Silicone neck collar for massage
By designing a silicone collar with built-in conductive silicone and magnets, and using electrical pulses to simulate massage techniques, it solves the problem of neck muscle stiffness caused by prolonged sitting among office workers, achieving comfortable relief and improved blood circulation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN RUIHAN ELECTRONICS TECH
- Filing Date
- 2025-04-15
- Publication Date
- 2026-06-16
AI Technical Summary
Office workers often experience stiff neck muscles due to prolonged sitting or looking down at their phones, and exercise is often ineffective in relieving these symptoms.
Design a silicone collar with built-in conductive silicone, magnets, power supply components, and control components. It uses electrical pulses to simulate massage techniques to relieve neck muscle stiffness.
The silicone neckband is soft and comfortable, improving its fit to the skin of the neck, effectively relieving muscle stiffness, improving blood circulation, and reducing the discomfort of traditional fixation structures.
Smart Images

Figure CN224357893U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of massage collars, and more particularly to a silicone collar for massage. Background Technology
[0002] In daily office work, prolonged sitting or looking down at mobile phones can lead to overuse or tension of the neck muscles, resulting in stiffness. However, due to the limited range of movement in the office area and other issues, office workers are unable to exercise for extended periods to relieve neck symptoms.
[0003] In view of this, the inventors specifically designed a silicone collar for massage, which led to this invention. Utility Model Content
[0004] The purpose of this invention is to provide a silicone neckband for massage. This invention is attached to the back of the neck, allowing office workers to perform office work while relieving symptoms such as neck stiffness.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A silicone collar for massage includes an upper silicone layer, a lower silicone layer, a conductive silicone layer, several magnets, a conductive layer, a power supply component, a control component, and several control keys. The outer edges of the upper and lower silicone layers are connected, forming a cavity between them. The conductive silicone layer is fixedly embedded in the middle of the lower silicone layer. Several magnets are fixedly disposed at intervals on both sides of the cavity, with their lower ends extending downward through the lower silicone layer. The conductive layer is fixedly disposed on the left and right sides of the cavity, and each conductive layer connects all the magnets on one side of the cavity in series. The power supply component is disposed in the middle cavity, providing power to the conductive silicone layer and the magnets. The control component is disposed in the cavities on both sides of the power supply component, controlling the output current of the power supply component. Several control keys are spaced apart at the upper middle part of the upper silicone layer, and each control key individually controls either the power supply component or the control component.
[0007] Furthermore, the power supply component includes a power source and a circuit; the power source is fixedly disposed in the middle of the receiving cavity; one end of the circuit is electrically connected to the power source, and the other end of the circuit is connected to conductive silicone and a conductive layer.
[0008] Furthermore, the control component includes a current-increasing component and a current-reducing component; the current-increasing component and the current-reducing component are respectively fixedly disposed in the receiving cavities on both sides of the power supply, the current-increasing component and the current-reducing component are respectively connected to the power supply and can both adjust the magnitude of the power supply output current; the upper ends of the current-increasing component and the current-reducing component are respectively connected to the control key.
[0009] Furthermore, the conductive layer is an aluminum film; one side of the aluminum film is connected to the output end of the circuit, and the middle of the aluminum film is connected in series with all the magnets on one side of the receiving cavity.
[0010] Furthermore, an adhesive layer is covered around the magnets at the lower ends of both sides of the lower silicone, and the adhesive layer serves as the adhesive area for attaching to the human neck.
[0011] Furthermore, a pair of transverse openings are provided in the middle of the lower silicone, which provide embedding positions for the conductive silicone.
[0012] Furthermore, several grooves are spaced apart at the lower ends of both sides of the upper silicone; the grooves are used to provide the embedding positions of the magnets and each groove corresponds to a magnet in the receiving cavity.
[0013] Furthermore, a fixing layer is provided on the lower silicone on the outer side of the conductive silicone, which serves as the adhesive part for attaching to the human neck.
[0014] Furthermore, the fixing layer is a conductive back-strength 3M adhesive.
[0015] Furthermore, the lower silicone has several limiting holes spaced apart on both sides for magnets to pass through.
[0016] After adopting the above technical solution, the present invention has the following beneficial effects:
[0017] The outer surface of this invention is made of silicone, which is soft and skin-friendly, comfortable to wear, and suitable for long-term use. Through the dual action of the adhesive layer and the fixing layer, this invention improves the fit between the collar and the neck skin, reduces the weakening of the adhesive effect due to movement, and avoids the discomfort caused by traditional fastening and other fixing structures. Under the action of electrical pulses, this invention can effectively relieve neck muscle stiffness and improve blood circulation. Attached Figure Description
[0018] Figure 1 This is a three-dimensional schematic diagram of the present invention;
[0019] Figure 2 This is a three-dimensional upward view of the present invention;
[0020] Figure 3 This is a schematic diagram of the internal cross-section of this utility model;
[0021] Figure 4 This utility model Figure 3 Enlarged diagram of A in the middle;
[0022] Figure 5 This utility model Figure 3 Enlarged diagram of B in the middle;
[0023] Figure 6This is a disassembly diagram of the present invention with the power supply component, control component and conductive layer removed;
[0024] Figure 7 This utility model Figure 6 A disassembly diagram showing the removal of the fixing layer.
[0025] The reference numerals in the figure are as follows:
[0026] 1. Upper silicone; 10. Groove; 2. Lower silicone; 20. Adhesive layer; 21. Horizontal opening; 22. Fixing layer; 23. Limiting hole; 3. Conductive silicone; 4. Magnet; 5. Conductive layer; 50. Aluminum film; 6. Power supply component; 60. Power supply; 61. Circuit; 7. Control component; 70. Current boosting component; 71. Current reducing component; 8. Control key; 9. Receiving cavity. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages 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.
[0028] It should be noted that in this utility model, the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", and "outer" are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or element of this utility model must have a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0029] Please see Figures 1 to 7 A silicone collar for massage includes an upper silicone 1, a lower silicone 2, a conductive silicone 3, several magnets 4, a conductive layer 5, a power supply component 6, a control component 7, and several control keys 8. The outer edges of the upper silicone 1 and the lower silicone 2 are connected, forming a cavity 9 between them. The conductive silicone 3 is fixedly embedded in the middle of the lower silicone 2. Several magnets 4 are fixedly arranged at intervals on both sides of the cavity 9, with the lower ends of the magnets 4 extending downward through the lower silicone 2. The conductive layer 5 is fixedly arranged on the left and right sides of the cavity 9, and the conductive layer 5 connects all the magnets 4 on one side of the cavity 9 in series. The power supply component 6 is arranged in the middle cavity 9, and provides power to the conductive silicone 3 and the magnets 4. The control component 7 is arranged in the cavities 9 on both sides of the power supply component 6, and is used to control the output current of the power supply component 6. Several control keys 8 are arranged at intervals at the upper middle part of the upper silicone 1, and each control key 8 individually controls the power supply component 6 or the control component 7.
[0030] like Figure 4 and Figure 5As shown, the power supply component 6 includes a power supply 60 and a circuit 61; the power supply 60 is fixedly disposed in the middle of the receiving cavity 9; one end of the circuit 61 is electrically connected to the power supply 60, and the other end of the circuit 61 is connected to the conductive silicone 3 and the conductive layer 5.
[0031] like Figure 4 As shown, the control component 7 includes a current-boosting component 70 and a current-reducing component 71. The current-boosting component 70 and the current-reducing component 71 are respectively fixedly disposed in the receiving cavities 9 on both sides of the power supply 60. The current-boosting component 70 and the current-reducing component 71 are respectively connected to the power supply 60 and can both adjust the magnitude of the output current of the power supply 60. The upper ends of the current-boosting component 70 and the current-reducing component 71 are respectively connected to the control key 8. The current-boosting component 70 and the current-reducing component 71 are common power supply 60 output level adjustment components on the market, and will not be described in detail here.
[0032] like Figure 5 As shown, the conductive layer 5 is an aluminum film 50; one side of the aluminum film 50 is connected to the output end of the circuit 61, and all the magnets 4 on one side of the receiving cavity 9 are connected in series in the middle of the aluminum film 50.
[0033] like Figure 2 and Figure 5 As shown, the magnets 4 at the lower ends of both sides of the lower silicone 2 are covered with an adhesive layer 20. The adhesive layer 20 serves as the adhesive part for sticking to the neck of the human body. The adhesive layer 20 can either cover only around the magnets 4 at the lower end of the lower silicone 2, or it can be set to cover the entire magnet 4.
[0034] like Figure 7 As shown, a pair of horizontal openings 21 are opened in the middle of the lower silicone 2, and the horizontal openings 21 provide an embedding position for the conductive silicone 3.
[0035] like Figure 6 and Figure 7 As shown, several grooves 10 are spaced apart at the lower ends of both sides of the upper silicone 1; the grooves 10 are used to provide the embedding position of the magnet 4 and the grooves 10 correspond one-to-one with the magnet 4 in the receiving cavity 9.
[0036] like Figure 2 As shown, a fixing layer 22 is provided on the lower silicone 2 on the outside of the conductive silicone 3. The fixing layer 22 serves as the adhesive part for sticking to the neck of the human body.
[0037] Preferably, the fixing layer 22 is a conductive back-strength 3M adhesive, and the current entering the conductive silicone 3 can pass through the conductive back-strength 3M adhesive to exert an effect on the user's neck.
[0038] like Figure 6 and Figure 7 As shown, the lower silicone 2 has several limiting holes 23 spaced apart on both sides for the magnet 4 to pass through.
[0039] The upper silicone 1 and lower silicone 2 of this invention are made of natural-colored tear-resistant silicone, with an overall size of approximately 436mm in length, 33mm in width, and 3mm in height. The symbols on the control key 8 are made by laser engraving and have a light-transmitting function. In addition, the outer surfaces of the upper silicone 1 and lower silicone 2 of this invention are coated with a wear-resistant, tactile paint. The massage principle of this invention is to simulate the effect of traditional massage techniques through electrical pulses in order to relax muscles, relieve fatigue, and promote blood circulation.
[0040] The above description is merely a preferred embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A silicone neck massager for massaging, characterized by: The utility model provides a neck massager, including upper silica gel (1), lower silica gel (2), conductive silica gel (3), a plurality of magnet (4), conductive layer (5), power supply component (6), regulation component (7) and a plurality of control key (8), upper silica gel (1) outer edge is connected with lower silica gel (2) outer edge and forms the containing cavity (9) between both, conductive silica gel (3) is fixedly embedded in the middle part of lower silica gel (2), a plurality of magnet (4) are fixedly arranged at both sides of containing cavity (9) and the lower end of magnet (4) goes out lower silica gel (2) downward, conductive layer (5) is fixedly arranged at both sides of containing cavity (9) and the conductive layer (5) respectively connects all magnet (4) of containing cavity (9) one side, power supply component (6) is arranged in the containing cavity (9) of middle part, and power supply component (6) provides power source for conductive silica gel (3) and magnet (4), regulation component (7) is arranged in the containing cavity (9) of both sides of power supply component (6), and regulation component (7) is used for controlling the size of the output current of power supply component (6), a plurality of control key (8) are spaced apart and arranged in the middle part of upper silica gel (1) upper end, and control key (8) respectively controls power supply component (6) or regulation component (7) alone.
2. The silicone neck massager according to claim 1, wherein: The power supply component (6) includes a power supply (60) and a circuit (61); the power supply (60) is fixedly arranged in the middle part of the containing cavity (9); one end of the circuit (61) is electrically connected with the power supply (60), and the other end of the circuit (61) is connected with the conductive silica gel (3) and the conductive layer (5).
3. The silicone neck massager according to claim 2, wherein: The regulation component (7) includes a flow increasing component (70) and a flow decreasing component (71); the flow increasing component (70) and the flow decreasing component (71) are respectively fixedly arranged in the containing cavity (9) at both sides of the power supply (60), the flow increasing component (70) and the flow decreasing component (71) are respectively connected with the power supply (60) and can adjust the size of the output current of the power supply (60); upper ends of the flow increasing component (70) and the flow decreasing component (71) are respectively connected with the control key (8).
4. The silicone neck massager according to claim 2, wherein: The conductive layer (5) is an aluminum film (50); one side of the aluminum film (50) is connected with an output end of the circuit (61), and the middle part of the aluminum film (50) connects all the magnets (4) on one side of the containing cavity (9).
5. The silicone necklace for massage according to claim 1, wherein: The magnets (4) around the lower ends of the lower silica gel (2) on both sides are covered with a sticky layer (20), and the sticky layer (20) is used as a sticking part for sticking the neck of a human body.
6. The silicone neck massager according to claim 1, wherein: A pair of transverse openings (21) are formed in the middle part of the lower silica gel (2), and the transverse openings (21) provide embedding positions for the conductive silica gel (3).
7. The silicone necklace for massage according to claim 1, wherein: A plurality of grooves (10) are respectively and spaced apart formed at lower ends of both sides of the upper silica gel (1); the grooves (10) are used to provide embedding positions for the magnets (4) and correspond to the magnets (4) in the containing cavity (9) respectively.
8. The silicone necklace for massage according to claim 1, wherein: A fixing layer (22) is arranged on the lower silica gel (2) outside the conductive silica gel (3), and the fixing layer (22) is used as a sticking part for sticking the neck of a human body.
9. The silicone neck massager according to claim 8, wherein: The fixing layer (22) is a conductive back strength 3M glue.
10. The silicone neck massager according to claim 1, wherein: A plurality of limiting holes (23) for the magnets (4) to pass through are spaced apart formed at both sides of the lower silica gel (2).