. Second one-way transmission component; 1051. Positioning pin; 1052. Fixing cover; 1053. First lubricating gasket; 1054. Second lubricating gasket; 1071. Neck massage structure limiting groove; 1061. Neck massage structure limiting component; 1062. Neck massage structure body; 1063. Neck massage ball;

[0033] 302. Second axial cam; 303. Eccentric wheel; 305. First swing ring; 306. Second swing ring; 307. Shoulder massage structure; 308. Third one-way transmission component; 309. Swing shaft; 311. Shoulder shaft; 313. Back massage structure; 314. Swing arm;

[0034] 3011, shoulder limiting groove; 3051, shoulder limiting component. Detailed Implementation

[0035] To make the technical problems, technical solutions, and beneficial effects of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.

[0036] It should be noted that when a component is referred to as "fixed to" or "set on" another component, it can be located directly on or indirectly on the other component. When a component is referred to as "connected to" another component, it can be directly or indirectly connected to the other component.

[0037] It should be understood that the terms "length", "width", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and do not indicate that the device or element must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0038] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating relative importance or the number of technical features. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified. The specific implementation of this utility model is described in more detail below with reference to specific embodiments:

[0039] like Figure 1 and Figure 2 As shown in the figure, a massage component 100 provided in this embodiment of the present invention is used to be assembled on the main body of a massager to form a massager 10; the massage component 100 provided in this embodiment can realize different massage speeds to improve the linkage with the shoulder massage component and the back massage component, thereby adapting to different massage modes; the following is a description through specific embodiments:

[0040] like Figure 3 and Figure 4 As shown, the massage component 100 in this embodiment includes:

[0041] The shaft 101, a first transmission gear 102 and a second transmission gear 103 spaced apart on the shaft 101, a drive member 104 connected to the first transmission gear 102 and the second transmission gear 103, a first axial cam 105 on the shaft 101, and a neck massage structure 106 sleeved on the first axial cam 105; a first one-way transmission member 1021 is connected between the first transmission gear 102 and the shaft 101, and a second one-way transmission member 1031 is connected between the second transmission gear 103 and the shaft 101.

[0042] The drive member 104 has a first motion state and a second motion state. In the first motion state, the first transmission gear 102 drives the shaft 101 to rotate in one direction through the first one-way transmission member 1021 under the drive member 104. In the second motion state, the second transmission gear 103 drives the shaft 101 to rotate in one direction in the same direction as in the first motion state through the second one-way transmission member 1031 under the drive member 104. The shaft 101 drives the first axial cam 105 and the neck massage structure 106 to rotate.

[0043] Here, it can be understood that shaft 101 refers to the rod used to transmit power to the neck massage structure 106;

[0044] The first transmission gear 102 refers to the gear used to transmit the power of the driving member 104 to the shaft 101. The first transmission gear 102 is provided on the shaft 101. The first transmission gear 102 includes, but is not limited to, a cylindrical gear or a bevel gear.

[0045] The second transmission gear 103 refers to the gear used to transmit the power of the driving member 104 to the shaft 101. The second transmission gear 103 is provided on the shaft 101. The second transmission gear 103 includes, but is not limited to, cylindrical gears or bevel gears.

[0046] The driving component 104 refers to a component used to drive the first transmission gear 102 and the second transmission gear 103 to rotate. The driving component 104 is connected to the first transmission gear 102 and is used to drive the first transmission gear 102 to rotate around an axis, thereby driving the first axial cam 105 to rotate. The driving component 104 is also connected to the second transmission gear 103 and is used to drive the second transmission gear 103 to rotate around an axis, thereby driving the first axial cam 105 to rotate. The driving component 104 includes, but is not limited to, a motor, which has a power output shaft.

[0047] Taking the drive component 104 as a motor as an example, the first motion state and the second motion state refer to the motion states in which the motor output shaft rotates in opposite directions. That is to say, by setting the above structure, the shaft 101 always rotates in the same direction, regardless of whether the motor is rotating forward or in reverse.

[0048] A first one-way transmission member 1021 is connected between the first transmission gear 102 and the shaft 101. The first one-way transmission member 1021 is a bearing that can drive the shaft 101 to rotate in one direction, but does not drive the shaft 101 to rotate in the opposite direction. For example, when the first transmission gear 102 rotates in one direction, it drives the shaft 101 to rotate in the same direction through the first one-way transmission member 1021, and when the first transmission gear 102 rotates in the opposite direction, it stops driving the shaft 101 to rotate.

[0049] Similarly, a second one-way transmission member 1031 is connected between the second transmission gear 103 and the shaft 101. The second one-way transmission member 1031 is a type of bearing that can drive the shaft 101 to rotate in one direction but not in another direction. For example, when the second transmission gear 103 rotates in one direction, it drives the shaft 101 to rotate in that direction through the second one-way transmission member 1031. When the second transmission gear 103 rotates in the opposite direction, it stops driving the shaft 101 to rotate.

[0050] The working principle of the massage component 100 provided in this embodiment is as follows:

[0051] The driving member 104 is connected to the first transmission gear 102, so the driving member 104 can drive the first transmission gear 102 to rotate in one direction. When the first transmission gear 102 rotates in one direction, the first transmission gear 102 drives the shaft 101 to rotate through the first one-way transmission member 1021, and then the shaft 101 drives the first axial cam 105 to rotate, so the first axial cam 105 drives the neck massage structure 106 to perform a massage action. Similarly, the driving member 104 is connected to the second transmission gear 103, so the driving member 104 can drive the second transmission gear 103 to rotate in one direction. When the second transmission gear 103 rotates in one direction, the second transmission gear 103 drives the shaft 101 to rotate through the second one-way transmission member 1031, and then the shaft 101 drives the first axial cam 105 to rotate, so the first axial cam 105 drives the neck massage structure 106 to perform a massage action.

[0052] In one embodiment, the first one-way transmission member 1021 includes a first one-way transmission member outer ring and a first one-way transmission member inner ring disposed within the first one-way transmission member outer ring. The first one-way transmission member outer ring is fixedly connected to the first transmission gear 102, and the first one-way transmission member inner ring is fixedly connected to the shaft 101. The second one-way transmission member 1031 includes a second one-way transmission member outer ring and a second one-way transmission member inner ring disposed within the second one-way transmission member outer ring. The second one-way transmission member outer ring is fixedly connected to the second transmission gear 103, and the second one-way transmission member inner ring is fixedly connected to the shaft 101.

[0053] When the first transmission gear 102 rotates in one direction, it drives the outer ring of the first one-way transmission component to rotate in one direction, which in turn drives the inner ring of the first one-way transmission component to rotate in one direction, and then the inner ring of the first one-way transmission component drives the shaft 101 to rotate in one direction. Conversely, when the first transmission gear 102 rotates in the opposite direction, it drives the outer ring of the first one-way transmission component to rotate in the opposite direction, and the outer ring stops driving the inner ring of the first one-way transmission component to rotate. The inner ring of the first one-way transmission component, along with the shaft 101, then stops rotating. Similarly... When the second transmission gear 103 rotates in one direction, it drives the outer ring of the second one-way transmission component to rotate in one direction, which in turn drives the inner ring of the second one-way transmission component to rotate in one direction. The inner ring of the second one-way transmission component then drives the shaft 101 to rotate in one direction. When the second transmission gear 103 rotates in the opposite direction, it drives the outer ring of the second one-way transmission component to rotate in the opposite direction, and the outer ring of the second one-way transmission component stops driving the inner ring of the second one-way transmission component to rotate. The inner ring of the second one-way transmission component, together with the shaft 101, stops rotating.

[0054] By adopting the above technical solution, the first transmission gear 102 and the second transmission gear 103 transmit power in only one direction, so that when one gear transmits power, it will not transmit power to the other gear, thereby ensuring the reliability of power transmission.

[0055] In addition, the first transmission gear 102 and the second transmission gear 103 always drive the neck massage structure to move in the same direction and the speed is adjustable to adapt to different massage modes of the massager and improve the linkage with the shoulder massage component and the back massage component.

[0056] In one embodiment, a locating pin 1051 is provided between the first axial cam 105 and the shaft 101, and the locating pin 1051 is used to limit the connection between the first axial cam 105 and the shaft 101.

[0057] Here, it can be understood that in order to fix the first axial cam 105 to the shaft 101, a positioning pin 1051 is provided between the first axial cam 105 and the shaft 101. The positioning pin 1051 fixes the first axial cam 105 to the shaft 101, so that the shaft 101 can drive the first axial cam 105 to rotate synchronously.

[0058] Through the above technical solution, the shaft 101 and the first axial cam 105 rotate synchronously, improving the synchronization of their rotation.

[0059] In one embodiment, a fixing cover 1052 for limiting the neck massage structure 106 is also provided.

[0060] Here, it can be understood that the fixed cover 1052 refers to the cover used to limit the neck massage structure 106; the fixed cover 1052 is arranged opposite to the first axial cam 105, limiting the neck massage structure 106 between the fixed cover 1052 and the first axial cam 105, preventing the neck massage structure 106 from detaching from the first axial cam 105 during movement, and improving the reliability of movement.

[0061] like Figure 5 and Figure 6As shown, in one embodiment, the massage assembly further includes a massage housing 107, a second axial cam 302 disposed on the massage housing 107, an eccentric wheel 303 coaxially disposed with the second axial cam 302, a swing arm 314 pulsatorically connected to the second axial cam 302, a first swing ring 305 disposed on the swing arm 314 and movably sleeved on the second axial cam 302, a second swing ring 306 movably sleeved on the eccentric wheel 303, a shoulder massage structure 307 pulsatorically connected to the first swing ring 305 and the swing arm 314, and a massage mechanism disposed on the drive member 304 and... A third one-way transmission member 308 is connected between the second axial cams 302; wherein, the driving member 304 is used to drive the second axial cam 302 and the eccentric wheel 303 to rotate. In the first motion state, the driving member 304 drives the second axial cam 302 and the eccentric wheel 303 to rotate synchronously, which together drive the shoulder massage structure 307 to perform a swing massage action; in the second motion state, the driving member 304 drives the eccentric wheel 303 to rotate, the second axial cam 302 is stationary, and the eccentric wheel 303 drives the shoulder massage structure 307 to swing around the swing arm 314 to perform a patting massage action.

[0062] By adopting the above technical solution, the massage component can perform different massage actions in various motion states of the drive member 304 when used as a standalone shoulder massager, thereby increasing the richness of the massage modes of the massager equipped with the massage component. In addition, the massage component enables the shoulder massage structure 307 and the neck massage structure 106 to be used synchronously, improving the correlation between the shoulder massage component 300 and the neck massage structure 106 and enriching the massage modes of the massager.

[0063] In one embodiment, the massage housing is provided with a shoulder limiting groove 3011, and the first swing ring 305 is provided with a shoulder limiting member 3051 that is slidably connected to the shoulder limiting groove 3011. The shoulder limiting member 3051 is used to limit the swing of the first swing ring 305 under the drive of the axial cam 302.

[0064] A shoulder limiting member 3051 is disposed on the first swing ring 305. The shoulder limiting member 3051 extends from the first swing ring 305 toward the shoulder limiting groove 3011. The end of the shoulder limiting member 3051 is used to insert into the shoulder limiting groove 3011 and is limited by the shoulder limiting groove 3011. Here, it can be understood that the shape and size of the shoulder limiting groove 3011 match the shape and size of the shoulder limiting member 3051, so that the shoulder limiting member 3051 can be just accommodated in the shoulder limiting groove 3011 and can slide along the groove length direction of the shoulder limiting groove 3011. The shoulder limiting member 3051 is used to work together with the axial cam 302 on the first swing ring 305, so that the first swing ring 305 realizes the swing massage action.

[0065] By adopting the above technical solution, the shoulder limiting member 3051 and the axial cam 302 work together on the first swing ring 305, and the first swing ring 305 is used to drive the shoulder massage structure 307 to perform a swing massage action.

[0066] In one embodiment, the shoulder massage structure 307 is connected to the swing arm 314 via a swing shaft 309, and the second swing ring 306 is movably connected to the shoulder massage structure 307 via a shoulder shaft 311. In the second motion state, the shoulder massage structure 307 moves around the swing shaft 309 under the action of the shoulder shaft 311 to achieve a patting massage action.

[0067] The shoulder shaft 311 in this embodiment includes, but is not limited to, a ball-and-spherical shoulder shaft 311. That is, both ends of the shoulder shaft 311 are connected to spheres. One sphere is movably connected to the second swing ring 306, allowing the ball-and-spherical shoulder shaft 311 to rotate in multiple directions relative to the second swing ring 306. The other sphere is movably connected to the shoulder massage structure 307, allowing the ball-and-spherical shoulder shaft 311 to rotate in multiple directions relative to the shoulder massage structure 307. This allows the second swing ring 306 to drive the shoulder massage structure 307 to swing under the influence of the eccentric wheel 303. Simultaneously, the swing shaft 309 refers to the shaft around which the shoulder massage structure 307 rotates. The swing shaft 309 connects the shoulder massage structure 307 and the swing arm 314. The shoulder massage structure 307 can rotate around the swing shaft 309, thus enabling the shoulder massage structure 307 to perform a tapping massage action under the influence of the second swing ring 306 and the ball-and-spherical shoulder shaft 311.

[0068] In one embodiment, a first axial cam 105 is disposed between a first transmission gear 102 and a second transmission gear 103, a first lubrication pad 1053 is provided between the first axial cam 105 and the first transmission gear 102, and a second lubrication pad 1054 is provided between the first axial cam 105 and the second transmission gear 103.

[0069] Here, it can be understood that when only one of the first transmission gear 102 and the second transmission gear 103 rotates or rotates in opposite directions, the lubrication between the first transmission gear 102 and the second transmission gear 103 and the first axial cam 105 is increased, thereby reducing the friction with other parts.

[0070] By adopting the above technical solution, the smoothness of operation and durability of the massage component 100 are increased.

[0071] In one embodiment, the shaft 101, the first transmission gear 102, the second transmission gear 103, and the drive member 104 are disposed inside the massage housing 107. The massage housing 107 is provided with a neck massage structure limiting groove 1071, and the neck massage structure 106 is provided with a neck massage structure limiting member 1061 that slides in the neck massage structure limiting groove 1071.

[0072] Here, it can be understood that the massage housing 107 refers to the housing used to accommodate the shaft 101, the first transmission gear 102, the second transmission gear 103, and the drive member 104. The massage housing 107 has a hollow structure and is provided with a neck massage structure limiting groove 1071. The neck massage structure 106 is provided with a neck massage structure limiting member 1061. The shape and size of the neck massage structure limiting groove 1071 match the shape and size of the neck massage structure limiting member 1061, so that the neck massage structure limiting member 1061 can be accommodated in the neck massage structure limiting groove 1071 and can slide along the groove length direction of the neck massage structure limiting groove 1071. In this way, the neck massage structure 106 performs massage actions under the limiting of the neck massage structure limiting member 1061 and the first axial cam 105.

[0073] By adopting the above technical solution, the neck massage structure 106 can perform corresponding massage actions.

[0074] like Figures 7 to 9 As shown, in one embodiment, the neck massage structure 106 includes a neck massage structure body 1062 and a plurality of neck massage balls 1063 disposed on the neck massage structure body 1062. The neck massage structure body 1062 is sleeved on the first axial cam 105, and the plurality of neck massage balls 1063 are arranged sequentially along a preset direction.

[0075] Here, it can be understood that the neck massage structure 106 includes a neck massage structure body 1062 and a plurality of neck massage balls 1063. The plurality of neck massage balls 1063 are arranged sequentially on the neck massage structure body 1062 along a preset direction. The neck massage structure body 1062 is fitted onto the first axial cam 105. The shape of the neck massage balls 1063 is designed to mimic the design of human fingertips. The diameter of the neck massage balls 1063 is more suitable in the range of 5mm-25mm.

[0076] By adopting the above technical solution, the comfort level of the neck massage structure 106 during massage is improved.

[0077] In one embodiment, the neck massage structure body 1062 defines two perpendicular bottom view, front view and side view. Multiple neck massage balls 1063 are arranged sequentially along a preset arc line RX on the bottom view; multiple neck massage balls 1063 are arranged sequentially along a preset straight line on the front view; and multiple neck massage balls 1063 are arranged sequentially along a curve that deviates from the center of the side view.

[0078] Here, it can be understood that the neck massage structure body 1062 is defined with a bottom view, a front view, and a side view. The three are perpendicular to each other. Multiple neck massage balls 1063 are arranged sequentially along a preset arc line RX on the bottom view, sequentially along a preset straight line on the front view, and sequentially along a curve that deviates from the center of the side view.

[0079] By adopting the above technical solution, the neck massage structure body 1062 and the neck massage ball 1063 can be made of elastic material. When the neck massage ball 1063 is squeezed, due to the arc arrangement of multiple neck massage balls 1063 and the design of being off-center from the side, multiple neck massage balls 1063 have a backward flattening deformation, which can achieve the purpose of flexible massage.

[0080] In one embodiment, the radius of the preset arc is 30mm-80mm; when multiple neck massage balls 1063 are arranged along the preset arc, the distance between the centers of the first and last neck massage balls 1063 is 30mm-100mm; and the distance between the centers of two adjacent neck massage balls 1063 is 10mm-30mm.

[0081] Here, it can be understood that the larger the radius of the preset arc line RX of the multiple neck massage balls 1063, the smaller the space for the neck massage balls 1063 to flatten out, and the greater the squeezing force required. Therefore, a radius range of 30mm-80mm for the preset arc line RX is more suitable.

[0082] F represents the distance between the centers of the first and last two neck massage balls 1063 when multiple neck massage balls 1063 are arranged along a preset arc. The larger the F value, the greater the distance between the neck massage balls 1063 and the greater the massage stroke. A distance F between the neck massage balls 1063 and the other two is more suitable.

[0083] Z represents the spacing between multiple neck massage balls 1063 on a preset arc. The larger the spacing Z, the longer the waiting time from the first massage ball to the second massage ball during the massage action. A spacing range of 10mm-30mm is more suitable.

[0084] By adopting the above technical solution, the neck massage ball 1063 within the above size range has a good massage effect.

[0085] Secondly, a massager 10 is provided, including a massager 10 main unit and the aforementioned massage component 100, wherein the massage component 100 is disposed on the massager 10 main unit.

[0086] By adopting the above technical solution, in addition to the advantages of the massage component 100 of the above embodiment, the massager 10 of this embodiment also has the advantage of good massage effect.

[0087] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A massaging assembly, characterized by, include: The system comprises a shaft, a first transmission gear and a second transmission gear spaced apart on the shaft, a drive member that is respectively connected to the first transmission gear and the second transmission gear, a first axial cam on the shaft, and a neck massage structure sleeved on the first axial cam; a first one-way transmission member is connected between the first transmission gear and the shaft, and a second one-way transmission member is connected between the second transmission gear and the shaft. The driving component has a first motion state and a second motion state. In the first motion state, the first transmission gear, driven by the driving component, drives the shaft to rotate in one direction through the first one-way transmission component. In the second motion state, the second transmission gear, driven by the driving component, drives the shaft to rotate in one direction along the same direction as in the first motion state through the second one-way transmission component. The shaft drives the first axial cam and the neck massage structure to rotate.

2. The massage assembly of claim 1, wherein, The massage assembly further includes a massage housing, a second axial cam disposed on the massage housing, an eccentric wheel coaxially disposed with the second axial cam, a swing arm pulsatingly connected to the second axial cam, a first swing ring disposed on the swing arm and movably sleeved on the second axial cam, a second swing ring movably sleeved on the eccentric wheel, a shoulder massage structure pulsatingly connected to the first swing ring and the swing arm, and a third one-way transmission member disposed between the drive member and the second axial cam; wherein, the drive member is used to drive the second axial cam and the eccentric wheel to rotate. In the first motion state, the drive member drives the second axial cam and the eccentric wheel to rotate synchronously, jointly driving the shoulder massage structure to perform a swing massage action; in the second motion state, the drive member drives the eccentric wheel to rotate, the second axial cam remains stationary, and the eccentric wheel drives the shoulder massage structure to swing around the swing arm to perform a patting massage action.

3. The massage assembly of claim 2, wherein, The massage housing is provided with a shoulder limiting groove, and the first swing ring is provided with a shoulder limiting member that is slidably connected to the shoulder limiting groove. The shoulder limiting member is used to limit the swing of the first swing ring under the drive of the second axial cam.

4. The massage assembly of claim 3, wherein, The shoulder massage structure is connected to the swing arm via a swing shaft, and the second swing ring is movably connected to the shoulder massage structure via a shoulder shaft; in the second motion state, the shoulder shaft can drive the shoulder massage structure to move around the swing shaft to perform a patting massage action.

5. The massage assembly of claim 1, wherein, The first axial cam is disposed between the first transmission gear and the second transmission gear, a first lubricating pad is provided between the first axial cam and the first transmission gear, and a second lubricating pad is provided between the first axial cam and the second transmission gear.

6. The massage assembly of claim 2, wherein, The shaft, the first transmission gear, the second transmission gear, and the driving member are disposed inside the massage housing. The massage housing is provided with a neck massage structure limiting groove, and the neck massage structure is provided with a neck massage structure limiting member that slides in the neck massage structure limiting groove.

7. The massage assembly of any one of claims 1 to 5, wherein, The neck massage structure includes a neck massage structure body and a plurality of neck massage balls disposed on the neck massage structure body. The neck massage structure body is sleeved on the first axial cam, and the plurality of neck massage balls are arranged sequentially along a preset direction.

8. The massage assembly of claim 7, wherein, The neck massage structure body is defined with two perpendicular upward-facing surfaces, a frontal surface, and a side-facing surface. Multiple neck massage balls are arranged sequentially along a preset arc on the upward-facing surface; multiple neck massage balls are arranged sequentially along a preset straight line on the frontal surface; and multiple neck massage balls are arranged sequentially along a curve that deviates from the center of the side-facing surface.

9. The massage assembly of claim 8, wherein, The radius of the preset arc is 30mm-80mm; when the multiple neck massage balls are arranged along the preset arc, the distance between the centers of the first and last two neck massage balls is 30mm-100mm; the distance between the centers of two adjacent neck massage balls is 10mm-30mm.

10. A massager characterized by comprising: It includes a massager main unit and a massage component as described in any one of claims 1 to 9, wherein the massage component is disposed on the massager main unit.