Magnetic waistband with easily displaceable magnetic structure
By designing a magnetic waist belt structure with a velvet composite main body unit and movable patch unit, the problem of fixing the magnetic waist belt's magnetic therapy function to the waist and abdomen was solved, thus improving the flexibility and practicality of the magnetic therapy function.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEYE HEALTH TECH CO LTD
- Filing Date
- 2025-07-04
- Publication Date
- 2026-06-05
AI Technical Summary
The magnetic therapy function of existing magnetic waist belts is fixed in the waist and abdomen area, and the number of magnets is not adjustable, which reduces their practicality.
Design a magnetic belt with a magnetic structure for easy relocation, comprising a velvet composite main body unit, a movable patch unit, and a length-direction integral strip unit. The movable patch unit can be glued to the velvet composite main body and the glue position can be independently selected when needed. The length-direction integral strip unit prevents the movable patch unit from being magnetically fixed.
The practicality and flexibility of the magnetic belt have been improved. The movable patch unit can be flexibly attached to different parts, and the integral strip unit along the length direction avoids magnetic fixation, thus enhancing the ease of operation and stability.
Smart Images

Figure CN224320935U_ABST
Abstract
Description
Technical Field
[0001] This application belongs to the field of magnetic therapy wearable devices, and in particular relates to a magnetic waist belt with a magnetic structure that is easy to move. Background Technology
[0002] A magnetic waist belt is a type of waist belt product whose main function is magnetic therapy. Its structure mainly consists of a main body, a connecting part, and a magnet.
[0003] The main body piece can be made of leather, non-woven fabric, or cotton. The main function of the connecting parts is to fix the two ends of the main body piece in place. The connection method can be binding, Velcro fastening, or snap fastening.
[0004] Finally, the aforementioned magnets are generally artificial permanent magnets, such as neodymium iron boron magnets or ferrite permanent magnet materials, and their shape can be a circular sheet, a ring-shaped sheet, or a rectangular sheet. The magnets are generally sewn and fixed inside the main body sheet, and then attached to the waist, side abdomen, and abdomen to achieve basic magnetic therapy functions.
[0005] For example, Chinese utility model patent with authorization announcement number CN 221770582 U and authorization announcement date of 2024.09.27 discloses a breathable and supportive magnetic waist belt, whose main structural components include: a main body piece, an elastic piece, a connecting piece, a magnet, a nylon hook and loop fastener, sewing thread, a breathable hole, a breathable hole plate unit, an arc-shaped support plate unit, and a pull strip for separation.
[0006] The magnetic waistband in this utility model patent has the following advantages: two adjacent perforated plate units can form a perforated channel together, aligning with the outer perforated holes to ensure that the magnetic waistband has sufficient perforation strength.
[0007] However, in actual use, the magnetic waist belt has at least the following impractical problems: when the magnetic waist belt is in normal use, the magnets on its main body can only be fixed at the waist, and the magnets on its connecting piece can only be fixed at the abdomen. Moreover, the number of magnets corresponding to the waist and abdomen is not adjustable, which significantly reduces the practicality of the magnetic therapy function. Utility Model Content
[0008] This application provides a magnetic waist belt with a magnetic structure that is easy to reposition. The technical problem to be solved is: how to make the magnetic therapy function of the magnetic waist belt more flexible and practical.
[0009] The technical solution adopted by this application to solve the above problems is: a magnetic waist belt with a magnetic structure that is easy to move. The structure includes a magnet, a velvet composite main body unit, a movable patch unit that is bonded to the velvet composite main body unit and has the magnet inside, and is used to press on the abdomen, side abdomen or back, and an integral strip unit in the length direction that is disposed on the velvet composite main body unit and located on both sides of all the movable patch units, and is used to prevent any two of the movable patch units from being magnetically attracted to each other.
[0010] A further preferred technical solution is that the velvet composite main body sheet unit includes a rectangular main body sheet and a velvet strip disposed on the rectangular main body sheet and used to adhere the movable patch unit.
[0011] A further preferred technical solution is that the velvet composite main body sheet unit further includes connecting velvet sheets and connecting hook sheets respectively disposed at both ends of the rectangular main body sheet.
[0012] A further preferred technical solution is that the movable patch unit includes a hook block with the magnet on the back and the velvet tape on the front, a cover cloth disposed on the hook block and used to cover the magnet, and a sewing ring disposed on the hook block and the cover cloth and used to fix the magnet.
[0013] A further preferred technical solution is that the movable patch unit further includes a support piece disposed between the hook face and the cover cloth and through which the sewing ring passes, and a limiting hole disposed on the support piece for mounting the magnet.
[0014] A further preferred technical solution is that the movable patch unit further includes a pinching exposed piece disposed on the support piece and used for tearing the movable patch unit off the fleece tape, and reinforcing stitches disposed on the hook block and the support piece.
[0015] A further preferred technical solution is that the movable patch unit further includes a sewing positioning channel disposed on the support piece and used to pass through the sewing ring and the reinforcing thread.
[0016] A further preferred technical solution is that the integral strip unit in the length direction includes two rectangular strips disposed on the velvet strip and located on both sides of all the movable patch units.
[0017] A further preferred technical solution is that the integral strip unit in the length direction further includes a pressure-receiving protrusion disposed on the rectangular strip and used for being pressed by the user's thumb and forefinger when the movable patch unit is torn off.
[0018] A further preferred technical solution is that the integral strip unit in the length direction further includes a sewing channel disposed on the rectangular strip.
[0019] The beneficial effects of this application include at least the following three points.
[0020] First, the movable patch unit containing the magnet can achieve sufficient adhesive strength on the velvet composite main body unit, and can also be peeled off to change the adhesive position. This allows each movable patch unit to be independently selected for the abdomen, side abdomen, and back, ultimately significantly improving the practicality and flexibility of the magnetic waist belt.
[0021] Secondly, the integral strip unit along the length direction serves as the "skeleton structure" of the velvet composite main body unit, which can effectively prevent the latter from twisting and deforming. Therefore, even if the distance between any two movable patch units is relatively large, the two are not easily magnetically fixed, further improving the practicality of the magnetic belt.
[0022] Third, the movable patch unit itself has the combined advantages of stable structure and easy removal, further improving the convenience and practicality of magnetic structure displacement operation. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the structure of this application.
[0024] Figure 2 This is a schematic diagram of the layered structure of the velvet composite main body sheet unit in this application.
[0025] Figure 3 This is a schematic diagram of the layered structure of the active patch unit in this application.
[0026] Figure 4 This is a schematic diagram of the shape of the support sheet in this application.
[0027] Figure 5 This is a schematic diagram of the integral strip unit in the length direction in this application.
[0028] Figure 6 This is a schematic diagram showing the positions of two movable patch units that may be magnetically fixed to each other if there is no integral strip unit in the length direction in this application.
[0029] Figure 7 This is a schematic diagram illustrating one possible use of this application.
[0030] Figure 8 This is a schematic diagram illustrating the method of removing the active patch unit in this application.
[0031] The meanings of the markings in the diagram are as follows.
[0032] Left thumb pressing position a, left index finger pressing position b, tearing direction c;
[0033] Magnet 11;
[0034] 1. Velvet composite main body piece unit; 2. Movable patch unit; 3. Length-direction integral strip unit;
[0035] Rectangular main body piece 101, velvet tape 102, velvet sheet for connection 103, hook sheet for connection 104;
[0036] Hook face 201, cover cloth 202, sewing ring 203, support piece 204, limiting hole 205, exposed piece for pinching 206, reinforcing thread 207, sewing positioning groove 208;
[0037] 301. Rectangular strip, 302. Pressure-bearing protrusion, 303. Sewing channel. Detailed Implementation
[0038] The following description is merely a preferred embodiment of this application and is not intended to limit the scope of this application.
[0039] like Figures 1-8 As shown, a magnetic waist belt with a magnetic structure that facilitates displacement includes a magnet 11, a fleece composite main body unit 1, a movable patch unit 2 that is bonded to the fleece composite main body unit 1 and has the magnet 11 inside, and is used to press on the abdomen, side abdomen or back, and a length-direction integral strip unit 3 that is disposed on the fleece composite main body unit 1 and is located on both sides of all the movable patch units 2, and is used to prevent any two movable patch units 2 from being magnetically attracted to each other.
[0040] In this embodiment, the magnet 11 can be a neodymium iron boron permanent magnet sheet, for example, circular in shape with a diameter of 1.5cm and a thickness of 4mm. There is one velvet composite main body sheet unit 1, and its main material is relatively breathable and moderately elastic, such as elastic cotton or spandex fabric. There are 5-10 movable patch units 2, and their main material can be relatively comfortable cotton fabric. There is one integral strip unit 3 along its length, and its material can be various types of rubber with moderate elasticity and hardness, such as natural rubber or neoprene rubber.
[0041] Each of the aforementioned active patch units 2 contains 6-10 magnets 11, which are used to selectively press on the user's abdomen, flank, or back, thereby providing a flexible and principle-based magnetic therapy function. The terms "abdomen," "flank," or "back" can refer to precisely defined medical areas or to general areas of the torso that are generally agreed upon by consumers.
[0042] In addition, the main function of the integral strip unit 3 in the length direction is:
[0043] First, its elasticity is moderate, so when using this magnetic belt, it allows the entire magnetic belt to be wrapped around the waist and fixed at the abdomen without affecting the normal use of the magnetic belt;
[0044] Secondly, its own hardness is moderate, so when the magnetic belt is not in use, it can maintain an overall straight state, and it is difficult for any two of the movable patch units 2 to be magnetically attached, further improving the practicality of the magnetic belt.
[0045] Correspondingly, it is precisely because the active patch unit 2 can separate the originally relatively concentrated and fixedly arranged multiple magnets that the velvet composite main body sheet unit 1 can experience the harmful phenomenon of magnet adsorption after it is twisted. This is one of the reasons why the integral strip unit 3 in the length direction needs to be set.
[0046] The velvet composite main body sheet unit 1 includes a rectangular main body sheet 101 and a velvet tape 102 disposed on the rectangular main body sheet 101 and used to adhere the movable patch unit 2.
[0047] In this embodiment, the rectangular main body piece 101 and the fleece tape 102 are sewn together. When the magnetic belt is in normal use, the rectangular main body piece 101 is on the outside, and the fleece tape 102 and the movable patch unit 2 are on the inside.
[0048] The rectangular main body piece 101 has a length of 60-80cm, and the velvet strip 102 is also rectangular in shape, with its length and width dimensions being slightly smaller than those of the rectangular main body piece 101.
[0049] The velvet composite main body sheet unit 1 also includes a connecting velvet sheet 103 and a connecting hook sheet 104 respectively disposed at both ends of the rectangular main body sheet 101.
[0050] In this embodiment, the rectangular main body piece 101 has an inner side with the felt strip 102 on one side and an outer side on the other side. The connecting felt piece 103 is sewn to one end of the outer side. The connecting hook piece 104 is sewn to the other end of the inner side, or directly sewn to the side near the other end of the felt strip 102. Figure 2 The latter corresponds to the appendix Figure 1 .
[0051] The movable patch unit 2 includes a hook block 201 with the magnet 11 on the back and the velvet tape 102 for bonding on the front, a cover cloth 202 disposed on the hook block 201 and used to cover the magnet 11, and a sewing ring 203 disposed on the hook block 201 and the cover cloth 202 and used to fix the magnet 11.
[0052] In this embodiment, the sewing ring 203 is circular, the hook block 201 and the cover cloth 202 are both rectangular, and the length of the hook block 201 is less than the width of the fleece tape 102.
[0053] The movable patch unit 2 further includes a support piece 204 disposed between the hook block 201 and the cover cloth 202 and through which the sewing ring 203 passes, and a limiting hole 205 disposed on the support piece 204 for mounting the magnet 11.
[0054] In this embodiment, the support sheet 204 is made of the aforementioned natural rubber or neoprene rubber, and its main function is:
[0055] First, the magnet 11 is further fixed on the movable patch unit 2 to prevent the latter from shifting between the hook block 201 and the cover cloth 202;
[0056] Secondly, the movable patch unit 2 should also have a "skeleton structure" to prevent it from bending. Otherwise, when it is removed and left idle, the magnet 11 on it will stick, thereby reducing the practicality of the movable patch unit 2, which needs to be avoided.
[0057] The magnet 11 is thicker than the support plate 204, allowing the magnet 11 to be close enough to the user. Correspondingly, the support plate 204 has moderate rigidity, ensuring that the magnetic belt does not significantly obstruct the magnet 11 from being close to the user during normal use.
[0058] At this time, the limiting hole 205 and the sewing ring 203 are in a concentric circle positional relationship.
[0059] The movable patch unit 2 also includes a pinching exposed piece 206 disposed on the support piece 204 and used to peel the movable patch unit 2 off the fleece tape 102, and a reinforcing stitch 207 disposed on the hook block 201 and the support piece 204.
[0060] In this embodiment, the pinching exposed piece 206 and the support piece 204 are integrally formed, with the former having a rectangular or semi-circular shape. The main function of the pinching exposed piece 206 is:
[0061] When the movable patch unit 2 is in normal use on the fleece tape 102, the hook block 201 is completely stuck to the fleece tape 102. At this time, the user needs to use their fingers to pry out a gap so that the movable patch unit 2 can be easily peeled off. Therefore, this is the main function of the exposed piece 206 for pinching.
[0062] The pinching exposed piece 206 is not connected to the hook block 201 and the cover cloth 202 in order to avoid tearing the latter two, which have relatively reduced structural strength. This is also another function of the support piece 204, namely, to serve as the direct force-bearing part of the entire movable patch unit 2 during the tearing action.
[0063] Furthermore, when the movable patch unit 2 is torn off, there is a tendency for the support piece 204 and the hook block 201 to tear apart, but there is no tearing between the support piece 204 and the cover cloth 202. Therefore, the main function of the reinforcing stitch 207 is to work together with the sewing ring 203 to strengthen the connection between the support piece 204 and the hook block 201.
[0064] In addition, the reinforcing stitches 207 can also be sewn together with the cover fabric 202. The shape of the stitches can be several line segments or a rectangular frame, the latter including all the sewing loops 203.
[0065] The movable patch unit 2 also includes a sewing positioning channel 208 disposed on the support piece 204 and used to pass through the sewing ring 203 and the reinforcing sewing thread 207.
[0066] In this embodiment, the depth of the sewing positioning channel 208 is ≤0.5mm, which will not significantly reduce the structural strength of the support piece 204. The main function of the sewing positioning channel 208 is to make the sewing operation of the sewing ring 203 and the reinforcing thread 207 simpler and more efficient, to prevent the needle from hitting the magnet 11, and to prevent the needle from not being able to completely pass through the various layered structures that need to be sewn on the movable patch unit 2.
[0067] The integral strip unit 3 in the length direction includes two rectangular strips 301 disposed on the velvet strip 102 and located on both sides of all the movable patch units 2.
[0068] In this embodiment, as shown in the appendix Figure 6 As shown, if the two movable patch units 2 are far apart, the velvet composite main body piece unit 1 can cause the two movable patch units 2 to adhere together after it twists itself. This will significantly increase the inconvenience of using the magnetic belt. Therefore, conversely, this is the main function of the rectangular strip 301.
[0069] Generally, this magnetic belt can be used in the following three different ways:
[0070] First, as attached Figure 1 As shown, five active patch units 2 are used: two on the back, two on the two sides of the abdomen, and one in the center of the abdomen.
[0071] Second, as attached Figure 7 As shown, the active patch unit 2 also uses 5 units, but 4 are located on the back and 1 is located in the center of the abdomen;
[0072] Third, six active patch units 2 are used, four on the back and two on the two sides of the abdomen.
[0073] The rectangular strip 301 and the support piece 204 can be made of the same rubber material. The length of the former is slightly less than the length of the rectangular main body piece 101. All the movable patch units 2 are located between the two rectangular strips 301.
[0074] The integral strip unit 3 along the length direction also includes a pressure-receiving protrusion 302 disposed on the rectangular strip 301 and used to be pressed by the user's thumb and forefinger when the movable patch unit 2 is torn off.
[0075] In this embodiment, as shown in the appendix Figure 8 As shown, when the active patch unit 2 is torn off, the user opens the web of their left hand, with the left thumb and index finger corresponding to the left thumb pressing position a and the left index finger pressing position b, respectively. The right hand pinches the exposed piece 206 for holding, which allows the active patch unit 2 to be torn off relatively simply, stably, and orderly, ensuring that the magnetic belt will not rotate or swing out during this process.
[0076] Correspondingly, this is the main function of the pressure-bearing protrusion 302, which is semi-circular or rectangular in shape.
[0077] The integral strip unit 3 along the length direction also includes a sewing channel 303 disposed on the rectangular strip 301.
[0078] In this embodiment, the function of the sewing channel 303 is similar to that of the sewing positioning channel 208, in order to prevent the needle from separating from the rectangular strip 301 at this time, and to prevent the stitches on the integral strip unit 3 in the length direction from not being able to fix it sufficiently.
[0079] Furthermore, the depth of the sewing channel 303 is relatively small. The magnetic waist belt in this application does not improve the specific performance parameters of the magnetic therapy function, but rather ensures that the movable patch unit 2, connected to the magnet 11, is sufficiently bonded during fixation and simple and efficient when displacement is required.
[0080] The embodiments of this application have been described in detail above with reference to the accompanying drawings. However, this application is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various modifications can be made without departing from the spirit of this application. These are non-inventive modifications and are protected by patent law as long as they are within the scope of the claims of this application.
Claims
1. A magnetic belt with a magnetic structure for easy displacement, the structure comprising a magnet (11), characterized in that: It also includes a velvet composite body sheet unit (1), a movable patch unit (2) that is bonded to the velvet composite body sheet unit (1) and has the magnet (11) inside, and is used to press on the abdomen, side abdomen or back, and a length-direction integral strip unit (3) that is disposed on the velvet composite body sheet unit (1) and is located on both sides of all the movable patch units (2), and is used to prevent any two of the movable patch units (2) from being magnetically attached.
2. A magnetic belt with a magnetic structure for easy displacement according to claim 1, characterized in that: The velvet composite main body sheet unit (1) includes a rectangular main body sheet (101) and a velvet strip (102) disposed on the rectangular main body sheet (101) and used to adhere the movable patch unit (2).
3. A magnetic belt with a magnetic structure for easy displacement according to claim 2, characterized in that: The velvet composite main body unit (1) further includes a connecting velvet sheet (103) and a connecting hook sheet (104) respectively disposed at both ends of the rectangular main body (101).
4. A magnetic belt with a magnetic structure for easy displacement according to claim 2, characterized in that: The movable patch unit (2) includes a hook block (201) with the magnet (11) on the back and the velvet tape (102) for bonding on the front, a cover cloth (202) disposed on the hook block (201) and used to cover the magnet (11), and a sewing ring (203) disposed on the hook block (201) and the cover cloth (202) and used to fix the magnet (11).
5. A magnetic belt with a magnetic structure for easy displacement according to claim 4, characterized in that: The active patch unit (2) further includes a support piece (204) disposed between the hook block (201) and the cover cloth (202) and through which the sewing ring (203) passes, and a limiting hole (205) disposed on the support piece (204) for mounting the magnet (11).
6. A magnetic belt with a magnetic structure for easy displacement according to claim 5, characterized in that: The movable patch unit (2) further includes a pinching exposed piece (206) disposed on the support piece (204) and used to peel the movable patch unit (2) off the velvet strip (102), and a reinforcing stitch (207) disposed on the hook block (201) and the support piece (204).
7. A magnetic belt with a magnetic structure for easy displacement according to claim 6, characterized in that: The movable patch unit (2) further includes a sewing positioning channel (208) disposed on the support piece (204) and used to pass through the sewing ring (203) and the reinforcing thread (207).
8. A magnetic belt with a magnetic structure for easy displacement according to claim 2, characterized in that: The integral strip unit (3) in the length direction includes two rectangular strips (301) disposed on the velvet strip (102) and located on both sides of all the movable patch units (2).
9. A magnetic belt with a magnetic structure for easy displacement according to claim 8, characterized in that: The integral strip unit (3) in the length direction also includes a pressure-receiving protrusion (302) disposed on the rectangular strip (301) and used to be pressed by the user's thumb and forefinger when the movable patch unit (2) is torn off.
10. A magnetic belt with a magnetic structure for easy displacement according to claim 9, characterized in that: The integral strip unit (3) in the length direction also includes a sewing channel (303) disposed on the rectangular strip (301).