阅读说明：本技术 振动助眠智能床垫 (Vibration sleep-aid intelligent mattress ) 是由 郗盟 李毅 于 2020-05-26 设计创作，主要内容包括：本发明公开了一种振动助眠智能床垫,包括依次叠设的振动层、监测层、接触层及分别与所述振动层、所述监测层电连接的控制器,所述振动层包括第一振源板、与所述第一振源板连接并设置于所述第一振源板与所述监测层之间的多块第二振源板及分别与多块所述第二振源板连接的驱动器,所述第一振源板在所述控制器的控制下产生低频振动,多块所述第二振源板在所述控制器的控制下随机向靠近所述监测层的方向推动。与相关技术相比,本发明提供的振动助眠智能床垫,能够监测人体睡眠质量并有效助眠。(The invention discloses a vibration sleep-aiding intelligent mattress which comprises a vibration layer, a monitoring layer, a contact layer and a controller, wherein the vibration layer, the monitoring layer and the contact layer are sequentially stacked, the controller is respectively and electrically connected with the vibration layer and the monitoring layer, the vibration layer comprises a first vibration source plate, a plurality of second vibration source plates and drivers, the second vibration source plates are connected with the first vibration source plate and arranged between the first vibration source plate and the monitoring layer, the drivers are respectively connected with the second vibration source plates, the first vibration source plate generates low-frequency vibration under the control of the controller, and the second vibration source plates are randomly pushed towards the direction close to the monitoring layer under the control of the controller. Compared with the prior art, the vibration sleep-assisting intelligent mattress provided by the invention can monitor the sleep quality of a human body and effectively assist sleep.)

1. The utility model provides a vibration helps dormancy intelligent mattress, its characterized in that, including the vibration layer, monitoring layer, the contact layer of establishing in proper order and respectively with the vibration layer the controller that monitoring layer electricity is connected, the vibration layer include first source board that shakes, with first source board that shakes connect and set up in first source board that shakes with second between the monitoring layer shake source board and with the second shakes the driver that the source board is connected, first source board that shakes produces the low frequency vibration under the control of controller, the driver is in drive under the control of controller the second shakes the source board and random to being close to the direction promotion on monitoring layer.

2. A vibration sleep-aid intelligent mattress according to claim 1, wherein the second vibration source plate comprises a first push plate located at the center and having a rectangular shape, a second push plate and a third push plate arranged at one end of the first push plate in the length direction, a fourth push plate and a fifth push plate arranged at the other end of the first push plate in the length direction, the second push plate and the third push plate are symmetrically arranged along the axis of the first push plate in the length direction, and the fourth push plate and the fifth push plate are symmetrically arranged along the axis of the first push plate in the length direction.

3. A vibration sleep-aid intelligent mattress according to claim 2, wherein the number of the drivers is five, five of the drivers are respectively fixedly connected with the first push plate, the second push plate, the third push plate, the fourth push plate and the fifth push plate, and five of the drivers are respectively electrically connected with the controller.

4. A vibratory sleep aid smart mattress as recited in claim 2, wherein said first vibrating plate vibrates at a frequency in the range of 1Hz to 30 Hz.

5. A vibrating sleep-aid intelligent mattress according to claim 4, wherein said first vibration source plate comprises a first vibrating plate disposed opposite to said first push plate, a second vibrating plate disposed opposite to said second push plate, a third vibrating plate disposed opposite to said third push plate, a fourth vibrating plate disposed opposite to said fourth push plate, and a fifth vibrating plate disposed opposite to said fifth push plate, the controller controls vibration frequencies of the first vibration plate, the second vibration plate, the third vibration plate, the fourth vibration plate, and the fifth vibration plate, respectively, and controlling the vibration frequency of the first vibration plate to be kept at 3-5Hz, the vibration frequencies of the second vibration plate and the third vibration plate to be kept at 10-25Hz, and the vibration frequencies of the fourth vibration plate and the fifth vibration plate to be kept at 10-12 Hz.

6. A vibratory sleep-aiding intelligent mattress according to claim 1, wherein said monitoring layer comprises a flexible array force-sensitive sensor layer disposed adjacent to said contact layer, a temperature control layer disposed on a side of said flexible array force-sensitive sensor layer remote from said contact layer and spaced opposite to said flexible array force-sensitive sensor layer, and a plurality of signal acquisition control modules, each of said plurality of signal acquisition control modules being electrically connected to said controller, said flexible array force-sensitive sensor layer and said temperature control layer being electrically connected to a different one of said signal acquisition control modules, respectively;

the signal acquisition control module acquires pressure signals of all parts of the body of a user on the mattress through the flexible array force-sensitive sensor layer and transmits the pressure signals to the controller; the controller obtains the specific body part and physiological parameters of the user according to the pressure signal analysis, the physiological parameters comprise respiration rate and heart rate, then the controller starts the temperature control layer through the signal acquisition control module according to the physiological parameters, and the temperature control layer provides corresponding temperature physiotherapy for all parts of the body of the user.

7. The intelligent mattress with the vibration and sleep-assisting functions as claimed in claim 6, wherein the flexible array force-sensitive sensor layer comprises a plurality of first areas which are the same in size and are sequentially arranged along the length direction of the mattress, each first area is provided with a plurality of flexible array force-sensitive sensors which are sequentially arranged along the width direction of the mattress, the temperature control layer comprises a plurality of second areas which are the same in number as the first areas and are just opposite to the first areas, each second area is provided with temperature controllers and temperature sensors which are the same in number as the flexible array force-sensitive sensors, the signal acquisition control module is arranged between the adjacent first areas and the adjacent second areas, and each signal acquisition control module is electrically connected with the flexible array force-sensitive sensors, the temperature controllers and the temperature sensors respectively.

8. A vibration sleep-aid intelligent mattress according to claim 1, wherein the contact layer comprises a knitted layer and a breathable waterproof layer arranged on one side of the knitted layer close to the monitoring layer, and the breathable waterproof layer comprises a body part and a water containing groove formed by being recessed from the surface of the body part close to the knitted layer to the direction far away from the knitted layer.

9. A vibrating sleep-aid intelligent mattress according to claim 8, wherein the material of the air-permeable and water-proof layer is cowhide, sheepskin or pigskin.

10. A vibration sleep-aid intelligent mattress according to any one of claims 1 to 9, further comprising a cloud server connected to the controller, a management platform connected to the cloud server, and an intelligent terminal in communication connection with the cloud server.

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to a vibration sleep-assisting intelligent mattress.

Background

Each person spends approximately one-fourth to one-third of the day in bed. Today, the market of intelligent products is so busy, and various sleep-related intelligent devices are in endless, such as a sports bracelet or an intelligent watch capable of monitoring sleep quality, an intelligent earphone or an intelligent eyeshade capable of improving sleep quality, and are mostly appeared in our lives.

Generally, a sports bracelet or a smart watch having a sleep monitoring function monitors the turn-over times at night through a built-in motion sensor to determine deep sleep time. Although the form has a certain reference value, an effective sleep-aiding solution is not formed, namely, although the sleep state and the quality of a user can be known, the intelligent mattress in the related art cannot control insomnia or provide an effective sleep-aiding solution.

Researchers find that fatigue and sleepiness are easily caused when people sit on a running vehicle, on one hand, because the semicircular canal in the inner ear of a human body and two sac-shaped structures in front of the semicircular canal play a balancing role, when people sit on the vehicle, the people are in continuous shaking (the shaking amplitude may be very small, such as a train), in order to keep a continuous balancing state, the inner ear nerves need to frequently send balancing instructions, so that the people are very easy to fatigue, and the sleepiness is easily aroused; on the other hand, in order to suppress such frequent regulation, the human body produces stress response, and self-protection like the false death of other organisms causes the person to fall asleep.

Therefore, there is a need to provide a new vibration sleep-aiding intelligent mattress capable of monitoring the sleep quality of a human body and effectively aiding sleep to solve the above problems.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the vibration sleep-aiding intelligent mattress which can monitor the sleep quality of a human body and effectively aid sleep.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a vibration helps dormancy intelligent mattress, including in proper order fold the vibration layer of establishing, monitoring layer, contact layer and respectively with the vibration layer the controller that monitoring layer electricity is connected, the vibration layer include first source board that shakes, with first source board that shakes is connected and set up in first source board that shakes with polylith second between the monitoring layer shake the source board and respectively with the polylith the driver that the source board is connected is shaken to the second, first source board that shakes produces low frequency vibration, polylith under the control of controller the second shakes the source board and is in random to being close to under the control of controller the direction on monitoring layer promotes.

Preferably, the second shakes the source board including the first push pedal that is located the center and is the rectangle, set up in the second push pedal and the third push pedal of first push pedal length direction one end, set up in the fourth push pedal and the fifth push pedal of the first push pedal length direction other end, the second push pedal with the third push pedal is followed first push pedal length direction's axis symmetry sets up, the fourth push pedal with the fifth push pedal is followed first push pedal length direction's axis symmetry sets up.

Preferably, the number of the drivers is five, five of the drivers are respectively and fixedly connected with the first push plate, the second push plate, the third push plate, the fourth push plate and the fifth push plate, and the five drivers are respectively and electrically connected with the controller.

Preferably, the vibration frequency of the first vibration source plate is 1Hz-12 Hz.

Preferably, the first vibration source plate includes a first vibration plate disposed opposite to the first push plate, a second vibration plate disposed opposite to the second push plate, a third vibration plate disposed opposite to the third push plate, a fourth vibration plate disposed opposite to the fourth push plate, and a fifth vibration plate disposed opposite to the fifth push plate, and the controller controls the vibration frequencies of the first vibration plate, the second vibration plate, the third vibration plate, the fourth vibration plate, and the fifth vibration plate, respectively, and controls the vibration frequency of the first vibration plate to be maintained at 3-5Hz, the vibration frequencies of the second vibration plate and the third vibration plate to be maintained at 10-25Hz, and the vibration frequencies of the fourth vibration plate and the fifth vibration plate to be maintained at 10-12 Hz.

Preferably, the monitoring layer comprises a flexible array force-sensitive sensor layer arranged close to the contact layer, a temperature control layer arranged on one side of the flexible array force-sensitive sensor layer, which is far away from the contact layer, and arranged opposite to the flexible array force-sensitive sensor layer at intervals, and a plurality of signal acquisition control modules, the signal acquisition control modules are all electrically connected with the controller, and the flexible array force-sensitive sensor layer and the temperature control layer are respectively electrically connected with different signal acquisition control modules;

the signal acquisition control module acquires pressure signals of all parts of the body of a user on the mattress through the flexible array force-sensitive sensor layer and transmits the pressure signals to the controller; the controller obtains the specific body part and physiological parameters of the user according to the pressure signal analysis, the physiological parameters comprise respiration rate and heart rate, then the controller starts the temperature control layer through the signal acquisition control module according to the physiological parameters, and the temperature control layer provides corresponding temperature physiotherapy for all parts of the body of the user.

Preferably, flexible array force sensor layer includes a plurality of sizes the same and along the first region that mattress length direction set gradually, every the first region is provided with the flexible array force sensor that the polylith set gradually along mattress width direction, the control by temperature change layer include with the same and just to a plurality of second regions to setting up of first region quantity every the second region be provided with the same temperature controller and the temperature sensor of flexible array the inside sensor quantity, signal acquisition control module sets up in adjacent first region and adjacent between the second region, and every signal acquisition control module respectively with flexible array force sensor the temperature controller reaches the temperature sensor electricity is connected.

Preferably, the contact layer includes a knitted layer and a breathable waterproof layer provided on a side of the knitted layer close to the monitoring layer, and the breathable waterproof layer includes a body portion and a water receiving groove formed by being recessed in a direction away from the knitted layer from a surface of the body portion close to the knitted layer.

Preferably, the breathable waterproof layer is made of cow leather, sheep leather or pig leather.

Preferably, the intelligent terminal further comprises a cloud server connected with the controller, a management platform connected with the cloud server, and an intelligent terminal in communication connection with the cloud server.

In summary, compared with the prior art, the vibration sleep-assisting intelligent mattress provided by the invention can be used for enabling a human body to quickly generate fatigue feeling by simulating the vibration of an automobile or a train in the driving process, namely, by combining the low-frequency vibration of the first vibration source plate with the random pushing action of the second vibration source plate, so as to quickly enter a sleep state; the second vibration source plate comprises a first push plate, a second push plate, a third push plate, a fourth push plate and a fifth push plate, and random pushing of different push plates simulates random pushing action of different degrees of jolts on different parts of a human body in the driving process of a vehicle, so that the human body is fatigued; through setting up first vibration source board includes first vibration board, second vibration board, third vibration board, fourth vibration board and fifth vibration board, and different vibration boards correspond the position of human body difference and produce the vibration of different frequencies to adapt to the difference of human body different positions to the vibration frequency sensitivity, more be of value to human health.

Drawings

FIG. 1 is an exploded perspective view of a vibrating sleep-aiding intelligent mattress according to the present invention;

FIG. 2 is an exploded view of the vibrating layer of the vibrating sleep-aid intelligent mattress provided by the present invention;

fig. 3 is a block diagram of a communication flow between a controller and a cloud server of the vibration sleep-assisting intelligent mattress provided by the invention.

In the figure, 100, a vibration sleep-aiding intelligent mattress; 10. a vibration layer; 11. a first vibration source plate; 111. a first vibrating plate; 112. a second vibration plate; 113. a third vibrating plate; 114. a fourth vibration plate; 115. a fifth vibrating plate; 12. a second vibration source plate; 121. a first push plate; 122. a second push plate; 123. a third push plate; 124. a fourth push plate; 125. a fifth push plate; 13. a driver; 20. a monitoring layer; 21. a flexible array force sensitive sensor layer; 211. a first region; 22. a temperature control layer; 221. a second region; 23. a signal acquisition control module; 30. a contact layer; 31. a knitted layer; 32. a waterproof breathable layer; 321. a body portion; 322. a water containing tank; 3221. a first tank body; 3222. a second tank body; 40. and a controller.

Detailed Description

The invention is described in detail below with reference to the figures and examples. The following experimental examples and examples are intended to further illustrate but not limit the invention.

Referring to fig. 1 and 2 in combination, the invention provides a vibration sleep-assisting intelligent mattress 100, wherein the vibration sleep-assisting intelligent mattress 100 simulates the vibration of a car or a train in the driving process to enable a human body to generate fatigue, so that the human body can quickly enter a sleep state. Specifically, the vibration sleep-aiding intelligent mattress 100 comprises a vibration layer 10, a monitoring layer 20, a contact layer 30 which are sequentially stacked, a controller 40 which is electrically connected with the vibration layer 10 and the monitoring layer 20, a cloud server 50 which is connected with the controller 40, a management platform 60 which is connected with the cloud server 50, and an intelligent terminal 70 which is in communication connection with the cloud server 50.

The vibration layer 10 comprises a first vibration source plate 11, a second vibration source plate 12 connected with the first vibration source plate 11 and arranged between the first vibration source plate 11 and the monitoring layer 20, and a driver 13 connected with the second vibration source plate 12. Wherein the first vibration source plate 11 generates low-frequency vibration under the control of the controller 40, and the driver 13 drives the second vibration source plate to randomly push the second vibration source plate to a direction close to the monitoring layer 20 under the control of the controller 40.

The vibration frequency of the first vibration source plate 11 is 1Hz-30 Hz.

The first vibration source plate 11 includes a first vibration plate 111 located at the center and having a rectangular shape, a second vibration plate 112 and a third vibration plate 113 provided at one end of the first vibration plate 111 in the longitudinal direction, and a fourth vibration plate 114 and a fifth vibration plate 115 provided at the other end of the first vibration plate 111 in the longitudinal direction. The controller 40 controls the vibration frequencies of the first vibration plate 111, the second vibration plate 112, the third vibration plate 113, the fourth vibration plate 114, and the fifth vibration plate 115, respectively.

Specifically, the controller 40 controls the vibration frequency of the first vibration plate 111 to be maintained at 3 to 5Hz, the vibration frequencies of the second vibration plate 112 and the third vibration plate 113 to be maintained at 10 to 25Hz, and the vibration frequencies of the fourth vibration plate 114 and the fifth vibration plate 115 to be maintained at 10 to 12 Hz. In use, the first vibrating plate 111 corresponds to the waist and abdomen of a human body, the second vibrating plate 112 and the third vibrating plate 113 correspond to the legs and the feet of the human body, and the fourth vibrating plate 114 and the fifth vibrating plate 115 correspond to the shoulders of the human body, so as to adapt to the sensitivity difference of different parts of the human body to the vibration frequency. Meanwhile, different vibration frequencies are set for different vibration plates, so that the vibration effect on different parts of a human body during automobile vibration can be better simulated.

The second vibration source plate 12 includes a first push plate 121 located at the center and having a rectangular shape, a second push plate 122 and a third push plate 123 disposed at one end of the first push plate 121 in the length direction, and a fourth push plate 124 and a fifth push plate 125 disposed at the other end of the first push plate 121 in the length direction. The second push plate 122 and the third push plate 123 are symmetrically arranged along the axis of the first push plate 121 in the length direction, and the fourth push plate 124 and the fifth push plate 125 are symmetrically arranged along the axis of the first push plate 121 in the length direction.

Specifically, the first push plate 121 is disposed opposite to the first vibration plate 111, the second push plate 122 is disposed opposite to the second vibration plate 112, the third push plate 123 is disposed opposite to the third vibration plate 113, the fourth push plate 124 is disposed opposite to the fourth vibration plate 114, and the fifth push plate 125 is disposed opposite to the fifth vibration plate 115.

The number of the drivers 13 is five, five drivers 13 are respectively and fixedly connected with the first push plate 121, the second push plate 122, the third push plate 123, the fourth push plate 124 and the fifth push plate 125, and five drivers 13 are respectively and electrically connected with the controller 40. When the vehicle-mounted controller is used, the controller 40 randomly sends driving signals to different drivers 13, so that the five drivers 13 work irregularly, and the bumpiness of the vehicle in the driving process is simulated.

The monitoring layer 20 comprises a flexible array force-sensitive sensor layer 21, a temperature control layer 22 and a plurality of signal acquisition control modules 23, wherein the flexible array force-sensitive sensor layer 21 is close to the contact layer 30, the temperature control layer 22 is arranged on one side of the flexible array force-sensitive sensor layer 21 and is far away from the contact layer 30, and the flexible array force-sensitive sensor layer 21 is arranged at intervals relatively. The signal acquisition control modules 23 are electrically connected to the controller 40, and the flexible array force sensor layer 21 and the temperature control layer 22 are electrically connected to different signal acquisition control modules 23.

In use, the signal acquisition control module 23 obtains pressure signals of various parts of the body of the user on the mattress through the flexible array force-sensitive sensor layer 21, and transmits the pressure signals to the controller 40. The controller 40 analyzes and obtains the specific body part and physiological parameters of the user according to the pressure signal, the physiological parameters include respiration rate and heart rate, then the controller 40 starts the temperature control layer 22 through the signal acquisition control module 23 according to the physiological parameters, and the temperature control layer 22 provides corresponding temperature physiotherapy for each part of the body of the user.

Preferably, the flexible array force-sensitive sensor layer 21 includes a plurality of first regions 211 that are the same in size and are sequentially arranged along the length direction of the mattress, and each first region 211 is provided with a plurality of flexible array force-sensitive sensors sequentially arranged along the width direction of the mattress.

The temperature control layer 22 comprises a plurality of second areas 221 which are the same as the first areas 211 in number and are arranged oppositely, and each second area 221 is provided with temperature controllers and temperature sensors which are the same as the flexible array force-sensitive sensors in number. Specifically, in this embodiment, the number of the first regions 211 and the number of the second regions 221 are both six, the number of the flexible array force-sensitive sensors in each of the first regions 211 is four, and the number of the thermostat and the temperature sensor in each of the second regions 221 is also four.

The signal acquisition control module 23 is disposed between the adjacent first region 211 and the adjacent second region 221. The signal acquisition control module 23 arranged on the flexible array force-sensitive sensor layer 21 is electrically connected with the flexible array force-sensitive sensor, and the signal acquisition control module 23 arranged on the temperature control layer 22 is electrically connected with the temperature controller and the temperature sensor.

The contact layer 30 includes a knitted layer 31 and a breathable waterproof layer 32 disposed on a side of the knitted layer 31 close to the monitoring layer 20. The air-permeable and waterproof layer 32 includes a main body 321 and a water receiving groove 322 formed by recessing from a surface of the main body 321 close to the knitted layer 31 in a direction away from the knitted layer 31.

Specifically, the water containing groove 322 includes a plurality of first groove bodies 3221 arranged in parallel at intervals and a plurality of second groove bodies 3222 arranged in parallel at intervals and perpendicular to the first groove bodies 3221. The first trough bodies 3221 and the second trough bodies 3222 are arranged in a staggered manner to form a mesh-shaped trough. Through setting up hold basin 322, prevent that the mattress top from leaking because of reasons such as child's bed of urinating or the drinking cup is emptyd, guaranteed the dryness fraction of flexible array force sensor layer 21 with control by temperature change layer 22 avoids appearing touching the water short circuit.

Preferably, the material of the breathable waterproof layer 32 is cowhide, sheepskin or pigskin. In this embodiment, the material of the air-permeable and waterproof layer 32 is cowhide, so as to obtain better air permeability and waterproof property.

Referring to fig. 3, in the using process of the vibration sleep-assisting intelligent mattress 100, information is exchanged with the cloud server 50 through the controller 40, and the information exchange process is as follows:

step S10, the controller 40 connects to the cloud server 50;

step S20, the controller 40 sends 0 × 17 command to obtain newly added 30-minute historical data, and the controller 40 sends 0 × 15 command to obtain turn-over data;

step S30, when the data of the controller 40 is synchronous, 0 x 17 instruction is sent to obtain newly added 30-minute historical data, and the controller sends 0 x 15 instruction to obtain turn-over data;

step S40, the controller 40 sends 0 x 11 to obtain and display the real-time heart rate, respiration rate, in-bed state and turn-over state;

step S50, the controller 40 monitors the opening of a page monitoring switch in real time, and the switch displays a pause mark;

step S60, the controller 40 sends 0 × 16 data to obtain real-time sleep body movement data, and draws a heartbeat curve and a respiration curve;

step S70, the controller 40 monitors the page stop monitoring switch in real time, the switch displays the start flag, stops the real-time data of 0 × 16, and only displays the data of 0 × 11 and the alarm processing.

Meanwhile, on the cloud server 50 side, the controller 40 has two states of active and inactive. The activated controller 40 includes the MAC address information of the controller 40 in the database of the cloud server 50, and there is no information in the cloud server 50 database in an inactivated state.

Compared with the prior art, the vibration sleep-assisting intelligent mattress provided by the invention has the advantages that the vibration of an automobile or a train in the running process is simulated, namely the low-frequency vibration of the first vibration source plate is combined with the random pushing action of the second vibration source plate, so that a human body can quickly generate fatigue, and then the human body can quickly enter a sleep state; the second vibration source plate comprises a first push plate, a second push plate, a third push plate, a fourth push plate and a fifth push plate, and random pushing of different push plates simulates random pushing action of different degrees of jolts on different parts of a human body in the driving process of a vehicle, so that the human body is fatigued; through setting up first vibration source board includes first vibration board, second vibration board, third vibration board, fourth vibration board and fifth vibration board, and different vibration boards correspond the position of human body difference and produce the vibration of different frequencies to adapt to the difference of human body different positions to the vibration frequency sensitivity, more be of value to human health.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that several improvements and modifications without departing from the principle of the present invention will occur to those skilled in the art, and such improvements and modifications should also be construed as within the scope of the present invention.