CN110326931A - A kind of composite mattress with multiple healthcare function - Google Patents

Abstract

The invention belongs to multilayer composite lining design fields, in particular to a kind of composite mattress with multiple healthcare function, composite mattress has multilayered structure, from top to bottom successively includes far-infrared negative-ion precoat, anti-electromagnetic radiation fabric layer, carbon fiber heating layer, anti-mite layer, the first latex foam layer, magnetic material fixing layer, magnetic induction releasing layer, the second latex foam layer, 3D layers, hard cotton layer.

Description

A kind of composite mattress with multiple healthcare function

Technical field

It is the invention belongs to multilayer composite lining design field, in particular to a kind of with the compound of multiple healthcare function Mattress.

Background technique

Mattress has become the indispensable articles of every family in the modern life, and all one's life of people has close to one third Time spent in sleep, sleep quality directly influences human health and service life, thus the quality and function of mattress with The sleep quality of people and healthy relationship are very close.

Many mattresses are added to functional layer thus to realize corresponding health-care effect, such as far IR fibre wherein now Layer can discharge far infrared radiation, be conducive to human body warm, promote blood circulation of human body；Such as negative-ion fiber layer is discharged Anion is that anion is called " air vitamin " by a kind of negatively charged gas ion, someone in air, it is believed that it is as food The vitamin of object is the same, has highly important influence to the vital movement of human body and other biological, has calmness, hypnosis, town Bitterly, antibechic, antipruritic, diuresis, increasing appetite, blood pressure lowering and other effects；In addition, the magnetic fields that magnetic material generates can be with after human body Promote cell metabolism, activating cell, so that intracellular waste and harmful substance be accelerated to drain.

After these functional layers are compound to together at present, Each performs its own functions, independently plays effect；On the other hand, just individually For some functional layer, energy often towards what is distributed from all directions, cause to have quite a few energy be not by What human body was absorbed into, utilization rate is to be improved.

Summary of the invention

In order to solve the above technical problems, this is compound the present invention provides a kind of composite mattress with multiple healthcare function Mattress has multilayered structure, includes at least far-infrared negative-ion precoat, the first latex foam layer, magnetic induction release from top to bottom Layer,

Further, which successively includes far-infrared negative-ion precoat, anti-electromagnetic radiation face from top to bottom The bed of material, carbon fiber heating layer, anti-mite layer, the first latex foam layer, magnetic material fixing layer, magnetic induction releasing layer, the second latex sea Continuous layer, 3D layers, hard cotton layer,

Far-infrared negative-ion precoat is made of the polyester fiber braiding containing far infrared additive, anionic additive Uniform fabric, with a thickness of 2~3mm, grammes per square metre is 160~210g/m²,

Containing far infrared additive, anionic additive polyester fiber the preparation method comprises the following steps:

Fibre-grade PET, far infrared additive, anionic additive, several auxiliary agents are mixed sufficiently, by resulting mixture Heating melting in screw extruder is added and forms melt, and is sent into filter and is filtered, enters spinning pack spinneret afterwards, then will The tow cooling of ejection, fiber after cooling oil after through drawing and setting, then be wound；

First latex foam layer is that silica gel particle, preparation method is distributed in spongy layer are as follows:

The auxiliary agents such as isocyanates, polyether polyol, silica gel particle and foaming agent, catalyst are mixed sufficiently, it will be resulting Mixture be pumped into foaming machine carry out foaming form cavernous body, required size will be cut into after resulting cavernous body natural cooling；

First latex foam layer with a thickness of 10~20mm；

Magnetic induction releasing layer includes one layer of layer of polyurethane, is evenly distributed on layer of polyurethane several by layer of polyurethane upper surface Recess is formed by shrinkage pool straight down, is embedded with high-penetration permanently biological magnetic magnetite in shrinkage pool just,

As preferred: in the layer of polyurethane of magnetic induction releasing layer, lying on the composite mattress human body head during sleep positioned at people At position below neck (head of a bed away from composite mattress along mattress length direction inwardly about 30 centimeters), it is embedded with intelligent core Piece, for monitoring the Biological indicators of mattress user in a sleep state, and the data monitored are wirelessly transferred by the chip Onto terminal devices such as related mobile phones,

Magnetic material fixing layer is one layer of layer of polyurethane being covered on magnetic induction releasing layer upper surface；

Anti-mite layer is the anti-mite cloth of Du Pont, and with a thickness of 2~3mm, grammes per square metre is 120~190g/m²。

Above-mentioned composite mattress is successively assembled into frame, frame includes by vertical foreboard, vertical back plate, vertical Left plate, vertical right panel surround the rectangular shape being spliced and are up and down ringent frame, ring on frame internal perisporium To the fixed plate for being inwardly extended with circle level,

Each layer in composite mattress is successively horizontally embedded into just in order in the inner cavity of said frame, a circle is fixed Plate plays supporting role straight up to the composite mattress after installation, and lowest level is hard cotton layer, the layer in composite mattress Intensity is high, is not easy deformation, can support other each layers in composite mattress as bottom and keeps horizontal substantially,

Wherein, the location of fixed plate is higher than the bottom end of frame in level height, is located on such frame and fixes Plate section below plate is equivalent to play the role of bracket, and composite mattress is supported on a certain flying height, on the inside of frame It is located at the position below fixed plate or on fixed plate lower face on wall, is fixedly installed with controller,

Controller is sequentially connected electrically with power supply 1, carbon fiber heating layer, and power supply 1 is the power supply of carbon fiber heating layer, and controller is logical Cross control being switched on or switched off for power supply 1 controlled come the fever behavior to carbon fiber heating layer,

Meanwhile controller is sequentially connected electrically with power supply 2, chip, power supply 2 is chip power supply, and controller passes through control power supply 2 Be switched on or switched off to control whether chip works.

Detailed description of the invention

Fig. 1 is that the Multi-layer compound mattress in embodiment 2 is embedded structural schematic diagram (positive cross-sectional view) in the frame,

Fig. 2 is the structural schematic diagram (top view) of frame used in embodiment 2,

Wherein, 1-far-infrared negative-ion precoat, 2-anti-electromagnetic radiation fabric layers, 3-carbon fiber heating layers, 4- Anti-mite layer, the 5-the first latex foam layer, 6-magnetic material fixing layers, 7-magnetic induction releasing layers, 71-shrinkage pools, 72-biological magnetic Magnetite, 73-chips, the 8-the second latex foam layer, 9-3D layers, 10-hard cotton layers, 11-frames, 111-foreboards, 112-back plates, 113-left plates, 114-right panels, 115-fixed plates, 12-controllers,

It should be noted that word "front", "rear", "left", "right" used in the description of the present application refer to that attached drawing is (attached Direction in Fig. 1), "inner" and "outside" refer respectively to the direction towards or away from geometric center of specific component, these be only for Convenient for the description present invention and simplify description, rather than the device or element of indication or suggestion meaning there must be specific side Position is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.

Specific embodiment

Embodiment 1

Preparation containing far infrared additive, the polyester fiber of anionic additive:

In parts by weight, by 100 parts of fibre-grade PET, 0.5 part of 2020,0.8 parts of light stabilizer of antioxidant 1010,5 parts of mixture (matter of nanometer bamboo powder, nano bamboo powdered carbon that can discharge the nanometer bamboo powder of far infrared, nano bamboo powdered carbon Amount is mixed than being added in high-speed mixer for 3:2), 3 parts of tourmaline anion powder, 0.7 part of dispersing agent 121 sufficiently, by gained Mixture be added screw extruder in heating melting formed melt, 280 DEG C of melt temperature, melt pressure 4.5Mpa, be sent into Filter is filtered, and enters spinning pack spinneret afterwards, then by the tow cooling of ejection, the spinning speed of fiber is 1500m/min, cold But the fiber after oil after through drawing and setting, then be wound, draft temperature is set as 110 DEG C, draw ratio 2.3,

Based entirely on the polyester fiber braiding containing far infrared additive, anionic additive prepared in the present embodiment At uniform fabric as far-infrared negative-ion precoat, the far-infrared negative-ion precoat with a thickness of 2.4mm, grammes per square metre is 186g/m², for use；

The preparation of first latex foam layer:

(1) in parts by weight, after the 4 of 40 parts, 4 '-methyl diphenylene diisocyanates being melted at 78 DEG C, to 15 parts of polyether polyol (CH1833C/A BASF) are wherein added, and are stirred to react to obtain isocyanate group (NCO) at 75 DEG C The performed polymer that mass content is 16%, resulting performed polymer and 23 parts of poly methylene poly phenyl poly isocyanates are sufficiently mixed, Obtain isocyanate mixture；

(2) in parts by weight, by isocyanate mixture obtained in 60 parts of steps (1), 100 parts of polyether polyol (CH1833C/A BASF), 25 parts of silica gel particles (the gross porosity spherical silica gel of Shanghai Xin Mao silica gel Co., Ltd, grain size specifications 1 ~2mm), 12 parts of foaming agent pentamethylene, 3 parts of water, 2 parts of Dabco catalyst, 3 parts of organosilicon L-580 foam stabilisers (Tao Shi) plus Enter into high-speed mixer mixing sufficiently (control mixture temperature is at 35 DEG C or less), resulting mixture is pumped into foaming machine in 95 Foaming is carried out at DEG C and forms cavernous body, the regular sheet material of 15mm thickness will be cut into after resulting cavernous body natural cooling, for use；

Magnetic induction releasing layer:

A layer thickness be 32mm polyurethane foam material on be evenly distributed with it is several from layer of polyurethane upper surface vertically to Lower recess is formed by shrinkage pool, and the regular cylindrical shape that each shrinkage pool is depth 18mm, cross-sectional diameter is 12mm, shrinkage pool is in polyurethane The distribution density of layer upper surface is 80/m², high-penetration permanently biological magnetic magnetite is embedded in each shrinkage pool just.

It will be by magnetic induction releasing layer (single layer) prepared by the present embodiment, the first latex foam layer (single layer), far infrared Anionic plus material layer (single layer) is sequentially overlaid on together from the bottom up under the state of paving, and sutures forming layer and layer by edge Between connected three layers of composite mattress.

Comparative example 1 (1)

Any silica gel particle is not only added when preparing the first latex foam layer, remaining is with embodiment 1:

Far-infrared negative-ion precoat: with embodiment 1；

The preparation of first latex foam layer:

(1) with embodiment 1；

(2) in parts by weight, by isocyanate mixture obtained in 60 parts of steps (1), 100 parts of polyether polyol (CH1833C/A BASF), 12 parts of foaming agent pentamethylene, 3 parts of water, 2 parts of Dabco catalyst, 3 parts of organosilicon L-580 foams are steady Determine agent (Tao Shi) and be added to mixing sufficiently (control mixture temperature is at 35 DEG C or less) in high-speed mixer, by resulting mixture pump Enter foaming machine carried out at 95 DEG C foaming form cavernous body, the rule of 15mm thickness will be cut into after resulting cavernous body natural cooling Full wafer material, for use；

Magnetic induction releasing layer: with embodiment 1；

Trilaminate material in this comparative example is stitched into three layers of composite mattress: relevant operation is the same as embodiment 1.

Comparative example 1 (2)

Cancel high-penetration in magnetic induction releasing layer permanently biological magnetic magnetite, remaining is with embodiment 1:

Far-infrared negative-ion precoat: with embodiment 1；

First latex foam layer: with embodiment 1；

Select with embodiment 1 in magnetic induction releasing layer polyurethane foam material be same material, be all 32mm thickness, The nonpitting regular slabstock polyurethane foamed material layer in upper surface；

Trilaminate material in this comparative example is stitched into three layers of composite mattress: relevant operation is the same as embodiment 1.

Comparative example 1 (3)

Any silica gel particle is not added when preparing the first latex foam layer, and cancels the high-penetration in magnetic induction releasing layer Permanent biology magnetic magnetite, remaining is with embodiment 1 (as blank control 1):

Far-infrared negative-ion precoat: with embodiment 1；

First latex foam layer: with comparative example 1 (1)；

Polyurethane foam material layer in comparative selection embodiment 1 (2)；

Trilaminate material in this comparative example is stitched into three layers of composite mattress: relevant operation is the same as embodiment 1.

Comparative example 1 (4)

Only at preparation " polyester fiber containing far infrared additive, anionic additive ", anion addition is eliminated Agent, remaining is with embodiment 1:

The preparation of polyester fiber containing far infrared additive:

In parts by weight, by 100 parts of fibre-grade PET, 0.5 part of 2020,0.8 parts of light stabilizer of antioxidant 1010,5 parts of mixture (matter of nanometer bamboo powder, nano bamboo powdered carbon that can discharge the nanometer bamboo powder of far infrared, nano bamboo powdered carbon Amount mixes sufficiently than being added in high-speed mixer for 3:2), 0.7 part of dispersing agent 121, and resulting mixture addition screw rod is squeezed Heating melting forms melt in machine out, 280 DEG C of melt temperature, melt pressure 4.5Mpa, is sent into filter and is filtered, laggard Enter spinning pack spinneret, then by the tow cooling of ejection, the spinning speed of fiber is 1500m/min, and fiber after cooling passes through after oiling Drawing and setting, then be wound, draft temperature are set as 110 DEG C, draw ratio 2.3,

Based entirely on the polyester fiber containing far infrared additive prepared in comparative example 1 (4), according to embodiment Relevant operation in 1 is woven into uniform fabric, as the far infrared surface bed of material；

First latex foam layer: with embodiment 1；

Magnetic induction releasing layer: with embodiment 1；

Trilaminate material in this comparative example is stitched into three layers of composite mattress: relevant operation is the same as embodiment 1.

Comparative example 1 (5)

The far infrared surface bed of material in comparative selection embodiment 1 (4)；

First latex foam layer: with comparative example 1 (1)；

Polyurethane foam material layer in comparative selection embodiment 1 (2)；

Trilaminate material in this comparative example is stitched into three layers of composite mattress: relevant operation is with embodiment 1 (as sky White control is 2).

Embodiment 2

Preparation containing far infrared additive, the polyester fiber of anionic additive:

In parts by weight, by 100 parts of fibre-grade PET, 0.8 part of antistatic agent HDC-103,0.5 part of light stabilizer 2020,1098,6 parts of 0.8 part of antioxidant lrganox can discharge the inorganic composite materials of far infrared, 2 parts of tourmaline bear from Sub- powder, 0.5 part of dispersing agent 121, which are added in high-speed mixer, to be mixed sufficiently, and resulting mixture is added in screw extruder Heating melting forms melt, 290 DEG C of melt temperature, melt pressure 4.8Mpa, is sent into filter and is filtered, enter spinneret afterwards Component spinneret, then by the tow cooling of ejection, the spinning speed of fiber is 1600m/min, and it is fixed that fiber after cooling is stretched after oiling Type, then be wound, draft temperature are set as 100 DEG C, draw ratio 2.5,

(the above-mentioned inorganic composite materials that can discharge far infrared be by the zinc oxide of 6 mass parts, 4 mass parts lead oxide, The zirconium oxide of 9 mass parts, the titanium dioxide of 5 mass parts, the silica of 3 mass parts, the ferroso-ferric oxide of 7 mass parts, 10 matter Measure the calcium carbonate of part, the sodium metasilicate of 15 mass parts, 40 mass parts water mixing sufficiently after extrusion granulation, gained particle high-temperature is forged Burn (calcined at prior to 1000 DEG C 40 minutes, after be cooled at 350 DEG C calcine 40 minutes), crush after natural cooling obtain),

Based entirely on the polyester fiber braiding containing far infrared additive, anionic additive prepared in the present embodiment At uniform fabric as far-infrared negative-ion precoat, the far-infrared negative-ion precoat with a thickness of 2.5mm, grammes per square metre is 199g/m², for use；

Anti-electromagnetic radiation fabric layer: silver fiber radiation-proof fabric；

Carbon fiber heating layer；

The anti-mite cloth of Du Pont；

First latex foam layer: with embodiment 1；

Magnetic material fixing layer: select with embodiment 1 in magnetic induction releasing layer polyurethane foam material for same material, 5mm thickness, the nonpitting regular slabstock polyurethane foamed material layer in upper surface；

Magnetic induction releasing layer: with embodiment 1, and on the basis of embodiment 1, in the layer of polyurethane of magnetic induction releasing layer In, lie on the composite mattress at the position below human body head during sleep that (head of a bed away from composite mattress is long along mattress positioned at people Spend direction inwardly about 30 centimeters) insertion intelligent chip；

Second latex foam layer: being prepared according to the correlation technique in embodiment 1, but any silica gel particle is not added；

3D layers: thickening type Sandwich screen-cloth；

Hard cotton layer；

By be followed successively by hard cotton layer, 3D layers from top to bottom, the second latex foam layer, magnetic induction releasing layer, magnetic material fix Layer, the first latex foam layer, anti-mite layer, carbon fiber heating layer, anti-electromagnetic radiation fabric layer, far-infrared negative-ion precoat Sequentially, it is sequentially overlapped after above layers being tiled together and sutures to obtain the multilayer being connected between layers by edge and answered Close mattress；The Multi-layer compound mattress is embedded into just in the inner cavity of frame.Frame include by vertical foreboard, it is vertical after Plate, vertical left plate, vertical right panel surround the rectangular shape being spliced and are up and down ringent frame, in frame The circumferential fixed plate for being inwardly extended with circle level, the undermost hard cotton layer of composite mattress are directly fallen in fixed plate on peripheral wall Support in plate face by fixed plate straight up；The location of fixed plate is higher than the bottom end of frame in level height, It is located at the position below fixed plate on frame inner sidewall and is fixedly installed with controller,

Controller is sequentially connected electrically with power supply 1, carbon fiber heating layer, and power supply 1 is the power supply of carbon fiber heating layer, and controller is logical Spend being switched on or switched off for power supply 1 of control controls come the fever behavior to carbon fiber heating layer, meanwhile, controller and power supply 2, Chip is sequentially connected electrically, power supply 2 be chip power supply, controller by control power supply 2 be switched on or switched off come to chip whether work It is controlled.(the above layers of material is different downstream producer according to the requirement of applicant respectively and produces preparation, or straight It connects and commercially obtains)

Comparative example 2 (1)

" the first latex foam layer " in embodiment 2 is only substituted for " the first latex foam in comparative example 1 (1) Layer ", remaining is the same as embodiment 2.

Comparative example 2 (2)

Only " the magnetic induction releasing layer " in embodiment 2 is substituted for and is sent out with the polyurethane of magnetic induction releasing layer in embodiment 2 Foam material be same material, to be all 32mm thick, the nonpitting regular slabstock polyurethane foamed material layer in upper surface, remaining is same Embodiment 2.

Comparative example 2 (3)

" the first latex foam layer " in embodiment 2 is substituted for " the first latex foam in comparative example 1 (1) Layer "；And " the magnetic induction releasing layer " in embodiment 2 is substituted for the polyurethane foam with magnetic induction releasing layer in embodiment 2 Material be same material, to be all 32mm thick, the nonpitting regular slabstock polyurethane foamed material layer in upper surface, remaining is the same as real Apply example 2 (blank control 1 as embodiment 2).

Comparative example 2 (4)

Only at preparation " polyester fiber containing far infrared additive, anionic additive ", anion addition is eliminated Agent:

The preparation of polyester fiber containing far infrared additive:

In parts by weight, by 100 parts of fibre-grade PET, 0.8 part of antistatic agent HDC-103,0.5 part of light stabilizer 2020,1098,6 parts of 0.8 part of antioxidant lrganox can discharge the inorganic composite materials of far infrared, 0.5 part of dispersing agent 121, which are added to mixing in high-speed mixer, sufficiently, is added heating melting in screw extruder for resulting mixture and forms melt, It 290 DEG C of melt temperature, melt pressure 4.8Mpa, is sent into filter and is filtered, enter spinning pack spinneret afterwards, then will spray Tow cooling out, the spinning speed of fiber are 1600m/min, fiber after cooling oil after through drawing and setting, then be wound, draw It stretches temperature and is set as 100 DEG C, draw ratio 2.5,

Based entirely on the polyester fiber containing far infrared additive prepared in comparative example 2 (4), according to embodiment Relevant operation in 2 is woven into uniform fabric, and as the far infrared surface bed of material, the rest part of mattress is the same as embodiment 2.

Comparative example 2 (5)

" far-infrared negative-ion precoat " in embodiment 2 is replaced with into " the far infrared fabric in comparative example 2 (4) Layer "；

" the first latex foam layer " in embodiment 2 is replaced with into " the first latex foam in comparative example 1 (1) Layer "；

" magnetic induction releasing layer " in embodiment 2 is substituted for the polyurethane foam with magnetic induction releasing layer in embodiment 2 Material be same material, to be all 32mm thick, the nonpitting regular slabstock polyurethane foamed material layer in upper surface；

The rest part of mattress is the same as embodiment 2 (blank control 2 as embodiment 2).

Referring to " detection of textile far infrared performance and evaluation GBT 30127-2013 " standard, to the above various embodiments, Composite mattress prepared by comparative example is under unheated room temperature (25 DEG C), condition of normal pressure, and upper surface is outward (normal direction) Far infrared transmissivity detected, as a result as shown in the table:

Embodiment 1	0.96
		Comparative example 1 (1)	0.74
Comparative example 1 (2)	0.76
		Comparative example 1 (3)	0.73
Comparative example 1 (4)	0.88
		Comparative example 1 (5)	0.72
Embodiment 2	0.90
		Comparative example 2 (1)	0.64
Comparative example 2 (2)	0.67
		Comparative example 2 (3)	0.65
Comparative example 2 (4)	0.85
		Comparative example 2 (5)	0.65

Compare the various embodiments described above and relevant comparative example, it is found by the applicant that: when under far-infrared negative-ion precoat When side sets gradually the first latex foam layer and the magnetic induction releasing layer containing silica gel particle, composite mattress is (specifically Far-infrared negative-ion precoat on upper mattress surface) far infrared transmissivity be significantly improved, in this regard, applicant thinks reason It may is that for far-infrared negative-ion precoat, far infrared radiation thereon is directed towards to spread from all directions, i.e., remote red The upper surface of outer anionic plus material layer can give off far infrared, lower surface also can, and the far infrared that lower surface is given off is original It is not easy sufficiently to be experienced by human body, be absorbed into, and this programme has set gradually below far-infrared negative-ion precoat and has contained silicon The the first latex foam layer and magnetic induction releasing layer of glue particle, far-infrared negative-ion precoat (especially its lower surface) are sent out A part of far infrared radiation out, which is likely to be, to be obstructed by the silica gel particle in the first latex foam layer, has retained, and is avoided The further loss of this part far infrared radiation, while the magnetic disturbance of magnetic induction releasing layer is possible to in latex foam layer Silica gel particle play the role of certain stimulation or activation, promote silica gel particle within the shorter period can by it around originally hindered It is put back to every the far infrared radiation original road got off, to increase the upward Far-infrared spoke of far-infrared negative-ion precoat on the whole The amount of penetrating,

From the detection knot of comparative example 1 (1), comparative example 2 (1), comparative example 1 (2), comparative example 2 (2) From the point of view of fruit, also meet the above-mentioned supposition of applicant to a certain extent:

Silica gel particle is free of in comparative example 1 (1) and comparative example 2 (1) in first latex foam layer, therefore is not had The standby barrier to the far infrared radiation by the first latex foam layer, retention functions, cause this portion of energy to be directly lost, can not It gives for change；

Without biological magnetic magnetite in comparative example 1 (2) and comparative example 2 (2), therefore even if in the first latex foam Barrier, retention are formd to part far infrared radiation in layer, but due to having lacked magnetic disturbance, this part far infrared radiation can not By the processing of next step, finally dribble at random；

From comparative example 1 (5) compared with comparative example 1 (3) or comparative example 2 (5) and comparative example 2 (3) from the point of view of comparison, in the case where the intervention of no silica gel particle and biological magnetic magnetite, the far infrared surface bed of material discharges far outward When infra-red radiation, influence in the precoat whether there is or not anionic additive to radiation effect is simultaneously little；But from embodiment 1 with it is right Than the comparison of embodiment 1 (4), embodiment 2 compared with comparative example 2 (4) from the point of view of, having silica gel particle and biological magnetic magnetite In the case where intervention, once anionic additive saved, i.e., there is no in the case where anion in ambient enviroment, far infrared The case where precoat release far infrared radiation, will appear certain downslide.Therefore applicant's analysis, anion environment is to " far infrared adds The behavior for adding agent itself release to radiate " itself simultaneously has no significant effect, but may be to " silica gel particle, biological magnetic magnetite release this There are certain influence or interventions for the facilitation that clearance is ".

Claims (6)

1. a kind of composite mattress with multiple healthcare function, it is characterised in that: the composite mattress has multilayered structure, from Top to bottm successively includes far-infrared negative-ion precoat, the first latex foam layer, magnetic induction releasing layer.

2. composite mattress as described in claim 1, it is characterised in that: the composite mattress have multilayered structure, on to Under successively include far-infrared negative-ion precoat, anti-electromagnetic radiation fabric layer, carbon fiber heating layer, anti-mite layer, the first latex Spongy layer, magnetic material fixing layer, magnetic induction releasing layer, the second latex foam layer, 3D layers, hard cotton layer.

3. composite mattress as claimed in claim 1 or 2, it is characterised in that: the first latex foam layer is in spongy layer Silica gel particle is distributed with, the preparation method of the first latex foam layer is,

Isocyanates, polyether polyol, silica gel particle, foaming agent, catalyst, foam stabiliser are mixed sufficiently, it will be resulting Mixture be pumped into foaming machine carry out foaming form cavernous body, required size will be cut into after resulting cavernous body natural cooling.

4. composite mattress as claimed in claim 1 or 2, it is characterised in that: the magnetic induction releasing layer includes a strata ammonia Ester layer, be evenly distributed on the layer of polyurethane it is several be recessed straight down by the layer of polyurethane upper surface be formed by it is recessed Hole is embedded with high-penetration permanently biological magnetic magnetite in the shrinkage pool just.

5. composite mattress as claimed in claim 2, it is characterised in that: the anti-mite layer is the anti-mite cloth of Du Pont.

6. composite mattress as claimed in claim 2 is embedded in frame just, the frame includes by vertical foreboard, erects Straight back plate, vertical left plate, vertical right panel surround it is the rectangular shape being spliced and it is upper and lower be ringent frame Frame, it is circumferential on the frame internal perisporium inwardly to protrude horizontally up the fixed plate that a circle supports the composite mattress straight up.