阅读说明：本技术 一种竹质弹簧的制备、应用及床垫 (Preparation and application of bamboo spring and mattress ) 是由 王福利 陈玉霞 郭勇 许费扬 丁仕成 闫彬 李创业 翁蓓蓓 徐润民 张锦龙 邬珊 于 2021-09-06 设计创作，主要内容包括：本发明提供了一种竹质弹簧的制备方法,包括如下步骤：获得竹丝,并按照弹性模量将竹丝每5GPa分一等级,共分六个等级；将弹性模量等级为3、4、5、6的竹丝初级原材料依次进行化学与浸渍改性：将改性处理后的竹丝进行分丝、卷簧,卷簧的同时进行初步固化处理；初步固化处理后,再进行二次固化处理,而后干燥处理；(4)抛光处理后,将同一规格的竹质弹簧按质量差异由小到大分成若干密度等级,最终获得不同规格、不同质量等级的竹质弹簧本体。本发明还提供了上述竹质弹簧的应用以及竹质弹簧床垫。本发明制备的竹质弹簧具有透气散湿、抑菌抗菌、绿色低碳环保的优势,同时,竹质弹簧床垫可满足不同体型和体重人群的定量化支撑需求。(The invention provides a preparation method of a bamboo spring, which comprises the following steps: obtaining bamboo filaments, and dividing the bamboo filaments into one grade every 5GPa and six grades according to the elastic modulus; sequentially carrying out chemical and impregnation modification on the primary raw materials of the bamboo filaments with the elastic modulus grades of 3, 4, 5 and 6: carrying out splitting and coiling on the modified bamboo filaments, and simultaneously carrying out primary curing treatment on the coiled springs; after the primary curing treatment, carrying out secondary curing treatment, and then drying treatment; (4) after polishing, the bamboo springs with the same specification are divided into a plurality of density grades according to the mass difference from small to large, and finally the bamboo spring bodies with different specifications and different mass grades are obtained. The invention also provides application of the bamboo spring and a bamboo spring mattress. The bamboo spring mattress prepared by the invention has the advantages of air permeability, moisture dispersion, bacteriostasis, antibiosis, green, low carbon and environmental protection, and meanwhile, the bamboo spring mattress can meet the quantitative support requirements of people with different body types and weights.)

1. The preparation method of the bamboo spring is characterized by comprising the following steps:

(1) drawing the bamboo material to obtain bamboo filaments, and dividing the bamboo filaments into one grade per 5GPa and six grades according to the elastic modulus of 0-30 GPa;

(2) the bamboo filament primary raw materials with the elastic modulus grades of 3, 4, 5 and 6 are subjected to the following treatment;

a, chemical modification: oxidizing agent and carboxylic acid or hypochlorite are adopted according to the proportion of 1: 1, jointly treating the primary raw materials of the bamboo filaments in proportion at the temperature of 20-60 ℃ for 2-4 h; secondly, treating the bamboo filaments by using a strong alkali solution with the concentration of 5-20%, wherein the temperature is 40-80 ℃, and the treatment time is 2-4 hours; thirdly, the bamboo filaments processed by the steps are sent into an automatic leaching box and are leached automatically until leaching liquid is neutral; fourthly, drying the bamboo filaments treated in the third step at the temperature of 40-60 ℃ to adjust the water content to 20-30%;

b, dipping modification: firstly, immersing bamboo filaments into a nano inorganic oxide solution with the particle size of 10-50 nm, wherein the solid content is 15-50%, the temperature is 20-60 ℃, a vacuum negative pressure environment is realized through a vacuum tank, the dipping time is 2-4 hours, the curing temperature is 100-140 ℃, and the curing time is 1-3 hours; secondly, soaking the bamboo filaments into the modified epoxy resin, regulating and controlling a negative pressure environment through a vacuum tank, pressurizing and depressurizing once every 10min at a pressure of 0.5-5 MPa and a pressurizing and depressurizing speed of 0.02-1 MPa/min, and soaking for 1-4 h; then, carrying out surface curing at the curing temperature of 120-140 ℃ for 10-30 min;

(3) performing filament splitting and coil coiling treatment on the bamboo filaments treated in the step (2), wherein the temperature of a coil coiling is 130-160 ℃, and performing primary curing treatment while coiling the coil; after primary curing treatment, carrying out secondary curing treatment, wherein the secondary curing temperature is 100-140 ℃, the curing time is 1-3 h, the setting time is 12-24 h, and then drying treatment is carried out, so that the water content is adjusted to 7-10%;

(4) polishing the bamboo spring processed in the step (3); then, the bamboo spring with the same specification is divided into a plurality of density grades according to the mass difference from small to large, and finally the bamboo spring bodies with different specifications and different mass grades are obtained.

2. The method for preparing the bamboo spring as claimed in claim 1, wherein in the step (1), the bamboo fiber content of the bamboo filament is detected by infrared, and a model E of the relationship between the bamboo elastic modulus and the bamboo fiber volume fraction is 40.129V_f+0.2219, dividing the bamboo filament into six grades according to the elastic modulus of 0-30 GPa and one grade per 5 GPa; wherein the relation model E is 40.129V_f+0.2219, E represents the elastic modulus of the bamboo filament, unit: GPa; v_fThe volume fraction of the bamboo fiber of the bamboo filament is expressed.

3. The method for preparing a bamboo spring according to claim 1, wherein in the step (4), the bamboo spring bodies with different specifications have different wire diameters, calibers and free heights, and the bamboo spring bodies with the same wire diameter, calibers and free heights are divided into four quality grades according to the quality difference from small to large, so that the bamboo spring bodies with different specifications and different density grades are obtained.

4. Use of a bamboo spring obtained by the method according to any one of claims 1 to 3 as a core material for a mattress.

5. A bamboo spring mattress is characterized by comprising a mattress upper layer and a mattress lower layer; the core layer of the mattress upper layer is formed by combining one or more of latex, foam sponge, wool, horsehair, camel hair, down feather and loofah sponge silk wadding; the core layer of the lower layer of the mattress consists of an inner container cover and a plurality of bamboo spring units coated on the inner container cover; each bamboo spring unit is of an independent bagged structure and comprises a bamboo spring body and a non-woven bag wrapping the bamboo spring body; wherein the bamboo spring body is prepared by the preparation method of any one of claims 1 to 3.

6. The bamboo spring mattress of claim 5, wherein the core layer of the upper mattress layer is a comfort layer; the upper surface of the comfort layer is covered with an upper layer fabric composite layer, the lower surface of the comfort layer is covered with a bottom liner, and the peripheral side surfaces of the comfort layer are covered with an upper surrounding edge; the bottom of the upper surrounding edge horizontally extends inwards to form a first extending part towards the lower surface of the comfort layer, and a first connecting piece is arranged on the inner edge of three edges of the first extending part; the core layer of the lower layer of the mattress is a supporting and adjusting layer; the bottom surface and the periphery of the supporting and adjusting layer are coated by a lower fabric composite layer and a lower surrounding edge, the top of the lower surrounding edge horizontally extends inwards to the upper surface of the supporting and adjusting layer to form a second extending part, and a second connecting part matched with the first connecting part is arranged along the inner edges of three edges of the second extending part; the first connecting piece and the second connecting piece are used for connecting and opening and closing the upper mattress layer and the lower mattress layer, and the sides of the first extending part and the second extending part, which are not provided with the connecting pieces, are fixedly connected through sewing.

7. The bamboo spring mattress as claimed in claim 5, wherein the inner container cover has a plurality of bamboo spring units arranged therein in a vertical matrix arrangement, and adjacent bamboo spring units are separated by a separation line; or, in the inner container cover, the bamboo spring unit is arranged in the inner container cover in the form of a plurality of spring module packs; the spring module bag comprises a non-woven fabric bag and a plurality of bamboo spring units which are arranged in the non-woven fabric bag in a vertical matrix arrangement mode; the spring module is wrapped, and adjacent bamboo spring units are divided by dividing lines.

8. The bamboo spring mattress of claim 7, wherein the spring module packs are rectangular, square, or triangular; the dividing lines on the spring module bag are quilting dividing lines, zipper tape dividing lines or hot-pressing bonding dividing lines.

9. The bamboo spring mattress as claimed in claim 7, wherein the inner container cover is made of non-woven fabric; all the spring module packs in the inner container cover are connected through the inner container cover to form a spring bed net; the upper surface and the lower surface of the spring bed net are respectively provided with a layer of felt bottoming layer.

10. The bamboo spring mattress according to any one of claims 7 to 9, wherein the bamboo spring mattress is divided into a head region, a waist region, a hip region, a leg region, and a foot region along a length direction thereof; wherein, the different areas select bamboo spring units or spring module packs with different specifications and different density grades, or select bamboo spring units with the same density grade but different specifications; in the bamboo spring mattress, the rigidity of different areas is adjusted by arranging bamboo spring units or spring module bags with different specifications and different density grades.

Technical Field

The invention relates to the technical field of mattresses, in particular to a method for preparing a bamboo spring material by using bamboo as a raw material, regulating the organization structure of the bamboo through chemical modification and quantification, improving the physical and mechanical properties of the bamboo spring material through quantification dipping treatment, winding and shaping and other processes, and a healthy and environment-friendly bamboo spring mattress developed by using the bamboo spring material can meet the requirements of quantification support and comfort of people with different body types and weights.

Background

The mattress on the market at present mainly comprises a latex mattress, a sponge mattress, a spring mattress, a palm mattress and the like. Wherein, the raw materials of the synthetic latex and the sponge are petrochemical products and are non-renewable resources, and the fillers of the latex, the sponge and the like have poor air permeability and moisture dispersion, are easy to mildew or breed bacteria and other microorganisms after long-term use, and are not beneficial to human health; the metal spring used by the spring mattress is made of steel or alloy steel and the like, and although the metal spring has good supporting performance and good air permeability, the metal spring is made of non-renewable resources, belongs to materials with high energy consumption and high emission, and has high recovery cost; furthermore, the mattress filled with plant fiber materials such as palm and the like is usually formed by destroying the tissue structure of the plant materials, extracting the plant fibers, then bonding the plant fibers by adhesives and then hot-pressing the extracted plant fibers, and the waste of resources is serious. Therefore, the development of green, low-carbon and environment-friendly biomass mattress filling materials with good performance is a trend of mattress development in the future by searching for substitutes of non-renewable resources.

The bamboo wood has the advantages of short growth period, strong regeneration capacity, high propagation speed, degradability, good biocompatibility, low energy consumption, no pollution, high strength, good toughness and simple structure, and is widely applied to industries such as buildings, houses, textiles and the like. In addition, the natural bamboo has excellent flexibility, specific stiffness and specific strength even comparable to steel, especially the bamboo fiber has fine hierarchical structure and excellent physical and mechanical properties, the natural bamboo has excellent functions of bacteriostasis, antibiosis, moisture absorption, moisture dispersion and odor removal, and the tensile strength (300-900 MPa) is even superior to that of common steel. Therefore, if the integral organization structure of the bamboo is kept, the adjustable range of the physical and mechanical properties can be widened by a chemical modification technology and a winding, curing and forming process, so that a healthy and environment-friendly bamboo spring material is obtained, and a corresponding bamboo spring mattress is further obtained.

Disclosure of Invention

The invention aims to solve the technical problems of providing a bamboo spring and a preparation and application thereof, and a mattress, wherein the bamboo spring has the advantages of ventilation, moisture dispersion, bacteriostasis, antibiosis, green, low carbon and environmental protection, and can meet the quantitative support requirements of people with different body types and weights, and realize the adjustability and the replaceability of internal support.

The invention adopts the following technical scheme to solve the technical problems:

a preparation method of a bamboo spring comprises the following steps:

(1) drawing the bamboo material to obtain bamboo filaments, and dividing the bamboo filaments into one grade per 5GPa and six grades according to the elastic modulus of 0-30 GPa;

(2) the bamboo filament primary raw materials with the elastic modulus grades of 3, 4, 5 and 6 are subjected to the following treatment;

a, chemical modification: oxidizing agent and carboxylic acid or hypochlorite are adopted according to the proportion of 1: 1, jointly treating the primary raw materials of the bamboo filaments in proportion at the temperature of 20-60 ℃ for 2-4 h; secondly, treating the bamboo filaments by using a strong alkali solution with the concentration of 5-20%, wherein the temperature is 40-80 ℃, and the treatment time is 2-4 hours; thirdly, the bamboo filaments processed by the steps are sent into an automatic leaching box and are leached automatically until leaching liquid is neutral; fourthly, drying the bamboo filaments treated in the third step at the temperature of 40-60 ℃ to adjust the water content to 20-30%;

b, dipping modification: firstly, immersing bamboo filaments into a nano inorganic oxide solution with the particle size of 10-50 nm, wherein the solid content is 15-50%, the temperature is 20-60 ℃, a vacuum negative pressure environment is realized through a vacuum tank, the dipping time is 2-4 hours, the curing temperature is 100-140 ℃, and the curing time is 1-3 hours; secondly, soaking the bamboo filaments into the modified epoxy resin, regulating and controlling a negative pressure environment through a vacuum tank, pressurizing and depressurizing once every 10min at a pressure of 0.5-5 MPa and a pressurizing and depressurizing speed of 0.02-1 MPa/min, and soaking for 1-4 h; then, carrying out surface curing at the curing temperature of 120-140 ℃ for 10-30 min;

(3) performing filament splitting and coil coiling treatment on the bamboo filaments treated in the step (2), wherein the temperature of a coil coiling is 130-160 ℃, and performing primary curing treatment while coiling the coil; after primary curing treatment, carrying out secondary curing treatment, wherein the secondary curing temperature is 100-140 ℃, the curing time is 1-3 h, the setting time is 12-24 h, and then drying treatment is carried out, so that the water content is adjusted to 7-10%;

(4) polishing the bamboo spring processed in the step (3); then, the bamboo spring with the same specification is divided into a plurality of density grades according to the mass difference from small to large, and finally the bamboo spring bodies with different specifications and different mass grades are obtained.

In a preferred embodiment of the present invention, in the step (1), the content of the bamboo fiber in the bamboo filament is detected by infrared, and the model E ═ 40.129V is determined according to the relationship between the elastic modulus of the bamboo filament and the volume fraction of the bamboo fiber_f+0.2219, dividing the bamboo filament into six grades according to the elastic modulus of 0-30 GPa and one grade per 5 GPa; wherein the relation model E is 40.129V_f+0.2219, E represents the elastic modulus of the bamboo filament, unit: GPa; v_fThe volume fraction of the bamboo fiber of the bamboo filament is expressed.

As one preferable mode of the present invention, in the step (4), the bamboo spring bodies with different specifications are different in wire diameter, caliber and free height, wherein the bamboo spring bodies with the same wire diameter, caliber and free height are divided into four quality grades according to the quality difference, and accordingly, the bamboo spring bodies with different specifications and different density grades are obtained.

In a preferred mode of the invention, the wire diameter interval of the bamboo spring body is 2-3 mm, 3-4 mm, 4-5 mm and 5-6 mm; the diameter intervals of the bamboo springs are respectively 2-3 cm, 3-4 cm, 4-5 cm and 5-6 cm; the free height of the bamboo spring is 6-28 cm; the density interval of the bamboo spring is 1.2-2.0 g/cm³。

The application of the bamboo spring prepared by the preparation method is to use the prepared bamboo spring as a core material of a mattress.

A bamboo spring mattress comprises a mattress upper layer and a mattress lower layer; the core layer of the mattress upper layer is formed by combining one or more of latex, foam sponge, wool, horsehair, camel hair, down feather and loofah sponge silk wadding; the core layer of the lower layer of the mattress consists of an inner container cover and a plurality of bamboo spring units coated on the inner container cover; each bamboo spring unit is of an independent bagged structure and comprises a bamboo spring body and a non-woven bag wrapping the bamboo spring body; wherein the bamboo spring body is prepared by the preparation method.

In a preferred embodiment of the present invention, the core layer of the mattress upper layer is a comfort layer; the upper surface of the comfort layer is covered with an upper layer fabric composite layer, the lower surface of the comfort layer is covered with a bottom liner, and the peripheral side surfaces of the comfort layer are covered with an upper surrounding edge; the bottom of the upper surrounding edge horizontally extends inwards to form a first extending part towards the lower surface of the comfort layer, and a first connecting piece is arranged on the inner edge of three edges of the first extending part; the core layer of the lower layer of the mattress is a supporting and adjusting layer; the bottom surface and the periphery of the supporting and adjusting layer are coated by a lower fabric composite layer and a lower surrounding edge, the top of the lower surrounding edge horizontally extends inwards to the upper surface of the supporting and adjusting layer to form a second extending part, and a second connecting part matched with the first connecting part is arranged along the inner edges of three edges of the second extending part; the first connecting piece and the second connecting piece are used for connecting and opening and closing the upper mattress layer and the lower mattress layer, and the sides of the first extending part and the second extending part, which are not provided with the connecting pieces, are fixedly connected through sewing.

In a preferred embodiment of the present invention, the first and second connecting members are zippers, hook and loop fasteners, or snap fasteners.

In a preferred embodiment of the present invention, the comfortable layer is formed by a processed sheet of wool, horsehair, or camel hair; the down feather or loofah sponge silk wadding is a sheet-shaped inner container, the inner container skin is non-woven fabric or cloth, the down feather or loofah sponge silk wadding is uniformly distributed through quilting, and the loofah sponge silk wadding is formed by smashing loofah into filaments.

As one of the preferable modes of the invention, the upper fabric composite layer and the lower fabric composite layer are respectively formed by quilting fabrics, upright cotton, sponge or latex and non-woven fabrics from outside to inside in sequence; the upper surrounding edge and the lower surrounding edge are respectively formed by quilting of fabric, upright cotton, sponge or latex and non-woven fabric from outside to inside in sequence; the thickness proportion of the upright cotton is not more than 1/3 of the fabric composite layer and the surrounding edge, and the thicknesses of the fabric composite layer and the surrounding edge are 1.5-3.8 cm.

In a preferred embodiment of the present invention, an opening/closing port for attaching and detaching the bamboo spring unit is provided on one side or continuous sides of the inner container cover covering the bamboo spring unit.

In a preferred embodiment of the present invention, the inner container cover has a plurality of bamboo spring units directly arranged in a vertical matrix arrangement, and adjacent bamboo spring units are divided by dividing lines; or, in the inner container cover, the bamboo spring unit is arranged in the inner container cover in the form of a plurality of spring module packs; the spring module bag comprises a non-woven fabric bag and a plurality of bamboo spring units which are arranged in the non-woven fabric bag in a vertical matrix arrangement mode; the spring module is wrapped, and adjacent bamboo spring units are divided by dividing lines.

As one of the preferable modes of the invention, the spring module pack is rectangular, square or triangular; the dividing lines on the spring module bag are quilting dividing lines, zipper tape dividing lines or hot-pressing bonding dividing lines.

In a preferred embodiment of the present invention, the inner container cover is made of a nonwoven fabric; the spring module bags in the inner container cover are connected through the inner container cover made of non-woven fabric to form a spring bed net; meanwhile, the upper surface and the lower surface of the spring bed net are respectively provided with a layer of 400-800 g/square meter cotton felt or other felt type priming layers with certain elasticity.

In a preferred embodiment of the present invention, the bamboo spring mattress is divided into a head region, a waist region, a hip region, a leg region, and a foot region in a longitudinal direction thereof; wherein, the different areas select bamboo spring units or spring module packs with different specifications and different density grades, or select bamboo spring units with the same density grade but different specifications; in the bamboo spring mattress, the rigidity of different areas is adjusted by arranging bamboo spring units or spring module bags with different specifications and different density grades.

As one of the preferable modes of the present invention, the bamboo spring body in the bamboo spring unit may be a "cylindrical spiral type independent bamboo spring", "waist drum type independent bamboo spring", "bamboo spring middle spring", or various combination springs of two or more of the above; correspondingly, the spring module pack can also be formed by arranging and combining the independent bagged bamboo spring units in the form.

Compared with the prior art, the invention has the advantages that: the invention develops the bamboo-based spring mattress core material with zero formaldehyde, environmental protection, ventilation and antibiosis by using bamboo wood, and prepares the high-performance mattress, thereby not only being low-carbon, healthy and environment-friendly, but also meeting the quantitative support of people with different body types and weights, improving the pressure distribution of the human bed interface, promoting the blood circulation, eliminating the fatigue and improving the sleeping comfort of the human body from the physiology and psychology. The method comprises the following specific steps:

(1) the invention fully utilizes the flexibility of the bamboo wood, quantificationally regulates and controls the physical and mechanical properties of the bamboo wood through the processes of chemical treatment, dipping filling and the like, prepares the bamboo spring with moisture absorption and dispersion and rigidity which can be regulated and controlled quantitatively, has the advantages of zero formaldehyde, no toxicity, environmental protection, low carbon, health and environmental protection and good biocompatibility, and overcomes the limitations of large hardness, poor air permeability and even toxicity of the plant fiber glued mattress.

(2) The invention fully utilizes the characteristics of the porosity and the pore structure of the cell wall of the bamboo wood, regulates and controls the pore structure through quantitative chemical treatment, realizes the accurate regulation and control of the moisture absorption and the moisture dispersion of the bamboo wood, and overcomes the limitation of poor air permeability of a plant fiber gluing mattress and a latex mattress.

(3) The invention fully utilizes the characteristics of porosity and cell wall pore structure of bamboo wood, regulates and controls the elasticity and strength of the bamboo spring wire by quantitative impregnation nano material and node type resin regulation and filling technology, increases the original 5-30 GPa to 20-50 GPa, realizes accurate regulation and control of the hardness of the bamboo spring mattress, overcomes the limitation of small regulation and control range of the hardness of plant fiber glued mattress and latex mattress, and improves the fitting degree of the bamboo spring mattress by more than 30%.

(4) The bamboo spring mattress prepared by fully utilizing the characteristics of renewable bamboo wood, short growth period, low density, good flexibility, high strength, high specific stiffness and high specific strength has the advantages of good light weight and low carbon, and the density of the bamboo spring is 1.2-2.0 g/cm³Compared with alloy steel, carbon steel and the like, 7.7-7.9 g/cm³About 80 percent less, overcomes the limitations of large weight, high energy consumption and non-renewable raw materials of the metal spring mattress,realizes the material lightweight design of replacing steel with bamboo.

(5) The method fully utilizes the characteristics of pores and hierarchical structures of bamboo cell tissues, prepares the bamboo spring wire with high elastic modulus and large adjustable range through quantitative function regulation, and regulates the elastic modulus to be 20-50 GPa from 5-30 GPa of the original raw material bamboo wire, so that the quantitative regulation and control of the rigidity and the supporting performance of the bamboo spring are realized, and the method is suitable for different requirements of people with different body types and weights. The cell tissues of the bamboo are mainly thick-wall bamboo fiber cells and thin-wall cells, the bamboo has a multi-scale pore structure, particularly the bamboo fibers have a fine hierarchical structure and excellent mechanical properties, the elastic modulus of the bamboo fibers is 20-40 GPa, and the elastic properties of the bamboo fibers can be improved by 30-50% through chemical impregnation modification.

(6) The invention fully utilizes the structural characteristics of the radial gradient distribution of the vascular bundles of the natural bamboo wood, carries out elastic modulus grading on the raw materials of the bamboo springs and rigidity grading on the bamboo springs, overcomes the limitation of large performance difference of biomass materials, and respectively fills the bamboo springs in different parts of the mattress in a modularized way according to the requirements of support and rigidity to realize the functional partition of the mattress and meet the requirements of quantitative support and comfort of people with different body types and weights.

(7) The bamboo spring with different rigidity (3-6 grades) can be prepared by fully utilizing the structural characteristics of radial gradient distribution of the bamboo fiber bundles and grading the rigidity of the bamboo filaments (1-6 grades, 5-30 GPa), so that the full high-value utilization of bamboo is realized. The bamboo material is a functional gradient composite material, the vascular bundles of the bamboo material close to the green side of the bamboo are densely distributed, the volume fraction of the vascular bundles is as high as 60-80%, the parenchyma content is very little, the strength (300-400 MPa) and the modulus (20-30 GPa) of the bamboo material are high, the vascular bundles of the bamboo material close to the yellow side of the bamboo are sparsely distributed, the parenchyma content is large, the strength and the modulus of the bamboo material are small, the strength and the modulus of the bamboo material in the middle area of the bamboo wall are similar to the average strength and the modulus of the bamboo wall, and the bamboo material can be fully utilized due to different materials to manufacture bamboo springs with different functions and performances.

(8) The invention fully utilizes the rigidity difference of the bamboo springs to grade the rigidity of the bamboo springs, establishes the grading standard of the bamboo springs, overcomes the limitation of the performance difference, and selects the bamboo springs with different rigidity grades according to the requirements of support and elasticity.

Drawings

FIG. 1 is a sectional view showing a structure of a bamboo spring mattress according to example 4;

FIG. 2a is a view showing a state of use of the bamboo spring mattress according to example 4;

FIG. 2b is a schematic view of the assembly of the upper and lower layers of the bamboo spring mattress of example 4;

FIG. 2c is a schematic reverse side view of the upper layer of the mattress of example 4;

FIG. 3 is a schematic view of the unit of individually pocketed bamboo spring of different structural forms of embodiment 4;

FIG. 4 is a schematic view showing the structure of a spring module pack in embodiment 4;

FIG. 5 is a structural view of the bamboo spring unit in the embodiment 4 directly arranged in the inner container cover in an independent pocket form;

FIG. 6 is a structural view of a bamboo spring unit arranged in a liner cover in a spring module pack form in embodiment 4;

figure 7 is a schematic view of a five-section box spring mattress of the bamboo box spring mattress of example 4.

In the figure: 1 is the upper layer of the mattress, 11 is the comfort layer, 12 is the upper layer fabric composite layer, 13 is the bottom lining, 14 is the upper surrounding edge, 15 is the first extension part, 2 is the lower layer of the mattress, 21 is the support adjusting layer, 211 is the inner bag cover, 212 is the bamboo spring unit, 2121 is the bamboo spring body, 2122 is the non-woven cloth bag, 213 is the spring module bag, 2131 is the non-woven cloth bag, 214 is the felt type base layer, 22 is the lower layer fabric composite layer, 23 is the lower surrounding edge, 24 is the second extension part, 31 is the head region, 32 is the waist region, 33 is the hip region, 34 is the leg region, 35 is the foot region.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

Example 1

The preparation method of the bamboo spring comprises the following steps:

first, sorting raw materials

(1) Bamboo filaments are obtained from bamboo through a drawing process, the cross section of each bamboo filament can be round, square, rectangular and the like, the length of each bamboo filament is 0.5-2.5 m, and the diameter or the side length is 2-6 mm.

(2) Detecting the content of bamboo fiber in the bamboo filament by infrared, and determining the relation model E of the bamboo fiber volume fraction (40.129V) according to the bamboo elastic modulus_f+0.2219, dividing the bamboo filament into six grades according to the elastic modulus (0-30 GPa) at every 5 GPa; wherein the relation model E is 40.129V_f+0.2219, E represents the elastic modulus of the bamboo filament, unit: GPa; v_fThe volume fraction of the bamboo fiber of the bamboo filament is expressed.

(3) Selecting bamboo filament primary raw materials with the elastic modulus grades of 3, 4, 5 and 6 (10-30 GPa) for subsequent modification treatment.

Second, modification treatment

(1) Chemical modification: the method adopts sulfite and carboxylic acid, and the ratio of 1: 1, jointly treating the primary raw material of the bamboo filaments at the temperature of 20 ℃ for 4 hours. ② the bamboo filaments are treated by sodium hydroxide solution with the concentration of 5 percent at the temperature of 40 ℃ for 4 hours. And thirdly, feeding the bamboo filaments treated by the steps into an automatic leaching box, and automatically leaching until leaching liquor is neutral. The automatic leaching box comprises a material inlet, a leaching chamber and a material outlet; the leaching chamber comprises leaching heads positioned at the upper, lower, left and right directions, a waste liquid PH value monitoring digital display window and a waste liquid recovery tank; the shower head can spray linear water columns, and the water pressure is 0.2. Fourthly, the bamboo filaments processed in the third step are sent into a microwave drying chamber for drying treatment, the temperature is controlled at 40 ℃, and the water content is adjusted to 20%.

In the step, the bamboo filament lignin and the hemicellulose are removed quantitatively to realize the quantitative regulation and control of the flexibility and the pore structure of the bamboo filament lignin and the hemicellulose, and the bamboo filament lignin and the hemicellulose are laid for the dipping modification and the quantitative regulation and control of the mechanical property of the bamboo filament lignin and the hemicellulose.

(2) Dipping modification: firstly, soaking bamboo filaments into nano silicon dioxide solution with the particle size of 10nm, wherein the solid content is 15%, the temperature is 20 ℃, the vacuum negative pressure environment is realized through a vacuum tank, the soaking time is 2 hours, the curing temperature is 100 ℃, and the curing time is 3 hours. Secondly, the bamboo filaments are immersed in the modified epoxy resin, the negative pressure environment is regulated and controlled through a vacuum tank, the pressure is increased and reduced once every 10min, the pressure is 0.5MPa, the pressure and pressure reduction speed is 0.02MPa/min, the immersion time is 4h, the curing temperature is 120 ℃, and the curing time is 30 min.

In the step, the physical and mechanical properties, particularly the elastic properties of the bamboo filaments in multiple scales are quantitatively regulated and controlled by inflating the cell walls of the bamboo filaments through the nano inorganic oxides and filling the large ducts of the bamboo filaments with the epoxy resin.

Processing of bamboo spring

(1) And (4) carrying out filament splitting treatment on the modified bamboo filaments by adopting a filament splitter. Divide the silk ware including dividing silk carousel, pivot, divide the silk carousel including dividing the silk mouth, divide the silk mouth to arrange with the dot matrix form, the interval 10 ~ 20 cm.

(2) Slowly feeding the divided bamboo filaments into a spring coiling chamber at a constant speed for spring coiling treatment, and synchronously performing primary curing treatment at the temperature of 130 ℃ in the spring coiling chamber to obtain a primarily formed bamboo spring;

the coil spring chamber comprises a material inlet, a plurality of coil spring rod cores, a heater, a temperature display window, a cutter and a material outlet. The first coil spring rod core: the rod core has a smooth surface and a diameter of 2-6 cm. The second coil spring rod core: the surface of the rod core is provided with a thread groove, the thread lead angle of the thread groove is 3-10 degrees, the width is 3-7 mm, the depth is 3-7 mm, and the diameter (excluding the groove depth) of the rod core is 2-6 cm.

(3) And (3) conveying the bamboo spring into a curing chamber for secondary curing, wherein the curing temperature is 100 ℃, the curing time is 3 hours, the setting is 24 hours, and then the bamboo spring is dried to adjust the water content to 7%.

(4) And (4) conveying the bamboo spring processed in the step (3) into a polishing chamber to polish the surface of the bamboo spring, flattening and rounding the two end parts of the bamboo spring, and detecting the surface quality of the bamboo spring through an infrared sensor.

(5) Sorting the bamboo springs by a mass sensor, dividing the bamboo springs with the same specification into four mass grades according to the mass difference from small to large, and spraying corresponding grade codes; meanwhile, 20 bamboo springs are randomly selected from each grade, the rigidity, the fatigue resistance and the creep resistance of the springs are tested, and the relationship between the mechanical property and the quality of the springs is established to guide the rapid grading of the bamboo springs. Wherein, the bamboo spring bodies with different specifications mean that the wire diameter, the caliber and the free height of the bamboo spring body are different. In this embodiment, the bamboo springs with the same wire diameter, caliber and free height are divided into four quality grades according to the quality difference from small to large, so as to obtain bamboo spring bodies with different specifications and different density grades.

Specifically, in the embodiment, the wire diameter intervals of the finally obtained bamboo spring body are respectively 2-3 mm, 3-4 mm, 4-5 mm and 5-6 mm; the diameter intervals of the bamboo springs are respectively 2-3 cm, 3-4 cm, 4-5 cm and 5-6 cm; the free height of the bamboo spring is 6-28 cm; the density range of the bamboo spring is 1.2-2.0 g/cm³。

Example 2

The preparation method of the bamboo spring comprises the following steps:

first, sorting raw materials

(1) Bamboo filaments are obtained from bamboo through a drawing process, the cross section of each bamboo filament can be round, square, rectangular and the like, the length of each bamboo filament is 0.5-2.5 m, and the diameter or the side length is 2-6 mm.

(2) Detecting the content of bamboo fiber in the bamboo filament by infrared, and determining the relation model E of the bamboo fiber volume fraction (40.129V) according to the bamboo elastic modulus_f+0.2219, dividing the bamboo filament into six grades according to the elastic modulus (0-30 GPa) at every 5 GPa; wherein the relation model E is 40.129V_f+0.2219, E represents the elastic modulus of the bamboo filament, unit: GPa; v_fThe volume fraction of the bamboo fiber of the bamboo filament is expressed.

(3) Selecting bamboo filament primary raw materials with the elastic modulus grades of 3, 4, 5 and 6 (10-30 GPa) for subsequent modification treatment.

Second, modification treatment

(1) Chemical modification: hydrogen peroxide and carboxylic acid are used according to the weight ratio of 1: 1, jointly treating the primary raw material of the bamboo filaments at the temperature of 60 ℃ for 2 hours. ② the bamboo filaments are treated by sodium hydroxide solution with the concentration of 20 percent at the temperature of 80 ℃ for 2 hours. And thirdly, feeding the bamboo filaments treated by the steps into an automatic leaching box, and automatically leaching until leaching liquor is neutral. The automatic leaching box comprises a material inlet, a leaching chamber and a material outlet; the leaching chamber comprises leaching heads positioned at the upper, lower, left and right directions, a waste liquid PH value monitoring digital display window and a waste liquid recovery tank; the shower head can spray linear water columns, and the water pressure is 0.4 MPa. Fourthly, the bamboo filaments processed in the third step are sent into a microwave drying chamber for drying treatment, the temperature is controlled at 60 ℃, and the water content is adjusted to 30%.

In the step, the bamboo filament lignin and the hemicellulose are removed quantitatively to realize the quantitative regulation and control of the flexibility and the pore structure of the bamboo filament lignin and the hemicellulose, and the bamboo filament lignin and the hemicellulose are laid for the dipping modification and the quantitative regulation and control of the mechanical property of the bamboo filament lignin and the hemicellulose.

(2) Dipping modification: firstly, bamboo filaments are immersed into a nano calcium dioxide solution with the particle size of 50nm, the solid content is 50%, the temperature is 60 ℃, a vacuum negative pressure environment is realized through a vacuum tank, the immersion time is 4 hours, the curing temperature is 140 ℃, and the curing time is 1 hour. Secondly, the bamboo filaments are immersed in the modified epoxy resin, the negative pressure environment is regulated and controlled through a vacuum tank, the pressure is increased and reduced once every 10min, the pressure is 5MPa, the pressure and pressure reduction speed is 1MPa/min, the immersion time is 1h, the curing temperature is 140 ℃, and the curing time is 10 min.

In the step, the physical and mechanical properties, particularly the elastic properties of the bamboo filaments in multiple scales are quantitatively regulated and controlled by inflating the cell walls of the bamboo filaments through the nano inorganic oxides and filling the large ducts of the bamboo filaments with the epoxy resin.

Processing of bamboo spring

(1) And (4) carrying out filament splitting treatment on the modified bamboo filaments by adopting a filament splitter. Divide the silk ware including dividing silk carousel, pivot, divide the silk carousel including dividing the silk mouth, divide the silk mouth to arrange with the dot matrix form, the interval 10 ~ 20 cm.

(2) Slowly feeding the divided bamboo filaments into a spring coiling chamber at a constant speed for spring coiling treatment, and synchronously performing primary curing treatment at the temperature of 160 ℃ in the spring coiling chamber to obtain a primarily formed bamboo spring;

the coil spring chamber comprises a material inlet, a plurality of coil spring rod cores, a heater, a temperature display window, a cutter and a material outlet. The first coil spring rod core: the rod core has a smooth surface and a diameter of 2-6 cm. The second coil spring rod core: the surface of the rod core is provided with a thread groove, the thread lead angle of the thread groove is 3-10 degrees, the width is 3-7 mm, the depth is 3-7 mm, and the diameter (excluding the groove depth) of the rod core is 2-6 cm.

(3) And (3) conveying the bamboo spring into a curing chamber for secondary curing, wherein the curing temperature is 140 ℃, the curing time is 3 hours, the setting is 12 hours, and then the drying treatment is carried out, so that the water content is adjusted to 10%.

(4) And (4) conveying the bamboo spring processed in the step (3) into a polishing chamber to polish the surface of the bamboo spring, flattening and rounding the two end parts of the bamboo spring, and detecting the surface quality of the bamboo spring through an infrared sensor.

(5) Sorting the bamboo springs by a mass sensor, dividing the bamboo springs with the same specification into four mass grades according to the mass difference from small to large, and spraying corresponding grade codes; meanwhile, 20 bamboo springs are randomly selected from each grade, the rigidity, the fatigue resistance and the creep resistance of the springs are tested, and the relationship between the mechanical property and the quality of the springs is established to guide the rapid grading of the bamboo springs. Wherein, the bamboo spring bodies with different specifications mean that the wire diameter, the caliber and the free height of the bamboo spring body are different. In this embodiment, the bamboo springs with the same wire diameter, caliber and free height are divided into four quality grades according to the quality difference from small to large, so as to obtain bamboo spring bodies with different specifications and different density grades.

Specifically, in the embodiment, the wire diameter intervals of the finally obtained bamboo spring body are respectively 2-3 mm, 3-4 mm, 4-5 mm and 5-6 mm; the diameter intervals of the bamboo springs are respectively 2-3 cm, 3-4 cm, 4-5 cm and 5-6 cm; the free height of the bamboo spring is 6-28 cm; the density range of the bamboo spring is 1.2-2.0 g/cm³。

Example 3

The preparation method of the bamboo spring comprises the following steps:

first, sorting raw materials

(1) Bamboo filaments are obtained from bamboo through a drawing process, the cross section of each bamboo filament can be round, square, rectangular and the like, the length of each bamboo filament is 0.5-2.5 m, and the diameter or the side length is 2-6 mm.

(2) Detecting the content of bamboo fiber in the bamboo filament by infrared, and determining the relation model E of the bamboo fiber volume fraction (40.129V) according to the bamboo elastic modulus_f+0.2219, dividing the bamboo filament into six grades according to the elastic modulus (0-30 GPa) at every 5 GPa; wherein the relation model E is 40.129V_f+0.2219, E represents the elastic modulus of the bamboo filament, unit: GPa; v_fThe volume fraction of the bamboo fiber of the bamboo filament is expressed.

(3) Selecting bamboo filament primary raw materials with the elastic modulus grades of 3, 4, 5 and 6 (10-30 GPa) for subsequent modification treatment.

Second, modification treatment

(1) Chemical modification: firstly, hypochlorous acid and hypochlorite are adopted according to the proportion of 1: 1, jointly treating the primary raw material of the bamboo filaments at the temperature of 40 ℃ for 3 hours. ② the bamboo filaments are treated by sodium hydroxide solution with the concentration of 10 percent at the temperature of 60 ℃ for 3 hours. And thirdly, feeding the bamboo filaments treated by the steps into an automatic leaching box, and automatically leaching until leaching liquor is neutral. The automatic leaching box comprises a material inlet, a leaching chamber and a material outlet; the leaching chamber comprises leaching heads positioned at the upper, lower, left and right directions, a waste liquid PH value monitoring digital display window and a waste liquid recovery tank; the shower head can spray linear water columns, and the water pressure is 0.3 MPa. Fourthly, the bamboo filaments processed in the third step are sent into a microwave drying chamber for drying treatment, the temperature is controlled at 50 ℃, and the water content is adjusted to 25%.

In the step, the bamboo filament lignin and the hemicellulose are removed quantitatively to realize the quantitative regulation and control of the flexibility and the pore structure of the bamboo filament lignin and the hemicellulose, and the bamboo filament lignin and the hemicellulose are laid for the dipping modification and the quantitative regulation and control of the mechanical property of the bamboo filament lignin and the hemicellulose.

(2) Dipping modification: firstly, bamboo filaments are immersed into nano silicon dioxide solution with the particle size of 30nm, the solid content is 30%, the temperature is 40 ℃, the vacuum negative pressure environment is realized through a vacuum tank, the immersion time is 3 hours, the curing temperature is 120 ℃, and the curing time is 2 hours. Secondly, the bamboo filaments are immersed in the modified epoxy resin, the negative pressure environment is regulated and controlled through a vacuum tank, the pressure is increased and reduced once every 10min, the pressure is 2MPa, the pressure and pressure reduction speed is 0.5MPa/min, the immersion time is 2h, the curing temperature is 130 ℃, and the curing time is 20 min.

In the step, the physical and mechanical properties, particularly the elastic properties of the bamboo filaments in multiple scales are quantitatively regulated and controlled by inflating the cell walls of the bamboo filaments through the nano inorganic oxides and filling the large ducts of the bamboo filaments with the epoxy resin.

Processing of bamboo spring

(1) And (4) carrying out filament splitting treatment on the modified bamboo filaments by adopting a filament splitter. Divide the silk ware including dividing silk carousel, pivot, divide the silk carousel including dividing the silk mouth, divide the silk mouth to arrange with the dot matrix form, the interval 10 ~ 20 cm.

(2) Slowly feeding the divided bamboo filaments into a spring coiling chamber at a constant speed for spring coiling treatment, and synchronously performing primary curing treatment at the temperature of 140 ℃ in the spring coiling chamber to obtain a primarily formed bamboo spring;

the coil spring chamber comprises a material inlet, a plurality of coil spring rod cores, a heater, a temperature display window, a cutter and a material outlet. The first coil spring rod core: the rod core has a smooth surface and a diameter of 2-6 cm. The second coil spring rod core: the surface of the rod core is provided with a thread groove, the thread lead angle of the thread groove is 3-10 degrees, the width is 3-7 mm, the depth is 3-7 mm, and the diameter (excluding the groove depth) of the rod core is 2-6 cm.

(3) And (3) conveying the bamboo spring into a curing chamber for secondary curing, wherein the curing temperature is 120 ℃, the curing time is 2 hours, the setting is 20 hours, and then the bamboo spring is dried to adjust the water content to 8%.

(4) And (4) conveying the bamboo spring processed in the step (3) into a polishing chamber to polish the surface of the bamboo spring, flattening and rounding the two end parts of the bamboo spring, and detecting the surface quality of the bamboo spring through an infrared sensor.

(5) Sorting the bamboo springs by a mass sensor, dividing the bamboo springs with the same specification into four mass grades according to the mass difference from small to large, and spraying corresponding grade codes; meanwhile, 20 bamboo springs are randomly selected from each grade, the rigidity, the fatigue resistance and the creep resistance of the springs are tested, and the relationship between the mechanical property and the quality of the springs is established to guide the rapid grading of the bamboo springs. Wherein, the bamboo spring bodies with different specifications mean that the wire diameter, the caliber and the free height of the bamboo spring body are different. In this embodiment, the bamboo springs with the same wire diameter, caliber and free height are divided into four quality grades according to the quality difference from small to large, so as to obtain bamboo spring bodies with different specifications and different density grades.

Specifically, in the embodiment, the wire diameter intervals of the finally obtained bamboo spring body are respectively 2-3 mm, 3-4 mm, 4-5 mm and 5-6 mm; the diameter intervals of the bamboo springs are respectively 2-3 cm, 3-4 cm, 4-5 cm and 5-6 cm; the free height of the bamboo spring is 6-28 cm; the density range of the bamboo spring is 1.2-2.0 g/cm³。

The bamboo spring material prepared by the method has the characteristics of zero formaldehyde, environmental protection, ventilation, antibiosis, good mechanical property and the like, and the elasticity and the strength of the bamboo spring wire are regulated and controlled by fully utilizing the porosity of bamboo and the pore structure characteristics of cell walls and through a quantified impregnated nano material and a node type resin regulation and filling technology, so that the original 5-30 GPa is increased to 20-50 GPa, and the accurate regulation and control of the hardness of the cushion of the bamboo spring bed (the prepared bamboo spring material serves as a core material of a mattress) can be realized.

Example 4

As shown in fig. 1 to 7, the bamboo spring mattress of the present embodiment includes a mattress upper layer 1 and a mattress lower layer 2. The core layer of the mattress upper layer 1 is formed by one or more of latex, foam sponge, wool, horsehair, camel hair, down feather and loofah sponge silk wadding; wherein, the wool, the horsehair and the camel hair are processed sheets; the down feather or loofah sponge silk wadding is a sheet-shaped inner container, the inner container skin is non-woven fabric or cloth, and the down feather or loofah sponge silk wadding is uniformly distributed through quilting; the loofah sponge silk wadding is formed by smashing loofah sponge into silk. The core layer of the lower mattress layer 2 consists of an inner container cover 211 and a plurality of bamboo spring units 212 which are covered on the inner container cover 211; each bamboo spring unit 212 is of an independent bag structure and comprises a bamboo spring body 2121 and a non-woven bag 2122 wrapping the bamboo spring body 2121; wherein, the bamboo spring body 2121 is manufactured by the method of the embodiment.

Specifically, referring to fig. 1 and fig. 2a, fig. 2b, and fig. 2c, in the present embodiment, the core layer of the mattress upper layer 1 is a comfort layer 11; the upper surface of the comfort layer 11 is covered with an upper layer fabric composite layer 12, the lower surface is covered with a bottom liner 13, and the peripheral side surfaces are covered with an upper surrounding edge 14; the bottom of the upper surrounding edge 14 extends horizontally inwards to form an extension part I15 towards the lower surface of the comfort layer 11, and a connecting part I is arranged along three edges of the extension part I15. The core layer of the lower mattress layer 2 is a support adjusting layer 21; the bottom surface and the periphery of the supporting and adjusting layer 21 are covered by a lower fabric composite layer 22 and a lower surrounding edge 23, the top of the lower surrounding edge 23 horizontally extends inwards to the upper surface of the supporting and adjusting layer 21 to form an extending part II 24, and a connecting part II matched with the connecting part I is arranged on the inner edge of three sides of the extending part II 24. The first connecting piece and the second connecting piece are zippers, magic tapes or snap fasteners and are used for connecting and opening the mattress upper layer 1 and the mattress lower layer 2; the first extension part 15 and the second extension part 24 are fixedly connected by sewing on the side without the connecting piece.

Further, in this embodiment, the upper fabric composite layer 12 and the lower fabric composite layer 22 are respectively quilted from outside to inside by fabric, upright cotton, sponge or latex, and non-woven fabric; the upper surrounding edge 14 and the lower surrounding edge 23 are respectively formed by quilting of fabric, upright cotton, sponge or latex and non-woven fabric from outside to inside in sequence. Wherein the thickness proportion of the upright cotton does not exceed 1/3 of the fabric composite layer and the surrounding edge, and the thicknesses of the fabric composite layer and the surrounding edge are 1.5-3.8 cm.

Specifically, in the present embodiment, an opening/closing opening for attaching and detaching the bamboo spring unit 212 is provided on one side or continuous sides of the inner container cover 211 covering the bamboo spring unit 212.

Meanwhile, as shown in fig. 5, in the inner container cover 212, a plurality of bamboo spring units 212 are directly arranged in a vertical matrix arrangement, and adjacent bamboo spring units 212 are divided by dividing lines; alternatively, as shown in fig. 6, in the inner bladder cover 212, the bamboo spring unit 212 is arranged therein in the form of a plurality of spring module packs 213. The spring module 213 includes a non-woven fabric bag 2131 and a plurality of bamboo spring units 212 arranged in the non-woven fabric bag 2131 in a vertical matrix arrangement; the adjacent bamboo spring units 212 are separated from each other by a dividing line in the spring module pack 213.

Wherein, the spring module pack 213 can be rectangular, square or triangular; the parting line on the spring module pack 213 can be a quilting parting line, a zipper tape parting line, or a thermocompression bonding parting line.

Further, in this embodiment, the inner container cover 211 is made of a non-woven fabric; the spring module packs 213 in the inner bag cover 211 are connected by the non-woven inner bag cover 211 to form a spring bed net. Meanwhile, as shown in fig. 5 and 6, the upper surface and the lower surface of the spring bed net are respectively provided with a layer of 400-800 g/square meter cotton felt or other felt base layers 214 with certain elasticity.

Further, referring to fig. 3, in the present embodiment, the bamboo spring body 2121 of the bamboo spring unit 212 may be a "cylindrical spiral type independent bamboo spring (see fig. 3 a)", a "waist drum type independent bamboo spring (see fig. 3 b)", a "bamboo spring-in-spring (see fig. 3 c)", or various combination springs of two or more of the above (see fig. 3 d); correspondingly, the spring module 213 pack may also be constructed of individually pocketed bamboo spring units 212 of the above-described form in an aligned combination, see fig. 4.

In addition, it should be noted that, in this embodiment, the bamboo spring mattress may not be divided, or may be divided. When not partitioned, the core layer of the lower mattress layer 2 is composed of single density grade and single specification bamboo spring units 212 or spring modules 213; when the partition is divided, the partition can be a three-partition, a five-partition, a seven-partition or a left-right partition; the subareas are composed of bamboo spring units 212 or spring module packs 213 with different specifications and different density grades according to the supporting requirements.

Specifically, referring to fig. 7, in the present embodiment, the bamboo spring mattress may be divided into a head region 31, a waist region 32, a hip region 33, a leg region 34, and a foot region 35 along the length direction thereof. The different areas select the bamboo spring units 212 or the spring module packs 213 with different specifications and different density grades, or select the bamboo spring units 212 with the same density grade but different specifications. In the bamboo spring mattress of the present embodiment, the rigidity adjustment of different mattress regions can be realized by arranging bamboo spring units 212 or spring module packs 213 with different specifications and different density grades.

The using method comprises the following steps:

(1) selecting bamboo spring units with different rigidities (different specifications and different density grades) according to the sleep support requirements of people with different weights; the plurality of bamboo spring units 212 may be directly disposed on the inner bag cover 211, or the spring module 213 may be disposed on the inner bag cover 211. The spring module bag 213 can be rectangular, square, triangular and the like, a plurality of bamboo spring units 212 are arranged and combined to form modules of rectangular or square and the like, and then the modules are wrapped by the non-woven fabric bag 2131 and connected with other spring module bags 213, so that the bamboo spring core layer can be partially replaced;

(2) selecting bamboo springs with different specifications and different density grades according to the sleep support requirements of people with different body types; according to different supporting requirements of different parts of a human body during sleeping, such as different supports needed by the head, the waist, the hip, the legs, the feet and the like, bamboo springs with different specifications and different density grades are adopted, and areas with bamboo spring core layers with different supporting performances are designed in different supporting areas; when different areas are composed of rectangular, square and other spring module packs 213, the non-woven cloth packs 2131 are used for covering and connecting with other spring module packs 213, so that the partial replacement of the spring core layer can be realized, and the functional partition of the mattress and the customized production and design of the mattress can also be realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.