Massager
By spiraling the wire into the telescopic assembly in the massager, the problems of wire wear and breakage are solved, achieving a long lifespan and high reliability for the wire.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN QIANHE ELECTRONICS TECH CO LTD
- Filing Date
- 2024-12-31
- Publication Date
- 2026-06-05
AI Technical Summary
The wires of existing massagers are prone to wear and breakage, affecting their lifespan.
The wire is spirally arranged around the telescopic component, so that its bending angle is less than 45° during the extension and retraction movement of the massager. Combined with the elastic design, this extends the service life of the wire.
The spiral-arranged wire design reduces wire wear and breakage, extends service life, and has the advantages of simple structure and high practicality.
Smart Images

Figure CN224320859U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of health care massage equipment technology, and in particular to a massager. Background Technology
[0002] With the increasingly fast pace of life, people are experiencing greater work pressure, often working overtime to complete tasks. After a stressful day at work, people feel exhausted, and to relieve fatigue and maintain physical and mental health, they generally use massage devices. For example, people use massage devices to massage their back, neck, hands, legs, waist, and feet to relieve fatigue.
[0003] In related technologies, the massager includes a telescopic mechanism and a tapping mechanism, with a wire passing through the telescopic mechanism and connecting to the tapping mechanism. This type of massager is relatively difficult to install, and the wire is prone to wear and breakage due to frequent pulling, thus affecting its use. Utility Model Content
[0004] In view of the above-mentioned defects in the prior art, the present invention provides a massager that aims to solve the problem that the wires of existing massagers are easily worn and broken.
[0005] This utility model provides a massager, comprising:
[0006] Massage items;
[0007] A telescopic component is connected to the massage element;
[0008] A drive component, connected to the telescopic component; and
[0009] A guide wire is connected to the massage element, and the guide wire is spirally arranged around the telescopic assembly.
[0010] Furthermore, the telescopic component includes:
[0011] The rotating component, connected to the drive assembly, is provided with at least one guide groove that is spirally or inclinedly arranged.
[0012] The abutting member abuts against the guide groove; and
[0013] A movable component is used to fix the supporting component. The massage component is disposed on the movable component. When the rotating component rotates, the supporting component interacts with the groove wall of the guide groove, causing the supporting component to drive the movable component and the massage component to extend and retract.
[0014] Furthermore, the telescopic assembly also includes a fixing member disposed on the drive assembly, and the movable member is movably sleeved on the fixing member, the fixing member comprising:
[0015] A first through hole, wherein the rotating member is rotatably accommodated; and
[0016] The first through hole communicates with the first through hole, and the abutting member passes through the first through hole and abuts against the guide groove.
[0017] Furthermore, the movable component also includes:
[0018] The wire groove has a first end connected to the massage component, and a second end of the wire passes through the wire groove and spirally surrounds the outer wall of the moving component.
[0019] Furthermore, the movable component includes:
[0020] A first receiving portion is provided for receiving the massage component. The first receiving portion has a notch that communicates with the wire groove. After the wire extends out of the notch, it is received in the wire groove.
[0021] Furthermore, the movable component also includes:
[0022] A limiting part is provided on the wire groove, and the limiting part is used to prevent the wire contained in the wire groove from detaching from the wire groove.
[0023] Furthermore, the movable component includes:
[0024] The first receiving portion is used to receive the massage element.
[0025] Furthermore, the telescopic assembly also includes a fixing member disposed on the drive assembly, and the movable member is movably sleeved on the fixing member, the fixing member comprising:
[0026] The connecting part is connected to the drive assembly, and the wire is laid on the connecting part.
[0027] Further, the abutting member includes: an abutting portion and a mounting portion for mounting the abutting portion; the moving member includes: a second through hole for receiving the rotating member and a second receiving portion, the second receiving portion including a receiving groove and a second through hole communicating with the second through hole, the mounting portion being received in the receiving groove, and the abutting portion passing through the second through hole and abutting against the guide groove.
[0028] Furthermore, the movable component also includes:
[0029] The wire passes through the wire groove and is spirally arranged around the outer wall of the moving part. The wire groove is spaced apart from the second receiving part.
[0030] In this invention, the massager includes a massage element, a telescopic assembly connected to the massage element, a drive assembly connected to the telescopic assembly, and a connecting wire to the massage element. The connecting wire is spirally arranged around the telescopic assembly, allowing for a relatively long wire to be placed within the massager, and the spirally arranged wire possesses a certain degree of elasticity. When the drive assembly drives the massage element to extend and retract via the telescopic assembly, i.e., reciprocating along the axial direction of the massager, the spirally arranged wire can extend and retract along with the telescopic assembly. Due to the long length and elasticity of the wire, it is less prone to tearing and breakage during this extension and retraction process, resulting in a longer service life. Moreover, this invention extends the service life of the wire simply by spirally arranging it around the telescopic assembly, offering advantages of simple structure and high practicality. Attached Figure Description
[0031] To more clearly illustrate the solution of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0032] Figure 1 This is a schematic diagram of the structure of a massager according to an embodiment of the present invention.
[0033] Figure 2 yes Figure 1 A schematic diagram of the massager from another angle.
[0034] Figure 3 yes Figure 1 The diagram shows a partial structural diagram of the massager.
[0035] Figure 4 yes Figure 1 An exploded view of the massager shown.
[0036] Figure 5A yes Figure 4 The diagram shows the structure of the rotating component of the massager.
[0037] Figure 5B yes Figure 4 A schematic diagram of the rotating component of the massager from another angle.
[0038] Figure 6 yes Figure 4 The diagram shows the structure of the support component of the massager.
[0039] Figure 7A yes Figure 4 The diagram shows the structure of the moving part of the massager.
[0040] Figure 7B yes Figure 4 A schematic diagram of the moving part of the massager from another angle.
[0041] Figure 7C yes Figure 4 A schematic diagram of the moving part of the massager at another angle.
[0042] Figure 8A yes Figure 4 A schematic diagram of the fixing component of the massager shown.
[0043] Figure 8B yes Figure 4 A schematic diagram of the fixing component of the massager from another angle.
[0044] Figure 9 yes Figure 4 The diagram shows the structural structure of the connector of the massager.
[0045] Figure 10A yes Figure 4 The diagram shows the structural design of the massager's support frame.
[0046] Figure 10B yes Figure 4 A schematic diagram of the support frame of the massager shown from another angle.
[0047] Figure 11 yes Figure 1 The diagram shows the functional modules of the massager.
[0048] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0049] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0050] Reference Figure 1-11This utility model provides a massager 100, which can be used to massage various parts of the human body, including the back, head, shoulders, neck, hands, legs, waist, abdomen, and feet. Specifically, the massager 100 can be a back massager, head massager, shoulder and neck massager, hand massager, waist massage pad, abdominal massager, leg massager, foot massager, massage chair, or massage chair cushion. The above is merely an example of the uses of the massager 100 and is not intended to limit its application. Users can use the massager 100 according to their own needs and preferences.
[0051] The massager 100 includes a massage element 10, a telescopic assembly 20 connected to the massage element 10, a drive assembly 30 connected to the telescopic assembly 20, and a connecting wire 40 connected to the massage element 10. The wire 40 is spirally arranged around the telescopic assembly 20, allowing for a relatively long wire 40 to be incorporated into the massager 100, and the spirally arranged wire 40 possesses a certain degree of elasticity. When the drive assembly 30 drives the massage element 10 to extend and retract via the telescopic assembly 20, i.e., reciprocating along the axial direction of the massager 100, the spirally arranged wire 40 can extend and retract along with the telescopic assembly 20. Due to the relatively long length and elasticity of the wire 40, it is less prone to stretching and wear or breakage during this extension and retraction process, resulting in a longer service life. Moreover, this invention extends the service life of the wire 40 simply by spirally arranging it around the telescopic assembly 20, offering advantages of simple structure and high practicality. The massager 100 may also include a protective component that covers the massage element 10, the telescopic component 20, the drive component 30, and the wire 40. The protective component may be made of fabric, silicone, or rubber.
[0052] In existing technology, the wire is vertically arranged along the axis of the massager, resulting in a large bending angle during the telescopic movement. When the telescopic movement reaches the bottom, the deformation angle of the middle part of the wire can even exceed 180°, making the wire prone to breakage after repeated bending. In the telescopic movement of this invention, the bending angle of the wire 40 is less than 45°, a smaller bending angle. Even with repeated high-speed bending, the wire 40 is not prone to breakage and has a longer service life.
[0053] The massage element 10 can be a vibration motor or other types of massage elements such as massage claws. The first end 41 of the wire 40 can be connected to the massage element 10. The wire 40 can be spirally arranged around the outer wall of the telescopic assembly 20, and the second end 42 of the wire 40 can extend out of the telescopic assembly 20 and be connected to the battery 60. The massager 100 may also include a controller 50, which can control the opening and closing of the drive assembly 30 and the massage element 10.
[0054] The telescopic assembly 20 includes a rotating member 21 connected to the drive assembly 30, a supporting member 22, a movable member 23 for fixing the supporting member 22, a fixing member 24 sandwiched between the rotating member 21 and the movable member 23, and a connecting member 25 for connecting the fixing member 24 to the drive assembly 30. The massage member 10 is disposed on the movable member 23.
[0055] The rotating component 21 is generally cylindrical, and its outer surface is provided with at least one guide groove 211 arranged spirally or obliquely. The guide groove 211 is preferably a bidirectional closed oblique groove or spiral groove arranged symmetrically along the axial direction. The guide groove 211 may have a high point 2111 near the massage component 10 and a low point 2112 away from the massage component 10. When the rotating component 21 rotates, the abutting portion 221 of the abutting component 22 can slide along the guide groove 211, abutting against the groove wall of the guide groove 211, and reciprocating between the high point 2111 and the low point 2112 of the guide groove 211, thereby driving the moving component 23 and the massage component 10 to perform telescopic movements together. The bottom wall of the rotating component 21 is provided with a connecting hole 212, into which the output shaft 311 of the drive assembly 30 can be accommodated.
[0056] The supporting member 22 also includes a mounting portion 222, which may be a cuboid, a cube, or an irregular structure. The supporting portion 221 is disposed on the mounting portion 222. The mounting portion 222 has at least one mounting hole 2221. The supporting portion 221 may be integrally formed with the mounting portion 222, or it may be formed separately and then connected together.
[0057] The movable member 23 is generally columnar in shape and has a through hole 230 for receiving the rotating member 21. The movable member 23 is movably sleeved on the fixed member 24. The upper end of the movable member 23 has a receiving portion 231, and the through hole 230 does not penetrate the bottom wall of the receiving portion 231. The receiving portion 231 includes a receiving groove 2311, in which the massage member 10 can be received. The side wall 2312 of the receiving portion 231 has a notch 2313. The outer wall of the movable member 23 has a wire groove 232 communicating with the notch 2313. The wire groove 232 is arranged along the axial direction of the massager 100 and can further penetrate the bottom wall of the movable member 23. The outer wall of the movable member 23 also has a limiting portion 233 along the axial direction. The limiting portion 233 can be arranged adjacent to the wire groove 232 and can prevent the wire 40 received in the wire groove 232 from detaching. The first end 41 of the wire 40 is connected to the massage member 10, and the other end passes through the notch 2313 and the groove 232 in sequence, and is spirally arranged around the outer wall of the moving member 23. The wire 40 is restricted by the limiting part 233 and will not come out of the groove 232.
[0058] The lower end of the movable member 23 is further provided with a receiving portion 234, which may include a receiving groove 2341, a through hole 2342 formed in the bottom wall of the receiving groove 2341, and a mounting hole 2343 formed in the bottom wall of the receiving groove 2341. When the mounting portion 222 is received in the receiving groove 2341, at least one connector (not shown) can be received in the mounting hole 2221 and the mounting hole 2343, stably installing the abutment 22 in the receiving groove 2341. The abutment 221 can be received in the receiving groove 2311, and after extending out of the through hole 2342, it abuts against the guide groove 211. The mounting portion 234 and the groove 232 are spaced apart, preferably opposite to each other. The inner wall of the movable member 23 may also be provided with a protrusion 235 along the axial direction, which can be integrally formed with the receiving portion 234. The through hole 2342 and the receiving hole 2343 can pass through the protrusion 235.
[0059] The fixing member 24 has a through hole 240, and the rotating member 21 is rotatably accommodated in the through hole 240. The fixing member 24 includes a receiving portion 241 and a connecting portion 242 connected together, and the through hole 240 passes through the receiving portion 241 and the connecting portion 242. The receiving portion 241 is generally columnar in shape, and the receiving portion 241 has a through hole 2411 communicating with the through hole 240 along the axial direction. The abutting member 22 passes through the through hole 242 and the through hole 2411 and abuts against the guide groove 211. The connecting portion 242 can be connected to the connecting member 25 and is provided on the drive assembly 30 through the connecting member 25. The second end 42 of the wire 40 can be attached to the connecting portion 242. The shape of the inner wall of the through hole 230 of the moving member 23 matches the shape of the outer wall of the receiving portion 241. In one specific embodiment, the inner wall of the through hole 230 is approximately hexagonal, and the outer wall of the receiving portion 241 is also approximately hexagonal, although other shapes are also possible.
[0060] The connector 25 has a through hole 250 and includes a receiving portion 251. The connecting portion 242 of the fixing member 24 is received in the receiving portion 251, connecting the fixing member 24 and the connector 25. The receiving portion 251 includes two oppositely arranged grooves 2511, and the connecting portion 242 includes two oppositely arranged protrusions 2421, which are received in the grooves 2511. The outer wall of the connector 25 also has two oppositely arranged protrusions 252.
[0061] The drive assembly 30 includes a drive member 31 (which may be a motor, etc.) and a bracket 32. The drive member 31 can be installed in the through hole 310 of the bracket 31. The output shaft 311 of the drive member 31 can pass through the through holes 310, 250, and 240 of the bracket 31 and be accommodated in the connecting hole 212 of the rotating member 21. The inner wall of the through hole 320 is provided with a step 321 and a receiving groove 322. When the connecting part 242 and the connecting member 25 are accommodated in the through hole 320, the protrusion 2422 of the connecting part 242 can rest on the step 321. The protrusion 252 of the connecting member 25, the groove wall of the groove 2511, and the protrusion 2421 of the connecting part 242 can be accommodated in the receiving groove 322, connecting the fixing member 24 and the connecting member 25 to the bracket 32.
[0062] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. All equivalent structural transformations made under the inventive concept of the present utility model using the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.
Claims
1. A massager, characterized in that, include: Massage item (10); The telescopic component (20) is connected to the massage component (10); Drive assembly (30), connected to the telescopic assembly (20); and A wire (40) is connected to the massage element (10), and the wire (40) is spirally arranged around the telescopic assembly (20).
2. The massager according to claim 1, characterized in that, The telescopic assembly (20) includes: The rotating component (21) is connected to the drive assembly (30) and has at least one guide groove (211) that is spirally or inclined. The abutment (22) abuts against the guide groove (211); and The movable member (23) is used to fix the supporting member (22). The massage member (10) is disposed on the movable member (23). When the rotating member (21) rotates, the supporting member (22) interacts with the groove wall of the guide groove (211), so that the supporting member (22) drives the movable member (23) and the massage member (10) to extend and retract.
3. The massager according to claim 2, characterized in that, The telescopic assembly (20) further includes a fixing member (24) disposed on the drive assembly (30), and the movable member (23) is movably sleeved on the fixing member (24). The fixing member (24) includes: A first through hole (240), in which the rotating member (21) is rotatably accommodated; and The first through hole (2411) is connected to the first through hole (240). After the abutment (22) passes through the first through hole (2411), it abuts against the guide groove (211).
4. The massager according to claim 2, characterized in that, The movable component (23) also includes: The wire groove (232) is connected to the massage member (10) by the first end (41) of the wire (40) and the second end (42) of the wire (40) is spirally arranged around the outer wall of the moving member (23) after passing through the wire groove (232).
5. The massager according to claim 4, characterized in that, The movable component (23) includes: The first receiving part (231) is used to receive the massage component (10). The first receiving part (231) has a notch (2313) that communicates with the wire groove (232). After the wire (40) extends out of the notch (2313), it is received in the wire groove (232).
6. The massager according to claim 4, characterized in that, The movable component (23) also includes: A limiting part (233) is provided on the wire groove (232), and the limiting part (233) is used to restrict the wire (40) contained in the wire groove (232) from disengaging from the wire groove (232).
7. The massager according to claim 2, characterized in that, The movable component (23) includes: The first receiving part (231) is used to receive the massage element (10).
8. The massager according to claim 2, characterized in that, The telescopic assembly (20) further includes a fixing member (24) disposed on the drive assembly (30), and the movable member (23) is movably sleeved on the fixing member (24). The fixing member (24) includes: The connecting part (242) is connected to the drive assembly (30), and the wire (40) is laid on the connecting part (242).
9. The massager according to claim 2, characterized in that, The abutment (22) includes: The resisting part (221); and Mounting part (222) is used to mount the supporting part (221); The movable component (23) includes: The second through hole (230) is used to receive the rotating member (21); and The second receiving portion (234) includes a receiving groove (2341) and a second through hole (2342) communicating with the second through hole (230). The mounting portion (222) is received in the receiving groove (2341), and the abutting portion (221) passes through the second through hole (2342) and abuts against the guide groove (211).
10. The massager according to claim 9, characterized in that, The movable component (23) also includes: The wire groove (232) is provided, and the wire (40) passes through the wire groove (232) and is spirally arranged around the outer wall of the moving part (23). The wire groove (232) is spaced apart from the second receiving part (234).