CN211511191U - Multifunctional intelligent pad - Google Patents

Abstract

The utility model discloses a multi-functional intelligent pad, include: the multifunctional intelligent cushion comprises an intelligent cushion body, an operating and controlling system and a power supply system, wherein the operating and controlling system is used for operating the multifunctional intelligent cushion and comprises a control device and an operation terminal, and the power supply system is used for supplying power to the multifunctional intelligent cushion; the intelligent cushion body comprises a semiconductor cold and hot panel and/or a functional layer, the functional layer comprises one or more of an air flow layer, a fan layer or an air flow layer, the air flow layer comprises a heating device, and the fan layer and the air flow layer each comprise a fan; the semiconductor cold and hot panel with between the functional layer, in the functional layer between each layer all can dismantle the connection, the intelligence fills up the body and still includes warm and humid sensor. The utility model has the detachable and assembled layers, which more conveniently and comprehensively meets the user requirements and is easy to be popularized; the intelligent degree is high, and the control mode is convenient and flexible.

Description

Multifunctional intelligent pad

Technical Field

The utility model belongs to the daily necessities field especially relates to a multi-functional intelligent pad.

Background

With the improvement of living standard of people, health equipment has been getting hot in recent years. In 2003, the world health organization pointed out that over 200 million people died of sedentary life every year worldwide, and it was expected that by 2020, 70% of the diseases would be caused by sitting too long, and sedentary life was therefore listed as one of ten fatal, pathogenic killers. Therefore, it is a focus of people to keep sitting healthy and reduce the burden on the body due to sedentary sitting. Therefore, people have higher and higher requirements on the seat cushion, and have more and more requirements on the function of the seat cushion.

The existing cushion with the ventilation and heat dissipation functions cannot give consideration to heating and refrigeration, the fan operation modes are simple, the fan operation modes are uniform, and the adopted fan operation principles are also uniform, such as the fan blowing principle. All fan principles and operation modes are factory set uniformly and cannot be operated separately, and the requirements of all users cannot be met due to the fact that the temperature conditions of different parts of a human body are inconsistent. And the size of the cushion can not give consideration to users with different requirements. In addition, the cushion is fixed on the automobile seat, the chair or the sofa, etc. and the installation and the disassembly are troublesome; the heating and refrigerating functions of the cushion are rigid and insensitive, and cannot be regulated and controlled according to the real-time environment. Meanwhile, the existing cushion is not easy to clean and is difficult to ensure health and hygiene after long-time use.

Disclosure of Invention

To the above problem, the utility model provides a multi-functional intelligent pad has heating refrigeration concurrently and takes out/the function of blowing, takes out/the position of blowing is nimble, and has healthy physiotherapy function, and intelligent degree is high, and the installation is dismantled conveniently, has the function such as the mite that removes that disinfects.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a multi-functional intelligent pad, include: the multifunctional intelligent cushion comprises an intelligent cushion body, an operating and controlling system and a power supply system, wherein the operating and controlling system is used for operating the multifunctional intelligent cushion and comprises a control device and an operation terminal, and the power supply system is used for supplying power to the multifunctional intelligent cushion; the intelligent cushion body comprises a semiconductor cold and hot panel and/or a functional layer, the functional layer comprises one or more of an air flow layer, a fan layer or an air flow layer, the air flow layer comprises a heating device, and the fan layer and the air flow layer each comprise a fan; the semiconductor cold and hot panel with between the functional layer, in the functional layer between each layer all can dismantle the connection, the intelligence fills up the body and still includes warm and humid sensor.

Preferably, the connection modes between the semiconductor cold-hot panel and the functional layer and between each layer in the functional layer include: stacking and sticking connection, zipper connection or 180-degree turnover connection.

Through the preferred scheme, the semiconductor cold and hot panel and the functional layer and the layers in the functional layer can be freely disassembled and assembled, so that different functions can be combined.

Preferably, the multifunctional intelligent cushion further comprises a wet air flow supply device, the wet air flow supply device is connected with the intelligent cushion body through a pipeline, and the wet air flow supply device comprises a liquid container layer, a temperature and humidity sensor and an upper drainage layer or a 360-degree peripheral drainage layer; the liquid container layer comprises a liquid container and a semiconductor cold and hot panel arranged in the liquid container and used for refrigerating or heating liquid in the liquid container.

More preferably, a solar power supply device is arranged outside the side surface of the liquid container.

Preferably, the upper convection layer sequentially comprises a first pneumatic layer, a first spacer layer and a first airflow circulation layer, the periphery of the first pneumatic layer is sealed, a pneumatic side-by-side door is arranged at the upper end of the first pneumatic layer, a fan inside the first pneumatic layer is a convection fan, the first spacer layer is provided with air holes, the periphery of the first airflow circulation layer is provided with the air holes, airflow enters the first pneumatic layer from the first airflow circulation layer through the air holes of the first spacer layer when the convection fan is pneumatic, the airflow is discharged through the pneumatic side-by-side door with the upper end opened outwards by pneumatic, the airflow circulation of the upper convection layer is adjusted and controlled by adjusting and controlling the closing degree of the side-by-side door, the airflow does not flow outwards when the pneumatic side-by-side door is closed, and the upper end of the upper convection layer is connected with the intelligent pad body through a pipeline; the 360-degree peripheral drainage layer sequentially comprises a second pneumatic layer, a second partition layer and a second airflow circulation layer, the upper end of the second pneumatic layer is sealed, air holes are formed in the periphery of the second pneumatic layer, a fan in the second pneumatic layer is a 360-degree drainage fan, the second partition layer is provided with air holes, the periphery of the second airflow circulation layer is provided with air holes, airflow enters the second pneumatic layer from the second airflow circulation layer through the air holes in the second partition layer and is discharged through the peripheral air holes when the 360-degree drainage fan is operated by wind, and any side surface of the periphery of the 360-degree peripheral drainage layer is connected with the intelligent cushion body through a pipeline; the upper end of the liquid container layer is provided with a pneumatic split door, the periphery and the bottom of the liquid container layer are sealed, the liquid container layer adjusts and controls the air flow circulation through adjusting and controlling the closing degree of the pneumatic split door, and the air flow does not flow outwards when the pneumatic split door is closed.

Preferably, when the functional layers include an airflow layer, a fan layer and an airflow layer, the semiconductor cold-hot panel is respectively located between the airflow layer and the fan layer and between the fan layer and the airflow layer, the different functions include:

1) the air draft refrigeration function is realized by setting the fans in the fan layer and the airflow layer into an air draft mode, discharging the heat absorbed by the airflow layer to the airflow layer through the fans in the fan layer and then discharging the heat by the fans in the airflow layer;

2) the fan layer and the fans in the airflow layer are set to be in a blowing mode, the fans in the airflow layer absorb outside air flow and blow the outside air flow into the fan layer, and then the fan layer blows the air flow out of the airflow layer;

3) the cold air flow refraction refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow and performing cold air flow refraction on heat by the cold air flow;

4) the wet cold airflow flowing refrigeration function is realized by operating the refrigeration function of a semiconductor cold and hot panel in the wet airflow supply device to refrigerate the liquid in the liquid container, so that the wet airflow supply device generates wet cold airflow, discharging the wet cold airflow into the intelligent cushion body through a pipeline connected with the intelligent cushion body, and discharging the wet cold airflow through the intelligent cushion body;

5) the pneumatic wet cold air flow refrigeration function is realized by operating the refrigeration function of a semiconductor cold and hot panel in the wet air flow supply device to refrigerate liquid in a liquid container, so that the wet air flow supply device generates wet cold air flow, discharging the wet cold air flow to the inside of the intelligent cushion body through a pipeline connected with the intelligent cushion body, and absorbing the wet cold air flow in the intelligent cushion body through the air draft of a fan in a fan layer and blowing the wet cold air flow out through an air outlet of the fan;

6) the pneumatic cold air blowing refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow, blowing air by the fan in the fan layer and blowing the cold air flow in the panel out through the air flow layer;

7) the pneumatic cold air supply refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow, exhausting air by the fan in the fan layer, absorbing the cold air flow generated by the panel and blowing the cold air flow out of the air flow layer;

8) the static heating function is realized by operating a heating device in the airflow layer;

9) the hot air flow refracts the heating function, produce the hot air flow to realize through the heating function of operating the cold and hot faceplate of semiconductor;

10) the hot and humid air flow flows and heats, the liquid in the liquid container is heated by operating the heating function of a semiconductor cold and hot panel in the hot and humid air flow supply device, so that the hot and humid air flow supply device generates hot and humid air flow, the hot and humid air flow is discharged into the intelligent cushion body through a pipeline connected with the intelligent cushion body, and the hot and humid air flow is discharged through the intelligent cushion body;

11) the pneumatic damp-heat airflow heating function is realized by operating the heating function of a semiconductor cold and hot panel in the damp-heat airflow supply device to heat liquid in a liquid container, so that the damp-heat airflow supply device generates damp-heat airflow, discharging the damp-heat airflow to the inside of the intelligent cushion body through a pipeline connected with the intelligent cushion body, and blowing out the absorbed damp-heat airflow through an air flow layer by a fan in a fan layer in the intelligent cushion body;

12) the pneumatic hot air blowing heating function is realized by operating the heating function of the semiconductor cold and hot panel to generate hot air flow and blowing the hot air flow in the panel out of the air flow layer through the fan in the fan layer;

13) the pneumatic hot air supply heating function is realized by operating the heating function of the semiconductor cold and hot panel to generate hot air flow and blowing out the absorbed hot air flow through the air flow layer by the fan in the fan layer;

14) the constant temperature pad has the moisturizing function, the operation of the internal functional device is controlled through the control system, and the corresponding temperature and humidity are set and adjusted through the temperature and humidity sensor to realize the moisturizing function.

Through above-mentioned preferred scheme, can realize different functions through the combination of different functional device, and then, the different demands of satisfying the user that can be better.

Preferably, the wet gas flow supplying device further comprises a gas sensor for detecting the concentration of the gas generated inside the wet gas flow supplying device and transmitting the detection signal to the manipulation system.

Preferably, the wind current layer is also provided with a physiotherapy function module, and the physiotherapy function module comprises one of a red/ultraviolet lamp group, a vibration function module, an electromagnetic physiotherapy function module, a pulse physiotherapy function module or a microwave physiotherapy function module.

Through this preferred scheme, make intelligent pad have multiple physiotherapy function, satisfy the user to healthy demand.

Preferably, each fan in the fan layer and the airflow layer can be synchronously and individually controlled to realize a plurality of operation schemes and control of the blowing/exhausting mode, the operation schemes include operation according to a preset rotating speed or temperature interval, and the control mode of the blowing/exhausting mode includes: the fan layer or the airflow layer is changed by changing the rotation direction of a fan impeller, changing the positive and negative directions of the fan or turning the fan, and the fans in the fan layer and the airflow layer are both detachably and movably mounted.

More preferably, an airflow channel is arranged between the fans in the fan layer or the airflow layer, and the fans and the airflow channel form an airflow partition.

Through this preferred scheme, can make the air current smoothly circulate, also effectual solved the air current that the circulation is not smooth and led to the fact collide produced backward flow and the produced noise scheduling problem of air current collision.

Preferably, the airflow layer further comprises a storage container, an opening of the storage container is communicated with the fan, and one or more of an aromatherapy product, an acarus killing product, a purification product or a refreshing product is arranged in the storage container.

More preferably, the gas flow layer further comprises a gas sensor for detecting the concentration of the gas generated inside the gas flow layer and transmitting a detection signal to the manipulation system to control the opening and closing of the storage container opening.

With this preferred solution, various types of products in the storage container act through volatilization and fan/blow-off, and can be based on the gas sensor to realize the regulation of gas concentration.

Preferably, the power supply system includes a direct current power supply system or a wireless induction power supply system, the wireless induction power supply system includes a plurality of electromagnetic induction power supply unit, and is a plurality of the electromagnetic induction power supply unit sets up respectively intelligence fills up the side of body and/or control system for realize 360 degrees all-round induction power supply.

Preferably, the power supply system comprises a solar power supply device which is arranged on the side surface of the intelligent pad body or externally connected with the intelligent pad body.

Through above-mentioned preferred scheme, this multi-functional intelligent pad can realize the power supply of multiple mode, conveniently carries, uses in different occasions.

Preferably, the control device with through electric connection or wireless connection between the operation terminal, the control device with through electric connection or wireless connection between the intelligent pad body, the operation terminal set up in intelligent pad body side or independently set up in outside the intelligent pad body for receive control command and convey the control device is in order to realize the control to multi-functional intelligent pad function.

More preferably, the mode of acquiring the control instruction by the multifunctional intelligent pad includes voice control, operation of an operation terminal and touch screen operation.

Through above-mentioned preferred scheme, this multi-functional intelligent pad can realize the multi-functional operation to intelligent pad through the multiple mode of controlling.

Preferably, the control system further comprises an automatic identification system, wherein the automatic identification system comprises one or more of a human body pressure identification system, an ultrasonic fingerprint identification system, a voice identification system, a limb action identification system, a code scanning identification system, a human body distance identification system or an infrared human face identification system.

Through this preferred scheme, this multi-functional intelligent pad can adopt multiple identification mode, provides different permissions for the user.

Preferably, the intelligence fills up the body surface and is equipped with the bleeder vent, the big or small shape of bleeder vent is the same or different, the regional inner zone and the outer zone of following the center to the periphery of bleeder vent on the horizontal surface of intelligence pad body, the airflow of outer zone bleeder vent is greater than the airflow of inner zone bleeder vent.

Through this preferred scheme, can design the ventilative airflow in intelligence pad surface according to the user demand of difference, more comfortable and guarantee every position comfort equilibrium when can let user and the position refrigeration that intelligence pad contacted, heat or humidification.

Preferably, the peripheral side of the intelligent cushion body is provided with an expansion part for expanding the use area of the intelligent cushion body.

Through this preferred scheme, can fill up the usable floor area that the size was adjusted to intelligence according to the user, and then, can satisfy the people's of different sizes user demand, satisfy different sizes user's comfortable experience.

Preferably, the intelligent pad body is further provided with a fixing device for fixing the intelligent pad body, the fixing device comprises:

a first non-slip mat, or

The adjustable anti-skid device comprises a second anti-skid pad and an adjustable fixing band, wherein an adjusting hole is formed in the outer side of the second anti-skid pad, and the adjustable fixing band penetrates through the adjusting hole to fix the second anti-skid pad;

the top of first slipmat or the second slipmat all with the bottom of intelligence pad body is connected, and connected mode is including stacking paste connection or zip fastener connection, first slipmat or the bottom of second slipmat all is equipped with anti-skidding portion, antiskid portion includes anti-skidding line, burr or vacuum adsorption device.

Through this preferred scheme, can be applied to different fields with intelligent pad and can prevent the landing of intelligent pad in the use.

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

1. the utility model provides a cold and hot panel of semiconductor can the exclusive use, also can use with other functional layer cooperations, and each functional layer also exclusive use and use in combination dismantle the equipment nimble, the function is various, more convenient and comprehensive user demand that satisfies, easily popularization.

2. The utility model provides a multifunctional intelligent cushion which has multiple functions compared with the cushion with single function on the market, wherein, the functions of blowing and exhausting air are both provided, thus meeting different requirements and favorite users; the heating and air supplying functions provide good dehumidifying and drying functions and hot compress and blood circulation activating functions. The fans are arranged flexibly and the operation efficiency is high.

3. The utility model provides a pair of multi-functional intelligence pad has the air current layer on the fan layer, be equipped with airflow channel in the air current layer between the fan, form the air current subregion, the smooth and easy circulation of effectual solution air current, also the effectual produced backward flow of air current collision that leads to that the air current circulation is smooth and the produced noise scheduling problem of air current collision of having solved.

4. The utility model provides a pair of multi-functional intelligent pad except heating and fan function, still can have functions such as pulse physiotherapy, infrared ray physiotherapy, microwave physiotherapy, hot compress physiotherapy, electromagnetic massage, infrared massage, vibrations massage, can effectually alleviate human fatigue, alleviate the pressure that the health sat for a long time, very be favorable to the health.

5. The utility model provides a pair of multi-functional intelligent pad still can have the champignon function, remove mite function, air-purifying function and the function of refreshing oneself of clearing away the heart fire.

6. The utility model provides a pair of multi-functional intelligence fills up intelligent degree height, operation terminal can be with the remote control unit of intelligence pad looks adaptation or load have with the mobile terminal of intelligence pad looks adaptation app can pronunciation acoustic control, bluetooth control, operation terminal direct control, and control mode is convenient nimble.

7. The utility model provides a pair of multi-functional intelligent pad still can be equipped with fixing device, is fixed in sofa, chair etc. with fixing device, and intelligence pad is direct to be connected with fixing device, does not need other extra modes, only need during the dismantlement take up can, the using-way is very simple and convenient, humanized, and intelligence pad is fixed dismantlement convenient, is convenient for clear up and remove.

8. The utility model provides a pair of multi-functional intelligence pad has very extensive application prospect, for example, can use in any products that have above-mentioned function demand such as sofa, chair (seat, back chair, car chair etc.), mattress, knapsack, cushion or cushion, also can be used to have the clothing field of heating refrigeration demand.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional smart mat according to the first embodiment.

Fig. 2 is a logic diagram of a multifunctional intelligent mat control system according to the first embodiment.

Fig. 3 is a schematic structural diagram of a multifunctional intelligent mat according to the second embodiment.

Fig. 4 is a schematic structural diagram of a convection fan according to the second embodiment.

Fig. 5 is a logic diagram of a multifunctional intelligent mat control system according to the second embodiment.

Fig. 6 is a schematic structural view of a discharge fan according to the third embodiment.

Fig. 7 is a schematic structural view of an axial flow fan according to the third embodiment.

Fig. 8 is a schematic structural diagram of a multifunctional intelligent mat according to the third embodiment.

Fig. 9 is another schematic structural diagram of the multifunctional intelligent mat according to the third embodiment.

Fig. 10 is a logic diagram of a multifunctional intelligent mat control system according to the third embodiment.

Fig. 11 is a schematic structural diagram of a multifunctional intelligent mat according to the fourth embodiment.

Fig. 12 is another schematic structural diagram of the multifunctional intelligent mat according to the fourth embodiment.

Fig. 13 is another schematic structural diagram of the multifunctional smart mat according to the fourth embodiment.

Fig. 14 is a schematic structural diagram of a multifunctional intelligent mat according to the fifth embodiment.

FIG. 15 is a schematic structural view of a wet air stream supply apparatus according to the seventh embodiment.

FIG. 16 is another schematic view of the wet airflow supply device according to the seventh embodiment.

FIG. 17 is a schematic view showing a structure of a liquid container in the wet airflow supply apparatus according to the seventh embodiment.

Fig. 18 is a schematic structural diagram of a multifunctional intelligent mat according to the seventh embodiment.

FIG. 19 is a logic diagram of an operation system of the wet air stream supplying apparatus according to the seventh embodiment.

Fig. 20 is a schematic view of the arrangement of the air holes of the multifunctional intelligent pad in the eighth embodiment.

Fig. 21 is a schematic view of a multi-functional intelligent cushioned laminar airflow partition according to the eighth embodiment.

Fig. 22 is a schematic structural view of an expansion portion of a multifunctional intelligent mat according to an eleventh embodiment.

Fig. 23 is another schematic structural diagram of an expansion portion of a multifunctional intelligent mat according to the eleventh embodiment.

Fig. 24 is another schematic structural diagram of an extended portion of a multifunctional intelligent mat according to the eleventh embodiment.

Fig. 25 is another schematic structural diagram of an extended portion of a multifunctional intelligent mat according to the eleventh embodiment.

Fig. 26 is a schematic structural view of a vacuum suction device at the bottom of the multifunctional intelligent mat non-slip mat according to the twelfth embodiment.

Fig. 27 is a schematic view of different types of non-slip patterns on the bottom of the non-slip mat of the multifunctional intelligent mat according to the twelfth embodiment.

Fig. 28 is a schematic diagram of a multi-functional smart mat securing strap tie described in example twelve.

Fig. 29 is a schematic structural view of different types of fixing straps for a multifunctional intelligent mat according to the twelfth embodiment.

Wherein the content of the first and second substances,

11. an air flow layer 1101, a heating device;

21. a fan layer 2101, convection fans, 2111, double-S convection fans, 2112, single-S convection fans, 2113, single-C convection fans, 2114, and double-C convection fans;

31. an airflow layer, 311, an exhaust fan, 3111, a double-S-shaped 360-degree exhaust fan, 3112, a double-C-shaped 360-degree exhaust fan, 3113, a single-C-shaped 360-degree exhaust fan, 3114, a double-C-shaped multifunctional single-exhaust fan, 312 and 90-degree straight axial fans, 313 and 180-degree straight axial fans, 314 and 90-degree folded axial fans;

41. a wind flow layer; 42. a fan layer; 43. an air flow layer;

51. a wind flow layer 5101 and a heating device; 52. a fan layer; 53. an air flow layer;

71. the upper drainage layer, the 7101, the first pneumatic layer, the 7111, the C-type pneumatic split door, the 7112, the convection fan, the 7102 and the first airflow circulation layer; 72. the wind-driven layer comprises a 360-degree peripheral drainage layer, 7201, a second wind-driven layer, 7211, 360-degree drainage fans, 7202 and a second airflow circulation layer; 73. a liquid container layer, 7301, an S-shaped pneumatic split door, 7302 and a solar power supply plate; 74. air holes are formed;

81. an airflow layer 811, air holes 8101, an airflow central area 8102, an airflow peripheral area 8103 and an airflow diffusion area;

111. an intelligent pad body; 112. an expansion section; 113. a zipper;

121. non-slip mat 1211, adjusting holes 1212 and vacuum chuck; 122. fixing belts; 123. anti-skid protrusions; 124. a binding band, 1241, an interface device, 1242, a magnetic button/snap fastener, 1243, a magnetic button/snap fastener corresponding component, 1244, a hook and loop surface of a magic tape, 1245 and a hair surface of the magic tape.

Detailed Description

For a better understanding of the present invention, the contents of the present invention will be further clarified below with reference to the accompanying drawings and examples, but the present invention is not limited to the following examples.

In the description of the present invention, it is noted that the terms "first", "second", and the like in the description and claims of the present open-cut open-seam and the above-mentioned drawings are used for distinguishing similar objects and not necessarily for describing a particular order or sequence. It is to be understood that the data so used may be interchanged under appropriate circumstances for purposes of describing the embodiments of the invention herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The utility model mainly provides a multi-functional intelligent pad mainly includes: intelligent pad body, control system and power supply system, wherein:

the intelligent pad body can include the cold and hot panel of semiconductor, and/or the functional layer, and the functional layer includes one or more in air current layer, fan layer or the air current layer again, and this intelligent pad body still includes warm and humid sensor, and warm and humid sensor can be used to detect the temperature and the humidity that intelligent pad body is close to human position to with real-time data transmission to control system, and then the user can be according to temperature and humidity that real-time temperature humidity regulation and control intelligent pad body provided.

The control system is used for realizing the control of the functions of the intelligent cushion body and mainly comprises a control device and an operation terminal, wherein the control device is electrically or wirelessly connected with the operation terminal, and the control device is electrically or wirelessly connected with the intelligent cushion body. The control device can be arranged on the operation terminal or independently arranged inside the intelligent pad body, and the operation terminal can be arranged on the side face of the intelligent pad body or independently arranged outside the intelligent pad body and used for receiving a control instruction. When the operation terminal is arranged on the side surface of the intelligent pad body, the control device is electrically connected with the operation terminal, and the operation terminal can be any existing part capable of realizing the functions, such as a key or a touch screen; when operation terminal set up outside intelligent pad body, wireless connection between controlling means and the operation terminal, operation terminal can be with intelligent pad looks adaptation remote control unit or load the mobile terminal who has with intelligent pad looks adaptation app.

The smart mat may obtain the user control instructions by:

(1) voice activated (direct control): every operation equipment all is equipped with pronunciation acoustic control module in the intelligence fills up the body, can draw and distinguish sound information, changes sound information into user control instruction to transmit user control instruction to controlling means. And the received reply signal can be converted into voice playing to inform the user of the reply of the specific function. Therefore, a user can directly control the switch and other functional instructions of each operating device in the intelligent pad body in a voice control mode.

(2) Operation terminal wireless connection control (indirect control): each running device in the intelligent pad body is provided with a wireless transmission module, such as a Bluetooth module or a WIFI module, and the control device is connected with the operation terminal through the wireless transmission module. The user can control the switch of the intelligent pad and other functional instructions in the intelligent pad in a wireless connection mode through the operation terminal.

(3) Operation terminal wired connection control (indirect control): each operation equipment is connected with operation terminal electricity in the intelligence fills up the body, and operation terminal is connected with controlling means electricity, and the user directly controls switch intelligence pad and other functional instruction in the intelligence pad through setting up button or touch-sensitive screen on operation terminal.

The power supply system is used for supplying power to the intelligent cushion body and the control system, and can comprise a direct current power supply system or a wireless induction power supply system:

when the direct current power supply system scheme is adopted, the power supply system is in a wired connection mode, power supply transmission functions are carried out through the connected power lines, for example, the intelligent pad can be externally connected with 220V alternating current, and the internal power supply voltage of the intelligent pad does not exceed the human body safety voltage of 36V. Be equipped with rechargeable battery in the intelligence pad, when the intelligence pad connects external power source, partly electric current supplies the intelligent pad body to use, and another part charges for the battery to use when no external power source.

When adopting wireless induction power supply system, power supply system includes a plurality of electromagnetic induction power supply unit, and be the receiving coil in the electromagnetic induction power supply unit, the receiving coil setting is at intelligent pad body and/or control system's medial surface, for example, when intelligent pad body/control system is the cube, all be equipped with the receiving coil on the inside 6 faces of intelligent pad body/control system to can realize 360 degrees every position induction charging. The power supply system is also internally provided with a plurality of electromagnetic induction power supply devices, the electromagnetic induction power supply devices are internally provided with power transmission coils, the power transmission coils are connected with a chip processor of the power supply system, and the power transmission coils are arranged on the inner side of the wireless induction power supply devices, for example, when the power supply system is a cube, the power transmission coils are arranged on 6 surfaces in the power supply system, so that 360-degree contact between each position and the intelligent pad body and/or the control system can be realized, and wireless induction charging and power supply can be realized.

The electromagnetic induction power supply technology has certain requirements on the range of the approach distance between the power supply end and the power receiving end, when the approach distance is in a specific range, the electromagnetic induction power supply can be realized, and when the approach distance range exceeds the specific distance range, the electromagnetic induction transmission power supply charging can not be realized. In order to realize long-distance wireless induction power supply, a power supply system is connected with an electromagnetic induction power supply device in a wired connection mode, a power transmission coil and a chip processor are arranged in the electromagnetic induction power supply device, and the chip processor is connected with the power transmission coil. The specific implementation mode of the power supply system for supplying power to the intelligent pad body and/or the control system is as follows:

first, the current in the power supply system is transmitted to the power transmission coil in the electromagnetic induction power supply device through the connection wire with the electromagnetic induction power supply device to generate a magnetic field, i.e., electromagnetic energy.

Secondly, the intelligent pad body and/or the control system generate current within a certain range close to a receiving coil in the electromagnetic induction power supply device, namely, the electromagnetic energy is converted into direct current to supply power and charge the intelligent pad.

In addition, the power supply system can also comprise an external solar power supply system which can be matched with a direct current power supply system or a wireless induction power supply system to supply power to the intelligent pad. Specifically can be with solar energy power supply system with intelligent pad body electricity be connected (can set up in intelligence pad body side or external in intelligence pad main part, when arranging solar energy power supply system in sunshine in, solar energy power supply system can fill up the power supply for intelligence, fills up because of solar energy power supply system external intelligent, consequently does not influence the use that intelligent was filled up simultaneously in the solar energy power supply.

It is to be understood that the following embodiments (and other possible alternatives/modifications) all employ the above-described power and manipulation schemes, as not specifically illustrated. The following embodiments differ primarily in differences between the functions, structures, or combinations thereof of the smart mat body, which may be, for example, a semiconductor hot and cold panel; a functional layer (a wind flow layer/a fan layer/an airflow layer, or a wind flow layer + a fan layer/a fan layer + an airflow layer, or a wind flow layer + a fan layer + an airflow layer); a semiconductor cold and hot panel and a functional layer (a wind flow layer/a fan layer/an airflow layer, or a wind flow layer + a fan layer/a fan layer + an airflow layer, or a wind flow layer + a fan layer + an airflow layer); the functional layer (wind flow layer/fan layer/airflow layer, or wind flow layer + fan layer/fan layer + airflow layer, or wind flow layer + fan layer + airflow layer) + moisture supply device; semiconductor cold and hot panel + moisture supply device; semiconductor cold and hot panel + functional layer (wind current layer/fan layer/air current layer, or wind current layer + fan layer/fan layer + air current layer, or wind current layer + fan layer + air current layer) + moisture supply device.

Example one

The multifunctional intelligent cushion of the embodiment, as shown in fig. 1, the intelligent cushion body includes an airflow layer 11, the airflow layer 11 includes a heating device 1101 for heating the intelligent cushion body, the heating device may adopt heating wires or other known components, and the intelligent cushion body is made of breathable material. When the user uses this intelligence pad, all can experience the heating function at the health position with the contact of intelligence pad, experience the efficiency of releiving and relaxing.

The airflow layer 11 may be further provided with a physiotherapy function module, the physiotherapy function module may include one of a red/ultraviolet lamp set, a vibration device, an electromagnetic physiotherapy device, a pulse physiotherapy device or a microwave physiotherapy device, and the red/ultraviolet lamp set, the vibration device, the electromagnetic physiotherapy device, the pulse physiotherapy device or the microwave physiotherapy device may all adopt existing commercially available components.

When the airflow layer 11 comprises the infrared lamp set, the infrared lamp set is connected with the control system. The heat generated in the infrared lamp set is utilized to carry out physical therapy on the user. The specific principle can pierce through to the skin deep level for the comfortable heat that infrared ray produced, promotes blood circulation and warm muscle, through pacifying the muscle, can make muscle soft and relax naturally, simultaneously, promotes blood circulation and helps letting the health exhaust impurity, carries the blood that is rich in oxygen to the muscle fast. The intelligent pad has the infrared physiotherapy function at this moment.

When the airflow layer 11 comprises the ultraviolet lamp group, the ultraviolet lamp group is connected with the control system. The heat generated in the ultraviolet lamp set and the emitted ultraviolet rays are utilized to kill harmful bacteria in the intelligent pad, so that a user can use the intelligent pad which is more sanitary and safe. At this moment, the intelligent pad has an ultraviolet sterilization function.

When the wind current layer 11 comprises a vibration device, the vibration device is connected with the control system. At the moment, the intelligent cushion has a vibration massage function.

When the airflow layer 11 comprises the electromagnetic physiotherapy device, the electromagnetic physiotherapy device is connected with the control system. The intelligent pad has the electromagnetic physiotherapy function at this moment.

When the airflow layer 11 comprises the pulse physiotherapy device, the pulse physiotherapy device is connected with the control system. The intelligent pad has the pulse physiotherapy function at this moment.

When the airflow layer 11 comprises the microwave physiotherapy device, the microwave physiotherapy device is connected with the control system. The intelligent pad has the microwave physiotherapy function at this moment.

As shown in fig. 2, the air current layer 11 is controlled by the first controller, the air current layer 11 further includes a temperature and humidity sensor, the temperature and humidity sensor is used for detecting the temperature and humidity of the portion, close to the human body, of the air current layer 11, and transmitting real-time data to the operation terminal and the first controller, so that a user can query the real-time temperature and humidity at the operation terminal, and the first controller can control the heating device according to the real-time temperature and humidity. After receiving the user control instruction, the operation terminal transmits the control instruction to the first controller through electrical connection or wireless transmission, and the first controller performs logical operation according to a preset program, thereby controlling the heating device 1101 or other devices.

Example two

The difference between the present embodiment and the first embodiment is that, as shown in fig. 3, the smart mat body includes a fan layer 21, and the fan layer 21 includes a fan. The fan of the fan layer 21 is a convection fan 2101, and the convection fan 2101 is disposed at the center inside the fan layer 21. The convection fan 2101 is a 360-degree convection fan, and a double S-type convection fan 2111, a single S-type convection fan 2112, a single C-type convection fan 2113, a double C-type convection fan 2114, or the like may be used as shown in fig. 4, but is not limited thereto. The effect of blowing and exhausting air differently can be achieved by changing the direction of the fan, disassembling the fan and changing the direction or overturning the fan layer 21.

As shown in fig. 5, the fan layer is controlled by the second controller, the fan layer further includes a temperature and humidity sensor, the temperature and humidity sensor is used for detecting the temperature and humidity of the fan layer, and transmits real-time data to the operation terminal and the second controller, so that a user can query the real-time temperature and humidity at the operation terminal, and the second controller can control the fan according to the real-time temperature and humidity. And after receiving the user control instruction, the operation terminal transmits the control instruction to the second controller through electric connection or wireless transmission, and the second controller performs logic operation according to a preset program so as to control the rotation direction and the rotation speed of the fan.

EXAMPLE III

The present embodiment is different from the embodiment in that, as shown in fig. 8, the smart mat body includes an airflow layer 31. Airflow layer 31 includes a fan. The fans include a drainage fan 311 and an axial flow fan, the drainage fan 311 is disposed at the center of the inner portion of the airflow layer, and the axial flow fan is disposed at the periphery of the inner portion of the airflow layer. An airflow passage is provided between the exhaust fan 311 and the axial flow fan. The airflow channel can effectively solve the problems of smooth airflow circulation, backflow caused by airflow collision due to unsmooth airflow circulation, noise caused by airflow collision and the like.

At this moment, the intelligent cushion body has the functions of blowing and air draft, and the airflow layer has the effects of exhausting airflow flowing inside the multifunctional cushion and transmitting external airflow to the inside of the multifunctional cushion at most. The drainage fan, the airflow channel and the axial flow fan form an airflow wind area (namely, a wind-driven airflow guide channel, the same applies below), so that the air draft and the air exhaust of the fan are smoother, and the air blowing and air draft efficiency of the airflow layer is improved.

As shown in fig. 6, the exhaust fan 311 may be selected from a dual S-type 360-degree exhaust fan 3111 as an impeller, a dual C-type 360-degree exhaust fan 3112 as an impeller, a single C-type 360-degree exhaust fan 3113 as an impeller, or a dual C-type multifunctional single exhaust fan 3114 as an impeller.

As shown in fig. 7, the axial flow fan may be a 90-degree straight axial flow fan 312, a 180-degree straight axial flow fan 313, or a 90-degree folded axial flow fan 314. The axial flow fan has various arrangement and combination modes, and can be used independently or in various combinations.

Referring to fig. 8, taking the air draft mode of the smart mat as an example, at this time, the airflow layer absorbs the airflow discharged by the fan layer and discharges the absorbed airflow to the periphery, and the arrows indicate the airflow direction, in this embodiment, the axial fans are a 90-degree straight axial fan 312 and a 180-degree straight axial fan 313, and the airflow layer discharge fan 311, the 90-degree straight axial fan 312, the 180-degree straight axial fan 313 and the airflow channel form an airflow wind zone.

As shown in fig. 9, taking the blowing mode of the smart mat as an example, at this time, the airflow layer absorbs the external airflow and discharges the absorbed airflow to the human body above the smart mat, the arrows indicate the airflow direction, the axial fans are 90-degree straight axial fans 312, 180-degree straight axial fans 313 and 90-degree folded axial fans 314, at this time, the drainage fan 311 is disposed at the center of the inside of the airflow layer, and the axial fans are disposed at the periphery of the outside of the airflow layer. The airflow laminar discharge fan 311, the 90-degree straight axial flow fan 312, the 180-degree straight axial flow fan 313, the 90-degree folded axial flow fan 314 and the airflow channel form an airflow wind zone.

The airflow layer further comprises a storage container, one or more of an aromatherapy product, a mite removing product, a purification product or a refreshing product is/are arranged in the storage container, and the aromatherapy product, the mite removing product, the purification product or the refreshing product can be purchased from the market according to specific needs, and is not limited herein. The opening and closing of the storage container opening are also controlled by the control system. At the moment, the intelligent pad has the functions of aromatherapy, mite removal, air purification or heart fire clearing and refreshing.

As shown in fig. 10, the air flow layer is controlled by a third controller. The air flow layer further comprises a gas sensor and a temperature and humidity sensor, the gas sensor is used for detecting the gas concentration of the aromatherapy product, the mite removing product, the purification product or the refreshing product in the storage container and transmitting real-time data to the operation terminal and the third controller, the temperature and humidity sensor is used for detecting the temperature and the humidity of the air flow layer and transmitting the real-time data to the operation terminal and the third controller, so that a user can inquire the real-time temperature and humidity at the operation terminal, and the third controller can control the fan and the gas concentration according to the real-time temperature and humidity. And after receiving the control instruction, the operation terminal transmits the control instruction to a third controller through electric connection or wireless transmission, and the third controller performs logic operation according to a preset program so as to control the rotation of the fan and control the opening and closing of the opening of the storage container. If, the third controller receives the instruction that operation terminal opened the champignon function, and the control is opened the storage container who holds the champignon product, and when the fan started, the champignon smell distributes, and the user can experience the champignon function to according to actual hobby, adjustable (for example control storage container opening size) suitable champignon concentration.

Example four

The difference between this embodiment and the first to third embodiments is that, as shown in fig. 11, 12 and 13, the intelligent pad body includes two layers, i.e., an airflow layer 41 and a fan layer 42, an airflow layer 41 and an airflow layer 43, or a fan layer 42 and an airflow layer 43, and the structure and function of each layer can be referred to in the foregoing embodiments. Airflow layer 41 is positioned above fan layer 42 or airflow layer 43, and airflow layer 43 is positioned below fan layer 42.

When the intelligent control system is used, the operation terminal receives a control instruction, the control instruction is transmitted to the first controller, the second controller and the third controller through electric connection or wireless transmission, and each controller carries out logic operation according to a preset program so as to control the opening and the operation of each layer of functions.

The connection scheme between airflow layer 41, fan layer 42, and airflow layer 43 may be any one of the following schemes or other non-fixed connection schemes.

(1) Stacked adhesive attachment

The front and the back of each layer of the intelligent cushion are respectively provided with a connecting device such as a magic tape, a magnetic buckle or a snap fastener, when the layers are combined, the connecting devices such as the magic tape, the magnetic buckle or the snap fastener arranged on one layer are correspondingly matched and connected with the connecting devices such as the corresponding matched magic tape, the magnetic buckle or the snap fastener arranged on the other layer, so that the connection between the layers of the intelligent cushion can be realized.

(2) Zip fastener connection

All be equipped with connecting device such as zip fastener around each layer of intelligence pad, each layer combination is filled up to intelligence, only needs to fill up the zip fastener all around between each layer with intelligence and mate the connection, can realize the connection between each layer of intelligence pad.

(3)180 degree flip connection

Each layer side is filled up to intelligence is equipped with rotatable activity fixing device, and each layer both sides of intelligence pad all are equipped with, the magic is pasted, connecting device such as magnetism knot or snap-fastener for fill up each layer with intelligence and connect, produce swing and aversion scheduling problem between each layer to intelligence when avoiding the user to use intelligence to fill up, influence the user and use experience.

During the use, the user can adopt clockwise or anticlockwise mode to fill up each layer of intelligence after the combination and carry out the convertible mode of 180 degrees and carry out the intelligence and fill up and switch between each layer, fills up certain one deck of intelligence of needs and switches out through this kind of mode, after having switched, fills up each layer with the intelligence and carries out connecting device such as magic subsides, magnetism knot or snap-fastener and connect.

EXAMPLE five

The difference between this embodiment and the first to fourth embodiments is that, as shown in fig. 14, the intelligent pad body includes three layers, i.e., an air flow layer 51, a fan layer 52, and an air flow layer 53, the air flow layer 51 is located above the fan layer 52, and the air flow layer 53 is located below the fan layer 52, and the structure and function of each layer can be referred to in the foregoing embodiments. When the heating device 5101 and the fan operate simultaneously, the intelligent mat has a drying and dehumidifying function. And the airflow layer 53 is positioned below the fan layer 52, so that the fan layer 52 is away from the horizontal plane for a certain distance, and therefore the air suction and blowing of the fan layer 52 are smoother, and the efficiency is higher.

When the intelligent control system is used, the operation terminal receives a control instruction, the control instruction is transmitted to the first controller, the second controller and the third controller through electric connection or wireless transmission, and each controller carries out logic operation according to a preset program so as to control the opening and the operation of each layer of functions.

EXAMPLE six

The difference between this embodiment and the first to fifth embodiments is that the intelligent mattress body can be an independent semiconductor cold and hot panel, or any combination of the semiconductor cold and hot panel and other functional layers, and the connection and fixation of the semiconductor cold and hot panel and each layer of the intelligent mattress body are movable, so that the intelligent mattress can be freely assembled and disassembled by a user, and the intelligent mattress body can also be connected by stacking and adhering, zippering or 180-degree overturning. The semiconductor cold and hot panel is two surfaces, one surface is a refrigerating surface, the other opposite surface is a heating surface, and the refrigerating and heating surfaces are air holes and ventilation type, and the panel can be selected from the existing known products. The air hole design of the semiconductor cold and hot panel is convenient for air flow to flow, when the semiconductor cold and hot panel is used for refrigeration or heating, cold air flow or hot air flow can be generated, at the moment, when the semiconductor cold and hot panel is simply combined with a fan layer or an air flow layer for use, wind driving can be performed through the air flow layer or a fan in the fan layer, the function of supplying warm air or blowing warm air is realized, and the air flow can flow through the air hole in the semiconductor cold and hot panel; when the air flow layer is assembled for use, different heating and refrigerating modes can be provided.

The refrigerating surface of the semiconductor cold and hot panel can be provided with a fan which is movably connected, and the fan can accelerate the refrigerating effect of the refrigerating surface in a pneumatic mode.

At this time, the intelligent pad can achieve the purpose of cooling or heating. The control device controls the power-on or the closing of the semiconductor cold and hot panel.

EXAMPLE seven

The difference between this embodiment and the first to sixth embodiments is that the intelligent mattress further comprises a wet air flow supply device, and the wet air flow supply device is connected with the intelligent mattress body through a pipeline and can provide cold air flow, wet air flow or hot air flow for the intelligent mattress body.

As shown in fig. 15 and 16, the wet gas stream supply means comprises a pair of an upper drainage layer 71 and a liquid containment layer 73 or a 360 degree peripheral drainage layer 72 and a liquid containment layer 73; fans are arranged inside the upper drainage layer 71 and the 360-degree peripheral drainage layer 72, and the liquid container layer 73 comprises a liquid container and a semiconductor cold and hot panel which is arranged inside the liquid container and used for refrigerating or heating liquid in the liquid container.

To last drainage blanket 71 include first pnematic layer 7101, first wall and first air current circulation layer 7102 in proper order, to going up drainage blanket 71 first pnematic layer 7101 sealed all around, the upper end is equipped with C type pnematic to opening door 7111, and C type pnematic to opening door 7111 leans on fan pnematic blowing wind-force to blow open and upwards exhaust air current, to going up drainage blanket 71 through adjusting and control C type pnematic to opening door 7111 closed degree regulation and control air current circulation, and the air current does not flow outward when C type pnematic to opening door 7111 is closed. The convection fan 7112 is arranged in the first air-driven layer 7101 and is used for carrying out air-driven absorption on air flow generated inside the liquid container layer 73 and discharging the air flow through the upper part of the functional layer; the first spacer layer is provided with air flow holes (not shown in the figures, which are not specifically limited, and only can realize air circulation between the upper layer and the lower layer), the air holes 74 are arranged around the first air flow circulation layer 7102, when the convection fan 7112 is operated, external air flow can be absorbed to the air flow circulation layer through the air holes in the first air flow circulation layer, vacuum is not formed, air flow, namely wind power, can be generated when the fan is operated, the S-shaped pneumatic split door 7301 of the liquid container layer 73 can be opened through pneumatic operation when the fan is operated, at the moment, the air flow in the liquid container layer 73 can flow and converge to the first air flow circulation layer 7102, namely, the fan in the first pneumatic layer 7101 absorbs the converged air flow in the air flow circulation layer, the air flow is absorbed to the first pneumatic layer 7101 through the fan in the first pneumatic layer 7101, the liquid container layer 73 is discharged from the upper end of the first pneumatic layer 7101, the air flow is adjusted and controlled through adjusting and controlling the closing degree of the S-shaped, when the S-shaped pneumatic side-by-side door 7301 is closed, air flow does not flow out; when this wet air current feeding device passes through the pipeline intercommunication with intelligent pad body, the upper end accessible pipeline of first pnematic layer 7101 fills up this body coupling with intelligence.

The 360-degree peripheral drainage layer 72 sequentially comprises a second pneumatic layer 7201, a second separation layer and a second airflow circulation layer 7202, the upper end of the 360-degree peripheral drainage layer 72 is sealed and can be made of a sealed airtight material, air holes 74 are formed in the periphery of the 360-degree peripheral drainage layer, the air holes are used for discharging airflow through the periphery, the second separation layer is provided with airflow holes (not shown in the figure, the airflow holes are not specifically limited and can realize the air circulation between an upper layer and a lower layer), the 360-degree peripheral drainage fan 7211 is arranged in the second pneumatic layer 7201 and is used for performing pneumatic absorption on the airflow generated in the liquid-layer container and discharging the airflow through the periphery of the functional layer, the air holes 74 are formed in the periphery of the second airflow circulation layer 7202, when the 360-degree peripheral drainage fan 7211 is used, the external airflow can be absorbed through the air holes in the layer to the airflow circulation layer, vacuum cannot be formed, and the fan can have wind flow, namely wind, when the fan is pneumatic, the S-shaped pneumatic side-by-side door 7301 of the liquid container layer 73 can be opened through pneumatic operation, at the moment, airflow in the liquid container layer 73 can be circulated and converged to the airflow circulation layer, namely, the fan in the second pneumatic layer 7201 pneumatically absorbs the converged airflow in the airflow circulation layer, and the converged airflow is pneumatically absorbed to the second pneumatic layer 7201 through the fan in the second pneumatic layer 7201 and is discharged through air holes around the second pneumatic layer 7201; when the wet air flow supply device is communicated with the intelligent pad body through a pipeline, any side surface of the periphery of the second pneumatic layer 7201 can be connected with the intelligent pad body through the pipeline.

As shown in fig. 17, an S-shaped pneumatic side-by-side door 7301 is disposed above the liquid container layer 73, the S-shaped pneumatic side-by-side door 7301 protects the air flow in the liquid container layer 73 from flowing to the outside, the S-shaped pneumatic side-by-side door 7301 is opened by the wind force of the fan, and the container layer is designed for containing liquid such as water, i.e. the periphery and the bottom are sealed to prevent the liquid from flowing out.

The C-type pneumatic split door 7111 and the S-type pneumatic split door 7301 are fixed on the upper drainage layer 71 or the liquid container layer 73 in the same fixing mode, namely, two ends of the pneumatic split door are respectively connected with two ends of the first pneumatic layer 7101 or the liquid container layer 73 through fixing devices capable of rotating 90 degrees or 180 degrees, the split door is convenient to open, and after pneumatic operation is stopped, the fixing devices at two ends of the pneumatic split door can restore the pneumatic split door to the original position, namely, the pneumatic split door is closed. The fixing device can be a spring, 90-degree upward opening or 180-degree upward opening (outward) and downward opening (inward) are realized through the pulling force of the spring, and after pneumatic operation is stopped, the pneumatic split door is restored to the original position through the pulling force of the spring, namely, the split door is closed.

Of course, the opening and closing manner of the openings of each layer is not limited to the above-mentioned split doors, and other feasible schemes can be adopted as long as similar functions can be satisfied. Furthermore, it will be appreciated that in the above combination, a partially hollow space is provided for the bottom of both the upper drainage layer 71 and the 360 degree peripheral drainage layer 72, so that the S-shaped pneumatic hinged door 7301 of the liquid container layer 73 therebelow has sufficient space to open and close.

The layers of the wet air flow supply device can be combined in a simple combination mode, and the connection between every two layers is movable and can be assembled and disassembled. There are two combinations as follows:

1. as shown in fig. 15, the wet air flow supply device includes an upper counter-drainage layer 71 and a liquid container layer 73, and at this time, the air flow formed by the wet air flow supply device can be transmitted to the inside of the intelligent pad body only through a pipeline at the top of the first air-operated layer 7101, so as to cool, heat and humidify the contact part between the human body and the intelligent pad, and realize the functions of cooling, heating and humidifying the human body.

2. As shown in fig. 16, the wet air flow supply device includes a 360-degree peripheral drainage layer 72 and a liquid container layer 73, at this time, any one side of the periphery of the second pneumatic layer 7201 of the wet air flow supply device is connected with the intelligent cushion body through a pipeline, a part of formed air flow is transmitted to the inside of the intelligent cushion body, and the contact part between the human body and the intelligent cushion is cooled, heated, humidified, and the like, and the other part of air flow is directly circulated to the outside through the air holes on the remaining side surface, that is, the environment where the human body is located, so as to cool, heat, humidify, and the like other parts of the human body, and more comprehensive cooling, heating, humidifying, and the like effects can be provided.

The wet air flow supply device formed by the 2 different combinations brings different comfortable experiences to the user, meets the requirements of more different users, really realizes humanization and individuation, and realizes multiple use experiences for the user.

In addition, a solar power supply plate 7302 can be arranged outside the side surface of the liquid container to realize solar power supply. The solar power supply plate 7302 can automatically identify renewable resource energy sources such as solar energy, ultraviolet rays, infrared rays and visible light, and convert the renewable resource energy sources into electric energy for power supply. When the solar power supply panel 7302 does not recognize the renewable resource energy signal or the renewable resource energy amount is lower than the minimum power supply value set by the power supply program, the power supply system will automatically start the direct current power supply or self-contained power storage power supply mode, that is, perform power supply by other energy sources.

Preferably, a temperature and humidity sensor is provided outside and inside the wet air flow supply device. The temperature and humidity sensor is arranged outside the wet airflow supply device and is used for detecting the temperature and the humidity of the air outside the wet airflow supply device; the temperature and humidity sensor arranged in the wet air flow supply device is arranged in the liquid container layer 73 and has two functions, namely, the temperature sensor is used for respectively detecting the temperature of liquid such as water and the like in the container before and after refrigeration and heating; the second mode is used for detecting safe humidity, because the inside of the container is filled with liquid such as water, when the semiconductor cold and hot panel is opened, when the heating function is operated, the liquid such as water and the like in the container can be heated until the liquid is dried, the safety problem is generated, in order to avoid the accident, a drying data, namely the safe humidity data, is set in the program, when the humidity detection data is lower than the safe humidity value, namely the temperature and humidity sensor sends a feedback instruction, and after the fourth controller receives the feedback instruction, the semiconductor cold and hot panel is stopped to operate, namely the heating is stopped, so that the final safety is guaranteed.

As shown in fig. 18, the intelligent cushion includes an intelligent cushion body, a wet air flow supply device, a power supply system and an operation system, the intelligent cushion body further includes an air flow layer 72, a fan layer 73, an air flow layer 74 and semiconductor cold and hot panels 75 respectively located between the air flow layer 72 and the fan layer 73 and between the fan layer 73 and the air flow layer 74, the power supply system can supply power to the intelligent cushion body, the wet air flow supply device and the operation system, and the operation system can control various functions of the intelligent cushion body and the wet air flow supply device.

As shown in fig. 19, the wet air flow supplying means is controlled by the fourth controller. And after receiving the control instruction, the operation terminal transmits the control instruction to the fourth controller through electric connection or wireless transmission, and the fourth controller performs logic operation according to a preset program to perform refrigeration or heating of the semiconductor cold and hot panel. The wet air stream supply means may be provided with a fragrance product, a purification product or a refreshing product within its liquid container layer 73. The wet gas flow supply device further comprises a gas sensor for detecting the gas concentration of the aromatherapy product, the purification product or the refreshment product.

It should be noted that the above is only an exemplary description when the wet air flow supply device is used in combination with each functional layer of the intelligent pad body, and based on the function of the wet air flow supply device, the device may also be used alone, serving as a humidifier, an aromatherapy device, and the like, and accordingly, a power supply system and an operation system may be equipped separately.

At this moment, through the function combination to this internal each operation equipment of intelligence pad, can make the refrigeration of intelligence pad heat more in a flexible way, the function is abundant, if:

1. air draft refrigeration: the fans in the fan layer and the airflow layer are set to be in an air draft mode, heat generated by a human body above the air flow layer is sucked away, the heat is discharged to the airflow layer through the fans in the fan layer, and then the heat is discharged to the outside of the functional pad through the fans in the airflow layer, so that the cooling effect of the air draft principle of the human body is achieved.

2. Air blowing refrigeration: the fan layer and the fans in the airflow layer are set to be in a blowing mode, the fans in the airflow layer absorb air flow outside the intelligent cushion and blow into the fan layer, then the air flow is blown out of the fan layer to a human body above the airflow layer, and heat generated by the human body is blown away through flowing airflow, so that the refrigeration effect of the blowing principle of the human body is achieved.

3. Cold airflow refraction refrigeration (static refrigeration pad): the semiconductor cold and hot panel in the functional cushion operates the refrigeration function, and after the semiconductor cold and hot panel operates the refrigeration function, the panel can generate cold air flow, and the cold air flow refracts the cold air flow to heat, namely heat flow generated by a human body, so that the human body refrigeration effect is achieved.

4. Wet cold airflow flow refrigeration: the semiconductor cold and hot panel in the wet air flow supply device operates a refrigeration function, so that the wet air flow supply device generates wet and cold air flow, the wet and cold air flow is discharged into the intelligent cushion body through the pipeline connected with the intelligent cushion body and is discharged through the intelligent cushion body, and the wet and cold air flow flows to a human body above the intelligent cushion body due to the flowability of the wet and cold air flow and the air permeability of the intelligent cushion body, so that the refrigeration effect of flowing of the human body cold air flow is achieved.

5. Pneumatic wet-cold airflow refrigeration: the cold and hot panel operation refrigeration function of semiconductor through among the wet air current feeding device makes the wet air current feeding device produce wet cold air current, again by with this body coupling's of intelligent pad pipeline discharges wet cold air current to intelligent pad body inside, again by fan operation convulsions mode in the fan layer with the inside cold air current absorption of multi-functional pad rethread fan outlet blow the human body of wind current layer top to reach human pnematic cold air current refrigeration efficiency.

6. Pneumatic cold air blowing refrigeration: the cold air flow is blown to the human body above the air flow layer by operating the refrigeration function in the multifunctional pad semiconductor cold and hot panel and blowing the cold air flow to the human body by the fan blowing principle in the fan layer, so that the effect of pneumatically blowing cold air to the human body is achieved.

7. Pneumatic cold air supply refrigeration: the cold air flow is absorbed by the cold air flow generated by the panel through the cooling function in the multifunctional cushion layer semiconductor cold and hot panel, and then the cold air flow in the panel is blown to the human body above the air flow layer through the air outlet of the fan in the fan layer, so that the effect of pneumatic cold air supply and cooling for the human body is achieved.

8. Static heating: when the heating device in the air flow layer is operated, the human body sits above the air flow layer and contacts with the hot air flow generated by the heating device in the air flow layer, so that the effect of statically heating the human body is achieved.

9. Hot air flow refraction heating (static heating): by operating the heating function of the semiconductor cold and hot panel in the functional cushion, hot air can be generated by the panel after the heating function of the cold and hot panel is operated, so that the heating effect of a human body is achieved.

10. Wet hot air flow heating: the semiconductor cold and hot panel in the wet air flow supply device operates a heating function to heat liquid in the liquid container, so that the wet air flow supply device generates wet hot air flow, and the wet hot air flow is discharged to the inside of the intelligent cushion body through a pipeline connected with the intelligent cushion body.

11. Wind-driven moist-heat airflow heating: through the cold and hot panel operation heating function of semiconductor among the wet air current feeding device, heat the liquid in the liquid container, make wet air current feeding device produce wet hot air current, again by with this body coupling's pipeline is filled up with wet hot air current discharge to intelligent this body inside, is filled up the inside fan operation convulsions mode of body to intelligent inside wet hot air current absorption rethread fan air outlet and blows the human body of wind current layer top again by intelligent to reach human pnematic wet hot air current and heat the efficiency.

12. Wind-driven hot air blowing heating: the hot air is generated by operating the heating function in the multifunctional pad semiconductor cold and hot panel, and then the hot air is blown to the panel by the fan blowing principle in the fan layer, so that the hot air in the panel is blown to the human body above the air flow layer, and the effect of pneumatically blowing hot air to heat the human body is achieved.

13. Wind-driven hot air supply heating: the hot air is generated by operating the heating function in the multifunctional pad semiconductor cold and hot panel, then the hot air is sucked by the panel through the air suction principle of the fan in the fan layer to absorb the hot air, and then the hot air in the panel is blown to the human body above the air flow layer through the air outlet of the fan in the fan layer, so that the effect of pneumatic hot air supply and heating for the human body is achieved.

14. Moisturizing the constant-temperature pad: because be equipped with functional device such as fan, the cold and hot panel of semiconductor, heating device, temperature and humidity sensor, humid air current feeding device in the intelligence pad body, user's accessible control system controls the operation of functional device in the intelligence pad body, and the temperature and the humidity of corresponding efficiency such as refrigeration, heating, physiotherapy, humidification of rethread temperature and humidity sensor setting adjustment carry out the operation of controlling to reach the most comfortable temperature or the humidity operation that the functional device adjusted according to the user, finally in order to reach the comfortable experience that the user adjusted.

Although not illustrated, the functional mat that can be realized by any other possible manner is within the scope of the present application.

Example eight

The difference between this embodiment and the first to seventh embodiments is that the air flow layer, the fan layer and the air flow layer are provided with air holes 811 on the outer surface. The size and shape of the air holes are the same or different, the structure of the air holes can be C-shaped, S-shaped or strip-shaped, and the arrangement mode can be C-shaped, S-shaped, lattice-shaped, vertical, acoustic wave-shaped or annular, as shown in FIG. 20. Of course, the figures are only some examples, and any combination may be made by one skilled in the art.

Because fan layer, air current layer and with fan layer or air current layer combined use's fan suction opening or air outlet center are the wind current strongest, in order to let central wind current homodisperse scope bigger, this application has still designed the air current dispersion district. The suction/blowing force is generated by utilizing a fan 360-degree rotation mode of a fan with a fan layer or an airflow layer positioned at the center, the suction/blowing is carried out in the direction of 360 degrees by taking a fan air opening as a central point, and the suction/blowing force is stronger when the distance from the central point (the fan opening) is closer, namely the suction/blowing flow is stronger. Conversely, the farther away from the fan opening, the correspondingly weaker the suction/blowing force, i.e., the correspondingly weaker the suction/blowing flow, and the correspondingly weaker the effect on the human refrigeration.

When a human body sits on the intelligent cushion, the refrigerating effect felt by the human body part above the fan opening is strongest, and the human body part far away from the fan opening is weakened in the refrigerating effect, so that the experience degree of the refrigerating effect for the human body is uneven, and the human body comfort level is not comfortable. Therefore, the area where the air holes are formed in the horizontal outer surface of the intelligent pad body can be divided into an inner area and an outer area from the center to the periphery, and the air flow of the air holes in the outer area is larger than that of the air holes in the inner area. That is, the airflow stratification is divided according to the size or the number of the airflow flowing through the airflow hole. For the same size of the airflow holes, airflow layering can be divided according to the size of the airflow holes; the airflow layers can be divided according to the airflow quantity flowing through the airflow holes when the airflow holes are different in shape.

Taking the wind flow layer as an example, the upper surface of the wind flow layer is divided into three areas according to the flowing speed of the airflow. As shown in fig. 21, three circles with radii from small to large are sequentially divided outwards by taking the center of the air flow layer 81 as a circle center, at this time, the upper surface of the air flow layer 81 is sequentially provided with an air flow central area 8101, an air flow peripheral area 8102 and an air flow diffusion area 8103 from inside to outside, and air holes in the three areas are gradually increased from small to large. The air flow central area 8101 has the strongest suction/blowing force and the highest air flow, in order to uniformly disperse the air flow of the air flow central area 8101 to the air flow peripheral area 8102, the area has the smallest air flow hole, the air flow peripheral area 8102 has larger air flow holes, and when the fan wind force cannot normally suck/blow force in the air flow central area 8101, the suction/blow force is dispersed to the air flow peripheral area 8102. The airflow diffusion area 8103 is similar in that the airflow holes of the airflow diffusion area 8103 are larger than those of the airflow peripheral area 8102. The three airflow zones finally realize the uniform dispersion of the fan airflow, namely the human body refrigeration effect is more uniform, so that the comfortable experience of the human body refrigeration effect is achieved.

Similarly, when the wind flow layer is used independently, the hot air flow generated by the heating device also forms an air flow partition on the outer surface. When a human body sits above the intelligent cushion, the heating effect felt by the human body part above the heating device is strongest, and the heating effect is weakened by the human body part far away from the heating device, so that the air flow partition is arranged on the outer surface of the air flow layer, and the upper surface is an air flow central area, an air flow peripheral area and an air flow diffusion area from inside to outside in sequence.

Example nine

The difference between this embodiment and the second to eighth embodiments is that each fan in the fan layer and the airflow layer can be controlled not only synchronously but also independently, so as to realize multiple operation schemes.

For example, the fan operating speed setting may employ the following scheme:

1. presetting a certain rotating speed for operation:

(1) the method is characterized in that the rotating speed and the running mode are preset in advance for all fans, and after the intelligent pad is started, all fans run continuously or discontinuously according to the preset rotating speed or the fixed/variable ratio of temperature change.

(2) The rotation speed and the operation mode of the fans are preset aiming at the fans positioned at different positions or aiming at each fan, and after the intelligent cushion is started, all the fans operate according to the preset rotation speed or continuously or discontinuously operate according to the temperature change fixed/variable proportion.

2. Presetting a certain temperature interval:

(1) a certain temperature interval is preset in advance for all fans, and after the intelligent pad is opened, the fans all run at corresponding running speeds set according to corresponding temperature intervals when the detected temperatures are different. Or when the detected temperature value is lower than the set temperature range or within the set temperature range, the fan stops running, and when the detected temperature value is higher than the set temperature range, the fan runs.

(2) After the intelligent cushion is opened, each fan runs at a corresponding running speed set according to the corresponding temperature interval when the detected temperature is in different temperature intervals. Or when the detected temperature value is lower than the set temperature range or within the set temperature range, the fan stops running, and when the detected temperature value is higher than the set temperature range, the fan runs.

Because the temperature conditions of different parts of a human body are different, the refrigerating is more flexible due to the scheme that the rotating speed of each fan can be independently controlled, a user can set the rotating speed or the operating temperature range of each fan according to actual requirements, and the personalized satisfying experience of the user is realized in a real sense.

For another example, the fan blowing air draft mode setting scheme is as follows:

1. all fans are blowing or convulsions mode, and after the intelligent pad was opened, all fans acquiesce for blowing or convulsions mode.

The user can uniformly switch all the fan blowing/exhausting modes according to the preference. The switching scheme is as follows:

(1) MCU chips are arranged in all the fans, and the operating magnetic field is changed by controlling the operating currents of the multi-stage motors in all the fans through the MCU chips, so that the forward and reverse rotation switching of the fans is realized, and the blowing/exhausting mode is further changed.

(2) Fan is movable dismantles and the equipment in the intelligence pad, and the fan change direction is dismantled to the accessible, and then changes and blow/convulsions the mode.

(3) The blowing/exhausting mode is directly and physically changed by turning over the used fan layer or airflow layer.

2. To the fan that is located different positions or blow/convulsions mode to each fan setting, after intelligent pad is opened, all fans acquiesce for blowing or convulsions mode, and the user can switch the blowing/convulsions mode of each fan according to hobby. The switching scheme is as above.

Fan adoption in the intelligence pad in the market is that single fan or a plurality of fan are all one blow/convulsions are used, can not satisfy more users actual need like this and experience, consequently, we adopt more different mode combination modes, satisfy more different user experience and feel.

For example, there are 4 fans, and the fan is named 1 number, 2 number, 3 number, 4 number respectively, and wherein 1 number, 3 numbers are convulsions principle operation fan, and 2 numbers, 4 numbers are bloies principle operation fan, and the user can carry out the combination operation between the fan between the syntropy operation principle or between the opposite operation principle fan. For example, the user can perform the combined operation of 2 different operation principles, i.e., the opposite principle fans, of No. 1 (draft principle fan) and No. 4 (blowing principle fan). The user can also carry out the combination operation of 2 fans with the same-direction operation principle of No. 1 and No. 3 or No. 2 and No. 4. And 3 fans can simultaneously operate, but a user can control the operation mode of each fan to be different.

When the fan layer or the airflow layer is combined with the airflow layer for use, the refrigeration and heating functions are considered, the operation scheme can be combined with the heating, and the refrigeration and heating can meet the actual needs of more users. For example, when a user presets a certain temperature or a temperature interval, after the intelligent pad is started, the fan runs at a corresponding running speed set by the corresponding temperature interval according to the detected temperature in different temperature intervals, and the heating device runs at a set heating power. Or when the detected temperature value is lower than the set temperature interval, the fan stops running, and the heating device heats; when the detected temperature value is within the set temperature range, the fan and the heating device stop running; when the detected temperature value is higher than the set temperature value interval, the fan operates, and the heating device stops operating.

Example ten

The difference between this embodiment and the first to ninth embodiments is that the control system may further include an automatic identification system, the automatic identification system may intelligently identify the user, and turn on the intelligent pad, and each functional device in the intelligent pad may automatically operate according to the program setting, and the identification mode and the operation function may be switched. The automatic identification system achieves the use effect that the user can use more conveniently, quickly, simply and humanizedly by identifying the automatic start of the user, and meanwhile, the use safety protection of the user can be realized, namely, the user can only use the intelligent cushion by himself, and other people cannot use the intelligent cushion. The automatic identification system can be combined by one or more of the following systems, and the following identification modes can be set and switched by a client.

(1) Infrared ray face identification system: the principle of operation is to convert the face signal into a response or control signal. The infrared face recognition system comprises an infrared scanning device, and the infrared scanning device is arranged on the operation terminal and is convenient for scanning the face. When the intelligent cushion is used for the first time, the infrared scanning equipment takes face information through face scanning, and the taken information is transmitted to a client information database in the control device to be stored. When the user uses face recognition next time, the infrared scanning equipment carries out face scanning to obtain face information, the obtained face information is transmitted to the client information database to be checked, after the face information is successfully checked, the intelligent pad is started, and the intelligent pad directly enters a set program to run.

(2) Voice recognition system (speech audio recognition system): the principle of operation is to convert the speech audio signal into a response or control signal. The voice recognition system comprises audio processing equipment, and the audio processing equipment is arranged on the operation terminal and is convenient for collecting audio. When the intelligent pad is used for the first time, the audio processing equipment takes language audio information and transmits the information to the client information database in the control device for storage. When the user uses the voice recognition next time, the voice frequency processing equipment carries out language voice frequency to acquire language voice frequency information, the acquired language voice frequency information is transmitted to the client information database to be checked, after the language voice frequency information is successfully checked, the intelligent pad is started, and the intelligent pad directly enters a set program to run.

(3) Ultrasonic fingerprint identification system: the principle of operation is to convert the fingerprint signal into a response or control signal. The ultrasonic fingerprint identification system comprises a fingerprint panel used for taking fingerprint information, and the fingerprint panel is arranged on the operation terminal, so that fingerprints can be collected conveniently. When using intelligent pad for the first time, ultrasonic detection equipment carries out fingerprint information and takes in the fingerprint panel, will take and store in information transmission to controlling means client information database. When the user uses fingerprint identification next time, the ultrasonic detection equipment in the fingerprint panel carries out fingerprint collection and acquires fingerprint information, and transmits the fingerprint information who acquires to client information database and checks, and after fingerprint information checked successfully, opens intelligent pad, and intelligent pad directly gets into the program operation of setting for.

(4) Human pressure identification system: the operation principle is that the intelligent cushion is adjusted to be opened and closed through human body pressure or gravity signals. The human body pressure recognition system comprises a pressure sensor, and the pressure sensor is arranged inside or on the upper surface of the intelligent pad. After pressure sensor in the intelligent pad experienced human pressure, can produce pressure signal and transmit for controlling means, controlling means discerns stable pressure signal and opens intelligent pad operation promptly, leaves intelligent pad when the human body, and pressure sensor can not experience human pressure in the intelligent pad, and pressure signal disappears, and controlling means closes intelligent pad operation.

(5) The limb action recognition system comprises: the principle of operation is to convert a limb movement signal into a response or control signal. The limb action recognition system comprises scanning equipment, and the scanning equipment is arranged on the operation terminal. The scanning equipment takes the limb action information and transmits the taken information to the client information database in the control device for storage. When a user uses the limb action recognition next time, firstly, the scanning equipment scans the limb action to obtain the limb action information, the obtained limb action information is transmitted to the client information database for checking, after the limb action information is successfully checked, the intelligent pad is started, and the intelligent pad directly enters a set program to run.

(6) Sweep a yard identification system: the operation principle is to convert the two-dimension code information into a control signal. The control device is internally provided with an intelligent opening and closing program, the program is displayed in a two-dimensional code mode, the program is applied to opening and closing the operation mode of the intelligent pad, and a user can use the mobile terminal equipment to perform code scanning mode to identify the operation and the closing of the intelligent pad. After the intelligent pad is opened, the intelligent pad directly enters the set program to run.

(7) Human body distance identification system: the human body distance recognition system comprises a distance sensor, and the distance sensor is arranged inside or on the upper surface of the intelligent pad. When a human body enters a certain distance range of the intelligent pad (namely, the distance sensor), the distance sensor can send a signal to the control device, the control device opens the intelligent pad, and the intelligent pad is opened and operated according to a set program. When the human body leaves the intelligent cushion, the intelligent cushion is closed.

EXAMPLE eleven

The difference between the first embodiment and the tenth embodiment is that the peripheral side of the intelligent pad body can be provided with an expansion part, and the intelligent pad body enlarges the using area of the intelligent pad by connecting the expansion part, so that different requirements of a user on the size of the intelligent pad are met. The expansion part and the intelligent pad body can be connected through the following three schemes:

(1) stacking and pasting type simple combination: as shown in fig. 22, the expansion portion 112 is a whole, and the connection and fixation can be achieved by arranging a fastening connection device such as a hook and loop fastener, a magnetic fastener, a hidden fastener at the connection position of the intelligent pad body 111 and the expansion portion 112, or arranging a zipper around the intelligent pad and the expansion portion 112 for stacking and adhering.

(2) Splicing type simple combination: extension portion 112 is four independent structures, can set up magic subsides, magnetism knot, hidden button, fixed connection devices such as zip fastener in four independent structure sides of intelligence pad body 111 and extension portion 112, carries out the concatenation mode and realizes connecting fixedly. As shown in fig. 23, the simple assembly is shown in a splicing manner when the connecting device is fixed by the selected zipper 113.

(3) Folding simple combination: the expansion part 112 is fixed as an organic whole with intelligent pad, and the expansion part 112 sets up around intelligent pad body 111, and intelligent pad body 111 all around and the back and the expansion part 112 back all around and all be equipped with corresponding supporting, magic subsides, magnetism detain, snap fastener, connecting device such as. When the user uses, only need fill up intelligent expansion portion 112 expansion all around, can realize intelligent pad body 111 and expansion portion 112 be connected, when not needing expansion portion 112, only need with expansion portion 112 fold intelligent pad back can, expansion portion 112 hides the intelligent pad back promptly this moment, and through expansion portion 112 back and the good corresponding magic subsides, magnetic buckle, snap fastener, the zip fastener of setting up of intelligent pad back pair connect and fix. At this time, the smart mat is only a complete smart mat when viewed from the front, and the extension 112 is visible when viewed from the back. As shown in fig. 24, when the smart mat expansion unit 112 is unfolded, as shown in fig. 25, when the smart mat expansion unit 112 is folded back.

Example twelve

The difference between this embodiment and the first to the eleventh embodiments is that the intelligent mat body may further include a fixing device for fixing the intelligent mat. The fixing device comprises an anti-slip pad, the bottom end of the anti-slip pad is provided with an anti-slip part for anti-slip, the anti-slip part can be an anti-slip line (such as an anti-slip protrusion 123, as shown in fig. 27, the shape can be C-shaped, S-shaped, long strip-shaped or water wave-shaped, but is not limited thereto), a burr (such as a hook and loop fastener), or a vacuum adsorption device, generally, the anti-slip line and the vacuum adsorption device are suitable for a smooth surface, such as a wooden or leather sofa seat, and the burr is suitable for a cloth sofa; the top of slipmat then can be connected with the bottom of intelligent pad body, and the connected mode is including stacking to paste to be connected or the zip fastener is connected, for example can adopt modes such as magic subsides, hidden discount or magnetism knot. As shown in fig. 26, the bottom end of the non-slip mat 121 uses the vacuum chuck 1212 as a non-slip part, and uses the suction property of the vacuum chuck 1212 to perform vacuum suction connection and fixation on the surface of the connected sofa and chair with smooth and airtight surface, such as leather, wood, etc., so that when the vacuum chuck 1212 receives a certain pressure, the vacuum chuck 1212 and the product such as the chair sofa, etc., connected to the smart mat are more firmly sucked. When the user uses this intelligence pad product, earlier with the slipmat of above-mentioned scheme with intelligent pad body fixed connection the back good, have the one side of antiskid portion with the slipmat and directly put on chair sofa again, can realize having the antiskid usefulness for intelligent pad. The technical scheme is generally suitable for occasions with weak maneuverability, such as furniture like chairs and sofas.

In a scene with relatively strong mobility, such as an automobile, the present application further provides another scheme of the fixing device, as shown in fig. 28, the fixing device includes a fixing band 122 besides the non-slip mat 121, the fixing band 122 is detachably connected to the non-slip mat 121, the fixing band 122 fixes the non-slip mat 121 on a desired chair or sofa by a binding manner, and the fixing band 122 can adjust the length or tightness.

The fixing strap 122 may be a bidirectional folding type adjustable strap, that is, both ends and the body of the strap 124 are provided with corresponding connecting devices such as magic tapes (e.g. hook face 1244 and hook face 1245 shown in fig. 29 (4)), magnetic buttons or snap fasteners (e.g. magnetic button/snap button 1242 and magnetic button/button corresponding part 1243 shown in fig. 29 (3)), when in use, a user only needs to pass the strap 124 through the adjusting hole 1211 arranged on the anti-slip pad 121 and then fix the strap with a fixed chair, and then fold the head end of the strap 124 to the body of the strap 124, and the connecting devices such as the magic tapes, magnetic buttons or snap fasteners on the head end of the strap 124 are connected with the corresponding connecting devices such as the magic tapes, magnetic buttons or snap fasteners in the body of the strap 124 in a matching manner.

Another solution of the fixing strap 122 is a unidirectional folding type adjustable strap, that is, one end of the strap 124 and the body of the strap 124 are respectively provided with a connecting device such as a hook-and-loop fastener (e.g. hook-and-loop fastener 1244 shown in fig. 29 (2)), a magnetic buckle or a snap fastener (e.g. magnetic buckle/snap fastener 1242 shown in fig. 29 (1)), and the other end of the strap 124 is provided with an interface device 1241 for the other end of the strap 124 to pass through. When the chair is used, a user only needs to pass the tying band 124 through the adjusting hole 1211 formed in the anti-slip mat 121 and fix the chair, then pass one end of the tying band 124 into the interface device 1241 at the other end of the tying band 124 and out, then fold the head end of the tying band 124 to the body of the tying band 124 in a folding manner, and mate and connect the connecting devices such as the magic tape, the magnetic button or the snap button on the head end of the tying band 124 with the corresponding connecting devices such as the magic tape, the magnetic button or the snap button and the like in the body of the tying band 124.

The intelligent cushion can be used as a cushion and a back cushion, and the fixing device is also suitable for use when the intelligent cushion is used as the back cushion.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (20)

1. A multifunctional smart mat, comprising: the multifunctional intelligent cushion comprises an intelligent cushion body, an operating and controlling system and a power supply system, wherein the operating and controlling system is used for operating the multifunctional intelligent cushion and comprises a control device and an operation terminal, and the power supply system is used for supplying power to the multifunctional intelligent cushion; the intelligent cushion body comprises a semiconductor cold and hot panel and/or a functional layer, the functional layer comprises one or more of an air flow layer, a fan layer or an air flow layer, the air flow layer comprises a heating device, and the fan layer and the air flow layer each comprise a fan; the semiconductor cold and hot panel with between the functional layer, in the functional layer between each layer all can dismantle the connection, the intelligence fills up the body and still includes warm and humid sensor.

2. The multifunctional smart mat of claim 1, wherein the connection between the semiconductor cold and hot panel and the functional layer and between the layers of the functional layer comprises: stacking and sticking connection, zipper connection or 180-degree turnover connection.

3. The multifunctional intelligent mat according to claim 1, further comprising a wet air flow supply device, wherein the wet air flow supply device is connected with the intelligent mat body through a pipeline, and the wet air flow supply device comprises a liquid container layer, a temperature and humidity sensor, and an upper drainage layer or a 360-degree peripheral drainage layer; the liquid container layer comprises a liquid container and a semiconductor cold and hot panel arranged in the liquid container and used for refrigerating or heating liquid in the liquid container.

4. The multifunctional intelligent mat according to claim 3, wherein a solar power supply device is further arranged outside the side surface of the liquid container.

5. The multifunctional intelligent mat according to claim 3, wherein the pair of upper drainage layers comprises a first pneumatic layer, a first spacer layer and a first air flow layer in sequence, the periphery of the first pneumatic layer is sealed, the upper end of the first pneumatic layer is provided with a pneumatic split door, the fan in the first pneumatic layer is a convection fan, the first spacing layer is provided with air holes, the periphery of the first airflow circulation layer is provided with air holes, when the convection fan is pneumatic, airflow enters the first pneumatic layer from the first airflow circulation layer through the air holes of the first spacing layer and is discharged through pneumatic opening of the upper end of the pneumatic opening door, the upper drainage layer is adjusted and controlled by adjusting and controlling the closing degree of the pneumatic side-by-side door to adjust and control the air flow circulation, when the pneumatic side-by-side door is closed, airflow does not flow outwards, and the upper end of the first pneumatic layer is connected with the intelligent cushion body through a pipeline; the 360-degree peripheral drainage layer sequentially comprises a second pneumatic layer, a second partition layer and a second airflow circulation layer, the upper end of the second pneumatic layer is sealed, air holes are formed in the periphery of the second pneumatic layer, a fan in the second pneumatic layer is a 360-degree drainage fan, the second partition layer is provided with air holes, the periphery of the second airflow circulation layer is provided with air holes, when the 360-degree drainage fan is used for performing pneumatic operation, airflow enters the second pneumatic layer from the second airflow circulation layer through the air holes in the second partition layer and is discharged through the peripheral air holes, and any side surface of the periphery of the second pneumatic layer is connected with the intelligent cushion body through a pipeline; the upper end of the liquid container layer is provided with a pneumatic split door, the periphery and the bottom of the liquid container layer are sealed, the liquid container layer adjusts and controls the air flow circulation through adjusting and controlling the closing degree of the pneumatic split door, and the air flow does not flow outwards when the pneumatic split door is closed.

6. The multifunctional smart mat of claim 3, wherein different functions are implemented by a combination of semiconductor cold and hot panels, an airflow layer, a fan layer, an airflow layer and a wet airflow supply device, wherein when the functional layers include an airflow layer, a fan layer and an airflow layer, the semiconductor cold and hot panels are respectively located between the airflow layer and the fan layer and between the fan layer and the airflow layer, the different functions include:

1) the air draft refrigeration function is realized by setting the fans in the fan layer and the airflow layer into an air draft mode, discharging the heat absorbed by the airflow layer to the airflow layer through the fans in the fan layer and then discharging the heat by the fans in the airflow layer;

2) the fan layer and the fans in the airflow layer are set to be in a blowing mode, the fans in the airflow layer absorb outside air flow and blow the outside air flow into the fan layer, and then the fan layer blows the air flow out of the airflow layer;

3) the cold air flow refraction refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow and performing cold air flow refraction on heat by the cold air flow;

4) the wet cold airflow flowing refrigeration function is realized by operating the refrigeration function of a semiconductor cold and hot panel in the wet airflow supply device to refrigerate the liquid in the liquid container, so that the wet airflow supply device generates wet cold airflow, discharging the wet cold airflow into the intelligent cushion body through a pipeline connected with the intelligent cushion body, and discharging the wet cold airflow through the intelligent cushion body;

5) the pneumatic wet cold air flow refrigeration function is realized by operating the refrigeration function of a semiconductor cold and hot panel in the wet air flow supply device to refrigerate liquid in a liquid container, so that the wet air flow supply device generates wet cold air flow, discharging the wet cold air flow to the inside of the intelligent cushion body through a pipeline connected with the intelligent cushion body, and absorbing the wet cold air flow in the intelligent cushion body through the air draft of a fan in a fan layer and blowing the wet cold air flow out through an air outlet of the fan;

6) the pneumatic cold air blowing refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow, blowing air by the fan in the fan layer and blowing the cold air flow in the panel out through the air flow layer;

7) the pneumatic cold air supply refrigeration function is realized by operating the refrigeration function of the semiconductor cold and hot panel to generate cold air flow, exhausting air by the fan in the fan layer, absorbing the cold air flow generated by the panel and blowing the cold air flow out of the air flow layer;

8) the static heating function is realized by operating a heating device in the airflow layer;

9) the hot air flow refracts the heating function, produce the hot air flow to realize through the heating function of operating the cold and hot faceplate of semiconductor;

10) the hot and humid air flow flows and heats, the liquid in the liquid container is heated by operating the heating function of a semiconductor cold and hot panel in the hot and humid air flow supply device, so that the hot and humid air flow supply device generates hot and humid air flow, the hot and humid air flow is discharged into the intelligent cushion body through a pipeline connected with the intelligent cushion body, and the hot and humid air flow is discharged through the intelligent cushion body;

11) the pneumatic damp-heat airflow heating function is realized by operating the heating function of a semiconductor cold and hot panel in the damp-heat airflow supply device to heat liquid in a liquid container, so that the damp-heat airflow supply device generates damp-heat airflow, discharging the damp-heat airflow to the inside of the intelligent cushion body through a pipeline connected with the intelligent cushion body, and blowing out the absorbed damp-heat airflow through an air flow layer by a fan in a fan layer in the intelligent cushion body;

12) the pneumatic hot air blowing heating function is realized by operating the heating function of the semiconductor cold and hot panel to generate hot air flow and blowing the hot air flow in the panel out of the air flow layer through the fan in the fan layer;

13) the pneumatic hot air supply heating function is realized by operating the heating function of the semiconductor cold and hot panel to generate hot air flow and blowing out the absorbed hot air flow through the air flow layer by the fan in the fan layer;

14) the constant temperature pad has the moisturizing function, the operation of the internal functional device is controlled through the control system, and the corresponding temperature and humidity are set and adjusted through the temperature and humidity sensor to realize the moisturizing function.

7. The multifunctional smart mat of claim 3, wherein said wet gas flow supply device further comprises a gas sensor for detecting the concentration of gas generated inside said wet gas flow supply device and transmitting the detection signal to said manipulation system.

8. The multifunctional intelligent mat according to claim 1, wherein a physiotherapy function module is further disposed in the wind flow layer, and the physiotherapy function module comprises one of a red/ultraviolet lamp set, a vibration function module, an electromagnetic physiotherapy function module, a pulse physiotherapy function module or a microwave physiotherapy function module.

9. The multifunctional intelligent mat as claimed in claim 1, wherein each fan of the fan layer and the airflow layer can be controlled synchronously and individually to realize a plurality of operation schemes and control of blowing/exhausting modes, the operation schemes comprise operation according to preset rotation speed or temperature intervals, and the control of the blowing/exhausting modes comprises: the fan layer or the airflow layer is changed by changing the rotation direction of a fan impeller, changing the positive and negative directions of the fan or turning the fan, and the fans in the fan layer and the airflow layer are both detachably and movably mounted.

10. The multifunctional smart mat of claim 1, wherein an airflow channel is provided between each fan in the fan layer or airflow layer, and the fans and the airflow channel form airflow partitions.

11. The multifunctional smart mat of claim 1, wherein the air flow layer further comprises a storage container, an opening of the storage container is communicated with the fan, and one or more of an aromatherapy product, an anti-mite product, a purification product or a refreshing product is disposed in the storage container.

12. The multi-functional smart mat of claim 11, wherein the gas flow layer further comprises a gas sensor for detecting the concentration of gas generated inside the gas flow layer and transmitting a detection signal to the manipulation system to control the opening and closing of the storage container opening.

13. The multifunctional intelligent mat according to claim 1, wherein the power supply system comprises a dc power supply system or a wireless induction power supply system, the wireless induction power supply system comprises a plurality of electromagnetic induction power supply devices, and the plurality of electromagnetic induction power supply devices are respectively arranged on the side surfaces of the intelligent mat body and/or the control system, so as to realize 360-degree omnibearing induction power supply.

14. The multifunctional intelligent mat according to claim 1, wherein the power supply system comprises a solar power supply device disposed on a side surface of the intelligent mat body or externally connected to the intelligent mat body.

15. The multifunctional intelligent mat according to claim 1, wherein the control device is electrically or wirelessly connected to the operation terminal, the control device is electrically or wirelessly connected to the intelligent mat body, and the operation terminal is disposed on a side surface of the intelligent mat body or independently disposed outside the intelligent mat body, and is configured to receive a control command and transmit the control command to the control device to control functions of the multifunctional intelligent mat.

16. The multifunctional intelligent mat according to claim 15, wherein the modes of the multifunctional intelligent mat for acquiring the control instruction comprise voice control, operation terminal control and touch screen control.

17. The multifunctional intelligent mat according to claim 1, wherein the manipulation system further comprises an automatic recognition system, the automatic recognition system comprising one or more of a human body pressure recognition system, an ultrasonic fingerprint recognition system, a voice recognition system, a limb motion recognition system, a code scanning recognition system, a human body distance recognition system, or an infrared face recognition system.

18. The multifunctional intelligent pad according to claim 1, wherein the intelligent pad body is provided with air holes on the outer surface, the size and shape of the air holes are the same or different, the area of the air holes on the horizontal outer surface of the intelligent pad body is divided into an inner area and an outer area from the center to the periphery, and the air flow rate of the air holes on the outer area is greater than that of the air holes on the inner area.

19. The multifunctional intelligent mat according to claim 1, wherein the periphery of the intelligent mat body is provided with an expansion part for expanding the use area of the intelligent mat body.

20. The multifunctional intelligent mat according to claim 1, wherein the intelligent mat body is further provided with a fixing device for fixing the intelligent mat body, the fixing device comprises:

a first non-slip mat, or

The adjustable anti-skid device comprises a second anti-skid pad and an adjustable fixing band, wherein an adjusting hole is formed in the outer side of the second anti-skid pad, and the adjustable fixing band penetrates through the adjusting hole to fix the second anti-skid pad;

the top of first slipmat or the second slipmat all with the bottom of intelligence pad body is connected, and connected mode is including stacking paste connection or zip fastener connection, first slipmat or the bottom of second slipmat all is equipped with anti-skidding portion, antiskid portion includes anti-skidding line, burr or vacuum adsorption device.

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