CN114680511A - Intelligent air bag mattress control method and system, storage medium and intelligent terminal - Google Patents

Abstract

The application relates to an intelligent air bag mattress control method, an intelligent air bag mattress control system, a storage medium and an intelligent terminal, and relates to the field of intelligent mattresses, wherein the method comprises the steps of obtaining average pressure information; acquiring numbering information; screening out the information of the number group; drawing contact shape information; determining current contact position information; screening current average pressure information; determining current comfort pressure value information; and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the current comfortable pressure value. The problem that the user feels uncomfortable easily in the process of turning over or turning around, and the intelligent degree is not high is solved and the area of contact is distinguished through judging size and shape to judge the human body position of corresponding contact, laminate the appearance of sleeping actually, more intelligent effect.

Description

Intelligent air bag mattress control method and system, storage medium and intelligent terminal

Technical Field

The application relates to the field of intelligent mattresses, in particular to an intelligent air bag mattress control method, an intelligent air bag mattress control system, a storage medium and an intelligent terminal.

Background

The mattress is an essential daily article in people's life, and the quality of mattress directly influences people's sleep quality. The traditional mattress usually comprises a mattress core and a decorative sleeve wrapped outside the mattress core, after the traditional mattress is used for a long time, the mattress is usually sunken and deformed, and the hardness is difficult to maintain, so that comfortable sleep support cannot be continuously provided, and the sleep quality of consumers is influenced.

Along with the development of science and technology and the improvement of people's standard of living, intelligent gasbag mattress has appeared in the market, and the user can select the pressure gear of gasbag mattress according to the demand, and when the user felt the pressure of gasbag mattress body too big or low excessively, the user can change through interactive interface.

In view of the above-mentioned related technologies, the inventor believes that the existing mattress is often directly set according to the normal sleeping posture, that is, the hardness of the head of the user is set at the head of the bed, and the hardness of the feet is set at the foot of the bed, so that the user is easy to feel uncomfortable during the process of turning over or turning around, and the degree of intelligence is not high.

Disclosure of Invention

In order to solve the problems that a user is easy to feel uncomfortable in the process of turning over or turning around and the degree of intelligence is not high, the application provides an intelligent air bag mattress control method, an intelligent air bag mattress control system, a storage medium and an intelligent terminal.

In a first aspect, the application provides a control method for an intelligent air bag mattress, which adopts the following technical scheme:

an intelligent air bag mattress control method comprises the following steps:

acquiring average pressure information corresponding to a user lying on a bed;

acquiring the number information of the air spring receiving the pressure in the mattress;

screening out adjacent numbering information and grouping the adjacent numbering information into a group, and defining the group of numbering information as numbering group information;

drawing contact shape information according to the number group information;

performing matching analysis according to the contact part information and the contact shape information stored in the preset position database to determine a contact part corresponding to the contact shape information, and defining the contact part as current contact part information;

screening out corresponding average pressure information according to the current contact position information, and defining the average pressure information as the current average pressure information;

performing matching analysis according to the comfort pressure value information, the current average pressure information and the current contact part information stored in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact part information, and defining the comfort pressure value as the current comfort pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the current comfortable pressure value.

Through adopting above-mentioned technical scheme, distinguish the area of contact through the size and the shape of the area of judging application of pressure on the mattress to judge the human position that corresponds the contact, then control air spring according to suitable comfortable pressure value and feed back, the appearance of sleeping of laminating reality, it is more intelligent.

Optionally, matching the current contact position information with the preset check contact position information to determine the non-contact position information;

performing matching analysis according to the gesture information, the contact shape information and the current contact part information stored in the preset gesture database to determine the gesture corresponding to the contact shape information and the current contact part information, and defining the gesture as the current gesture information;

determining contact part combination information according to the current posture information and the untouched part information;

performing matching analysis according to the gravity distribution information and the contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the contact part combination information, and defining the gravity distribution as the current gravity distribution information;

distributing the current average pressure information one by one according to the current gravity distribution information, recalculating a pressure value corresponding to the current contact position information, and defining the pressure value as actual average pressure information;

performing matching analysis according to the comfortable pressure value information, the actual average pressure information and the current contact position information stored in the comfortable database to determine the actual average pressure information and a comfortable pressure value corresponding to the current contact position information, and defining the comfortable pressure value as the actual comfortable pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

Through adopting above-mentioned technical scheme, confirm the pressure distribution condition of different health parts under the different postures according to the posture difference, all pressures are all concentrated on the foot when for example standing for the setting of comfortable pressure value is more reasonable and intelligent, has improved the intellectuality of intelligent gasbag mattress control.

Optionally, the method for controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfort pressure value includes:

acquiring pressure information of a position corresponding to the hand or the foot corresponding to the contact part information of the user;

judging whether the pressure information is larger than the pressure corresponding to the preset supporting force information;

if the sum is larger than the preset value, calculating the sum of the actual average pressure information, and defining the sum as weight information;

performing matching analysis according to the thrust distance information and the thrust information stored in the preset thrust database and the weight information to determine the thrust distance and the thrust corresponding to the weight information, defining the thrust distance as current thrust distance information, and defining the thrust information as current thrust information;

performing matching analysis according to the pressure distribution condition information, the current thrust distance information and the current thrust information stored in the preset pressure distribution database to determine the current thrust distance information and the pressure distribution condition corresponding to the current thrust information, and defining the pressure distribution condition as the pressure distribution information;

carrying out pressure distribution and pressure setting on the air spring corresponding to the number group information which does not correspond to the contact part information of the hand or the foot according to the pressure distribution information and the thrust information;

and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the actual comfortable pressure value information.

By adopting the technical scheme, the user can provide the thrust by judging whether the user has the action of getting up or standing, and the extension distance of the air spring is moved so as to ensure that the thrust is not too abrupt, so that the thrust providing process has a buffering process, the comfort is provided for the user, and the intelligence of the control of the intelligent air bag mattress is improved.

Optionally, the method for performing pressure distribution and pressure setting on the air spring corresponding to the number group information not corresponding to the contact position information of the hand or the foot according to the pressure distribution information and the thrust information includes:

judging whether contact part information corresponding to the back exists or not, and defining the contact part information of the back as back contact information;

if yes, judging whether the part obtained by the pressure information corresponds to a hand or not, and defining the contact part information corresponding to the hand as hand contact information;

if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the serial number group information of the hand contact information according to preset hard straight pressure information;

if the part obtained by the pressure information is not corresponding to a hand, directly carrying out pressure distribution and pressure setting on the air spring corresponding to the numbering group information of the back contact information according to preset pressure distribution information and thrust information;

if not, judging whether the part obtained by the pressure information corresponds to a hand or not;

if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the serial number group information of the hand contact information according to preset hard straight pressure information;

if the part obtained by the pressure information does not correspond to the hand, the hip contact information is screened from the contact part information, and the air springs corresponding to the numbering group information of the hip contact information are subjected to pressure distribution and pressure setting according to preset pressure distribution information and thrust information.

Through adopting above-mentioned technical scheme, thereby whether need the thrust of back and the thrust of buttock through judging whether have the hand, and when the user is when the hand application of force, get up fast for the convenience of user, then support with hard straight pressure information in the position of hand contact for user's hand application of force feedback is stronger, and the difficult condition of application of force that subsides and appear not easily, has improved the rapidity that the user got up.

Optionally, when the contact shape information does not correspond to the contact position information in the position database, the control method of the mattress includes:

defining number group information corresponding to contact shape information which does not correspond to the contact position information in the position database as abnormal number group information, wherein the contact shape information is abnormal shape information;

acquiring a pressure value corresponding to the abnormal number group information, and defining the pressure value as abnormal pressure information;

judging whether the abnormal pressure information received by the airbag spring corresponding to each number in the abnormal number group information is consistent or not;

if the pressure of the air springs corresponding to the abnormal number group information is consistent with the preset hard straight pressure information, the pressure of the air springs corresponding to the abnormal number group information is adjusted;

if the contact position information is inconsistent with the abnormal shape information, performing matching analysis on the abnormal shape information and all the contact shape information to determine the closest contact shape information, defining the contact shape information as similar contact shape information, and defining the contact position information corresponding to the similar contact shape information as similar contact position information;

matching the similar contact part information with preset checking contact part information to determine abnormal non-contact part information;

performing matching analysis according to the gesture information, the similar contact shape information and the similar contact part information stored in the preset gesture database to determine the gesture corresponding to the similar contact shape information and the similar contact part information, and defining the gesture as similar gesture information;

determining similar contact part combination information according to the similar posture information and the abnormal non-contact part information;

performing matching analysis according to the gravity distribution information and the similar contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the similar contact part combination information, and defining the gravity distribution as similar gravity distribution information;

distributing the current average pressure information one by one according to the similar gravity distribution information, recalculating the pressure values corresponding to the similar contact position information, and defining the pressure values as similar actual average pressure information;

calculating proportion information according to the abnormal pressure information and the similar actual average pressure information;

adjusting the actual comfortable pressure value information according to the proportion information, and defining the actual comfortable pressure value information as similar comfortable pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the similar comfortable pressure value.

By adopting the technical scheme, whether a person or an article transmits pressure on the mattress is determined by judging whether the pressure is consistent, and when the person or the article is the article, comfort is not required to be provided, and only the article is required to be supported; when the intelligent air bag mattress is a person, the comfort level is simulated according to the proportion, good enjoyment is provided for other users as far as possible, and the intelligence of the control of the intelligent air bag mattress is improved.

Optionally, the method further comprises a control method of the mattress when the user cannot fall asleep due to the user, and the method comprises the following steps:

acquiring current back contact information;

performing matching analysis according to the posture information stored in the posture database and the current back contact information to determine different postures corresponding to the current back contact information, and defining the different postures as back posture information;

performing matching analysis according to the contact shape information and the back posture information stored in the posture database to determine the contact shape information corresponding to different back posture information, and defining the different contact shape information as the back shape information;

judging whether the back shape information corresponding to the current back contact information changes or not;

if the change occurs, acquiring the changed times within a preset time interval, and defining the times as time information;

judging whether the frequency information is larger than preset critical frequency information or not;

if the back shape information is the lying shape information, controlling the pressure in the air spring corresponding to the current back contact information to be converted according to the preset floating pressure information;

if the number of times is less than the preset value, continuously acquiring the frequency information;

and if the pressure value does not change, controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

By adopting the technical scheme, whether the sleep quality of the user is good or not is determined by judging whether frequent turning-over is carried out within a certain time, and when the sleep quality is poor, the pressure and the distance corresponding to the floating pressure information are used for touching, so that comfort is provided, the sleep quality of the user is improved, and the intelligence of the control of the intelligent air bag mattress is improved.

Optionally, the method for checking whether the abnormal pressure information received by the airbag spring corresponding to each serial number in the abnormal serial number group information is consistent includes:

acquiring temperature information when the abnormal pressure information appears;

acquiring interval temperature information after the preset interval time information;

judging whether the interval temperature information is consistent with the temperature information;

if the pressure values are consistent, converting the similar comfortable pressure value information into hard straight pressure information for regulation;

if not, judging whether the interval temperature information is larger than preset combustion temperature information or not;

if the inclination number is larger than the preset inclination number, performing matching analysis according to the inclination number information and the abnormal number group information stored in the preset inclination database to determine the inclination number information corresponding to the abnormal number group information, and defining the inclination number as adjacent inclination number information;

performing matching analysis according to the thrust distance information, the thrust information, the abnormal number group information and the abnormal pressure information of the air spring stored in a thrust database to determine the thrust distance information and the thrust information corresponding to the abnormal number group information and the abnormal pressure information, defining the thrust distance information as the inclined distance information, and defining the thrust information as the inclined thrust information;

controlling the air springs corresponding to the adjacent inclination number information according to the inclination distance information and the inclination thrust information;

and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the similar comfortable pressure value information.

Through adopting above-mentioned technical scheme, whether change through the temperature gets rid of placing of cold thing, then when being hot object, control according to the condition on the mattress of other users earlier, if the temperature rise then get rid of the possibility that is other users when too high, and in order to prevent the condition that the mattress from burning out of high temperature, thereby roll out the object from the mattress with mattress slope setting and provide thrust, improved intelligent gasbag mattress's security.

In a second aspect, the present application provides an intelligent airbag mattress control system, which adopts the following technical scheme:

a smart airbag mattress control system comprising:

the pressure acquisition module is used for acquiring average pressure information corresponding to the fact that a user lies on a bed;

the processing module is connected with the pressure acquisition module and the information acquisition module and is used for storing and processing information;

the information acquisition module is used for acquiring the serial number information of the air springs receiving the pressure in the mattress;

the processing module screens out adjacent number information and classifies the number information into a group, and the group of number information is defined as number group information;

the processing module draws contact shape information according to the number group information;

the processing module performs matching analysis according to the contact part information and the contact shape information stored in the preset position database to determine a contact part corresponding to the contact shape information, and defines the contact part as current contact part information;

the processing module screens out corresponding average pressure information according to the current contact position information, and defines the average pressure information as the current average pressure information;

the processing module performs matching analysis according to the stored comfort pressure value information, the current average pressure information and the current contact position information in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact position information, and defines the comfort pressure value as the current comfort pressure value information;

and the processing module controls the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the current comfortable pressure value information.

Through adopting above-mentioned technical scheme, distinguish the area of contact through the size and the shape of the area of judging application of pressure on the mattress to judge the human position that corresponds the contact, then control air spring according to suitable comfortable pressure value and feed back, the appearance of sleeping of laminating reality, it is more intelligent.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the intelligent air bag mattress control methods.

Through adopting above-mentioned technical scheme, distinguish the area of contact through the size and the shape of the area of judging application of pressure on the mattress to judge the human position that corresponds the contact, then control air spring according to suitable comfortable pressure value and feed back, the appearance of sleeping of laminating reality, it is more intelligent.

In a fourth aspect, the present application provides a computer-readable storage medium capable of storing a corresponding program, having a pneumatic pressure feedback pilot feature.

A computer readable storage medium adopts the following technical scheme:

a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform any of the above-described intelligent airbag mattress control methods.

Through adopting above-mentioned technical scheme, distinguish the area of contact through the size and the shape of the area of judging application of pressure on the mattress to judge the human position that corresponds the contact, then control air spring according to suitable comfortable pressure value and feed back, the appearance of sleeping of laminating reality, it is more intelligent.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the contact area is distinguished by judging the size and the shape, so that the part of the human body correspondingly contacted is judged, the actual sleeping posture is attached, and the intelligent sleeping posture is realized;

2. the pressure distribution conditions of different body parts under different postures are determined according to different postures, so that the setting of comfortable pressure values is more reasonable and intelligent, and the intelligence of the intelligent air bag mattress is improved;

3. the cold object is removed through the temperature change or not, the condition that the mattress is burnt due to overhigh temperature is prevented, and the safety of the intelligent air bag mattress is improved.

Drawings

Fig. 1 is a flowchart of a method for controlling an intelligent airbag mattress according to an embodiment of the present application.

Fig. 2 is an overall structural view of an intelligent air bag mattress in the embodiment of the present application.

Fig. 3 is a structural view of an air spring in the embodiment of the present application.

Fig. 4 is a flowchart of a method for controlling the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the current comfort pressure value information in the embodiment of the present application.

Fig. 5 is a flowchart of a method for controlling the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the actual comfort pressure value information in the embodiment of the present application.

Fig. 6 is a flowchart of a method for performing pressure distribution and pressure setting according to preset pressure distribution information and thrust information in the embodiment of the present application.

Fig. 7 is a flowchart of a control method of a mattress when none of the contact shape information corresponds to the contact location information in the location database in the embodiment of the present application.

Fig. 8 is a flowchart of a control method of a mattress when a user cannot fall asleep due to his own cause in the embodiment of the present application.

Fig. 9 is a flowchart of a method for checking whether or not the information on the abnormal pressure received by the airbag spring corresponding to each number in the information on the abnormal number group is identical in the embodiment of the present application.

Fig. 10 is a block diagram of a method of controlling a smart air bag mattress according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-10 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiments of the present invention will be described in further detail with reference to the drawings attached hereto.

Referring to fig. 1, an embodiment of the present invention provides an intelligent airbag mattress control method, and a main flow of the intelligent airbag mattress control method is described as follows:

step 100: and acquiring corresponding average pressure information of the user lying on the bed.

The average pressure information is the average value of the pressure of each contact part of the user lying on the bed, and the mattress has a certain learning function in the embodiment, namely, when the pressure measured each time only floats between the average pressure information, the pressure measured each time can be included in the average pressure information for carrying out the average calculation. The purpose of the acquisition is to determine the weight and weight distribution of the user, measured beforehand while the mattress is in place in the user's home.

Step 101: and acquiring the number information of the air spring receiving the pressure in the mattress.

The number information is information of the number of each air spring installed in the mattress. The purpose of numbering the air springs is to position the air springs conveniently so as to distinguish each air spring and conveniently display the air springs on an electronic map. As shown in figure 3, the air spring mattress structure is a structure with double cushions and an air spring layer, and the air spring is composed of three layers of curved air chambers, the geometric shape of each curved surface is similar to a spherical crown surface, and the section of each curved surface is circular. The air spring is made of TPU coated fabric composite materials, and the density of the air spring is 210D and 840D. And as shown in fig. 2, a plurality of air springs are arrayed along the length direction and the width direction of the bed, the edges of the adjacent air springs are adjacent to each other, the air springs generate small radial contraction after the bed is restarted, and each air spring is controlled by an independent air passage in a radial mode so as to be convenient to inflate and deflate.

Step 102: and screening out adjacent number information and grouping the adjacent number information into a group, and defining the group of number information as number group information.

The number group information is information of a combination of numbers of adjacently numbered and pressurized air springs for each number selected from fig. 2. The screening method is that one number information is arbitrarily selected, then the number adjacent to the selected number information is selected from other number information, and when the adjacent number does not exist, the selected number information is combined into number group information.

Step 103: and drawing the contact shape information according to the number group information.

The contact shape information is information of a contact shape on the mattress corresponding to the number group information, and is substantially a shape of a contact of the user head on the mattress, including shapes of contacts of corresponding parts in various postures, and since a difference in contact shape between the parts is large, it is generally possible to draw and distinguish the contact shapes by connecting a plurality of air springs. Although only a small number of rows and columns are drawn in fig. 2, when a finer measurement is required, the diameter of the air spring may be smaller, the layout is tighter, and the number of the air spring is larger, so as to determine the contact shape information more accurately, or so as to distinguish different contact portions. The drawing method is that the central points of the adjacent number information of all the number group information are connected to obtain the shape of the number positioned at the outermost circle.

Step 104: and performing matching analysis according to the contact part information and the contact shape information stored in the preset position database to determine a contact part corresponding to the contact shape information, and defining the contact part as the current contact part information.

The current contact position information is information of a contact position conforming to the shape depicted by the contact shape information. For example: when the long stick shape is drawn to be thin, the information of the contact part is the arm, which is also the process of deep neural network learning, and the information is updated and fed back in the continuous learning process to obtain more accurate determination. The position database stores the mapping relation between the current contact position information and the contact shape information, the mapping relation is obtained by the user through operation input according to the practical situation before use according to the specification, and when the system draws the contact shape information, the corresponding current contact position information is automatically searched from the database.

Step 105: and screening out corresponding average pressure information according to the current contact position information, and defining the average pressure information as the current average pressure information.

The current average pressure information is an average pressure value corresponding to the current contact position information and is a result obtained after multiple times of integration. The screening mode can be searching in a database, and when the corresponding contact part information is obtained, the corresponding average pressure information is automatically searched in the database.

Step 106: and performing matching analysis according to the comfort pressure value information, the current average pressure information and the current contact position information stored in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact position information, and defining the comfort pressure value as the current comfort pressure value information.

The current comfortable pressure value information is information that when a user presses down on the mattress according to the current average pressure information, the pressure of the air spring corresponding to the current contact position information is adjusted, so that the contact position of the user feels comfortable. The database stores the mapping relation between the current comfortable pressure value information and the current average pressure information and the current contact position information, and workers in the field obtain the comfort degree of the position of the current contact position information of different current average pressure information according to long-term tests and feedback in daily life, so that the conditions of different comfortable pressures caused by subjective factors are eliminated in the tests. And when the system obtains the current average pressure information and the current contact position information, automatically searching the corresponding current comfortable pressure value information from the database.

Step 107: and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the current comfortable pressure value.

When the required comfortable pressure value is known, the air spring corresponding to the number group information automatically carries out air transmission or air release according to the current comfortable pressure value information. The contact area is distinguished by judging the size and the shape of the area applying pressure on the mattress, so that the part of the human body correspondingly contacted is judged, then the position corresponding to the information of the contact part is obtained through corresponding pressure feedback, the deformation position of the air spring is determined, and the intellectualization of the control of the mattress is improved.

Referring to fig. 4, the method for controlling the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the current comfort pressure value information includes:

step 200: the current contact location information and the preset collation contact location information are matched to determine non-contact location information.

The collation contact part information is information of all contact parts of the user input in advance. The non-contact part information is information of a part of the user that is not in contact with the surface of the mattress. The determination is made in such a manner that when the current contact portion information and the collated contact portion information are successfully matched, they are automatically removed, and then the rest of the collated contact portion information is the non-contact portion information.

Step 201, performing matching analysis according to the gesture information, the contact shape information and the current contact part information stored in the preset gesture database to determine the gesture corresponding to the contact shape information and the current contact part information, and defining the gesture as the current gesture information.

The current posture information is information of a posture when the contact portion makes contact with the contact shape information, and the information of the corresponding posture can be analyzed from the current contact portion information and the contact shape information. The database stores the contact shape information and the mapping relation between the current contact part information and the current posture information, and workers in the field analyze the contact shape information and the mapping relation according to actual conditions to obtain the actual posture information to input and store the actual posture information. And when the system obtains all the contact shape information and the current contact part information, automatically searching the corresponding current posture information from the database.

Step 202: and determining contact part combination information according to the current posture information and the untouched part information.

The contact portion combination information is information on the contact portion information of the substantial force of the non-contact portion, that is, although some portions are not in contact, the force still acts on the contact portion, and thus a plurality of forces actually act on the contact portion.

Step 203: and performing matching analysis according to the gravity distribution information and the contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the contact part combination information, and defining the gravity distribution as the current gravity distribution information.

The current gravity distribution information is information of a proportion of the untouched part information that distributes the pressure of the part according to the contact part combination information. For example, when sitting, the pressure of the back, head and hands is distributed over the hip pressure. The component force database stores mapping relations between different postures and contact part combination information and current gravity distribution information, and distribution proportions obtained by workers in the field according to experiments and logic operation are input and stored. When the system obtains the current gravity distribution information, the corresponding current gravity distribution information is automatically searched from the database to provide the distribution condition.

Step 204: and after distributing the current average pressure information one by one according to the current gravity distribution information, recalculating the pressure value corresponding to the current contact part information, and defining the pressure value as the actual average pressure information.

The actual average pressure information is actual average pressure information of different contact portion information in the case of the posture corresponding to the current posture information. When the distribution proportion is known, automatically dividing the average pressure information of the non-contact part according to the distribution condition and the current gravity distribution information, and then correspondingly adding the average pressure information to the corresponding current average pressure information to obtain the final pressure, and outputting the final pressure as the actual average pressure information.

Step 205: and performing matching analysis according to the comfortable pressure value information, the actual average pressure information and the current contact position information stored in the comfortable database to determine the actual average pressure information and a comfortable pressure value corresponding to the current contact position information, and defining the comfortable pressure value as the actual comfortable pressure value information.

And under the condition that the actual comfortable pressure value information is the actual average pressure information, performing pressure adjustment on the air spring corresponding to the current contact part information so as to enable the contact part of the user to feel comfortable. The matching determination method is the same as that in step 106, and is not described herein again.

Step 206: and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

The control method is the same as that of step 107, and is not described herein.

Referring to fig. 5, the method for controlling the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the actual comfort pressure value information includes:

step 300: and acquiring pressure information of the user at a position corresponding to the position where the contact part information corresponds to the hand or the foot.

The pressure information is information that the received contact portion information is pressure of a portion of the hand or foot. The acquisition mode is to judge whether there is the information of the contact part corresponding to the information of the hand or the foot, if there is the information of the contact part corresponding to the information of the hand or the foot, the pressure information of the contact part is acquired, and the acquisition mode can be that the air pressure sensor acquires the pressure information, namely, the air pressure of the contact part changes under the condition of the original air pressure to analyze, calculate and acquire the pressure information.

Step 301: and judging whether the pressure information is greater than the pressure corresponding to the preset supporting force information.

The supporting force information is information of the pressure of the user's hand or foot supported above, and here, the force with which the user supports the hand above without pushing is taken as the standard. The judgment method is numerical comparison.

Step 3011: if the sum is larger than the preset value, calculating the sum of the actual average pressure information, and defining the sum as weight information.

The weight information is the sum of all the actual average pressure information, i.e. the weight information of the user, which changes when part of the weight is pressed on the other supports. If so, it indicates that the user's hand or foot is applying force to the mattress for the purpose of releasing the partial contact or the entire contact from the mattress,

step 3012: and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the actual comfortable pressure value information.

If not, it indicates that the user does not want to get up, so that the user only needs to support the pillow according to a comfortable degree.

Step 302: and performing matching analysis according to the thrust distance information and the thrust information stored in the preset thrust database and the weight information to determine the thrust distance and the thrust corresponding to the weight information, defining the thrust distance as the current thrust distance information, and defining the thrust information as the current thrust information.

The current push force information is information of the force exerted on the contact site to assist or even push the contact site off the mattress. The current thrust distance information is a distance moved in order to avoid direct impact and cause discomfort or even a difficult situation of user experience when the air spring applies a force corresponding to the current thrust information, so as to achieve the purpose of buffering. The database stores the mapping relationship between the weight information and the current thrust distance information and the current thrust information, and the staff in the field feeds back the test result by using the test and the contact condition of the staff.

Step 303: and performing matching analysis according to the pressure distribution condition information, the current thrust distance information and the current thrust information stored in the preset pressure distribution database to determine the current thrust distance information and the pressure distribution condition corresponding to the current thrust information, and defining the pressure distribution condition as the pressure distribution information.

The pressure distribution information is information on the distribution of pressure of a plurality of capsules in the air bladder. When a plurality of bladders are provided, the air bladders with different heights can be generated by different pressure distributions due to the influence of the thrust distance. The database stores the mapping relation between the pressure distribution information and the current thrust distance information as well as the current thrust information, and the thrust distance information and the current thrust information are artificially observed and empirically input, so the pressure distribution information can also be obtained by artificial observation and experimental input, the final desired thrust and thrust distance are obtained by inputting different air pressures into different air bags, and the final desired thrust and thrust distance are input and stored in the database when the final desired thrust and thrust distance are obtained. And when the system calculates the current thrust distance information and the current thrust information, corresponding pressure distribution information is automatically obtained from the database.

Step 304: and carrying out pressure distribution and pressure setting on the air spring corresponding to the number group information which does not correspond to the contact part information of the hand or the foot according to the pressure distribution information and the thrust information.

After obtaining the pressure distribution information, the system carries out pressure distribution automatically, and current thrust information can be the fixed value in this embodiment, and current thrust distance information changes along with the process that promotes, so pressure distribution information also can change, but is the situation of change of a law to realize promoting the difficult injury that causes the contact site of in-process, make the user more convenient to get up.

Referring to fig. 6, the method for performing pressure distribution and pressure setting on the air spring corresponding to the number group information not corresponding to the contact portion information of the hand or the foot according to the pressure distribution information and the thrust information includes:

step 400: and judging whether the contact position information corresponding to the back exists or not, and defining the contact position information of the back as back contact information.

The back contact information is information on matching of the shape of the user's back with the contact shape information, that is, contact portion information of the user's back. The purpose of judging is to determine whether the user lies, on one hand get up while excluding the user lying on the stomach, and on the other hand find the force application part.

Step 4001: if the pressure information exists, whether the part obtained by the pressure information corresponds to the hand or not is judged, and the contact part information corresponding to the hand is defined as hand contact information.

The hand contact information is information of a hand contacting the mattress. If the pressure information exists, the state that the user lies down at the moment is indicated, and whether the user exerts strength or not needs to be judged, so that the pressure information is generated.

Step 4002: if not, judging whether the part obtained by the pressure information corresponds to a hand or not.

If not, the situation that the user is sitting or standing at the moment is explained, and whether the pressure information is generated by hands or not needs to be judged.

Step 4011: and if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the number group information of the hand contact information according to the preset hard straight pressure information.

The hard straight pressure information is information of pressure required for the air bag which cannot be deformed by the pressure of the hand after the air bag is filled with gas. If the hand is generated, the point of application of force of the user is on the hand, and in order to provide good feedback, pressure adjustment is directly carried out according to the hard straight pressure information, so that when the hand of the user is pressed downwards, the air spring is not easy to shrink and cannot support the hand.

Step 4012: and if the part for acquiring the pressure information does not correspond to the hand, directly carrying out pressure distribution and pressure setting on the air spring corresponding to the number group information of the back contact information according to preset pressure distribution information and thrust information.

If the user does not use the hands, the situation that the feet want to stand up due to force application is described, the user may be in an overturning state, and in order to facilitate the user to get up, the air springs corresponding to the number group information of the back contact information can be subjected to pressure distribution and pressure setting according to preset pressure distribution information and thrust information so as to directly push the back contact information to be separated from the mattress.

Step 4021: and if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the number group information of the hand contact information according to the preset hard straight pressure information.

If the hand is generated, the point of application of force of the user is on the hand, and in order to provide good feedback, pressure adjustment is directly carried out according to the hard straight pressure information, so that when the hand of the user is pressed downwards, the air spring is not easy to shrink and cannot support the hand.

Step 4022: if the part obtained by the pressure information does not correspond to the hand, the hip contact information is screened from the contact part information, and the air springs corresponding to the numbering group information of the hip contact information are subjected to pressure distribution and pressure setting according to preset pressure distribution information and thrust information.

If the user does not use the hands, the user may be in a state of directly standing from the bed when the feet want to stand up by applying force, and in order to facilitate the user to get up, the air springs corresponding to the number group information of the back contact information can be subjected to pressure distribution and pressure setting according to preset pressure distribution information and thrust information so as to directly push the back contact information to be separated from the mattress.

Referring to fig. 7, when none of the contact shape information corresponds to the contact location information in the location database, the method of controlling the mattress includes:

step 500: number group information corresponding to contact shape information that does not correspond to contact location information in the location database is defined as abnormal number group information, and the contact shape information is abnormal shape information.

The abnormal shape information is information of a shape different from the contact shape of the contact portion information peril bass. The abnormal number group information is information of a number group corresponding to the abnormal shape information. And acquiring while defining, and when the number group is not matched, automatically classifying the number group as abnormal number group information by the system.

Step 501: and acquiring a pressure value corresponding to the abnormal number group information, and defining the pressure value as abnormal pressure information.

The abnormal pressure information is information of pressure at which the received pressure of the abnormal number group information is inconsistent with the actual average pressure information. The acquisition mode is consistent with the pressure information acquisition mode, and the acquisition mode can be acquired by the air pressure sensor, namely the air pressure at the position is changed under the condition of original air pressure to analyze, calculate and acquire.

Step 502: and judging whether the abnormal pressure information received by the airbag spring corresponding to each number in the abnormal number group information is consistent or not.

The purpose of the determination is to distinguish whether or not the user is present, and since the structure of the human body is irregular, the front, rear, left, and right irregularities change, and the pressure information of a general object is almost identical, it is possible to distinguish between the two.

Step 5021: and if the pressure values are consistent, adjusting the pressure of the air spring corresponding to the abnormal number group information according to preset hard straight pressure information.

If the pressure of the air spring corresponding to the abnormal number group information is consistent with the preset hard straight pressure information, the pressure of the air spring corresponding to the abnormal number group information can be directly adjusted according to the preset hard straight pressure information, and the object can be supported without comfort.

And step 5022, if the contact shape information is inconsistent with the abnormal shape information, performing matching analysis on the abnormal shape information and all the contact shape information to determine the closest contact shape information, defining the contact shape information as similar contact shape information, and defining the contact position information corresponding to the similar contact shape information as similar contact position information.

The similar contact shape information is information of a contact shape similar to the contact shape information. The similar contact location information is information of a contact location similar to the contact location information. The determination is made by matching the abnormal shape information with all the contact shape information, observing the different numbers between the two, and then determining the contact shape information with the smallest number of different numbers, which is defined as similar contact shape information. If the contact positions and the contact shapes are inconsistent, the other users which are not the user at the moment are indicated, and in order to provide comfort, the system automatically analyzes the corresponding contact positions and contact shapes according to similar conditions so as to perform subsequent operations.

Step 503: matching the similar contact portion information with the preset matching contact portion information to determine abnormal non-contact portion information.

The information of the abnormal untouched portion is similar to the information of the untouched portion, and the difference is that the information is the untouched portion of the other user corresponding to the current user, which is not described herein again.

Step 504: and performing matching analysis according to the gesture information, the similar contact shape information and the similar contact part information stored in the preset gesture database to determine the gesture corresponding to the similar contact shape information and the similar contact part information, and defining the gesture as the similar gesture information.

The similar gesture information is similar to the current gesture information, and the difference is that the information is the untouched part of the other user corresponding to the current user, which is not described herein again.

Step 505: and determining similar contact part combination information according to the similar posture information and the abnormal non-contact part information.

The similar contact portion combination information is information on the similar contact portion information as the substantial force of the similar non-contact portion, that is, the force actually applied to the contact portion is superimposed in a plurality of cases, because some portions are not in contact but are still applied to the contact portion, similarly to the contact portion combination information.

Step 506: and performing matching analysis according to the gravity distribution information and the similar contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the similar contact part combination information, and defining the gravity distribution as the similar gravity distribution information.

The similar gravity distribution information is consistent with the gravity distribution information, and the difference is that the information is the untouched part of other users corresponding to the current user, which is not described herein again.

Step 507: and recalculating the pressure values corresponding to the similar contact position information after distributing the current average pressure information one by one according to the similar gravity distribution information, and defining the pressure values as the similar actual average pressure information.

The similar actual average pressure information is consistent with the actual average pressure information, and the difference is that the information is the untouched part of other users corresponding to the current user, which is not described herein again.

Step 508: and calculating proportion information according to the abnormal pressure information and the similar actual average pressure information.

The proportional information is information of a proportion between the abnormal pressure information and the similar actual average pressure information, namely, is a difference between the abnormal pressure information and the similar actual average pressure information theoretically, so that a proportional relation between the abnormal pressure information and the similar actual average pressure information is determined.

Step 509: and adjusting the actual comfortable pressure value information according to the proportion information, and defining the actual comfortable pressure value information as similar comfortable pressure value information.

The similar comfortable pressure value information is information that when the pressure is flushed into the air airbag, other users corresponding to the abnormal number group information can also feel comfortable pressure. The adjustment is carried out in such a way that the two are multiplied.

Step 510: and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the similar comfortable pressure value.

After the information of the similar comfortable pressure value is obtained, the pressure is actually carried out according to the value, so that other users can feel comfortable when sitting or lying on the bed, and the learning capacity and the intelligence of the mattress are improved.

Referring to fig. 8: also included is a control method of the mattress when the user can not fall asleep due to the user, the method comprising:

step 600: and acquiring current back contact information.

The current back contact information is information of a shape in which the back of the user is contacted to the mattress at the current time. When the user falls asleep, the back of the user is contacted with the mattress necessarily at the moment, and then the current back contact information can be acquired.

Step 601: and performing matching analysis according to the posture information stored in the posture database and the current back contact information to determine different postures corresponding to the current back contact information, and defining the different postures as the back posture information.

The back posture information is information of a posture corresponding to the current back contact information, for example, a posture of lying on one's side, lying on the back, and lying on the stomach. The database stores mapping relationships between different posture information and current back contact information, and the mapping relationships are obtained by testing a user by workers in the field before the mattress is used, and are not described herein any more. When the user inputs the current back contact information, the system automatically searches all corresponding back posture information from the database.

Step 602: and performing matching analysis according to the contact shape information and the back posture information stored in the posture database to determine the contact shape information corresponding to different back posture information, and defining the different contact shape information as the back shape information.

The back shape information is information that the user's back is in contact with the mattress in different postures. The database stores the mapping relationship between the back shape information and the back posture information, and is also obtained by testing the user by workers in the field before the mattress is used, and the detailed description is omitted here. When the system finds the corresponding back posture information, the system automatically finds the corresponding back shape information from the database.

Step 603: and judging whether the back shape information corresponding to the current back contact information changes or not.

The purpose of the judgment is to determine whether to turn over.

Step 6031: and if the change occurs, acquiring the changed times within a preset time interval, and defining the times as time information.

The frequency information is information of the frequency of changes in the back shape information. If the change occurs, the turning over is possible at the moment.

Step 6032: and if the pressure value does not change, controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

If no change occurs, the sleep can still be realized at the moment, and the patient does not turn over due to discomfort, so that the actual comfortable pressure value information can be directly output.

Step 604: and judging whether the frequency information is larger than the preset critical frequency information or not.

The critical times information is artificially set and is used for distinguishing whether the difference is caused by difficulty in falling asleep, namely, if the critical times information is more than the critical times, the patient can be judged to have uncomfortable sleep and frequent turnover, and if the critical times information is less than the critical times, the patient can still sleep normally. The critical number information is 10 minutes and 5 times as an example.

Step 6041: if the back shape information is the lying shape information, the pressure in the air spring corresponding to the current back contact information is controlled to be converted according to the preset floating pressure information.

The floating pressure information is information of a pressure value that is shifted in the form of fluctuation around one pressure value. The lying shape information is a contact shape with the mattress when the user fits the mattress in a lying posture. If the pressure value is larger than the preset pressure value, the user is likely to fall asleep and turn over repeatedly, and the pressure value is changed to achieve the effect of massage and touch so as to give a more comfortable feeling to the user.

Step 6042: and if the number of times is smaller than the preset value, continuously acquiring the frequency information.

If the value is less than the threshold value, the judgment of whether the state is difficult to fall asleep is not carried out at the moment, and the acquisition can be continued to determine the actual situation.

Referring to fig. 9, the method for checking whether or not the abnormal pressure information received by the airbag spring corresponding to each number in the abnormal number group information matches includes:

step 700: temperature information at the time of occurrence of the abnormal pressure information is acquired.

The temperature information is the temperature of the mattress when the abnormal pressure information is acquired. The acquisition may be performed by any temperature sensing means, such as a temperature sensor. When abnormal pressure information occurs, the system automatically opens the temperature sensor for obtaining.

Step 701: interval temperature information is acquired after the preset interval time information.

Interval time information is a time interval set for a person, for example: for 1 min. The interval temperature information is the temperature of the mattress after the interval time elapses from the time when the abnormal pressure information is acquired.

Step 702: and judging whether the interval temperature information is consistent with the temperature information.

The purpose of the judgment is to determine whether the substance is a substance capable of being heated.

Step 7021: if the pressure values are consistent, the similar comfortable pressure value information is converted into the hard pressure information for adjustment.

If the temperature of the object is consistent with the temperature of the mattress, the object is a normal-temperature object at the moment, the object is at the room temperature and does not exchange heat with the mattress, and the user can be lifted up and conveniently take the object without providing comfortable temperature when putting on the mattress.

Step 7022: and if not, judging whether the interval temperature information is larger than the preset combustion temperature information or not.

The combustion temperature information is the temperature at which the mattress starts to burn when the temperature is higher than the temperature, and is obtained for the test of the working personnel. If the temperature of the object is inconsistent with the temperature of the mattress, the judgment of whether the combustion temperature is exceeded is needed. If the voltage exceeds the preset value, the safety hazard exists.

Step 7031: and if the inclination number is larger than the preset inclination number, performing matching analysis according to the inclination number information and the abnormal number group information stored in the preset inclination database to determine the inclination number information corresponding to the abnormal number group information, and defining the inclination number as adjacent inclination number information.

The adjacent inclination number information is information of a number adjacent to the abnormal number group information in the bed width direction. That is, the numbers and the abnormal number group information are in the same row, the mapping relation between the abnormal number group information and the adjacent inclination number information is stored in the database, and when the mattress is numbered by workers in the field, the workers in the field can simultaneously observe the actual number situation to judge whether the mattress is the adjacent number and then input and store the adjacent number. When the system finds out the corresponding abnormal number information, the corresponding adjacent parent first-giving number information is automatically found out from the database. If it is exceeded, indicating that the overlying object may cause the mattress to burn, the adjacent numbers are looked up in preparation for the next operation.

Step 7032: and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the similar comfortable pressure value information.

Since the general user is less likely to place the object with too high temperature or the object with too low temperature on the bed, if the object is not exceeded and defaulted to be a human body, the method can be directly carried out according to the previous steps. .

Step 704: and performing matching analysis according to the thrust distance information, the thrust information, the abnormal number group information and the abnormal pressure information of the air spring stored in the thrust database to determine the thrust distance information and the thrust information corresponding to the abnormal number group information and the abnormal pressure information, defining the thrust distance information as the tilt distance information, and defining the thrust information as the tilt thrust information.

The inclination distance information is a distance at which adjacent inclination number information needs to be changed when the air spring is adjusted in distance to push an upper object out of the mattress so that the mattress is inclined. The tilt thrust information is information of a thrust value that needs to be adjusted when the distance of the air spring is adjusted so that the mattress is tilted in order to push an object above the air spring out of the mattress. The database stores the mapping relation of abnormal number group information, abnormal pressure information, thrust distance information and thrust information, and the distance and the thrust required by the inclined mattress are obtained by workers in the field according to actual conditions and tests and then are input and stored in the database to form the inclined mattress. When the system acquires the abnormal number group information and the abnormal pressure information and the temperature is higher than the combustion temperature information, the system automatically searches the database to acquire the thrust distance information and the thrust information corresponding to each adjacent inclination number information.

Step 705: and controlling the air springs corresponding to the adjacent inclination number information according to the inclination distance information and the inclination thrust information.

When the tilt distance information and the tilt thrust information are obtained, adjacent numbered air springs are controlled to switch according to the information, so that the surface of the mattress is tilted to roll an object out of the mattress.

Based on the same inventive concept, the embodiment of the invention provides an intelligent air bag mattress control system, which comprises:

referring to fig. 10, an intelligent air bag mattress control system includes:

a pressure obtaining module 803, which obtains average pressure information corresponding to the user lying on the bed;

the processing module 801 is connected with the pressure acquisition module 803 and the information acquisition module 804 and is used for storing and processing information;

the information acquisition module 804 is used for acquiring the number information of the air spring receiving the pressure in the mattress;

the adjusting module 805 is connected to the processing module 801 and configured to control the pressure in the air spring corresponding to the number group information to be a pressure value corresponding to the current comfort pressure value information;

the judging module 802 is connected to the processing module 801 and is configured to judge whether the pressure information is greater than a pressure corresponding to the preset supporting force information;

a checking module 806, connected to the processing module 801, for checking whether the abnormal pressure information received by the airbag spring corresponding to each number in the abnormal number group information is consistent;

the processing module 801 screens out adjacent numbering information and classifies the adjacent numbering information into a group, and defines the group of numbering information as numbering group information;

the processing module 801 draws contact shape information according to the number group information;

the processing module 801 performs matching analysis according to the contact position information and the contact shape information stored in the preset position database to determine a contact position corresponding to the contact shape information, and defines the contact position as current contact position information;

the processing module 801 screens out corresponding average pressure information according to the current contact position information, and defines the average pressure information as current average pressure information;

the processing module 801 performs matching analysis according to the comfort pressure value information, the current average pressure information, and the current contact location information stored in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact location information, and defines the comfort pressure value as the current comfort pressure value information;

the processing module 801 controls the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the current comfort pressure value information.

Embodiments of the present invention provide a computer-readable storage medium storing a computer program that can be loaded by a processor and execute an intelligent airbag mattress control method.

Computer storage media include, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Based on the same inventive concept, the embodiment of the invention provides an intelligent terminal, which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute an intelligent air bag mattress control method.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. An intelligent air bag mattress control method is characterized by comprising the following steps:

acquiring average pressure information corresponding to a user lying on a bed;

acquiring the number information of the air spring receiving the pressure in the mattress;

screening out adjacent numbering information and grouping the adjacent numbering information into a group, and defining the group of numbering information as numbering group information;

drawing contact shape information according to the number group information;

performing matching analysis according to the contact part information and the contact shape information stored in the preset position database to determine a contact part corresponding to the contact shape information, and defining the contact part as current contact part information;

screening out corresponding average pressure information according to the current contact position information, and defining the average pressure information as the current average pressure information;

performing matching analysis according to the comfort pressure value information, the current average pressure information and the current contact position information stored in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact position information, and defining the comfort pressure value as the current comfort pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the current comfortable pressure value.

2. The intelligent air bag mattress control method according to claim 1, wherein the method for controlling the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the current comfort pressure value information comprises:

matching the current contact position information with preset check contact position information to determine non-contact position information;

performing matching analysis according to the gesture information, the contact shape information and the current contact part information stored in the preset gesture database to determine the gesture corresponding to the contact shape information and the current contact part information, and defining the gesture as the current gesture information;

determining contact part combination information according to the current posture information and the untouched part information;

performing matching analysis according to the gravity distribution information and the contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the contact part combination information, and defining the gravity distribution as the current gravity distribution information;

distributing the current average pressure information one by one according to the current gravity distribution information, recalculating a pressure value corresponding to the current contact position information, and defining the pressure value as actual average pressure information;

performing matching analysis according to the comfortable pressure value information, the actual average pressure information and the current contact position information stored in the comfortable database to determine the actual average pressure information and a comfortable pressure value corresponding to the current contact position information, and defining the comfortable pressure value as the actual comfortable pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

3. The method for controlling the intelligent air bag mattress according to claim 2, wherein the method for controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value comprises the following steps:

acquiring pressure information of a position corresponding to the hand or the foot corresponding to the contact part information of the user;

judging whether the pressure information is larger than the pressure corresponding to the preset supporting force information or not;

if the sum is larger than the preset average pressure value, calculating the sum of the actual average pressure information, and defining the sum as weight information;

performing matching analysis according to the thrust distance information and the thrust information stored in the preset thrust database and the weight information to determine the thrust distance and the thrust corresponding to the weight information, defining the thrust distance as current thrust distance information, and defining the thrust information as current thrust information;

performing matching analysis according to the pressure distribution condition information, the current thrust distance information and the current thrust information stored in the preset pressure distribution database to determine the current thrust distance information and the pressure distribution condition corresponding to the current thrust information, and defining the pressure distribution condition as the pressure distribution information;

performing pressure distribution and pressure setting on the air spring corresponding to the number group information which does not correspond to the contact part information of the hand or the foot according to the pressure distribution information and the thrust information;

and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the actual comfortable pressure value information.

4. The method for controlling an intelligent air bag mattress according to claim 3, wherein the method for distributing and setting the pressure of the air spring corresponding to the information of the number group which does not correspond to the information of the contact part of the hand or the foot according to the pressure distribution information and the thrust information comprises the following steps:

judging whether contact part information corresponding to the back exists or not, and defining the contact part information of the back as back contact information;

if yes, judging whether the part obtained by the pressure information corresponds to a hand or not, and defining the contact part information corresponding to the hand as hand contact information;

if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the serial number group information of the hand contact information according to preset hard straight pressure information;

if the part obtained by the pressure information is not corresponding to a hand, directly carrying out pressure distribution and pressure setting on the air spring corresponding to the numbering group information of the back contact information according to preset pressure distribution information and thrust information;

if not, judging whether the part obtained by the pressure information corresponds to a hand or not;

if the part obtained by the pressure information corresponds to a hand, carrying out pressure adjustment on the air spring corresponding to the serial number group information of the hand contact information according to preset hard straight pressure information;

if the part obtained by the pressure information does not correspond to the hand, the hip contact information is screened out from the contact part information, and the air springs corresponding to the numbering group information of the hip contact information are subjected to pressure distribution and pressure setting according to preset pressure distribution information and thrust information.

5. The intelligent air bag mattress control method according to claim 1, wherein when none of the contact shape information corresponds to the contact position information in the position database, the mattress control method comprises:

defining number group information corresponding to contact shape information which does not correspond to the contact position information in the position database as abnormal number group information, wherein the contact shape information is abnormal shape information;

acquiring a pressure value corresponding to the abnormal number group information, and defining the pressure value as abnormal pressure information;

judging whether the abnormal pressure information received by the airbag spring corresponding to each number in the abnormal number group information is consistent or not;

if the pressure of the air springs corresponding to the abnormal number group information is consistent with the preset hard straight pressure information, the pressure of the air springs corresponding to the abnormal number group information is adjusted;

if the contact position information is inconsistent with the abnormal shape information, performing matching analysis on the abnormal shape information and all the contact shape information to determine the closest contact shape information, defining the contact shape information as similar contact shape information, and defining the contact position information corresponding to the similar contact shape information as similar contact position information;

matching the similar contact part information with preset checking contact part information to determine abnormal non-contact part information;

performing matching analysis according to the gesture information, the similar contact shape information and the similar contact part information stored in the preset gesture database to determine the gesture corresponding to the similar contact shape information and the similar contact part information, and defining the gesture as similar gesture information;

determining similar contact part combination information according to the similar posture information and the abnormal non-contact part information;

performing matching analysis according to the gravity distribution information and the similar contact part combination information stored in the preset component force database to determine the gravity distribution corresponding to the similar contact part combination information, and defining the gravity distribution as similar gravity distribution information;

distributing the current average pressure information one by one according to similar gravity distribution information, recalculating pressure values corresponding to similar contact part information, and defining the pressure values as similar actual average pressure information;

calculating proportion information according to the abnormal pressure information and the similar actual average pressure information;

adjusting the actual comfortable pressure value information according to the proportion information, and defining the actual comfortable pressure value information as similar comfortable pressure value information;

and controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the similar comfortable pressure value.

6. The intelligent air bag mattress control method according to claim 4, further comprising a control method of the mattress when the user cannot fall asleep due to the user, the method comprising:

acquiring current back contact information;

performing matching analysis according to the posture information stored in the posture database and the current back contact information to determine different postures corresponding to the current back contact information, and defining the different postures as back posture information;

performing matching analysis according to the contact shape information and the back posture information stored in the posture database to determine the contact shape information corresponding to different back posture information, and defining the different contact shape information as the back shape information;

judging whether the back shape information corresponding to the current back contact information changes or not;

if the change occurs, acquiring the changed times within a preset time interval, and defining the times as time information;

judging whether the frequency information is larger than preset critical frequency information or not;

if the back shape information is the lying shape information, controlling the pressure in the air spring corresponding to the current back contact information to be converted according to the preset floating pressure information;

if the number of times is less than the preset value, continuously acquiring the frequency information;

and if the pressure value does not change, controlling the pressure in the air spring corresponding to the information of the number group to be the pressure value corresponding to the information of the actual comfortable pressure value.

7. The intelligent air bag mattress control method according to claim 5, wherein the method for checking whether the abnormal pressure information received by the air bag spring corresponding to each number in the abnormal number group information is consistent comprises the following steps:

acquiring temperature information when the abnormal pressure information appears;

acquiring interval temperature information after the preset interval time information;

judging whether the interval temperature information is consistent with the temperature information;

if the pressure values are consistent, converting the similar comfortable pressure value information into hard straight pressure information for regulation;

if not, judging whether the interval temperature information is larger than preset combustion temperature information or not;

if the inclination number is larger than the preset inclination number, performing matching analysis according to the inclination number information and the abnormal number group information stored in the preset inclination database to determine the inclination number information corresponding to the abnormal number group information, and defining the inclination number as adjacent inclination number information;

performing matching analysis according to the thrust distance information, the thrust information, the abnormal number group information and the abnormal pressure information of the air spring stored in a thrust database to determine the thrust distance information and the thrust information corresponding to the abnormal number group information and the abnormal pressure information, defining the thrust distance information as the inclined distance information, and defining the thrust information as the inclined thrust information;

controlling the air springs corresponding to the adjacent inclination number information according to the inclination distance information and the inclination thrust information;

and if the pressure value is not larger than the preset pressure value, controlling the pressure in the air spring corresponding to the serial number group information to be the pressure value corresponding to the similar comfortable pressure value information.

8. An intelligent air bag mattress control system, comprising:

the pressure acquisition module is used for acquiring average pressure information corresponding to the fact that a user lies on a bed;

the processing module is connected with the pressure acquisition module and the information acquisition module and is used for storing and processing information;

the information acquisition module is used for acquiring the serial number information of the air spring receiving the pressure in the mattress;

the processing module screens out adjacent number information and classifies the number information into a group, and the group of number information is defined as number group information;

the processing module draws contact shape information according to the number group information;

the processing module performs matching analysis according to the contact part information and the contact shape information stored in the preset position database to determine a contact part corresponding to the contact shape information, and defines the contact part as current contact part information;

the processing module screens out corresponding average pressure information according to the current contact position information, and defines the average pressure information as the current average pressure information;

the processing module performs matching analysis according to the comfort pressure value information, the current average pressure information and the current contact part information stored in the preset comfort database to determine the current average pressure information and a comfort pressure value corresponding to the current contact part information, and defines the comfort pressure value as the current comfort pressure value information;

and the processing module controls the pressure in the air spring corresponding to the number group information to be the pressure value corresponding to the current comfortable pressure value information.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the intelligent airbag mattress control method according to any of claims 1 to 7.

10. A computer-readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which executes a smart airbag mattress control according to any of claims 1 to 7.

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