An adjustable magnetic mattress

Abstract

The present application relates to a kind of adjusting magnetic mattress applied to mattress technical field, by the cooperation of soft strut and interval lining, on the one hand, can play the role of auxiliary support, when user lies on mattress, the deformation of mattress is not easy too big, the effect of better to human body is better, simultaneously, the compression amount of latex pad layer is reduced, the influence of reducing to air permeability, on the other hand, due to user gravity, soft strut gradually moves down and embeds in interval lining, can make the effective ventilation of interval lining upper mouth portion increase, and then the air permeability of mattress extruded portion is assisted to ventilate, compared with prior art, effectively reduce the influence of user's gravity on corresponding part air permeability, effectively reduce the breeding of common lying part mites, while improving comfort.

Description

Technical Field

[0001] This invention relates to a mattress, and more particularly to an adjustable magnetic mattress applied in the field of mattress technology. Background Technology

[0002] A mattress is an item placed between the human body and a bed to ensure consumers get healthy and comfortable sleep. Mattresses are made of a variety of materials, and mattresses made of different materials can provide different sleep effects.

[0003] Nowadays, mattresses are gradually being developed with latex as the main material. These mattresses are very soft and comfortable for the human body. However, when a user lies on the mattress, due to its high softness and the user's own weight, this part of the mattress is squeezed and compressed, which reduces the flow of internal pores and thus reduces the breathability of this part. Summary of the Invention

[0004] In view of the above-mentioned prior art, the technical problem to be solved by the present invention is that the breathability of the part where the user lies is reduced due to the user's own weight.

[0005] To solve the above problems, the present invention provides an adjustable magnetic mattress, including a latex pad layer, a cushioning bottom layer located below the latex pad layer, and a spacer plate located between the two. An elastic telescopic rod is fixedly connected between the lower end of the spacer plate and the cushioning bottom layer. The latex pad layer and the cushioning bottom layer are covered with a non-woven fabric surface layer. The cushioning bottom layer includes a lower support layer, a cushioning interlayer, and an upper support layer from bottom to top.

[0006] The spacer liner includes a porous support layer and multiple air-changing rods fixedly connected to the upper end of the porous support layer. A high-density breathable layer is fixedly connected to the lower end of the latex pad layer. Multiple round holes corresponding to the multiple air-changing rods are drilled in the high-density breathable layer. Multiple evenly distributed soft support strips are fixedly embedded in the latex pad layer. The multiple soft support strips together form a soft support pad layer. The soft support strip includes a soft strip and multiple air-changing strips fixedly connected to the lower end of the soft strip. The air-changing strips correspond to the multiple round holes, and the air-changing strips move through the latex pad layer and extend into the corresponding round holes.

[0007] In the aforementioned adjustable magnetic mattress, when a user lies on the mattress, the corresponding compressed parts can achieve targeted supplemental ventilation. Compared with existing technologies, this effectively reduces the impact of the user's own weight on the breathability of the corresponding parts, effectively reduces the growth of mites in the frequently slept parts, and improves comfort.

[0008] As a further improvement of this application, the gas strip includes, from the outside to the inside, an outer moisture-absorbing layer, a magnetic protective shell, and a magnetic core. The magnetic protective shell is a rigid, molded plastic shell, and the outer moisture-absorbing layer is made of a highly hygroscopic material.

[0009] As a further improvement of this application, the variable rod includes an outer support sleeve and a plurality of baffles arranged in a ring array. The baffles are fixedly connected to the inner wall of the outer support sleeve. The outer support sleeve has a plurality of elongated holes corresponding to the plurality of baffles, and the elongated holes are directly opposite the center of the baffles.

[0010] As a further improvement of this application, the gap plate is an arc-shaped elastic structure, and an iron plate is fixedly embedded in the middle of the gap plate.

[0011] As a further improvement of this application, the outer diameter of the variable air strip is smaller than the radius of the circle containing the middle endpoints of the multiple baffle plates, and the length of the variable air strip is smaller than the length of the variable air rod.

[0012] As a further improvement of this application, the thickness ratio of the latex pads on the upper and lower sides of the soft strip is 2-3:1, the soft strip is an elastic silicone structure, and the total area of ​​the upper surface of multiple soft strips is not greater than half of the upper surface area of ​​the latex pad.

[0013] As a further improvement of this application, the nonwoven fabric surface layer completely wraps around the latex pad layer, the buffer bottom layer, and the spacer liner, and the nonwoven fabric surface layer is in compression contact with the latex pad layer and the buffer bottom layer.

[0014] As another improvement of this application, the nonwoven fabric surface layer includes a wrapping layer connected to the latex pad layer and the cushioning bottom layer, a nylon mesh layer fixedly connected to the lower end of the upper wrapping layer, and a plurality of fixed chain belts connected to the outer end of the lower wrapping layer, wherein the moving chain belt is linked to one of the fixed chain belts.

[0015] In summary, the combined use of soft support strips and spacer panels provides two main benefits. First, it offers auxiliary support, preventing excessive mattress deformation when the user lies on it, resulting in better body shaping and reduced compression of the latex layer, thus minimizing its impact on breathability. Second, due to the user's weight, the soft support strips gradually move downwards and embed themselves within the spacer panels, increasing the effective airflow at the top openings of the spacer panels. This provides targeted ventilation to areas of the mattress that are under pressure, effectively reducing the impact of the user's own weight on the breathability of corresponding areas, reducing the growth of dust mites in frequently slept areas, and improving comfort. Attached Figure Description

[0016] Figure 1 This is a cross-sectional view of the first embodiment of this application;

[0017] Figure 2 for Figure 1 Schematic diagram of the structure at point A;

[0018] Figure 3 This is an exploded view of the first embodiment of this application after the outer non-woven fabric layer has been removed;

[0019] Figure 4 This is a perspective view of the first embodiment of this application after the outer non-woven fabric layer has been removed.

[0020] Figure 5 This is a perspective view of the soft support pad layer according to the first embodiment of this application;

[0021] Figure 6 This is a cross-sectional view of the gas-changing strip according to the first embodiment of this application;

[0022] Figure 7 This is a schematic diagram of the front of the gas-changing rod according to the first embodiment of this application;

[0023] Figure 8 This is a top cross-sectional view of the variable-pneumatic strut according to the first embodiment of this application;

[0024] Figure 9 This is a cross-sectional view of the gas-changing bar after it extends into the gas-changing bar according to the first embodiment of this application;

[0025] Figure 10 This is a schematic diagram illustrating the local changes when the user's own weight acts on the mattress in the first embodiment of this application.

[0026] Figure 11 This is a perspective view of the soft support padding layer according to the second embodiment of this application;

[0027] Figure 12 This is a cross-sectional view of the gas-changing strip according to the second embodiment of this application.

[0028] Explanation of the labels in the diagram:

[0029] 1. Latex padding layer, 101. High-density breathable layer, 2. Buffer bottom layer, 21. Lower bearing layer, 22. Buffer interlayer, 23. Upper bearing layer, 3. Non-woven fabric surface layer, 31. Wrapping layer, 32. Nylon mesh layer, 301. Moving chain belt, 302. Fixed chain belt, 4. Soft support strip, 41. Soft strip, 42. Air-changing strip, 421. Outer moisture-absorbing layer, 422. Magnetic protective shell, 423. Magnetic core, 51. Porous support layer, 52. Air-changing rod, 521. Outer support sleeve, 522. Gap plate, 501. Round hole, 502. Long strip hole, 6. Elastic telescopic rod. Detailed Implementation

[0030] The two embodiments of this application will be described in detail below with reference to the accompanying drawings.

[0031] First implementation method:

[0032] Figure 1 and Figure 3An adjustable magnetic mattress is shown, comprising a latex pad layer 1, a cushioning bottom layer 2 located below the latex pad layer 1, and a spacer between the two. An elastic telescopic rod 6 is fixedly connected between the lower end of the spacer and the cushioning bottom layer 2. A non-woven fabric surface layer 3 is provided outside the latex pad layer 1 and the cushioning bottom layer 2. The cushioning bottom layer 2 includes a lower support layer 21, a cushioning interlayer 22, and an upper support layer 23 from bottom to top. The non-woven fabric surface layer 3 completely wraps around the latex pad layer 1, the cushioning bottom layer 2, and the spacer, and the non-woven fabric surface layer 3 is in contact with the latex pad layer 1 and the cushioning bottom layer 2 by compression.

[0033] Figures 2-4 As shown, the spacer liner includes a porous support layer 51 and multiple air-changing rods 52 respectively fixedly connected to the upper end of the porous support layer 51. A high-density breathable layer 101 is fixedly connected to the lower end of the latex pad layer 1. Multiple circular holes 501 corresponding to the multiple air-changing rods 52 are drilled in the high-density breathable layer 101. Figure 5 Multiple evenly distributed soft support strips 4 are fixedly embedded within the latex pad layer 1. These multiple soft support strips 4 together form a soft support pad layer. Each soft support strip 4 includes a soft strip 41 and multiple air-changing strips 42 respectively fixedly connected to the lower end of the soft strip 41. Each air-changing strip 42 corresponds to a multiple round hole 501, and the air-changing strip 42 movably penetrates the latex pad layer 1 and extends into the corresponding round hole 501. Figure 9 and Figure 10 In the aforementioned adjustable magnetic mattress, when a user lies on the mattress, the air strip 42 corresponding to the compressed part moves downward and enters the air rod 52, which increases the gap for internal and external space exchange in the air rod 52, achieving targeted supplemental ventilation. Compared with existing technologies, this effectively reduces the impact of the user's own weight on the breathability of the corresponding part, effectively reduces the growth of mites in the frequently slept part, and improves comfort.

[0034] It is worth noting that the high-density breathable layer 101 itself has a porous structure and good breathability, and its pore size is smaller than that of the round hole 501.

[0035] With the soft strip 41 as the dividing line, the thickness ratio of the latex pad layer 1 on the upper and lower sides of the soft strip 41 is 2-3:1. The soft strip 41 is an elastic silicone structure, and the total area of ​​the upper surface of multiple soft strips 41 is not greater than half of the upper surface area of ​​the latex pad layer 1, so that the setting of multiple soft support strips 4 does not easily affect the elasticity and breathability of the latex pad layer 1.

[0036] like Figure 6The air-changing strip 42, from the outside to the inside, includes an outer moisture-absorbing layer 421, a magnetic protective shell 422, and a magnetic core 423. The magnetic protective shell 422 is a rigid, molded plastic shell, mainly used for shaping, so that the latex pad 1 is not easily bent when subjected to force deformation, effectively ensuring that it can be smoothly squeezed into the air-changing rod 52 under force. At the same time, it can protect the internal magnetic core 423, making it less likely to break. The outer moisture-absorbing layer 421 is made of highly absorbent material, which can absorb some of the moisture in the latex pad 1. When the latex pad 1 is subjected to force deformation, causing the air-changing strip 42 to be embedded in the air-changing rod 52, the moisture on its surface can be directly dissipated away from the latex pad 1. When the user lies or sits on this mattress, it can effectively accelerate the dissipation of moisture from the compressed area, thereby significantly reducing the moisture in the latex pad 1, reducing the growth of mites, and providing comfort.

[0037] like Figure 7 and Figure 8 In the figure, 'a' represents the concentric circle containing the midpoints of multiple baffle plates 522. The variable valve rod 52 includes an outer support sleeve 521 and multiple baffle plates 522 arranged in a ring array. The baffle plates 522 are fixedly connected to the inner wall of the outer support sleeve 521. The outer support sleeve 521 has multiple elongated holes 502 corresponding to the multiple baffle plates 522, and the elongated holes 502 are directly opposite the midpoint of the baffle plates 522. The baffle plates 522 are arc-shaped elastic structures, and an iron plate is fixedly embedded in the midpoint of the baffle plates 522. Figure 9 When the gas strip 42 extends into the gas rod 52, under the attraction of the magnetic core 423, multiple iron pieces move toward the gas strip 42, thereby causing the baffle plate 522 to deform away from the elongated hole 502, making the gap between the baffle plate 522 and the outer support sleeve 521 larger, so that the moisture in the latex pad layer 1 can approach the elongated hole 502 along the gap between the two and be discharged outward from the elongated hole 502.

[0038] The outer diameter of the air-changing strip 42 is smaller than the radius of the circle containing the middle endpoints of the multiple gap plates 522, and the length of the air-changing strip 42 is smaller than the length of the air-changing rod 52. When the air-changing strip 42 is inserted into the air-changing rod 52, the gap plates 522 have sufficient deformation space, so that when force is applied, targeted ventilation can be achieved at the stress points of the mattress.

[0039] In summary, the combined use of the soft support strip 4 and the spacer board provides two main benefits. First, it offers auxiliary support, preventing excessive mattress deformation when the user lies on it, thus improving the fit to the body. It also reduces the compression of the latex layer 1, minimizing its impact on breathability. Second, due to the user's weight, the soft support strip 4 gradually moves downwards and embeds itself within the spacer board, increasing the effective airflow at the top opening of the spacer board. This provides targeted ventilation to areas of the mattress subjected to compression. Compared to existing technologies, this effectively reduces the impact of the user's weight on the breathability of corresponding areas, effectively reduces the growth of dust mites in frequently slumped areas, and improves comfort.

[0040] Second implementation method:

[0041] This embodiment further improves the nonwoven fabric surface layer 3 based on the first embodiment, while the rest remains consistent with the first embodiment.

[0042] Figures 10-11 As shown, the non-woven fabric surface layer 3 includes a wrapping layer 31 connected to the latex pad layer 1 and the cushioning bottom layer 2, a nylon mesh layer 32 fixedly connected to the lower end of the upper wrapping layer 31, and multiple fixed chain belts 302 connected to the outer end of the lower wrapping layer 31. The moving chain belt 301 is linked to one of the fixed chain belts 302. During use, the user can link the moving chain belt 301 with the appropriate fixed chain belt 302 according to their own needs for mattress firmness. When the moving chain belt 301 is connected to the fixed chain belt 302 near the top, the latex pad layer 1, the cushioning bottom layer 2, and the elastic telescopic rod 6 in the non-woven fabric surface layer 3 are subjected to relatively small compressive forces, resulting in a smaller degree of compression and better overall elasticity and softness of the mattress. When the moving chain belt 301 is connected to the fixed chain belt 302 near the bottom, the overall degree of compression increases, resulting in a higher degree of firmness. The user can link the moving chain belt 301 with the appropriate fixed chain belt 302 according to actual needs.

[0043] Compared to the first embodiment, this embodiment can improve breathability while simultaneously adjusting the firmness and elasticity of the mattress. Furthermore, compared to the existing method of adjusting firmness by flipping the mattress, it is more convenient, more operable, and easier to use.

[0044] In light of current practical needs, the above-described embodiments adopted in this application are not limited to these. Any changes made within the scope of knowledge possessed by those skilled in the art without departing from the concept of this application still fall within the protection scope of this invention.

Claims

1. An adjustable magnetic mattress, characterized in that: It includes a latex pad layer (1), a buffer bottom layer (2) located below the latex pad layer (1), and a spacer between the two. An elastic telescopic rod (6) is fixedly connected between the lower end of the spacer and the buffer bottom layer (2). The latex pad layer (1) and the buffer bottom layer (2) are provided with a non-woven fabric surface layer (3). The buffer bottom layer (2) includes a lower bearing layer (21), a buffer interlayer (22), and an upper bearing layer (23) from bottom to top. The spacer includes a porous support layer (51) and a plurality of air-changing rods (52) fixedly connected to the upper end of the porous support layer (51). A high-density breathable layer (101) is fixedly connected to the lower end of the latex pad layer (1). A plurality of round holes (501) corresponding to the plurality of air-changing rods (52) are drilled on the high-density breathable layer (101). A plurality of evenly distributed soft support strips (4) are fixedly embedded in the latex pad layer (1). The plurality of soft support strips (4) together form a soft support pad layer. The soft support strip (4) includes a soft strip (41) and a plurality of air-changing strips (42) fixedly connected to the lower end of the soft strip (41). The air-changing strips (42) correspond to the plurality of round holes (501) respectively, and the air-changing strips (42) move through the latex pad layer (1) and extend into the corresponding round holes (501). The gas-changing strip (42) includes, from the outside to the inside, an outer moisture-absorbing layer (421), a magnetic shell (422), and a magnetic core (423). The magnetic shell (422) is a rigid, molded plastic shell. The outer moisture-absorbing layer (421) is made of a highly hygroscopic material. The gas-changing rod (52) includes an outer support sleeve (521) and multiple baffles (522) arranged in a ring array. The baffles (522) are fixedly connected to the inner wall of the outer support sleeve (521). The outer support sleeve (521) has multiple elongated holes (502) that correspond to the multiple baffles (522), and the elongated holes (502) are directly opposite the middle of the baffles (522). The baffles (522) are arc-shaped elastic structures, and an iron sheet is fixedly embedded in the middle of the baffles (522).

2. The adjustable magnetic mattress according to claim 1, characterized in that: The outer diameter of the variable air strip (42) is smaller than the radius of the circle where the middle endpoints of the multiple baffles (522) are located, and the length of the variable air strip (42) is smaller than the length of the variable air rod (52).

3. The adjustable magnetic mattress according to claim 2, characterized in that: With the soft strip (41) as the dividing line, the thickness ratio of the latex pad layer (1) on the upper and lower sides of the soft strip (41) is 2-3:

1. The soft strip (41) is an elastic silicone structure, and the total area of ​​the upper surface of multiple soft strips (41) is not greater than half of the upper surface area of ​​the latex pad layer (1).

4. The adjustable magnetic mattress according to claim 1, characterized in that: The nonwoven fabric surface layer (3) is completely wrapped around the latex pad layer (1), the buffer bottom layer (2) and the spacer plate, and the nonwoven fabric surface layer (3) is in contact with the latex pad layer (1) and the buffer bottom layer (2) by compression.

5. The adjustable magnetic mattress according to claim 1, characterized in that: The nonwoven fabric surface layer (3) includes a wrapping layer (31) connected to the latex pad layer (1) and the buffer bottom layer (2), a nylon mesh layer (32) fixedly connected to the lower end of the upper wrapping layer (31), and a plurality of fixed chain belts (302) connected to the outer end of the lower wrapping layer (31), with the moving chain belt (301) linked to one of the fixed chain belts (302).

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