CN212280716U - Negative ion leading-in mattress - Google Patents

Abstract

The utility model discloses an anion leading-in mattress, which comprises a mattress body, a control circuit board and an anion generating device, the mattress body is internally provided with an accommodating cavity for accommodating the control circuit board, the negative ion generating device comprises a high-voltage generating assembly, a negative ion releasing electrode plate and a first grounding electrode plate, the high voltage generating component is arranged in the mattress body and is electrically connected with the control circuit board, the negative ion releasing electrode plate and the first grounding electrode plate, the surface of the mattress body is provided with a back area corresponding to the back of a human body, the negative ion releasing electrode plate and the first grounding electrode plate are arranged in the back area, the anion concentration generated by leading the anion into the mattress is high, the anion can be absorbed even if a user lies on the bed without sleeping naked, and the anion absorption effect is good.

Description

Negative ion leading-in mattress

Technical Field

The utility model relates to a mattress technical field especially relates to a leading-in mattress of anion.

Background

The negative ion mattress on the market at present, its technical general adoption is ground the ore (for example tuo malin) that has negative ion release into powder, and then certain proportion and other material mixture (for example polyester fiber) form the functional fiber layer that has negative ion release, and this technique ubiquitous is not enough:

1. the ore released by the negative ions spontaneously generates weak electrostatic field to ionize air to generate the negative ions through weak piezoelectric effect and thermoelectric effect, compared with corona discharge of high-efficiency negative ion generation technology, the concentration of the released negative ions is extremely low, the migration distance of the generated negative ions is short, and people need to sleep naked when lying on the ore;

2. because the anion release functional material is formed by mixing with other materials, the mineral powder can cause the air permeability of the mattress to be poor, and the comfort is influenced;

3. because the ore powder is used as the mixed material, the requirement on the purity and the composition of the used ore is high, and the low purity can influence the generation of negative ions or can be doped with other harmful elements.

4. Because of the naked sleep, the skin of the human body can sweat, and the dander can be mixed into the mattress, so that the surface of the mattress is mixed with impurities, the generation and the release of negative ions are blocked, and the functional efficiency of the negative ions is reduced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a mattress with introduced negative ions, the concentration of the generated negative ions is high, the user can lie on the bed body without sleeping naked and can absorb the negative ions, and the negative ion absorption effect is good.

The purpose of the utility model is realized by adopting the following technical scheme:

the utility model provides a leading-in mattress of anion, includes mattress body, control circuit board and anion production device, mattress body inside is provided with and is used for holding control circuit board's the chamber that holds, anion production device includes that high pressure takes place subassembly, anion release plate electrode and first ground electrode board, the high pressure takes place the unit mount in this is internal to the mattress, the high pressure take place the subassembly with control circuit board anion release plate electrode reaches first ground electrode board electricity is connected, mattress body surface is formed with the back district that corresponds with human back, anion release plate electrode reaches first ground electrode board is installed in the back district.

Further, the negative ion generating device further comprises a pressure sensing switch control device electrically connected with the control circuit board, the negative ion generating device further comprises a pressure sensor arranged below the negative ion releasing electrode plate, and the pressure sensor is electrically connected with the pressure sensing switch control device.

Furthermore, the negative ion generating device also comprises a second grounding electrode plate which is arranged at the tail part of the mattress body and is flexibly and electrically connected with the high-voltage generating assembly through a lead.

Further, the mattress body includes fibre filling layer, the cotton layer of elasticity, porous emulsion layer, rubber layer, the cotton layer setting of elasticity is in the rubber layer top, the fibre filling layer set up in the elasticity surface course with between the rubber layer, porous emulsion layer sets up the fibre filling layer with between the elastic cotton layer, just porous emulsion layer with the connection can be dismantled to the fibre filling layer.

Further, the negative ion releasing electrode plate and the first ground electrode plate are mounted in the porous emulsion layer.

Furthermore, the fiber filling layer is internally provided with the accommodating cavity, the accommodating cavity is internally provided with a protection box, the control circuit board is arranged in the protection box, and the fiber filling layer is internally provided with a mounting box for mounting the high-voltage generating assembly.

Furthermore, the anion generating device is provided with a plurality of anion releasing electrode plates and a plurality of first grounding electrode plates which are arranged in a staggered manner, and the distance between the adjacent anion releasing electrode plates and the first grounding electrode plates is 5-15 CM.

Further, the high voltage generating assembly comprises a high voltage generator and a voltage converter, the high voltage generator is electrically connected with the control circuit board, the first grounding electrode plate and the voltage converter, and the voltage converter is electrically connected with the negative ion releasing electrode plate.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the negative ion releasing electrode plate and the first grounding electrode plate are arranged on the mattress body, so that a human body can be in contact with the negative ion releasing electrode plate and the first grounding electrode plate when lying on a bed, the human body in contact with the first grounding electrode plate is in a grounding state, the negative ions generated by the electrolysis of the negative ion releasing electrode plate can be induced to move towards the human body and then be absorbed by the human body, because the negative ion releasing electrode plate generates negative ions with relatively high concentration and the first grounding electrode plate is strengthened and induced to generate directional migration, the ion releasing electrode plate has strong migration characteristic, therefore, the negative ion leading-in mattress is not needed to be used under the condition of sleeping, only loose and breathable cotton clothes need to be worn to lie on the mattress, the negative ions with relatively high concentration generated by the negative ion electrode plate can be absorbed by the skin through the clothes, the use convenience is improved, and the time for cleaning the mattress regularly is greatly prolonged.

Drawings

Fig. 1 is a schematic structural view of a negative ion introduction mattress of the present invention;

FIG. 2 is a schematic view of the structure of the negative ion introduction mattress of the present invention;

FIG. 3 is a side sectional view of a mattress body of the negative ion introduction mattress of the present invention;

FIG. 4 is a schematic circuit diagram of a negative ion introduction mattress according to the present invention;

the figure is as follows: 10. a mattress body; 101. a protection box; 102. mounting a box; 11. an elastic cotton layer; 12. a porous latex layer; 13. a fiber-filled layer; 14. a rubber layer; 20. a control circuit board; 31. a high voltage generating assembly; 311. a high voltage generator; 312. a voltage converter; 32. an anion releasing electrode plate; 33. a first ground electrode plate; 34. a second ground electrode plate; 35. a pressure sensor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1-4, an anion-introducing mattress comprises a mattress body 10, a control circuit board 20 and an anion generating device, wherein a containing cavity for containing the control circuit board 20 is arranged inside the mattress body 10, the anion generating device comprises a high-voltage generating assembly 31, an anion releasing electrode plate 32 and a first grounding electrode plate 33, the high-voltage generating assembly 31 is installed inside the mattress body 10, the high-voltage generating assembly 31 is electrically connected with the control circuit board 20, the anion releasing electrode plate 32 and the first grounding electrode plate 33, a back area corresponding to the back of a human body is formed on the surface of the mattress body 10, the anion releasing electrode plate 32 and the first grounding electrode plate 33 are installed in the back area, and the anion releasing electrode plate is suitable for generating small-particle-diameter anions capable of entering into the living body.

Specifically, the negative ions generated by the negative ion releasing electrode plate are small-particle-size negative ions that can enter the living body (in this embodiment, the living body is a human body). It is understood that the following definitions are provided in the book "environmental health and negative oxygen ion" by professor Linjingming, a specialist in the Chinese academy of sciences, Bo leading, Qinghua university: the air negative ions have different sizes and can be divided into 3 types of small ions (0.001-0.003 mu m), medium ions (0.003-0.03 mu m) and large ions (0.03-0.1 mu m) according to the diameter of the particles; the small-particle-size negative ions are also called small ions or light ions, so the particle diameter of the small-particle-size negative ions in the embodiment is 0.001-0.003 μm, and the small-particle-size negative ions have the characteristics of good biological activity and long propagation distance, and can easily penetrate through the blood brain barrier of a human body to act on the human body.

This application product during operation, the user takes place subassembly 31 work through control circuit board 20 control high pressure, the high pressure takes place subassembly 31 with high-tension current with go into in the anion release electrode board 32, so that anion release electrode board 32 ionizes the air and produce the anion, then the user lies on mattress body 10, the user back will press on the anion release electrode board 32 and the first ground electrode board 33 of back district, the user back will keep the ground state with first ground electrode board 33 butt this moment, thereby produce induction to the anion of release, the anion that anion release electrode board 32 ionization produced will get into the human body through back skin and absorb in.

The negative ion releasing electrode plate 32 and the first grounding electrode plate 33 are arranged on the mattress body 10, so that a human body can be in contact with the negative ion releasing electrode plate 32 and the first grounding electrode plate 33 when lying on a bed, the human body in contact with the first grounding electrode plate 33 is in a grounding state, and the negative ions generated by the electrolysis of the negative ion releasing electrode plate 32 can be induced to move towards the human body and then be absorbed by the human body, because the negative ion releasing electrode plate 32 generates the negative ions with relatively high concentration and the first grounding electrode plate 33 enhances the induction to generate directional migration, the mattress has strong migration characteristic, the negative ion introducing mattress can be used without sleeping on the premise, only the loose and breathable cotton clothes need to be worn, the relatively high-concentration negative ions generated by the negative ion electrode plate can be absorbed by the skin through the clothes, and the use convenience is improved, meanwhile, the time for cleaning the mattress regularly is greatly prolonged.

Specifically, the present application further includes a pressure sensing switch control device electrically connected to the control circuit board 20, the negative ion generating device further includes a pressure sensor 35 disposed below the negative ion releasing electrode plate 32, and the pressure sensor 35 is electrically connected to the pressure sensing switch control device.

When a user lies on the bed, the pressure sensor 35 is squeezed, the pressure sensor 35 receives the squeezing and transmits information to the pressure sensing switch control device, and the pressure sensing switch control device controls the high-voltage generation assembly 31 to work, so that the situation that the user falls asleep and turns over to cause the negative ion release electrode plate 32 to be in an idle state in the use process is avoided, the service life is prolonged, and power resources are wasted.

More specifically, the plurality of negative ion generating devices are provided, the plurality of negative ion releasing electrode plates 32 and the plurality of first grounding electrode plates 33 are arranged in a staggered manner, and the distance between each adjacent negative ion releasing electrode plate 32 and each adjacent first grounding electrode plate 33 is 5-15CM, so that negative ions can be introduced into the whole back of a human body, meanwhile, the negative ions can be introduced into the human body after a user falls asleep, the phenomenon that the negative ion generating devices do not work after the user turns over is avoided, meanwhile, a pressure sensor 35 is arranged corresponding to each negative ion generating device, so that each negative ion generating device can be controlled to be independently started or closed, the negative ion releasing electrode plates 32 are prevented from being in a no-load state, power resources are wasted, and the service life is not prolonged.

Specifically, the negative ion generating device further comprises a second ground electrode plate 34, wherein the second ground electrode plate 34 is arranged at the end of the mattress body 10 and flexibly and electrically connected with the high voltage generating assembly 31 through a lead.

When in use, the second grounding electrode plate 34 is contacted with the feet of the human body to increase the grounding area of the human body, thereby enhancing the effect of inducing the absorption of negative ions.

In addition, this application mattress body 10 includes fibre filling layer 13, elastic cotton layer 11, porous emulsion layer 12, rubber layer 14, and elastic cotton layer 11 sets up in rubber layer 14 top, and fibre filling layer 13 sets up between elasticity surface course and rubber layer 14, and porous emulsion layer 12 sets up between fibre filling layer 13 and elastic cotton layer 11, and porous emulsion layer 12 can dismantle with fibre filling layer 13 and be connected.

Because the direct and human contact of elastic cotton layer 11, the grease of human skin secretion and the dander that drops will depend on elastic cotton layer 11, need clean elastic cotton layer 11 after long-time the use, and general mattress all formula as an organic whole sets up clean comparatively inconveniently, so this application sets up elastic cotton layer 11 on porous emulsion layer 12, and can dismantle porous emulsion layer 12 and fibre filling layer 13 and be connected, make the user can separate porous emulsion layer 12 and fibre filling layer 13 when clean elastic cotton layer 11, only clean porous emulsion layer 12 and elastic cotton layer 11 part can, clean convenient, furthermore, porous emulsion layer 12 can adopt modes such as magic subsides with fibre filling layer 13 connected mode to be connected.

Specifically, the anion releasing electrode plate 32 and the first grounding electrode plate 33 are installed in the porous latex layer 12, so that the anion releasing electrode plate 32 and the first grounding electrode plate 33 can be conveniently replaced when damaged.

Specifically, it holds the chamber to have seted up in the fibre filling layer 13, holds the intracavity and is provided with protection box 101, and control circuit board 20 sets up in protection box 101, is provided with the mounting box 102 that is used for settling high pressure to take place subassembly 31 in the fibre filling layer 13 to avoid separating control circuit board 20 and high pressure and taking place subassembly 31 and fibre filling layer 13, avoid crushing control circuit board 20 and high pressure in the use and take place subassembly 31.

More specifically, the high voltage generating assembly 31 includes a high voltage generator 311 and a voltage converter 312, the high voltage generator 311 is electrically connected to the control circuit board 20, the first ground electrode plate 33 and the voltage converter 312, and the voltage converter 312 is electrically connected to the negative ion discharging electrode plate 32. By arranging the voltage converter 312 between the high voltage generator 311 and the negative ion releasing electrode plate, the voltage converter 312 can change the waveform of the voltage, so that the DC high voltage output by the high voltage generator is converted into a DC source voltage containing a specific pulsating component through the voltage converter, and the voltage converter changes the waveform of the voltage, so that a stable voltage can be provided for the negative ion releasing electrode plate, thereby improving the corona discharge efficiency between the negative ion releasing electrode plate and the first grounding electrode plate, so that the device can continuously and stably generate the negative ions with small particle size, i.e. the generation efficiency of the negative ions with small particle size is improved.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (8)

1. An anion-introducing mattress is characterized in that: including mattress body, control circuit board and anion generation device, mattress body is inside to be provided with and to be used for holding control circuit board's the chamber that holds, the anion generation device includes that high pressure takes place subassembly, anion release plate electrode and first ground electrode board, the high pressure takes place the unit mount in mattress is originally internal, the high pressure take place the subassembly with control circuit board anion release plate electrode reaches first ground electrode board electricity is connected, mattress body surface is formed with the back district that corresponds with human back, anion release plate electrode reaches first ground electrode board is installed in the back district.

2. The negative ion introduction mattress of claim 1, wherein: the negative ion generating device further comprises a pressure sensor arranged below the negative ion releasing electrode plate, and the pressure sensor is electrically connected with the pressure sensing switch control device.

3. The negative ion introduction mattress according to claim 1 or 2, wherein: the negative ion generating device further comprises a second grounding electrode plate, and the second grounding electrode plate is arranged at the tail part of the mattress body and is flexibly and electrically connected with the high-voltage generating assembly through a lead.

4. The negative ion introduction mattress of claim 2, wherein: the mattress body includes fibre filling layer, elastic cotton layer, porous emulsion layer, rubber layer, the elastic cotton layer sets up the rubber layer top, the fibre filling layer set up in the elasticity surface course with between the rubber layer, porous emulsion layer sets up the fibre filling layer with between the elastic cotton layer, just porous emulsion layer with the connection can be dismantled to the fibre filling layer.

5. The negative ion introduction mattress of claim 4, wherein: the negative ion releasing electrode plate and the first grounding electrode plate are arranged in the porous emulsion layer.

6. The negative ion introduction mattress of claim 4, wherein: the fiber filling layer is internally provided with the accommodating cavity, the accommodating cavity is internally provided with a protection box, the control circuit board is arranged in the protection box, and the fiber filling layer is internally provided with a mounting box for mounting the high-pressure generating assembly.

7. The negative ion introduction mattress of claim 1, wherein: the negative ion generating device is provided with a plurality of negative ion releasing electrode plates and a plurality of first grounding electrode plates which are arranged in a staggered mode, and the distance between the adjacent negative ion releasing electrode plates and the first grounding electrode plates is 5-15 CM.

8. The negative ion introduction mattress of claim 1, wherein: the high-voltage generation assembly comprises a high-voltage generator and a voltage converter, the high-voltage generator is electrically connected with the control circuit board, the first grounding electrode plate and the voltage converter, and the voltage converter is electrically connected with the negative ion release electrode plate.

Images