A mattress having a magnetic support structure
By combining magnetic support units and elastic support units, the problem of mattress deformation after long-term use is solved, enabling disassembly and replacement, reducing maintenance and replacement costs, and improving the support and comfort of the mattress.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- QINHUANGDAO KANG ZI BAI DE GAOXINJISHU DEV CO LTD
- Filing Date
- 2026-04-16
- Publication Date
- 2026-06-09
AI Technical Summary
After prolonged use, the springs or foam materials of existing mattresses are prone to deformation, resulting in reduced support and high repair or replacement costs.
The system employs a combination of magnetic support units and elastic support units. Through the arrangement of hexagonal mounting plates and the cooperation between magnetic and elastic supports, combined with reinforcing rods and connecting strips, it achieves support strength and recovery effect. The detachable design allows for the individual replacement of damaged or reduced elasticity support units.
It effectively reduces deformation after prolonged use, lowers replacement costs, maintains the mattress's long-term support and elasticity, and improves user comfort.
Smart Images

Figure CN122163059A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of mattress technology, and more specifically, to a mattress with a magnetic support structure. Background Technology
[0002] Currently, the mainstream mattresses on the market can be mainly divided into the following categories: spring mattresses, which use coil springs or pocket springs to provide support; memory foam / latex mattresses, which rely on the slow rebound characteristics of the materials to provide close support; hybrid structure mattresses, which combine springs and foam layers to provide support; and airbag mattresses, which adjust local support through the inflation and deflation of independent airbags.
[0003] Traditional spring and foam systems tend to lose resilience over time, making them prone to deformation and difficult to restore their original shape and support elasticity. This is especially true in areas that are under constant pressure, where indentations can form over time. Furthermore, when the spring system, foam material, or air bladder deforms or breaks, existing mattress structures make it difficult to repair or replace the damaged areas, often requiring the entire mattress to be replaced, which is costly. Summary of the Invention
[0004] This invention proposes a mattress with a magnetic support structure to solve the problem in the prior art where springs or foam materials in mattresses deform after long-term use, affecting their use and resulting in high maintenance and replacement costs.
[0005] The technical solution of the present invention is as follows: A mattress with a magnetic support structure includes a surface layer and further includes: A base, wherein the base is disposed on the inner bottom wall of the surface layer; The mounting plate is provided in multiple hexagonal shapes and is arranged in a honeycomb pattern. A limiting rod is fixedly connected to the bottom of the mounting plate, and a limiting groove matching the mounting plate and the limiting rod is provided on the base. A magnetic support unit is detachably mounted on the mounting plate, and the magnetic support unit includes: The bottom magnet has a slot provided on the mounting plate for accommodating the bottom magnet. A top magnet is positioned above the bottom magnet via a telescopic rod, and the top magnet and the bottom magnet have the same magnetism at their closest points. A flexible support unit is detachably mounted on the mounting plate, the flexible support unit comprising: The base plate has a placement groove for accommodating the base plate. A top plate, which is mounted above the bottom plate by means of a support spring; The magnetic support unit is located at the center of the mounting plate, and the remaining magnetic support units and elastic support units are staggered at the hexagonal positions of the mounting plate. An edge is provided on the outside of the base to support the edges; A filling layer is disposed above the magnetic support unit and the elastic support unit; A comfort layer disposed above the filling layer; The zipper has an opening on its surface for pulling out the base, and the zipper is located at the opening. The edging is a spliced structure, and the portion of the edging located at the opening is detachable.
[0006] To improve the support strength and recovery effect of the magnetic support unit and the elastic support unit, multiple connecting slots are provided on the top plate and the top magnet. A reinforcing rod is provided between adjacent top plates and top magnets on the same mounting plate, and the reinforcing rod is located inside the connecting slot.
[0007] To further improve the support strength and recovery effect of the magnetic support unit and the elastic support unit, a connecting strip is provided between the adjacent top plates, between the top magnets, or between the top plates and the top magnets on two adjacent mounting plates. The connecting strip is located inside the connecting groove.
[0008] To ensure the stability of the magnetic support unit and the elastic support unit, a limiting cavity is provided on the mounting plate. The limiting cavity is connected to the placement groove. A limiting block is slidably arranged inside the limiting cavity. A limiting spring is provided between the limiting block and the inner wall of the limiting cavity. Limiting grooves matching the limiting block are provided on both the bottom plate and the bottom magnet.
[0009] To enable the removal of the edging, the edging includes a main body and a detachable edge. The detachable edge is located at the opening, and an insert plate is fixedly connected to the end of the detachable edge. The main body has a slot that matches the insert plate, and a locking rod is slidably installed on the main body. The insert plate has a locking hole that matches the locking rod.
[0010] Preferably, the telescopic rod includes: The fixing base is fixedly mounted on the bottom magnet; A sliding rod is fixedly mounted on the top magnet, and a groove matching the sliding rod is provided on the fixed base; A baffle is fixedly connected to the slide rod. A groove matching the baffle is provided on the fixed seat. The diameter of the baffle is larger than the diameter of the slide rod to prevent the slide rod from coming out of the fixed seat.
[0011] To reduce the sliding noise of the telescopic rod, ball bearings are rolled on the inner wall of the slide groove, and the slide rod contacts the ball bearings. Ball bearings are rolled on the periphery of the baffle, and the inner wall of the baffle groove contacts the ball bearings.
[0012] The working principle and beneficial effects of this invention are as follows: 1. In this invention, the arrangement of hexagonal mounting plates ensures maximum coverage. The combination of magnetic and elastic support guarantees the mattress's support performance and elasticity. Simultaneously, the repulsive action of the top and bottom magnets allows the top magnet to return to its original position. The reinforcing rods and connecting strips further enhance the elastic support strength of the magnetic and elastic support units. At the same time, the magnetic support unit can drive the elastic support unit to return to its original shape, reducing deformation after prolonged use and ensuring the mattress's long-term support and elasticity.
[0013] 2. In this invention, the opening can be opened by a zipper, and the detachable side can be easily disassembled and assembled by a locking rod and a insert plate. This allows the base to be removed from the inside of the side panel, and the elastic support unit and magnetic support unit can be inspected and repaired. The damaged or reduced elastic support unit or magnetic support unit can be removed from the placement slot and replaced without replacing the entire mattress, thus reducing replacement costs. Attached Figure Description
[0014] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0015] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a schematic diagram of the disassembled structure of the present invention; Figure 3 This is a partial cross-sectional structural schematic diagram of the present invention; Figure 4 This is a schematic diagram of the structure of the base, mounting plate, reinforcing rod, and connecting strip of the present invention; Figure 5 This is a schematic diagram of the structure of the mounting plate, connecting strip, magnetic support unit, and elastic support unit of the present invention; Figure 6 This is a first-view structural schematic diagram of the mounting plate, reinforcing rod, magnetic support unit, and elastic support unit of the present invention. Figure 7 This is a second-view structural schematic diagram of the mounting plate, reinforcing rod, magnetic support unit, and elastic support unit of the present invention. Figure 8 This is a schematic diagram of the magnetic support unit of the present invention; Figure 9 This is a schematic diagram of the structure of the base and the surrounding edge of the present invention; Figure 10 This is a schematic diagram of the structure of the mounting plate and the limiting block of the present invention; Figure 11 For the present invention Figure 2 A magnified schematic diagram of the partial structure at point A in the middle; Figure 12 For the present invention Figure 10 A magnified schematic diagram of the structure at point B in the middle.
[0016] In the picture: 1. Surface layer; 2. Base; 3. Mounting plate; 4. Reinforcing rod; 5. Connecting strip; 6. Limiting block; 7. Limiting spring; 8. Filling layer; 9. Comfort layer; 10. Zipper; 101. Bottom magnet; 102. Top magnet; 103. Fixing base; 104. Slide rod; 105. Baffle; 106. Ball bearing; 201. Base plate; 202. Top plate; 203. Support spring; 301. Main body; 302. Detachable side; 303. Insert plate; 304. Locking rod. Detailed Implementation
[0017] The technical solutions of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present invention.
[0018] like Figures 1 to 12 As shown, this embodiment proposes a mattress with a magnetic support structure, including a surface layer 1, a base 2, a mounting plate 3, a magnetic support unit, an elastic support unit, a rim, a filling layer 8, a comfort layer 9, and a zipper 10.
[0019] The base 2 is set on the inner bottom wall of the surface layer 1. Multiple hexagonal mounting plates 3 are provided and arranged closely in a honeycomb pattern. A limiting rod is fixedly connected to the bottom of the mounting plates 3. The base 2 has a limiting groove that matches the mounting plates 3 and the limiting rod. The base 2 is located at the bottom of the mattress and can stably support the mounting plates 3, magnetic support units, elastic support units, filling layer 8 and comfort layer 9 above, ensuring the flatness of the mattress. The mounting plates 3 are installed on the base 2 through the limiting rod, which can ensure the stability of the mounting plates 3.
[0020] like Figures 1 to 8As shown, the magnetic support unit is detachably mounted on the mounting plate 3. The magnetic support unit includes a bottom magnet 101 and a top magnet 102. The mounting plate 3 has a slot for accommodating the bottom magnet 101. The top magnet 102 is mounted above the bottom magnet 101 via a telescopic rod. The top magnet 102 and the bottom magnet 101 have the same magnetism at their closest points. The telescopic rod includes a fixing base 103, a sliding rod 104, and a baffle 105. The fixing base 103 is fixedly mounted on the bottom magnet 101, and the sliding rod 104 is fixedly mounted on the top magnet 102. The fixing base 103 has a groove that matches the sliding rod 104. The baffle 105 is fixedly connected to the sliding rod 104. The fixing base 103 has a groove that matches the baffle 105. The baffle 105 is matched with a groove, and the diameter of the baffle 105 is larger than the diameter of the slide rod 104 to prevent the slide rod 104 from coming out of the inside of the fixed seat 103. The inner wall of the groove is provided with rolling balls 106, and the slide rod 104 is in contact with the rolling balls 106. The circumference of the baffle 105 is also provided with rolling balls 106, and the inner wall of the groove is in contact with the rolling balls 106. The top magnet 102 and the bottom magnet 101 have the same magnetism at their close ends and can repel each other, thereby providing support. At the same time, the magnetic force of the top magnet 102 and the bottom magnet 101 can effectively reduce static electricity while generating a magnetic field that is beneficial to the human body, promoting local blood microcirculation, improving orderly nerve activity, activating cells, and promoting cell metabolism.
[0021] The elastic support unit is detachably mounted on the mounting plate 3. The elastic support unit includes a bottom plate 201 and a top plate 202. The mounting plate 3 has a placement groove for accommodating the bottom plate 201. The top plate 202 is mounted above the bottom plate 201 by a support spring 203. The top of the top plate 202 is flush with the top of the top magnet 102. The support spring 203 provides elastic support for the top plate 202 and works with the magnetic support unit to provide stable elastic support for the filling layer 8 and comfort layer 9 above.
[0022] A magnetic support unit is located at the center of the mounting plate 3. The remaining magnetic support units and elastic support units are staggered at the hexagonal positions of the mounting plate 3. There are three elastic support units and four magnetic support units on a single mounting plate 3. One magnetic support unit is located at the center of the mounting plate 3. The three magnetic support units and three elastic support units are spaced apart at the hexagonal positions of the mounting plate 3, thereby providing uniform and stable support. Through reasonable elasticity and distribution, the top of the mattress can conform to the curve of the human body when a person lies down, providing more stable and natural support, relieving pressure on the lower back, and improving comfort.
[0023] like Figures 1 to 7As shown, to improve the support strength and recovery effect of the magnetic support unit and the elastic support unit, multiple connecting slots are provided on both the top plate 202 and the top magnet 102. A reinforcing rod 4 is provided between adjacent top plates 202 and top magnets 102 on the same mounting plate 3. The reinforcing rod 4 is located inside the connecting slot. To further improve the support strength and recovery effect of the magnetic support unit and the elastic support unit, connecting strips 5 are provided between adjacent top plates 202, between top magnets 102, or between top plates 202 and top magnets 102 on two adjacent mounting plates 3. The connecting strips 5 are located inside the connecting slots. The reinforcing rods 4 connect the top plates 202 and top magnets 102 on the same mounting plate 3. 2. Connect to the top magnet 102. Connect the top plate 202 or top magnet 102 on the adjacent mounting plate 3 through the connecting strip 5. The reinforcing rod 4 and the connecting strip 5 can be made of the same material as the support spring 203. The reinforcing rod 4 and the connecting strip 5 connect multiple top plates 202 and top magnet 102 into a whole, distributing the body weight from several large pressure points (such as shoulders, hips, and heels) to a wider area, avoiding obstruction of local blood circulation, and reducing the long-term pressure deformation of the support spring 203. Through the elastic action of the support spring 203, the reinforcing rod 4 and the connecting strip 5, it is easy to insert the reinforcing rod 4 and the connecting strip 5 into the interior of the connecting groove.
[0024] like Figures 8 to 12 As shown, to ensure the stability of the magnetic support unit and the elastic support unit, a limiting cavity is provided on the mounting plate 3. The limiting cavity is connected to the placement groove. A limiting block 6 is slidably installed inside the limiting cavity. A limiting spring 7 is provided between the limiting block 6 and the inner wall of the limiting cavity. A limiting groove matching the limiting block 6 is provided on both the base plate 201 and the bottom magnet 101. When the base plate 201 or the bottom magnet 101 is installed into the placement groove, the edge of the base plate 201 or the bottom magnet 101 presses the limiting block 6 into the interior of the limiting cavity. When the base plate 201 or the bottom magnet 101 is installed into the interior of the placement groove, the base plate 201 or the bottom magnet 101 is rotated. When the limiting groove and the limiting block... The position of 6 corresponds to the limit block 6 being pushed into the limit groove by the limit spring 7, which positions and limits the base plate 201 or the bottom magnet 101, so that the angle of the connecting groove is aligned, which facilitates the subsequent installation and connection of the reinforcing rod 4 and the connecting strip 5. The limit spring 7 and the limit block 6 ensure the stability of the base plate 201 and the bottom magnet 101, and prevent the magnetic support unit or elastic support unit from coming out of the placement groove when jumping or being subjected to a large impact. The placement groove is a circular groove that matches the shape of the base plate 201 and the bottom magnet 101, allowing the base plate 201 and the bottom magnet 101 to rotate, so that the position of the limit groove and the limit block 6 are aligned.
[0025] The edging is set on the outside of the base 2 to support the edge. The edging is set on the outside of the base 2 to ensure the stability of the base 2, thereby ensuring the stability of the elastic support unit and the magnetic support unit, and at the same time keeping the edge of the mattress in a stable state to prevent the edge of the mattress from collapsing.
[0026] The filling layer 8 is positioned above the magnetic support unit and the elastic support unit, and the comfort layer 9 is positioned above the filling layer 8. The filling layer 8 can use materials such as sponge, latex, and cotton to adjust the firmness and comfort of the mattress. The comfort layer 9 is on top and can use breathable, high-elasticity cotton to provide a comfortable elastic feel and maintain breathability. Its structural design takes into account both support and health benefits. The surface layer 1 is the overall outer wrapping structure of the mattress, which internally houses all components such as the base 2, the mounting plate 3, the magnetic support unit, the elastic support unit, the filling layer 8, and the comfort layer 9. The comfort layer 9 is the inner layer of the surface layer 1 that comes into contact with the human body and is positioned above the filling layer 8. The top of the surface layer 1 is made of comfortable fabric, serving as the surface layer that comes into contact with the human body and enhancing the user experience.
[0027] An opening for pulling out the base 2 is provided on the surface layer 1. In this embodiment, the opening is located at the tail of the mattress to facilitate pulling out the base 2. A zipper 10 is located at the opening. The edging is a spliced structure, and the part of the edging located at the opening is detachable. To achieve the detachment of the edging, the edging includes a main body 301 and a detachable edge 302. The detachable edge 302 is located at the opening, and an insert plate 303 is fixedly connected to the end of the detachable edge 302. A slot matching the insert plate 303 is provided on the main body 301. A locking rod 304 is slidably installed on the main body 301, and a slot matching the locking rod 304 is provided on the insert plate 303. 4. Matching locking holes allow for the external fixation of damping pads on the locking rod 304. Significant sliding damping exists between the locking rod 304 and the locking hole, ensuring the stability of the insert plate 303. Unzipping 10 opens the surface layer 1, allowing the locking rod 304 to be pulled out of the locking hole. This enables the removal of the detachable edge 302 and the opening of the perimeter, allowing the base 2 to be pulled out of the mattress. This allows the elastic support unit or magnetic support unit to be removed from the placement slot, enabling the replacement of damaged or severely degraded support springs 203, reinforcing rods 4, or connecting strips 5.
[0028] The working principle or usage process of this mattress with magnetic support structure is as follows: Place the base plate 201 and the bottom magnet 101 into their respective placement slots. Insert the reinforcing rod 4 into the corresponding connecting slot beforehand. Alternatively, the reinforcing rod 4 can be inserted into the corresponding connecting slot after the base plate 201 and the bottom magnet 101 are placed into their respective placement slots. This allows for the installation of the magnetic support unit and the elastic support unit. Arrange the mounting plates 3 tightly inside the limiting slots. Insert the connecting strip 5 into the corresponding connecting slots to connect the adjacent top magnets 102 or top plates 202 on the two mounting plates 3. Then, place the base 2 inside the edging. Insert the insert plate 303 into the slot. Insert the locking rod 304 into the locking hole to fix the insert plate 303. This connects the main body 301 of the edging and the detachable edge 302. The edging limits the base 2. The edging, the magnetic support unit, and the elastic support unit support the upper filling layer 8 and the comfort layer 9. Under the repulsive force of the like poles of the top magnet 102 and the bottom magnet 101, as well as the elastic force of the support spring 203, the mattress fits the user, providing stable support and improving the user's comfort. After use, the top magnet 102 and the top plate 202 return to their original height under the action of magnetism and elasticity, reducing the deformation of the mattress. When the elasticity of the support spring 203, reinforcing rod 4, or connecting strip 5 is lost and the mattress deforms, unzip 10, remove the locking rod 304 from the inside of the locking hole, remove the insert plate 303 from the inside of the slot, disassemble the detachable edge 302, remove the base 2 from the inside of the edge, remove and replace the damaged specific elastic support unit, reinforcing rod 4, or connecting strip 5, then reinstall the base 2 into the inside of the edge, and connect the detachable edge 302 to the main body 301.
[0029] The above are merely preferred embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A mattress with a magnetic support structure, comprising a surface layer (1), characterized in that, Also includes: The base (2) is disposed on the inner bottom wall of the surface layer (1); The mounting plate (3) is provided in multiple ways. The mounting plate (3) is hexagonal and the multiple mounting plates (3) are arranged closely in a honeycomb pattern. A limiting rod is fixedly connected to the bottom of the mounting plate (3). A limiting groove matching the mounting plate (3) and the limiting rod is provided on the base (2). The magnetic support unit is detachably mounted on the mounting plate (3); The elastic support unit is detachably mounted on the mounting plate (3); The magnetic support unit is provided at the center of the mounting plate (3), and the remaining magnetic support units and elastic support units are arranged alternately at the hexagonal positions of the mounting plate (3); The edging is provided outside the base (2) for supporting the edge; A filling layer (8) is disposed above the magnetic support unit and the elastic support unit; A comfort layer (9) is disposed above the filling layer (8); Zipper (10), the surface layer (1) has an opening for pulling out the base (2), the zipper (10) is located at the opening, the edging is a spliced structure, and the part of the edging located at the opening is detachable.
2. The mattress with a magnetic support structure according to claim 1, characterized in that, The magnetic support unit includes: Bottom magnet (101), the mounting plate (3) has a placement groove for accommodating the bottom magnet (101); A top magnet (102) is positioned above the bottom magnet (101) via a telescopic rod. The top magnet (102) and the bottom magnet (101) have the same magnetism at their closest points.
3. A mattress with a magnetic support structure according to claim 2, characterized in that, The elastic support unit includes: The base plate (201) has a placement groove on the mounting plate (3) for accommodating the base plate (201); A top plate (202) is positioned above the bottom plate (201) by means of a support spring (203).
4. A mattress with a magnetic support structure according to claim 3, characterized in that, Multiple connecting slots are provided on both the top plate (202) and the top magnet (102). A reinforcing rod (4) is provided between adjacent top plates (202) and top magnets (102) on the same mounting plate (3). The reinforcing rod (4) is located inside the connecting slot.
5. A mattress with a magnetic support structure according to claim 4, characterized in that, A connecting strip (5) is provided between adjacent top plates (202) on two adjacent mounting plates (3), between top magnets (102) or between top plates (202) and top magnets (102), and the connecting strip (5) is located inside the connecting groove.
6. A mattress with a magnetic support structure according to claim 5, characterized in that, A limiting cavity is provided on the mounting plate (3), the limiting cavity is connected to the placement groove, a limiting block (6) is slidably provided inside the limiting cavity, a limiting spring (7) is provided between the limiting block (6) and the inner wall of the limiting cavity, and a limiting groove matching the limiting block (6) is provided on the bottom plate (201) and the bottom magnet (101).
7. A mattress with a magnetic support structure according to claim 1, characterized in that, The edging includes a main body (301) and a detachable edge (302). The detachable edge (302) is located at the opening. An insert plate (303) is fixedly connected to the end of the detachable edge (302). A slot matching the insert plate (303) is provided on the main body (301). A locking rod (304) is slidably installed on the main body (301). A locking hole matching the locking rod (304) is provided on the insert plate (303).
8. A mattress with a magnetic support structure according to claim 2, characterized in that, The telescopic rod includes: A fixing base (103) is fixedly mounted on the bottom magnet (101); A slide bar (104) is fixedly mounted on the top magnet (102), and a groove matching the slide bar (104) is provided on the fixing seat (103); A baffle (105) is fixedly connected to the slide rod (104). A retaining groove matching the baffle (105) is provided on the fixing seat (103). The diameter of the baffle (105) is larger than the diameter of the slide rod (104) to prevent the slide rod (104) from coming out of the interior of the fixing seat (103).
9. A mattress with a magnetic support structure according to claim 8, characterized in that, The inner wall of the slide groove is provided with rolling balls (106), the slide rod (104) is in contact with the rolling balls (106), the periphery of the baffle (105) is provided with rolling balls (106), and the inner wall of the baffle groove is in contact with the rolling balls (106).