CN211748322U - Cold and hot anion antibacterial mattress - Google Patents

Abstract

The utility model discloses a cold and hot anion antibacterial mattress. In order to solve the problems that the mattress in the prior art has single function and the negative ions have low efficiency on the human body; the utility model comprises an elastic mattress, which comprises a negative ion antibacterial blended felt pad on the surface and an inner snake-shaped PE hose; the anion antibacterial blended felt mat comprises tourmaline anion powder, the snake-shaped PE hose comprises a water inlet interface and a water return interface, and the water inlet interface and the water return interface are respectively arranged on the side surface of the elastic mattress; the water inlet interface and the water return interface are connected with a water supply circulating system, the water inlet interface is connected with a water supply end of the water supply circulating system, and the water return interface is connected with a water return end of the water supply circulating system. The mattress integrates the functions of heating and refrigerating, antibiosis and spontaneous oxygen anion, and the use efficiency of the anion to the human body is high; is suitable for the old people who are bedridden for a long time and are weak in the old.

Description

Cold and hot anion antibacterial mattress

Technical Field

The utility model relates to a field of furniture especially relates to an antibiotic mattress of cold and hot anion.

Background

The negative ions are gas ions with negative charges in the air, which not only can promote the synthesis and storage of vitamins in the human body and strengthen and activate the physiological activities of the human body, but also have very important influence on the life activities of the human body and other organisms, so the negative ions are also called as the air vitamins. The mattress is a daily necessary article which is frequently used in our lives, and has the application of combining the negative ions and the mattress for the health of human bodies.

For example, a "negative ion mattress" disclosed in chinese patent literature, whose publication number "CN 109171306A" includes: an elastic cushion; the negative ion generator is arranged inside the negative ion mattress and is used for generating negative ions; the negative ion conduction structure is arranged in the negative ion mattress and is used for conducting negative ions generated by the negative ion generator to the first surface of the mattress; the mattress cover is used for sleeving the whole elastic mattress, the negative ion generator and the negative ion conducting structure; the mattress cover is made of a foldable conductive material capable of conducting negative ions, and the first surface of the mattress is the front surface of the mattress cover with a conductive function. Although the scheme can produce negative ions, the mattress has single function, and is arranged in the mattress by using a special negative ion generator, the structure is complex, a large amount of ozone ions are produced while the negative ions are generated, the human body with the overproof ozone ions has side effects, and the effect efficiency of the produced negative ions on the human body is low.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the problems that the function of the mattress in the prior art is single and the efficiency of the negative ions acting on the human body is low; the cold and hot negative ion antibacterial mattress is provided, the functions of heating and refrigerating, antibiosis and spontaneous negative oxygen ion are integrated, and the action efficiency of negative ions on a human body is high; is suitable for the old people who are bedridden for a long time and are weak in the old.

The above technique of the utility model is mainly solved through the following technical scheme:

the utility model comprises an elastic mattress, wherein the elastic mattress comprises a negative ion antibacterial blended felt pad on the surface and an internal snake-shaped PE hose; the negative ion antibacterial blended felt mat comprises tourmaline negative ion powder; the snake-shaped PE hose comprises a water inlet interface and a water return interface, and the water inlet interface and the water return interface are respectively arranged on the side surface of the elastic mattress; the water inlet interface and the water return interface are connected with a water supply circulating system, the water inlet interface is connected with a water supply end of the water supply circulating system, and the water return interface is connected with a water return end of the water supply circulating system. The anion generated in the tourmaline anion powder has higher activity, the anion powder has excellent antibacterial and bactericidal functions and strong redox effect, and can destroy the activity of cell membrane or cell protoplasm active enzyme of bacteria, thereby achieving the aim of antibacterial and bactericidal. The tourmaline negative ion powder is added into the mattress, has the effect of spontaneously generating negative oxygen ions, and can resist bacteria and sterilize. The negative ion antibacterial blended felt mat is arranged on the surface of the mattress, and the generated negative ions can directly act on the surface of a human body, so that the human body is improved into a circulatory system, and the acting efficiency of the negative ions on the human body is improved. The circulating water supply system is used for providing circulating cold water or hot water for the snake-shaped PE hose, so that the mattress can be refrigerated and heated, and the heat radiation of the water is used for carrying out constant-temperature cold and hot heating, so that the mattress is safer and more environment-friendly; is suitable for the old people who are bedridden for a long time and are weak in the old.

Preferably, the anion antibacterial blended felt pad is formed by spinning and weaving blended felts, 5% of tourmaline sub-nanometer negative ion powder, 0.5% of silver oxide and 1% of titanium dioxide. The silver oxide and the titanium dioxide have the functions of resisting bacteria, removing formaldehyde and the like, the fabric has the effects of resisting bacteria, sterilizing and spontaneously generating negative oxygen ions, and the mattress is suitable for bedridden patients and the old with weak bodies in the old.

Preferably, the interior of the elastic mattress also comprises an inflatable cavity, and the PE hose is arranged between the inflatable cavity and the negative ion antibacterial blended felt mat. The inflatable cavity is inflated to form an inflatable layer, the inflatable layer has a heat insulation function, and the inflatable layer increases the softness of the mattress and is more comfortable to use.

Preferably, the water supply circulation system comprises a circulation module and a cold and heat exchange module; the circulating module is respectively connected with the water inlet interface and the water return interface; the cold-heat exchange module is connected with the circulating module. The circulation module forms water circulation in a snake-shaped PE hose in the mattress, and the cold and heat exchange module provides cooling or heating water.

Preferably, the circulation module comprises a circulation pump and a constant-temperature water storage device; the outlet of the circulating pump is connected with the water inlet interface, the inlet of the circulating pump is connected with the upper end of the constant-temperature water storage device, and the lower end of the constant-temperature water storage device is connected with the water return interface; the cold and heat exchange module comprises a hot water constant temperature heater, a shell and tube exchanger and refrigeration equipment; the lower end of the hot water constant temperature heater is connected with the constant temperature water storage device through a valve F2-1, and the upper end of the hot water constant temperature heater is connected with the constant temperature water storage device through a valve F2-2; the refrigeration equipment is connected to the shell and tube exchanger, one end of which is connected to the thermostatic water reservoir through valve F1-1 and the other end of which is connected to the thermostatic water reservoir through valve F1-2. The circulating pump pumps constant-temperature hot water or cold water from the constant-temperature water storage device, the constant-temperature hot water or cold water enters the PE hose in the mattress from the water inlet interface, and the hot water or cold water heats or refrigerates the mattress through heat radiation through the snake-shaped PE hose; the hot water or the cold water returns to the constant-temperature water storage device through the water return interface to form water circulation. During heating, the valve F2-1 and the valve F2-2 are opened, the valve F1-1 and the valve F1-2 are closed, and the hot water in the constant temperature water storage device is kept at a constant temperature by the hot water constant temperature heater; during cooling, the valve F1-1 and the valve F1-2 are opened, and the valve F2-1 and the valve F2-2 are closed, so that the cold water in the constant temperature reservoir is maintained at a constant temperature by cooling the refrigerator.

Preferably, the circulating pump is controlled by a circulating pump control circuit, and the circulating pump control circuit comprises a thermistor switch SW1 and a relay K1; two ends of the thermistor switch SW1 are respectively connected with two ends of a coil of the relay K1, one end of a power supply is connected with a contact of the relay K1, the other end of the contact of the relay K2 is connected with one end of a circulating pump, and the other end of the circulating pump is connected with the other end of the power supply; the thermistor switch SW1 is arranged under the PE hose of the spring mattress. The on-off of the circulating pump is controlled by the thermistor switch SW1 to ensure that the temperature of the mattress is maintained at a comfortable temperature.

Preferably, the hot water constant temperature heater is controlled by a heater control circuit, and the heater control circuit comprises a switch SW2 and a relay K2, wherein the switch SW2 and the relay K2 are formed by connecting a plurality of thermistor switches in series; two ends of the switch SW2 are respectively connected with two ends of a coil of the relay K2, one end of a contact of the relay K2 is connected with one end of a power supply, the other end of the contact of the relay K2 is connected with one end of a heater, and the other end of the heater is connected with the other end of the power supply; the thermistor switches in the switch SW2 are uniformly distributed under the PE hose of the spring mattress. The switch SW2 composed of thermistor switches controls the heater to be started or not, the thermistor switches are uniformly distributed in the mattress and can detect the temperature of each position of the mattress, when the detected temperature is higher than a threshold value, the thermistor switches are switched off, the heater stops heating, the temperature of the mattress is ensured not to be higher than the threshold value, the skin of a human body is not scalded, the use safety of a user is improved, and the microcirculation of the human body is improved.

Preferably, the PE hose comprises three serpentine PE hoses which are arranged side by side along the width direction, the serpentine PE hoses on two sides are arranged in a meandering manner in the length direction, and the serpentine PE hose in the middle is arranged in a meandering manner in the width direction; the water inlet and the water return port of each PE hose are combined into a total water inlet interface and a total water return interface; and an electric control valve is arranged between the water inlet and the total water inlet interface of each PE hose and between the water return port and the total water return interface of each PE hose. Adopt the setting of this scheme, divide into the three part with the mattress along width direction, can control local temperature, it is more energy-conserving, reduce the waste of the energy, improve the utilization efficiency of the energy.

Preferably, the elastic mattress also comprises a piezoresistor switch; the piezoresistor switches form a 3 x 4 lattice, the piezoresistor switches in each column are connected in parallel, two ends of the parallel piezoresistor switch SW3 are connected with two ends of a coil of the relay K3, one end of a contact of the relay K3 is connected with a power supply, the other end of the contact of the relay K3 is connected with one end of the valve F1.1 and one end of the valve F1.2, and the other ends of the valve F1.1 and the valve F1.2 are connected with the power supply; two ends of the parallel piezoresistor switch SW4 are connected with two ends of a coil of the relay K4, one end of a contact of the relay K4 is connected with a power supply, the other end of the contact of the relay K4 is connected with one ends of the valve F2.1 and the valve F2.2, and the other ends of the valve F2.1 and the valve F2.2 are connected with the power supply; two ends of the parallel piezoresistor switch SW5 are connected with two ends of a coil of the relay K5, one end of a contact of the relay K5 is connected with a power supply, the other end of the contact of the relay K5 is connected with one ends of the valve F3.1 and the valve F3.2, and the other ends of the valve F3.1 and the valve F3.2 are connected with the power supply. The pressure sensitive resistor switch is used for controlling the electric control valve, and the refrigeration or heating of the mattress is locally controlled according to the position of a human body, so that the energy is saved, and the utilization rate of energy is improved.

The utility model has the advantages that:

1. the mattress integrates the functions of heating, refrigerating, antibiosis and spontaneous negative oxygen ions, and has rich functions.

2. The tourmaline negative ion powder, the silver oxide and the titanium dioxide are added into the negative oxygen ion antibacterial blended felt pad, so that the negative oxygen ion antibacterial blended felt pad has the effects of resisting bacteria, sterilizing and spontaneously generating negative oxygen ions, and is suitable for being used by bedridden people for a long time and old people with weak body.

3. The inflatable cavity is inflated to form an inflatable layer, the inflatable layer has a heat insulation function, and the inflatable layer increases the softness of the mattress and is more comfortable to use.

Drawings

Fig. 1 is a structure diagram of a mattress according to the first embodiment.

Fig. 2 is a sectional view of a mattress according to the first embodiment.

Fig. 3 is a connection structure diagram of a water supply circulation system according to the first embodiment.

Fig. 4 is a structure diagram of a mattress according to the second embodiment.

Fig. 5 is a diagram of a lattice connection structure of the piezoresistor of the second embodiment.

In the figure, 1, a mattress, 2, a blended felt mat, 3, a PE hose, 31, a water inlet connector, 32, a water return connector, 4, an air inflation cavity, 5, a water supply circulating system, 6, a circulating module, 61, a circulating pump, 62, a constant-temperature water storage device, 7, a cold-heat exchange module, 71, a hot water constant-temperature heater, 72, a shell and tube exchanger, 73 and refrigeration equipment are arranged.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

The first embodiment is as follows:

a cold and hot anion antibacterial mattress is shown in figure 1 and comprises an elastic mattress 1 and a water supply circulation system 5.

The stretch mattress 1 comprises a surface negative ion antibacterial blended felt pad 2 and an inner snake-shaped PE hose 3.

The anion antibacterial blended felt pad 2 is formed by spinning and weaving blended felt added with 5 percent of tourmaline sub-nanometer negative ion powder, 0.5 percent of silver oxide and 1 percent of titanium dioxide.

The anion generated in the tourmaline anion powder has higher activity, the anion powder has excellent antibacterial and bactericidal functions and strong redox effect, and can destroy the activity of cell membrane or cell protoplasm active enzyme of bacteria, thereby achieving the aim of antibacterial and bactericidal. The negative ion antibacterial blended felt mat is arranged on the surface of the mattress, and the generated negative ions can directly act on the surface of a human body, so that the microcirculation of the human body is improved, and the acting efficiency of the negative ions on the human body is improved.

The silver oxide and the titanium dioxide have the functions of resisting bacteria, removing formaldehyde and the like, the fabric has the effects of resisting bacteria, sterilizing and spontaneously generating negative oxygen ions, and the mattress is suitable for bedridden patients and the old with weak bodies in the old.

The serpentine PE hose 3 comprises a water inlet connection 31 and a water return connection 32. The water inlet interface 31 and the water return interface 32 are respectively arranged on the side surface of the elastic mattress. The water inlet interface 31 is connected with the water supply end of the water supply circulating system 5, and the water return interface 32 is connected with the water return end of the water supply circulating system 5.

The circulating water supply system 5 is used for providing circulating cold water or hot water for the snake-shaped PE hose 3, so that the effects of refrigerating and heating the mattress 1 can be achieved, and the heat radiation of the water is used for carrying out constant-temperature cold and heat, so that the mattress is safer and more environment-friendly; is suitable for the old people who are bedridden for a long time and are weak in the old.

As shown in figure 2, the inside of the stretch mattress 1 also comprises an inflatable cavity 4, and a PE hose 3 is arranged between the inflatable cavity 4 and the anion antibacterial blended felt pad 2. The inflatable cavity is inflated to form an inflatable layer, the inflatable layer has a heat insulation function, and the inflatable layer increases the softness of the mattress and is more comfortable to use.

As shown in fig. 3, the water supply circulation system 5 includes a circulation module 6 and a heat and cold exchanging module 7. The circulating module 6 is respectively connected with the water inlet interface 31 and the water return interface 32; the cold heat exchange module 7 is connected with the circulation module 6.

The circulation module 6 comprises a circulation pump 61 and a constant temperature water reservoir 62. The outlet of the circulating pump 61 is connected with the water inlet interface 31, the inlet of the circulating pump 61 is connected with the upper end of the constant temperature water storage device 62, and the lower end of the constant temperature water storage device 62 is connected with the water return interface 32.

The circulation pump 61 is controlled by a circulation pump control circuit including a thermistor switch SW1 and a relay K1. Two ends of the thermistor switch SW1 are respectively connected with two ends of a coil of the relay K1, one end of a power supply is connected with a contact of the relay K1, the other end of the contact of the relay K2 is connected with one end of the circulating pump 61, and the other end of the circulating pump 61 is connected with the other end of the power supply. A thermistor switch SW1 is provided under PE hose 3 of spring mattress 1.

The on-off of the circulating pump is controlled by the thermistor switch SW1 to ensure that the temperature of the mattress 1 is maintained at a comfortable temperature.

The cold heat exchange module 7 includes a hot water constant temperature heater 71, a shell and tube exchanger 72, and a refrigerating apparatus 73. The lower end of the hot water thermostatic heater 71 is connected with the thermostatic water storage 62 through a valve F2-1, and the upper end of the hot water thermostatic heater 71 is connected with the thermostatic water storage 62 through a valve F2-2. The refrigeration equipment 73 is connected to the shell changer 72 with one end of the shell changer 72 being connected to the thermostatic water reservoir 62 through valve F1-1 and the other end of the shell changer 72 being connected to the thermostatic water reservoir 62 through valve F1-2.

The hot water thermostatic heater 71 is controlled by a heater control circuit comprising a switch SW2 and a relay K2 formed by a plurality of thermistor switches connected in series. Two ends of the switch SW2 are respectively connected with two ends of a coil of the relay K2, one end of a contact of the relay K2 is connected with one end of a power supply, the other end of the contact of the relay K2 is connected with one end of a heater, and the other end of the heater is connected with the other end of the power supply. The thermistor switches in switch SW2 are evenly distributed under PE hose 3 of box spring 1.

A switch SW2, which is composed of a thermistor switch, controls whether the heater is activated or not. In this embodiment, the switch SW2 is formed by connecting three thermistor switches in series, the thermistor switches are uniformly distributed in the mattress, the temperature of each position of the mattress can be detected, when any detected temperature is higher than a threshold value, the thermistor switches are turned off, the heater stops heating, the temperature of the mattress 1 is ensured not to be higher than the threshold value, the skin of the human body is not scalded, and the use safety of the user is improved.

The circulating pump 61 draws constant temperature hot or cold water from the constant temperature reservoir 62, and enters the PE hose 3 in the mattress 1 from the water inlet port 31, and the hot or cold water passes through the serpentine PE hose 3 to heat or cool the mattress by heat radiation. The hot or cold water is returned to the constant temperature reservoir 62 through the return water connection 32, creating a water circuit.

During heating, the valve F2-1 and the valve F2-2 are opened, the valve F1-1 and the valve F1-2 are closed, water enters the hot water constant temperature heater 71 from the constant temperature water storage 62 through the valve F2-1, the water is heated by the hot water constant temperature heater 71, and the hot water returns to the constant temperature water storage 62 through the valve F2-2. The hot water constant temperature heater 71 maintains the hot water in the constant temperature reservoir 62 at a constant temperature.

During cooling, the valve F1-1 and the valve F1-2 are opened, the valve F2-1 and the valve F2-2 are closed, water is sent from the constant temperature reservoir 62 to the shell and tube exchanger 72 through the valve F1-1, the water sent through the shell and tube exchanger 72 is cooled by the cooling apparatus 73, cold water is returned to the constant temperature reservoir 62 through the valve F2-2, and the cooling apparatus 73 keeps the cold water in the constant temperature reservoir 62 at a constant temperature.

Example two:

a cold and hot anion antibacterial mattress is shown in figure 4 and comprises an elastic mattress 1 and a circulating water supply system 5.

The elastic mattress 1 comprises a negative ion antibacterial blended felt pad 2 on the surface and a plurality of snake-shaped PE hoses 3 inside. In this embodiment, there are three serpentine PE hoses 3 arranged side by side in the width direction.

The serpentine PE hoses 3 on both sides are arranged to meander in the longitudinal direction, and the serpentine PE hose 3 in the middle is arranged to meander in the width direction. The water inlet and the water return of each PE hose 3 are respectively combined into a total water inlet interface 31 and a total water return interface 32. And an electric control valve is arranged between the water inlet of each PE hose 3 and the total water inlet connector 31 and between the water return port of each PE hose 3 and the total water return connector 32.

In the figure, a valve F1.1 is arranged between the water inlet of the left PE hose 3 and the main water inlet interface 31, and a valve F2.1 is arranged between the water outlet of the left PE hose 3 and the main water outlet 32.

In the figure, a valve F1.2 is arranged between a water inlet of the middle PE hose 3 and the total water inlet interface 31, and a valve F2.2 is arranged between a water outlet of the middle PE hose 3 and the total water return interface 32; in the figure, a valve F1.3 is arranged between the water inlet of the right PE hose 3 and the total water inlet interface 31, and a valve F2.3 is arranged between the water outlet of the right PE hose 3 and the total water return interface 32.

The spring mattress 1 also comprises a pressure sensitive resistor switch. The voltage dependent resistor switches form a 3 x 4 lattice, and the voltage dependent resistor switches in each column are connected in parallel.

Two ends of the parallel piezoresistor switch SW3 are connected with two ends of a coil of the relay K3, one end of a contact of the relay K3 is connected with a power supply, the other end of the contact of the relay K3 is connected with one ends of the valve F1.1 and the valve F1.2, and the other ends of the valve F1.1 and the valve F1.2 are connected with the power supply.

Two ends of the parallel piezoresistor switch SW4 are connected with two ends of a coil of the relay K4, one end of a contact of the relay K4 is connected with a power supply, the other end of the contact of the relay K4 is connected with one ends of the valve F2.1 and the valve F2.2, and the other ends of the valve F2.1 and the valve F2.2 are connected with the power supply.

Two ends of the parallel piezoresistor switch SW5 are connected with two ends of a coil of the relay K5, one end of a contact of the relay K5 is connected with a power supply, the other end of the contact of the relay K5 is connected with one ends of the valve F3.1 and the valve F3.2, and the other ends of the valve F3.1 and the valve F3.2 are connected with the power supply.

The electric control valve is controlled by using the piezoresistor switch, the piezoresistor switch forms a lattice which is uniformly distributed in the mattress 1, and the refrigeration or heating of the mattress is locally controlled according to the position of a human body; snakelike PE hose 3 divide into three part with mattress 1 along width direction, can control local temperature, and is more energy-conserving, reduces the waste of the energy, improves the utilization efficiency of the energy.

The present embodiment is modified only in the above-mentioned portions, and the other portions are the same as those of the first embodiment.

The utility model discloses a mattress 1 collection heats, refrigerates, antibiotic, spontaneous negative oxygen ion function is integrative, and the function is abundant. The tourmaline negative ion powder, the silver oxide and the titanium dioxide are added into the negative oxygen ion antibacterial blended felt pad 2, so that the negative oxygen ion antibacterial blended felt pad has the effects of resisting bacteria, sterilizing and spontaneously generating negative oxygen ions, and the inflatable cavity 4 is inflated to form an inflatable layer, the inflatable layer has a heat insulation function, the softness of the mattress is improved, and the use is more comfortable; is suitable for the old people who are bedridden for a long time and are weak in the old.

Claims (8)

1. A cold and hot anion antibacterial mattress comprises an elastic mattress (1), and is characterized in that the elastic mattress (1) comprises an anion antibacterial blended felt mat (2) on the surface and an inner snake-shaped PE hose (3); the snake-shaped PE hose (3) comprises a water inlet connector (31) and a water return connector (32), and the water inlet connector (31) and the water return connector (32) are respectively arranged on the side surface of the elastic mattress (1); the water inlet interface (31) and the water return interface (32) are connected with the water supply circulating system (5), the water inlet interface (31) is connected with the water supply end of the water supply circulating system (5), and the water return interface (32) is connected with the water return end of the water supply circulating system (5).

2. A hot and cold anion antibacterial mattress according to claim 1, characterized in that the inside of the elastic mattress (1) further comprises an inflatable cavity (4), and the PE hose (3) is arranged between the inflatable cavity (4) and the anion antibacterial blended felt pad (2).

3. A hot and cold anion antibacterial mattress according to claim 1, characterized in that the water supply circulation system (5) comprises a circulation module (6) and a cold and hot exchange module (7); the circulating module (6) is respectively connected with the water inlet interface (31) and the water return interface (32); the cold and heat exchange module (7) is connected with the circulating module (6).

4. A hot and cold anion antibacterial mattress according to claim 3, characterized in that said circulation module (6) comprises a circulation pump (61) and a constant temperature water reservoir (62); the outlet of the circulating pump (61) is connected with the water inlet interface (31), the inlet of the circulating pump (61) is connected with the upper end of the constant-temperature water storage device (62), and the lower end of the constant-temperature water storage device (62) is connected with the water return interface (32); the cold-heat exchange module (7) comprises a hot water constant-temperature heater (71), a shell and tube exchanger (72) and refrigeration equipment (73); the lower end of the hot water constant temperature heater (71) is connected with the constant temperature water storage device (62) through a valve F2-1, and the upper end of the hot water constant temperature heater (71) is connected with the constant temperature water storage device (62) through a valve F2-2; the refrigeration equipment (73) is connected to the shell and tube exchanger (72), with one end of the shell and tube exchanger (72) connected to the thermostatic water reservoir (62) through valve F1-1 and the other end of the shell and tube exchanger (72) connected to the thermostatic water reservoir (62) through valve F1-2.

5. A hot and cold anion antibacterial mattress according to claim 4, characterized in that the circulating pump (61) is controlled by a circulating pump control circuit, which comprises a thermistor switch SW1 and a relay K1; two ends of the thermistor switch SW1 are respectively connected with two ends of a coil of the relay K1, one end of a power supply is connected with a contact of the relay K1, the other end of the contact of the relay K2 is connected with one end of the circulating pump (61), and the other end of the circulating pump (61) is connected with the other end of the power supply; the thermistor switch SW1 is arranged below the PE hose (3) of the elastic mattress (1).

6. A hot and cold anion antibacterial mattress according to claim 4, characterized in that the hot water thermostatic heater (71) is controlled by a heater control circuit, which comprises a switch SW2 composed of a plurality of thermistor switches connected in series and a relay K2; two ends of the switch SW2 are respectively connected with two ends of a coil of the relay K2, one end of a contact of the relay K2 is connected with one end of a power supply, the other end of the contact of the relay K2 is connected with one end of a heater, and the other end of the heater is connected with the other end of the power supply; the thermistor switches in the switch SW2 are uniformly distributed under the PE hose (3) of the elastic mattress (1).

7. A hot and cold anion antibacterial mattress according to claim 1, characterized in that the PE hose (3) comprises three serpentine PE hoses (3) arranged side by side in the width direction, the serpentine PE hoses (3) at both sides are meandering in the length direction, and the serpentine PE hose (3) at the middle is meandering in the width direction; the water inlet and the water return port of each PE hose (3) are combined into a total water inlet interface (31) and a total water return interface (32); and an electric control valve is arranged between the water inlet of each PE hose (3) and the total water inlet connector (31) and between the water return port of each PE hose (3) and the total water return connector (32).

8. A hot and cold anion antibacterial mattress according to claim 7, characterized in that the elastic mattress (1) further comprises a piezoresistor switch; the piezoresistor switches form a 3 x 4 lattice, the piezoresistor switches in each column are connected in parallel, two ends of the parallel piezoresistor switch SW3 are connected with two ends of a coil of the relay K3, one end of a contact of the relay K3 is connected with a power supply, the other end of the contact of the relay K3 is connected with one end of the valve F1.1 and one end of the valve F1.2, and the other ends of the valve F1.1 and the valve F1.2 are connected with the power supply; two ends of the parallel piezoresistor switch SW4 are connected with two ends of a coil of the relay K4, one end of a contact of the relay K4 is connected with a power supply, the other end of the contact of the relay K4 is connected with one ends of the valve F2.1 and the valve F2.2, and the other ends of the valve F2.1 and the valve F2.2 are connected with the power supply; two ends of the parallel piezoresistor switch SW5 are connected with two ends of a coil of the relay K5, one end of a contact of the relay K5 is connected with a power supply, the other end of the contact of the relay K5 is connected with one ends of the valve F3.1 and the valve F3.2, and the other ends of the valve F3.1 and the valve F3.2 are connected with the power supply.

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