CN115349737B

CN115349737B - Partition hardness adjusting method of intelligent mattress and related products

Info

Publication number: CN115349737B
Application number: CN202210959844.3A
Authority: CN
Inventors: 王炳坤
Original assignee: De Rucci Healthy Sleep Co Ltd
Current assignee: De Rucci Healthy Sleep Co Ltd
Priority date: 2022-08-11
Filing date: 2022-08-11
Publication date: 2023-08-25
Anticipated expiration: 2042-08-11
Also published as: CN115349737A

Abstract

The embodiment of the application relates to the technical field of intelligent home, and discloses a partition hardness adjusting method of an intelligent mattress and a related product, wherein the intelligent mattress is divided into a left partition and a right partition, the hardness of the left partition is different from that of the right partition, and the method comprises the following steps: the intelligent mattress detects that a first user on the first partition gets up and leaves the first partition; wherein the first partition is the left partition or the right partition; the intelligent mattress identifies whether a second user exists on the second partition; if the first partition exists, the hardness of the first partition is adjusted to be consistent with the hardness of the second partition; the second partition is another partition other than the first partition among the above-described left partition and the above-described right partition. By implementing the embodiment of the application, uncomfortable feeling caused by inconsistent hardness when a user turns over from one of the left partition and the right partition of the intelligent mattress to the other partition can be avoided.

Description

Partition hardness adjusting method of intelligent mattress and related products

Technical Field

The application relates to the technical field of intelligent home, in particular to a partition hardness adjusting method of an intelligent mattress and related products.

Background

Currently, some intelligent mattresses on the market are divided into a left partition and a right partition, and the intelligent mattresses can be inflated according to an input left partition hardness adjusting instruction so as to adjust the hardness of the left partition; and according to the input right partition hardness adjusting instruction, inflating the right partition to adjust the hardness of the right partition, so that the hardness of the left partition and the hardness of the right partition can be independently adjusted.

In practice, it is found that when a user on one of the left and right partitions gets up and leaves that partition, if another user on another partition turns over to that partition, the other user often feels uncomfortable due to the change in hardness.

Disclosure of Invention

The embodiment of the application discloses a partition hardness adjusting method of an intelligent mattress and a related product, which can avoid uncomfortable feeling caused by inconsistent hardness when a user turns over from one of left and right partitions of the intelligent mattress to the other partition.

An embodiment of the present application in a first aspect discloses a method for adjusting hardness of an intelligent mattress in regions, wherein the intelligent mattress is divided into a left region and a right region, and the hardness of the left region is different from the hardness of the right region, the method comprising:

The intelligent mattress detects that a first user on a first partition gets up and leaves the first partition; wherein the first partition is the left partition or the right partition;

the intelligent mattress identifies whether a second user exists on a second partition; if the first partition exists, the hardness of the first partition is adjusted to be consistent with the hardness of the second partition; the second partition is another partition other than the first partition among the left partition and the right partition.

As an optional implementation manner, in the first aspect of the embodiment of the present application, after the intelligent mattress adjusts the hardness of the first partition to be consistent with the hardness of the second partition, the method further includes:

the intelligent mattress identifies whether the temperature currently set by the first partition is consistent with the temperature currently set by the second partition;

and if the temperature of the first partition is inconsistent with the temperature of the second partition, the intelligent mattress adjusts the temperature of the first partition to be consistent with the temperature of the second partition.

As another optional implementation manner, in the first aspect of the embodiment of the present application, after the smart mattress adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition, the method further includes:

The intelligent mattress determining an electronic device of the first user;

and the intelligent mattress acquires the sleeping gesture of the second user and sends the sleeping gesture of the second user to the electronic equipment.

As a further optional implementation manner, in the first aspect of the embodiment of the present application, after the intelligent mattress sends the sleeping pose of the second user to the electronic device, the method further includes:

the intelligent mattress receives a control instruction which is sent by the electronic equipment and comprises a designated time length, wherein the control instruction is used for instructing the second user to execute vibration operation of the designated time length so as to enable the second user to change sleeping postures;

the intelligent mattress detects whether the second user currently wears a designated wearable device or not according to the control instruction; if yes, controlling the appointed wearable device to execute the vibration operation of the appointed duration so as to enable the second user to change sleeping postures.

As a further optional implementation manner, in the first aspect of the embodiment of the present application, if the smart mattress detects that the second user is not currently wearing a designated wearable device, the method further includes:

the intelligent mattress detects whether the second user turns over from the second partition to the first partition; if not, executing vibration operation of the appointed time length on the second partition so as to enable the second user to change sleeping postures; if yes, executing vibration operation of the specified duration on the first partition so as to enable the second user to change sleeping positions.

A second aspect of the embodiments of the present application discloses an intelligent mattress, the intelligent mattress being divided into a left partition and a right partition, and the hardness of the left partition being different from the hardness of the right partition, the intelligent mattress comprising:

a first detection unit, configured to detect that a first user on a first partition gets up and leaves the first partition; wherein the first partition is the left partition or the right partition;

the first identification unit is used for identifying whether a second user exists on the second partition;

the first adjusting unit is used for adjusting the hardness of the first partition to be consistent with the hardness of the second partition when the first identifying unit identifies that the second user exists on the second partition; the second partition is another partition other than the first partition among the left partition and the right partition.

As an alternative implementation manner, in the second aspect of the embodiment of the present application, the intelligent mattress further includes:

the second identification unit is used for identifying whether the current set temperature of the first partition is consistent with the current set temperature of the second partition after the first regulation unit regulates the hardness of the first partition to be consistent with the hardness of the second partition;

And the second adjusting unit is used for adjusting the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition when the second identifying unit identifies that the temperature currently set by the first partition is inconsistent with the temperature currently set by the second partition.

As another alternative implementation manner, in the second aspect of the embodiment of the present application, the intelligent mattress further includes:

a determining unit, configured to determine an electronic device of the first user after the second adjusting unit adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition;

an acquisition unit configured to acquire a sleeping posture of the second user;

and the interaction unit is used for sending the sleeping gesture of the second user to the electronic equipment.

As a further optional implementation manner, in a second aspect of the embodiment of the present application, the interaction unit is further configured to, after sending a sleeping gesture of the second user to the electronic device, receive a control instruction sent by the electronic device and including a specified duration, where the control instruction is configured to instruct to perform a vibration operation for the specified duration on the second user to enable the second user to change the sleeping gesture;

The intelligent mattress further comprises:

the second detection unit is used for detecting whether the second user is currently wearing the appointed wearable equipment or not according to the control instruction;

and the control unit is used for controlling the appointed wearable device to execute the vibration operation of the appointed duration so as to enable the second user to change the sleeping posture when the second detection unit detects that the appointed wearable device is worn by the second user.

As a further alternative embodiment, in a second aspect of the present embodiment, the intelligent mattress further includes:

a third detection unit, configured to detect, when the second detection unit detects that the second user is not currently wearing a designated wearable device, whether the second user turns over from the second partition to the first partition;

the control unit is further used for executing vibration operation of the designated duration on the second partition to enable the second user to change sleeping positions when the third detection unit detects that the second user does not turn over from the second partition to the first partition; or when the third detection unit detects that the second user turns over from the second partition to the first partition, the vibration operation of the specified duration is performed on the first partition to enable the second user to change sleeping positions.

A third aspect of the embodiments of the present application discloses an intelligent mattress, the intelligent mattress being divided into a left partition and a right partition, and the hardness of the left partition being different from the hardness of the right partition, the intelligent mattress comprising:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the steps of:

detecting that a first user on a first partition gets up and leaves the first partition; wherein the first partition is the left partition or the right partition;

identifying whether a second user is present on the second partition; if the first partition exists, the hardness of the first partition is adjusted to be consistent with the hardness of the second partition; the second partition is another partition other than the first partition among the left partition and the right partition.

As an optional implementation manner, in the third aspect of the embodiment of the present application, after the processor adjusts the hardness of the first partition to be consistent with the hardness of the second partition, the following steps are further performed:

identifying whether the current set temperature of the first partition is consistent with the current set temperature of the second partition;

And if the temperature of the first partition is inconsistent, adjusting the temperature of the current setting of the first partition to be consistent with the temperature of the current setting of the second partition.

As another optional implementation manner, in the third aspect of the embodiment of the present application, after the processor adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition, the following steps are further performed:

determining an electronic device of the first user;

and acquiring the sleeping gesture of the second user, and sending the sleeping gesture of the second user to the electronic equipment.

As a further alternative implementation manner, in the third aspect of the embodiment of the present application, after the processor sends the sleeping gesture of the second user to the electronic device, the following steps are further performed:

receiving a control instruction which is sent by the electronic equipment and comprises a designated time length, wherein the control instruction is used for instructing the second user to execute vibration operation of the designated time length so as to enable the second user to change sleeping postures;

detecting whether the second user is currently wearing a designated wearable device or not according to the control instruction; if yes, controlling the appointed wearable device to execute the vibration operation of the appointed duration so as to enable the second user to change sleeping postures.

As a further alternative implementation manner, in the third aspect of the embodiment of the present application, if the processor detects that the second user is not currently wearing a designated wearable device, the processor further performs the following steps:

detecting whether the second user turns over from the second partition to the first partition; if not, executing vibration operation of the appointed time length on the second partition so as to enable the second user to change sleeping postures; if yes, executing vibration operation of the specified duration on the first partition so as to enable the second user to change sleeping positions.

A fourth aspect of the present embodiment discloses a storage medium having stored thereon a computer program which when executed by a processor implements the steps in the method for zone hardness adjustment of an intelligent mattress in the first aspect of the present embodiment or any of the alternative implementations of the first aspect of the present embodiment.

Compared with the prior art, the embodiment of the application has the following beneficial effects:

in the embodiment of the application, the intelligent mattress detects that a first user on a first partition gets up and leaves the first partition, and the first partition is a left partition or a right partition; further, when the intelligent mattress recognizes that a second user exists in the second partition, the hardness of the first partition is adjusted to be consistent with that of the second partition, and the second partition is the other partition except the first partition in the left partition and the right partition, so that uncomfortable feeling cannot be caused to the second user due to the fact that the hardness is consistent when the second user turns over from the second partition to the first partition. Therefore, by implementing the embodiment of the application, uncomfortable feeling caused by inconsistent hardness when a user turns over from one of the left partition and the right partition of the intelligent mattress to the other partition can be avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a first embodiment of a zonal firmness control method for an intelligent mattress in accordance with an embodiment of the present application;

FIG. 2 is a flow chart of a second embodiment of a zonal firmness control method for an intelligent mattress in accordance with the present application;

FIG. 3 is a schematic diagram of a scenario in which a first user previously sets a temperature suitable for the first user for a first zone of an intelligent mattress, according to an embodiment of the present application;

FIG. 4 is a flow chart of a third embodiment of a zonal firmness adjustment method of an intelligent mattress disclosed in an embodiment of the present application;

FIG. 5 is a schematic diagram of a first embodiment of an intelligent mattress in accordance with an embodiment of the present application;

FIG. 6 is a schematic diagram of a second embodiment of an intelligent mattress in accordance with an embodiment of the present application;

FIG. 7 is a schematic structural view of a third embodiment of an intelligent mattress in accordance with the disclosure of the present application;

Fig. 8 is a schematic structural view of a fourth embodiment of an intelligent mattress in accordance with the present disclosure.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that the terms "comprises" and "comprising," along with any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiment of the application discloses a partition hardness adjusting method of an intelligent mattress and a related product, which can avoid uncomfortable feeling caused by inconsistent hardness when a user turns over from one of left and right partitions of the intelligent mattress to the other partition. The following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a flowchart illustrating a method for adjusting zonal softness of an intelligent mattress according to a first embodiment of the present application. In the method shown in fig. 1, the intelligent mattress is divided into a left partition and a right partition, and the hardness of the left partition is different from the hardness of the right partition. For example, the intelligent mattress may be an intelligent air bag mattress, wherein the air inflation saturation of the air bags in the left partition of the intelligent mattress may be controlled separately and the air inflation saturation of the air bags in the right partition may also be controlled separately, i.e. the firmness of the left partition (determined by the air inflation saturation of the air bags in the left partition) may be controlled separately and the firmness of the right partition (determined by the air inflation saturation of the air bags in the right partition) may also be controlled separately, such that the firmness of the left partition may be made different from the firmness of the right partition to meet the needs of the user on the left partition and the user on the right partition for different firmness of the right partition. As shown in fig. 1, the method comprises the steps of:

101. the intelligent mattress detects that a first user on the first partition gets up and leaves the first partition; wherein the first partition is either a left partition or a right partition.

In some embodiments, the intelligent mattress may detect that a first user on the first zone is getting up and out of the first zone via the camera; alternatively, the intelligent mattress may also detect that the first user on the first partition gets up and out of the first partition by a sensor, for example, a pressure sensor may be disposed in the first partition to detect that the first user is in a bed state or out of bed state.

Typically, the left partition of the intelligent mattress is intended to only sleep by one person and the right partition is intended to also sleep by another person, so the first user on the first partition may be understood to be one user sleeping on the first partition (e.g., the husband).

102. The intelligent mattress identifies whether a second user exists on the second partition; if so, execute step 103; if not, the process is ended.

In some embodiments, the intelligent mattress may detect the presence or absence of a second user on the second partition via the camera; alternatively, the intelligent mattress may also detect the presence or absence of the second user on the second partition by a sensor, for example, a pressure sensor may be disposed in the second partition to detect whether the second user is in or out of bed.

It will be appreciated that the second user on the second partition may be understood to be another user (e.g. wife) sleeping on the second partition.

103. The intelligent mattress adjusts the hardness of the first subarea to be consistent with the hardness of the second subarea; wherein the second partition is the other one of the left partition and the right partition than the first partition.

In some embodiments, the intelligent mattress may compare the hardness of the first section with the hardness of the second section, and if the hardness of the first section is greater than the hardness of the second section, the intelligent mattress may independently control the air bag in the first section to deflate to a saturation level of the air bag in the first section consistent with the saturation level of the air bag in the second section, thereby enabling the hardness of the first section to be adjusted to be consistent with the hardness of the second section;

or if the hardness of the first partition is smaller than that of the second partition, the intelligent mattress can independently control the air bags in the first partition to be inflated until the inflation saturation of the air bags in the first partition is consistent with that of the air bags in the second partition, so that the hardness of the first partition is adjusted to be consistent with that of the second partition.

It can be seen that when the method shown in fig. 1 is implemented, the softness of the first and second sections will remain consistent when the second user turns over from the second section of the intelligent mattress to the first section of the intelligent mattress, so that the second user will not experience discomfort. It can be seen that implementing the method shown in fig. 1 can avoid discomfort caused by inconsistent hardness when a user (e.g., a second user) turns over from one of the left and right sections of the intelligent mattress to the other.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for adjusting the hardness of a partition of an intelligent mattress according to a second embodiment of the present application. In the method shown in fig. 2, the intelligent mattress is divided into a left section and a right section, and the hardness of the left section is different from the hardness of the right section. As shown in fig. 2, the method comprises the steps of:

201. the intelligent mattress detects that a first user on the first partition gets up and leaves the first partition; wherein the first partition is either a left partition or a right partition.

202. The intelligent mattress identifies whether a second user exists on the second partition; if yes, go to step 203-step 204; if not, the process is ended.

203. The intelligent mattress adjusts the hardness of the first subarea to be consistent with the hardness of the second subarea; wherein the second partition is the other one of the left partition and the right partition than the first partition.

The steps 201 to 203 are implemented to avoid discomfort caused by inconsistent hardness when a user (e.g., a second user) turns over from one of the left and right sections of the intelligent mattress to the other section.

204. The intelligent mattress identifies whether the current set temperature of the first partition is consistent with the current set temperature of the second partition; if yes, ending the flow; if they are not identical, the steps 205 to 207 are executed.

The temperature currently set by the first partition may be a temperature preset by the first user for the first partition and suitable for the first user, and the temperature currently set by the second partition may be a temperature preset by the second user for the second partition and suitable for the second user.

205. The intelligent mattress adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition.

In some embodiments, the intelligent mattress may be built-in with an intelligent AIr chip (e.g., a multifunctional AIr-Circle intelligent AIr chip), and the intelligent AIr chip may drive the circulation of cold and hot AIr through an AIr application technology, and accurately adjust the temperature currently set in the first partition, so that the adjusted temperature currently set in the first partition is consistent with the temperature currently set in the second partition.

The implementation manner of precisely adjusting the current temperature of the first partition is the same as that of the intelligent air chip in the prior art, and the implementation manner of precisely adjusting the temperature of a certain mattress partition is not repeated.

The steps 204 to 205 are implemented, so that discomfort caused by inconsistent temperatures of the partitions when a user (such as a second user) turns over from one of the left and right partitions to the other partition of the intelligent mattress can be avoided.

206. The intelligent mattress determines an electronic device of the first user.

Illustratively, the first user's electronic device includes, but is not limited to, the first user's cell phone, tablet, or wrist electronic device.

207. The intelligent mattress acquires the sleeping posture of the second user and sends the sleeping posture of the second user to the electronic equipment of the first user.

The steps 206 to 207 are implemented, so that the first user who leaves the intelligent mattress can learn whether the sleeping posture of the second user on the intelligent mattress is correct, and further, when the sleeping posture of the second user is incorrect, the second user can be timely reminded of changing the sleeping posture, so as to avoid the damage (such as neck, waist and back soft tissue strain, blood circulation blockage, fertility obstruction, spine damage, etc.) caused by the incorrect sleeping posture to the body of the second user.

In some scenarios, a first user wears a first shoe on his left foot and a second shoe on his right foot, wherein the inside of the first shoe is opposite to the inside of the second shoe, and the inside of the first shoe is provided with a micro projector and an inductive camera; further, the first shoe can be directly connected with the intelligent mattress in a wireless manner; accordingly, the manner in which the first user sets the temperature suitable for the first user in advance for the first partition may be:

A first user can move a first shoe worn by the first user to draw a first designated track (such as a triangle track), and the first designated track (such as the triangle track) is used for triggering the first shoe to output a temperature setting interface of the intelligent mattress; correspondingly, when the first shoe detects the first specified track (such as a triangle track) drawn by the first shoe, a request message is sent to the intelligent mattress through wireless connection, and the request message is used for acquiring a temperature setting interface of the intelligent mattress; after the first shoe acquires the temperature setting interface of the intelligent mattress sent by the intelligent mattress through wireless connection, the first shoe can control the micro projector to project the temperature setting interface of the intelligent mattress; the temperature setting interface of the intelligent mattress at least comprises a left partition option, a right partition option, a confirmation option, a temperature range bar and a temperature display frame; on the basis, when the first shoe detects that the toe of the second shoe sequentially touches the left partition option and the confirmation option included in the temperature setting interface of the intelligent mattress through the induction camera, the first shoe can recognize that the first user selects the first partition; further, when the first shoe detects that the toe of the second shoe touches a certain target temperature in the temperature range bar through the induction camera, the target temperature is displayed in the temperature display frame; further, after the target temperature is displayed in the temperature display frame, when the first shoe detects that the toe of the second shoe touches the "confirm" option through the induction camera, the first shoe can recognize that the target temperature displayed in the temperature display frame is a temperature suitable for the first user; accordingly, the first shoe may send a temperature setting instruction to the intelligent mattress that includes the target temperature and a zone number of the first zone (the zone number of the first zone being different from the zone number of the second zone); after the intelligent mattress receives the temperature setting instruction, the target temperature and the partition number of the first partition can be input into an intelligent AIr chip (such as a multifunctional AIr-Circle intelligent AIr chip) arranged in the intelligent mattress, so that the intelligent AIr chip can identify the first partition according to the partition number of the first partition, and the cold and hot AIr circulation operation is driven by the AIr application technology, the temperature currently set by the first partition is accurately adjusted to be the target temperature, and the first user can set the temperature suitable for the first user for the first partition in advance.

For example, as shown in fig. 3, after a first shoe worn by a first user acquires a temperature setting interface of the intelligent mattress sent by the intelligent mattress through a wireless connection (indicated by a double-arrow dotted line), a micro projector arranged on the inner side of the first shoe can be controlled to project (the dotted line indicates a projection range) out of the temperature setting interface of the intelligent mattress; the temperature setting interface of the intelligent mattress can comprise a left partition option, a right partition option, a confirmation option, a temperature range bar of 25-40 ℃ and a temperature display frame; on the basis, when the first shoe detects that the toe of the second shoe sequentially touches the temperature setting interface of the intelligent mattress through the induction camera, the first shoe can recognize that the first user selects the first partition, and the temperature setting interface comprises a left partition option and a confirmation option; further, when the first shoe detects that the toe of the second shoe touches the target temperature 30 ℃ in the temperature range bar of 25-40 ℃ through the induction camera, the target temperature 30 ℃ is displayed in the temperature display frame; further, after the target temperature is displayed in the temperature display frame at 30 ℃, when the first shoe detects that the toe of the second shoe touches the "confirm" option through the induction camera, the first shoe can recognize that the target temperature displayed in the temperature display frame at 30 ℃ is a temperature suitable for the first user; correspondingly, the first shoe can send a temperature setting instruction comprising the target temperature of 30 ℃ and the partition number of the first partition to the intelligent mattress; after the intelligent mattress receives the temperature setting instruction, the target temperature of 30 ℃ and the partition number of the first partition can be input into an intelligent AIr chip (such as a multifunctional AIr-Circle intelligent AIr chip) arranged in the intelligent mattress, so that the intelligent AIr chip can identify the first partition according to the partition number of the first partition, and the AIr application technology is used for driving cold and hot AIr circulation operation, so that the temperature currently set by the first partition is accurately adjusted to be 30 ℃ of the target temperature, and the first user can set the temperature suitable for the first user for the first partition in advance.

By implementing the mode, the first user can conveniently preset the temperature suitable for the first user for the first partition under the condition that the first user does not need to send a voice instruction and does not need to operate manually. In particular, when the first user is a user with difficulty in speaking and/or a user with difficulty in handling, the above manner can further improve the experience feeling when the first user sets the temperature suitable for the first user for the first partition in advance.

In some embodiments, the manner in which the second user sets the temperature suitable for the second user in advance for the second partition may be similar to the manner in which the first user sets the temperature suitable for the first user in advance for the first partition, which is not described herein.

In some embodiments, the first shoe worn by the first user may establish a direct wireless connection with the intelligent mattress in the following manner:

after entering the coverage area of the hot spot of the intelligent mattress, the first user can trigger the first shoe worn by the left foot of the first user to scan the unique identifier of the hot spot around; for example, after entering the coverage area of the hot spot of the intelligent mattress, the first user may move the first shoe worn by his left foot to trace a second designated track (e.g., a square track) that is used to trigger the unique identification of the hot spot around the first shoe scan; detecting the unique identification of the hot spot around the scanning when the corresponding first shoe detects the second specified track drawn by the first shoe; and the miniature projector arranged on the inner side of the first shoe can be controlled to project a hot spot selection interface, and the hot spot selection interface comprises the unique identification of the scanned surrounding hot spots and a 'confirmation' option; on the basis, when the first shoe detects that the toe of the second shoe sequentially touches the unique identifier of the hot spot of the intelligent mattress and the 'confirmation' option in the unique identifiers of surrounding hot spots included in the hot spot selection interface through the induction camera, the first shoe can identify the hot spot of the intelligent mattress selected by the first user; controlling the micro projector to project a key input interface, wherein the key input interface comprises a plurality of characters to be selected and a key display frame; on the basis, when the first shoe detects that the toe of the second shoe touches some or all of the plurality of characters to be selected included in the key input interface through the induction camera, the touched some or all of the characters to be selected are sequenced and spliced into a verification key according to the touched sequence of the characters to be selected and displayed in the key display frame; after the touched part or all of the to-be-selected characters are sequenced and spliced into a verification key and displayed in a key display frame, broadcasting a unique identifier of a hot spot comprising the intelligent mattress and a hot spot access request of the verification key when the first shoe detects that the toe of the second shoe touches a 'confirmation' option included in a hot spot selection interface through an induction camera; correspondingly, when the intelligent mattress receives the hotspot access request and recognizes the unique identifier of the hotspot of the intelligent mattress, checking whether the verification key is consistent with the legal access key corresponding to the hotspot of the intelligent mattress, and if so, allowing the first shoe to access the hotspot of the intelligent mattress, thereby establishing direct wireless connection between the first shoe and the intelligent mattress.

The first user can establish the direct wireless connection between the first shoe and the intelligent mattress without sending out a voice instruction and manual operation. In particular, when the first user is a hard-to-pronounce user and/or a hard-to-handle user, the above manner further improves the experience of the first user when establishing a direct wireless connection between his first shoe and the intelligent mattress.

In some embodiments, in step 206 above, the first user's electronic device determined by the intelligent mattress may be a first shoe worn by the first user; accordingly, in the above step 207, the manner in which the intelligent mattress sends the sleeping posture of the second user to the electronic device of the first user may be:

the intelligent mattress detects whether the first shoes worn by the first user are still directly connected with the intelligent mattress in a wireless mode, and if so, the intelligent mattress directly sends the sleeping gesture of the second user to the first shoes worn by the first user; if not, the intelligent mattress sends a unique identifier of a first shoe worn by the first user (such as a mac address of the first shoe) and a sleeping posture of the second user to the cloud, so that the cloud sends the sleeping posture of the second user to the first shoe according to the unique identifier of the first shoe; correspondingly, a first shoe worn by a first user acquires the sleeping gesture of a second user sent by the intelligent mattress or the cloud, and a micro projector arranged on the inner side of the first shoe is controlled to project the sleeping gesture of the second user for the first user to watch.

The embodiment is implemented so that the first user can directly watch the sleeping gesture of the second user.

In some embodiments, after the first shoe worn by the first user acquires the sleeping posture of the second user sent by the intelligent mattress or the cloud, the following steps may be further performed:

the method comprises the steps that a first shoe worn by a first user performs a prompting operation, wherein the prompting operation is used for prompting the first user to watch the sleeping gesture of a second user; the prompting operation may be, for example, a vibration prompting operation or a light effect prompting operation;

and a third designated track (such as a circular track) when the first shoe worn by the first user detects the movement of the first shoe, wherein the third designated track (such as a circular track) is used for triggering the first shoe to control a micro projector arranged on the inner side of the first shoe to project the sleeping gesture of the second user;

and the first shoes worn by the first user execute the step of controlling the mini projector arranged on the inner side of the first shoes to project the sleeping gesture of the second user for the first user to watch according to the third appointed track.

By implementing the embodiment, the accuracy of the first shoes worn by the first user to control the mini projector to project the sleeping gesture of the second user can be improved.

Referring to fig. 4, fig. 4 is a flowchart illustrating a method for adjusting the hardness of a partition of an intelligent mattress according to a third embodiment of the present application. In the method shown in fig. 4, the intelligent mattress is divided into a left partition and a right partition, and the hardness of the left partition is different from that of the right partition. As shown in fig. 4, the method comprises the steps of:

steps 401 to 407 are the same as steps 201 to 207 in the previous embodiment, and will not be repeated here.

In some embodiments, in step 406, the first user's electronic device determined by the intelligent mattress may be a first shoe worn by the first user; accordingly, in the above step 407, the manner in which the intelligent mattress sends the sleeping posture of the second user to the electronic device of the first user may be:

408. The intelligent mattress receives a control instruction which is sent by the electronic equipment and comprises a designated time length, wherein the control instruction is used for instructing a second user to execute vibration operation of the designated time length so as to enable the second user to change sleeping positions.

In some embodiments, after the first shoe worn by the first user controls the mini-projector arranged on the inner side of the first shoe to project the sleeping gesture of the second user for the first user to watch, the interval duration between the two treads occurring before and after the first shoe can be detected as the designated duration, and the control instruction comprising the designated duration can be directly sent to the intelligent mattress or sent to the intelligent mattress through the cloud.

409. Detecting whether a second user currently wears a designated wearable device or not by the intelligent mattress according to the control instruction; if yes, go to step 410; if not, go to step 411.

In some embodiments, the intelligent mattress sends a detection instruction to a designated wearable device according to the control instruction, the detection instruction being for instructing the designated wearable device to detect whether the second user is currently wearing the designated wearable device; and the intelligent mattress can receive a detection result sent by the appointed wearable device, and identify whether the appointed wearable device is worn by the second user or not according to the detection result; if yes, go to step 410; if not, go to step 411.

410. The intelligent mattress controls the appointed wearable device to execute the vibration operation of the appointed duration so as to enable the second user to change the sleeping posture, and the process is finished.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the intelligent mattress controlling the designated wearable device to perform the vibration operation for the designated duration to cause the second user to change the sleeping posture may include:

the intelligent mattress determines corresponding target vibration force according to the average force value; wherein the target vibration force is in a proportional relation with the average force value, that is, the larger the average force value is, the larger the target vibration force is; conversely, the smaller the average force value is, the smaller the target vibration force is;

and controlling the designated wearable device to execute the vibration operation with the designated time length and the vibration force with the designated time length as the target vibration force by the intelligent mattress so as to enable the second user to change the sleeping posture.

411. The intelligent mattress detects whether a second user turns over from the second partition to the first partition; if not, go to step 412; if yes, go to step 413.

412. The intelligent mattress performs the vibration operation of the designated time period on the second partition so as to enable the second user to change sleeping positions, and the process is ended.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the intelligent mattress performing the vibration operation for the specified duration on the second partition to cause the second user to change the sleeping posture may include:

the intelligent mattress determines corresponding target vibration force according to the average force value; wherein the target vibration force is in a proportional relationship with the average force value;

and the intelligent mattress executes vibration operation with the vibration force being the target vibration force for the second partition, wherein the time length of the vibration operation is the designated time length, so that the second user can change the sleeping posture.

In some embodiments, a massage head may be disposed under the second partition of the intelligent mattress, and accordingly, the intelligent mattress may control the massage head disposed under the second partition to perform a vibration operation on the second partition for a period of time equal to the specified period of time, with a vibration force being the target vibration force, so as to enable the second user to change the sleeping posture.

413. The intelligent mattress performs the vibration operation for the specified duration on the first partition to enable the second user to change the sleeping posture.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the intelligent mattress performing the vibration operation for the specified duration on the first partition to cause the second user to change the sleeping posture may include:

and the intelligent mattress executes vibration operation with the first partition execution time length being the appointed time length and the vibration force being the target vibration force, so that the second user changes sleeping positions.

In some embodiments, a massage head may be disposed under the first partition of the intelligent mattress, and accordingly, the intelligent mattress may control the massage head disposed under the first partition to perform a vibration operation on the first partition with a vibration force of the target vibration force for the specified duration, so as to enable the second user to change the sleeping posture.

The steps 408 to 413 are implemented, and the intelligent mattress may send a control instruction according to the electronic device of the first user leaving the intelligent mattress, so as to effectively remind the second user of changing the sleeping posture, so as to avoid the damage (such as neck, waist and back soft tissue strain, blood circulation blockage, fertility disorder, and spine damage) caused by the incorrect sleeping posture to the body of the second user.

In addition, the implementation of the method shown in fig. 4 can also avoid discomfort caused by inconsistent hardness when a user (such as a second user) turns over from one of the left and right sections of the intelligent mattress to the other.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a first embodiment of an intelligent mattress according to an embodiment of the present application. The intelligent mattress shown in fig. 5 may be divided into a left partition and a right partition, and the hardness of the left partition is different from the hardness of the right partition. As shown in fig. 5, the intelligent mattress includes the steps of:

a first detecting unit 501 configured to detect that a first user on a first partition gets up and leaves the first partition; wherein the first partition is a left partition or a right partition;

a first identifying unit 502, configured to identify whether a second user exists on the second partition;

a first adjusting unit 503, configured to adjust, when the first identifying unit 502 identifies that the second user exists on the second partition, the hardness of the first partition to be consistent with the hardness of the second partition; the second partition is the other one of the left partition and the right partition than the first partition.

The implementation manner of the first adjusting unit 503 adjusting the hardness of the first partition to be consistent with the hardness of the second partition may refer to step 103 in the previous embodiment, which is not described in detail in the present embodiment.

It can be seen that when the second user turns over from the second partition of the intelligent mattress to the first partition of the intelligent mattress when the intelligent mattress shown in fig. 5 is applied, the softness of the first partition and the softness of the second partition are kept consistent, so that the second user does not feel uncomfortable. Therefore, when the intelligent mattress shown in fig. 5 is applied, discomfort caused by inconsistent hardness can be avoided when a user (such as a second user) turns over from one of the left and right subareas of the intelligent mattress to the other subarea.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a second embodiment of an intelligent mattress according to an embodiment of the present application. Wherein the intelligent mattress shown in fig. 6 is optimized from the intelligent mattress shown in fig. 5. In comparison to the intelligent mattress of fig. 5, the intelligent mattress of fig. 6 may further include:

a second identifying unit 504, configured to identify whether the temperature currently set by the first partition is consistent with the temperature currently set by the second partition after the first adjusting unit 503 adjusts the hardness of the first partition to be consistent with the hardness of the second partition;

and a second adjusting unit 505, configured to adjust the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition when the second identifying unit 504 identifies that the temperature currently set by the first partition is inconsistent with the temperature currently set by the second partition.

In some embodiments, the second adjusting unit 505 may be internally provided with an intelligent AIr chip (such as a multifunctional AIr-Circle intelligent AIr chip), and the intelligent AIr chip may drive the circulation of cold and hot AIr through an AIr application technology, so as to accurately adjust the temperature currently set by the first partition, so that the adjusted temperature currently set by the first partition is consistent with the temperature currently set by the second partition.

In some embodiments, the intelligent mattress shown in fig. 6 further comprises:

a determining unit 506, configured to determine the electronic device of the first user after the second adjusting unit 505 adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition;

an acquiring unit 507 for acquiring a sleeping posture of the second user;

and the interaction unit 508 is used for sending the sleeping gesture of the second user to the electronic equipment of the first user.

In some implementations, the electronic device of the first user determined by the determining unit 506 may be a first shoe worn by the first user; accordingly, the manner in which the interaction unit 508 sends the sleeping gesture of the second user to the electronic device of the first user may be:

The interaction unit 508 detects whether the first shoe worn by the first user is still directly connected with the intelligent mattress in a wireless manner, and if so, directly sends the sleeping position of the second user to the first shoe worn by the first user; if not, the interaction unit 508 sends the unique identifier of the first shoe worn by the first user (such as the mac address of the first shoe) and the sleeping gesture of the second user to the cloud, so that the cloud sends the sleeping gesture of the second user to the first shoe according to the unique identifier of the first shoe; correspondingly, a first shoe worn by a first user acquires the sleeping gesture of a second user sent by the intelligent mattress or the cloud, and a micro projector arranged on the inner side of the first shoe is controlled to project the sleeping gesture of the second user for the first user to watch.

The intelligent mattress shown in fig. 6 can avoid discomfort caused by inconsistent temperature of the partitions when a user (such as a second user) turns over from one of the left and right partitions of the intelligent mattress to the other partition.

In addition, the intelligent mattress shown in fig. 6 is applied to enable a first user who leaves the intelligent mattress to learn whether the sleeping posture of a second user on the intelligent mattress is correct, and further the second user can be timely reminded of changing the sleeping posture when the sleeping posture of the second user is incorrect, so that the damage (such as neck, waist and back soft tissue strain, blood circulation obstruction, fertility obstruction, spine damage and the like) to the body of the second user caused by the incorrect sleeping posture can be avoided.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a third embodiment of an intelligent mattress according to an embodiment of the present application. Wherein the intelligent mattress shown in fig. 7 is optimized from the intelligent mattress shown in fig. 6. In the intelligent mattress shown in fig. 7, the interaction unit 508 is further configured to, after sending the sleeping posture of the second user to the electronic device of the first user, receive a control instruction including a specified duration sent by the electronic device of the first user, where the control instruction is configured to instruct to perform a vibration operation for the second user for the specified duration to enable the second user to change the sleeping posture;

accordingly, the intelligent mattress shown in fig. 6 may further include:

a second detecting unit 509, configured to detect, according to the control instruction, whether a specified wearable device is currently worn by a second user;

and a control unit 510 configured to control the designated wearable device to perform a vibration operation for the designated duration to cause the second user to change the sleeping posture when the second detection unit 509 detects that the designated wearable device is currently worn by the second user.

In some embodiments, the second detection unit 509 may send, according to the control instruction, a detection instruction to a specified wearable device, where the detection instruction is used to instruct the specified wearable device to detect whether the specified wearable device is currently worn by the second user; and, the second detecting unit 509 may receive a detection result sent by the specified wearable device, and identify whether the specified wearable device is currently worn by the second user according to the detection result.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the controlling unit 510 controlling the designated wearable device to perform the vibration operation for the designated time period to make the second user change the sleeping posture may include:

the control unit 510 determines a corresponding target vibration force according to the average force value; wherein the target vibration force is in a proportional relation with the average force value, that is, the larger the average force value is, the larger the target vibration force is; conversely, the smaller the average force value is, the smaller the target vibration force is;

and the control unit 510 controls the designated wearable device to perform a vibration operation with a vibration force of the target vibration force for the designated time period, so that the second user changes the sleeping posture.

In some embodiments, the intelligent mattress shown in fig. 7 further comprises:

a third detecting unit 511, configured to detect whether the second user turns over from the second partition to the first partition when the second detecting unit 509 detects that the second user is not currently wearing the designated wearable device;

the control unit 510 is further configured to perform a vibration operation for the specified duration on the second partition to cause the second user to change the sleeping posture when the third detection unit 511 detects that the second user does not turn over from the second partition to the first partition; or, when the third detection unit 511 detects that the second user turns over from the second partition to the first partition, the vibration operation for the specified period of time is performed on the first partition to cause the second user to change the sleeping posture.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the control unit 510 performing the vibration operation for the specified period of time on the second partition to make the second user change the sleeping posture may include:

the control unit 510 determines a corresponding target vibration force according to the average force value; wherein the target vibration force is in a proportional relationship with the average force value;

and the control unit 510 performs a vibration operation on the second partition for which the vibration force is the target vibration force for the specified time period, so that the second user changes the sleeping posture.

In some embodiments, the control unit 510 performing the vibration operation for the specified duration on the first partition to cause the second user to change the sleeping posture may include:

and the control unit 510 performs a vibration operation of which the vibration force is the target vibration force for the specified period of time on the first division to make the second user change the sleeping posture.

When the intelligent mattress shown in fig. 6 is applied, a control instruction can be sent according to the electronic equipment of the first user leaving the intelligent mattress, so that the second user can be effectively reminded of changing the sleeping posture, and the damage (such as neck, waist and back soft tissue strain, blood circulation blockage, fertility disorder, spine injury and the like) to the body of the first user caused by the incorrect sleeping posture is avoided.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a fourth embodiment of an intelligent mattress according to an embodiment of the present application. Wherein, the intelligent mattress shown in fig. 8 can be divided into a left partition and a right partition, and the hardness of the left partition is different from that of the right partition. As shown in fig. 8, the intelligent mattress includes:

a memory 801 storing executable program code;

a processor 802 coupled to the memory 801;

wherein the processor 802 invokes executable program code stored in the memory 801 to perform the steps of:

detecting that a first user on the first partition gets up and leaves the first partition; wherein the first partition is a left partition or a right partition;

identifying whether a second user is present on the second partition; if the first partition exists, adjusting the hardness of the first partition to be consistent with the hardness of the second partition; the second partition is the other one of the left partition and the right partition than the first partition.

In some embodiments, after the processor 802 adjusts the hardness of the first partition to be consistent with the hardness of the second partition, the following steps are also performed:

and if the temperature of the first partition is inconsistent with the temperature of the second partition, regulating the temperature of the first partition to be consistent with the temperature of the second partition.

The implementation of the embodiment can avoid uncomfortable feeling caused by inconsistent partition temperatures when a user (such as a second user) turns over from one of the left partition and the right partition of the intelligent mattress to the other partition.

In some embodiments, after the processor 802 adjusts the current set temperature of the first partition to be consistent with the current set temperature of the second partition, the following steps are also performed:

determining an electronic device of a first user;

and acquiring the sleeping gesture of the second user, and sending the sleeping gesture of the second user to the electronic equipment of the first user.

The embodiment is implemented, so that a first user leaving the intelligent mattress can learn whether the sleeping posture of a second user on the intelligent mattress is correct, and further can prompt the second user to change the sleeping posture in time when the sleeping posture of the second user is incorrect, so that the damage (such as neck, waist and back soft tissue strain, blood circulation blockage, fertility disorder, spine damage and the like) to the body of the second user caused by the incorrect sleeping posture is avoided.

In some implementations, the electronic device of the first user determined by the processor 802 can be a first shoe worn by the first user; accordingly, the manner in which the processor 802 sends the sleeping position of the second user to the electronic device of the first user may be:

detecting whether a first shoe worn by a first user is still directly connected with the intelligent mattress in a wireless mode, and if so, directly sending the sleeping gesture of a second user to the first shoe worn by the first user; if not, transmitting a unique identifier of a first shoe worn by the first user (such as a mac address of the first shoe) and a sleeping gesture of the second user to the cloud end, so that the cloud end transmits the sleeping gesture of the second user to the first shoe according to the unique identifier of the first shoe; correspondingly, a first shoe worn by a first user acquires the sleeping gesture of a second user sent by the intelligent mattress or the cloud, and a micro projector arranged on the inner side of the first shoe is controlled to project the sleeping gesture of the second user for the first user to watch.

In some implementations, after the processor 802 sends the sleeping position of the second user to the electronic device of the first user, the following steps are also performed:

Receiving a control instruction which is sent by the electronic equipment of the first user and comprises a designated time length, wherein the control instruction is used for instructing a second user to execute vibration operation of the designated time length so as to enable the second user to change sleeping postures;

detecting whether the second user is currently wearing the appointed wearable device or not according to the control instruction; if yes, controlling the appointed wearable device to execute the vibration operation of the appointed duration so as to enable the second user to change the sleeping posture.

In some embodiments, after the first shoe worn by the first user controls the mini-projector arranged on the inner side of the first shoe to project the sleeping gesture of the second user for the first user to watch, the interval duration between the two treads occurring before and after the first shoe can be detected as the designated duration, and a control instruction comprising the designated duration is sent to the intelligent mattress.

In some embodiments, the control instructions may further include an average force value of two steps occurring before and after the first shoe worn by the first user; accordingly, the processor 802 controlling the designated wearable device to perform the vibration operation for the designated duration to cause the second user to change the sleeping posture may include:

determining corresponding target vibration force according to the average force value; wherein the target vibration force is in a proportional relation with the average force value, that is, the larger the average force value is, the larger the target vibration force is; conversely, the smaller the average force value is, the smaller the target vibration force is;

And controlling the designated wearable equipment to execute the vibration operation with the designated time length and the vibration force with the designated time length as the target vibration force so as to enable the second user to change the sleeping posture.

In some embodiments, if the processor 802 detects that the second user is not currently wearing the designated wearable device, the processor 802 further performs the steps of:

detecting whether the second user turns over from the second partition to the first partition; if not, executing the vibration operation of the appointed time length on the second partition so as to enable the second user to change the sleeping posture; if yes, executing vibration operation of the designated time period on the first partition so as to enable the second user to change sleeping positions.

According to the embodiment, the control instruction can be sent according to the electronic equipment of the first user leaving the intelligent mattress, so that the second user can be effectively reminded of changing the sleeping posture, and the damage (such as neck, waist and back soft tissue strain, blood circulation blockage, fertility disorder, spine damage and the like) to the body of the first user caused by the incorrect sleeping posture is avoided.

In addition, the intelligent mattress shown in fig. 8 can also avoid discomfort caused by inconsistent hardness when a user (such as a second user) turns over from one of the left and right sections of the intelligent mattress to the other.

The embodiments of the present application further disclose a storage medium having stored thereon a computer program which, when executed by a processor, performs all or part of the steps of the previous method embodiments.

The above describes the partition hardness adjusting method of the intelligent mattress, the intelligent mattress and the storage medium in detail, and specific examples are applied to describe the principle and the implementation of the application, and the description of the above examples is only used for helping to understand the method and the core idea of the application; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the application in view of the above.

Claims

1. A zonal firmness adjustment method of an intelligent mattress, the intelligent mattress being divided into a left zone and a right zone, and the firmness of the left zone being different from the firmness of the right zone, the method comprising:

The intelligent mattress identifies whether a second user exists on a second partition; if the first partition exists, the hardness of the first partition is adjusted to be consistent with the hardness of the second partition; the second partition is another partition other than the first partition among the left partition and the right partition;

if the temperature of the first partition is inconsistent with the temperature of the second partition, the intelligent mattress adjusts the temperature of the first partition to be consistent with the temperature of the second partition;

the intelligent mattress determining an electronic device of the first user;

the intelligent mattress acquires the sleeping pose of the second user and sends the sleeping pose of the second user to the electronic equipment;

the electronic equipment is a first shoe worn by the left foot of the first user, and a miniature projector and an induction camera are arranged on the inner side of the first shoe; the first shoe and the intelligent mattress are connected in a wireless mode as follows:

after entering the coverage area of the hot spot of the intelligent mattress, the first shoe is triggered by the first user to scan the unique identifier of the surrounding hot spot and controls the micro projector to project a hot spot selection interface, wherein the hot spot selection interface comprises the unique identifier of the scanned surrounding hot spot and confirmation options; when detecting that the toe of a second shoe worn by the right foot of the first user sequentially touches the unique identification of the hot spot of the intelligent mattress and the confirmation option in the unique identifications of surrounding hot spots included in the hot spot selection interface through the induction camera, controlling the micro projector to project a key input interface, wherein the key input interface comprises a plurality of characters to be selected and a key display frame; when the induction camera detects that the toe of the second shoe touches part or all of the plurality of characters to be selected, sorting and splicing the touched part or all of the characters to be selected into a verification key according to the touched sequence of the characters to be selected, and displaying the verification key in the key display frame; broadcasting a hotspot access request comprising a unique identification of a hotspot of the intelligent mattress and the verification key when the inductive camera detects that the toe of the second shoe touches the confirmation option;

When the intelligent mattress receives the hotspot access request and recognizes the unique identifier of the hotspot of the intelligent mattress, checking whether the verification key is consistent with the legal access key corresponding to the hotspot of the intelligent mattress, and if so, allowing the first shoe to access the hotspot of the intelligent mattress, thereby establishing direct wireless connection between the first shoe and the intelligent mattress.

2. The zone firmness adjustment method of claim 1, wherein after the intelligent mattress transmits the second user's sleeping position to the electronic device, the method further comprises:

3. The zone hardness adjustment method of claim 2, wherein if the intelligent mattress detects that the second user is not currently wearing a designated wearable device, the method further comprises:

4. An intelligent mattress divided into a left partition and a right partition, and the hardness of the left partition is different from the hardness of the right partition, the intelligent mattress comprising:

the first adjusting unit is used for adjusting the hardness of the first partition to be consistent with the hardness of the second partition when the first identifying unit identifies that the second user exists on the second partition; the second partition is another partition other than the first partition among the left partition and the right partition;

the second adjusting unit is used for adjusting the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition when the second identifying unit identifies that the temperature currently set by the first partition is inconsistent with the temperature currently set by the second partition;

the determining unit is used for determining the electronic equipment of the first user after the second adjusting unit adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition;

the acquisition unit is used for acquiring the sleeping gesture of the second user;

the interaction unit is used for sending the sleeping gesture of the second user to the electronic equipment of the first user;

5. An intelligent mattress divided into a left partition and a right partition, and the hardness of the left partition is different from the hardness of the right partition, the intelligent mattress comprising:

a memory storing executable program code;

a processor coupled to the memory;

identifying whether a second user is present on the second partition; if the first partition exists, the hardness of the first partition is adjusted to be consistent with the hardness of the second partition; the second partition is another partition other than the first partition among the left partition and the right partition;

After the processor adjusts the hardness of the first partition to be consistent with the hardness of the second partition, the processor further executes the following steps:

if the temperature of the first partition is inconsistent with the temperature of the second partition, the temperature of the first partition is adjusted to be consistent with the temperature of the second partition;

after the processor adjusts the temperature currently set by the first partition to be consistent with the temperature currently set by the second partition, the processor further executes the following steps:

determining an electronic device of the first user;

acquiring the sleeping gesture of the second user, and sending the sleeping gesture of the second user to the electronic equipment;

6. The intelligent mattress of claim 5, wherein after the processor transmits the sleeping position of the second user to the electronic device, further performing the steps of:

7. The intelligent mattress of claim 6, wherein if the processor detects that the second user is not currently wearing a designated wearable device, the processor further performs the steps of:

8. A storage medium having stored thereon a computer program which when executed by a processor performs the steps in the zonal firmness adjustment method of an intelligent mattress of any of claims 1 to 3.