CN111208740A - Mattress control system and control method thereof - Google Patents

Abstract

The application discloses a mattress control system and a control method thereof, and relates to the technical field of health care. The system monitors real-time net weight information and real-time temperature information on the mattress through the gravity sensor and the temperature sensor respectively, and transmits the information to the remote terminal module so as to improve the remote care effect; through the formation of the periodic processing threshold data and the comparison between corresponding real-time net weight information and real-time temperature information, when early warning information is generated, the early warning information is sent to the remote terminal module in time, so that the remote care effect is further improved; the privacy function is realized through the setting of the mattress micro-control unit, and the maximum time for single closing of the gravity sensor and the temperature sensor is set to be 12 hours, so that the effects of information receiving and remote care of the remote terminal module, which are influenced by the error closing, are avoided; and the magnetic field generating unit generates a magnetic field to realize the magnetic therapy effect.

Description

Mattress control system and control method thereof

Technical Field

The application relates to the technical field of health care, in particular to a mattress control system and a control method thereof.

Background

The gradual improvement of the living standard of people stimulates the daily consumption of people, and particularly, the demand of health care is also gradually improved. Because the sleeping time occupies most of the daily life time of people, and the mattress is used as a necessary product for sleeping, the mattress provides a comfortable sleeping environment for people and is also a key factor influencing the sleeping quality. In recent years, as the aging degree of society is gradually increased, young people often spell in cities far from parents in the hometown, so that it is difficult to take full care of parents of the young people.

Chinese patent publication No. CN110063615A discloses a household multi-magnetic therapy mattress, which comprises a plurality of magnetic therapy mattress bodies and a combined control system, wherein the magnetic therapy mattress bodies comprise a magnetic field generating unit and a magnetic field control unit which are connected, the combined control system comprises a control module, the control module is connected with a plurality of control interfaces and an instruction input interface for receiving control instructions, and the control interfaces are connected with the magnetic field control unit of the magnetic therapy mattress bodies in a one-to-one correspondence manner.

But the mattress realizes the combined control by only controlling all the magnetic therapy mattresses by a single user at the same time, and is difficult to understand the specific conditions of remote relatives, parents and elders and realize further care effect, and needs to be improved.

Disclosure of Invention

In view of the above, a first objective of the present application is to provide a mattress control system to achieve the purpose of significantly improving the remote care effect. The specific scheme is as follows:

a mattress control system comprises a mattress control module, a central control module, a communication module and a remote terminal module;

the communication module is used for remotely connecting the mattress control module, the central control module and the remote terminal module;

the mattress control module comprises a gravity sensor, a temperature sensor and an emergency communication device; the gravity sensor is used for monitoring net weight on the mattress; the temperature sensor is used for monitoring the temperature on the mattress; the emergency communication device is used for being connected with the central control module and carrying out real-time communication telephone;

the central control module comprises an information processing unit and a storage unit; the information processing unit is used for receiving real-time net weight information on the mattress monitored by the gravity sensor and real-time temperature information on the mattress monitored by the temperature sensor; the storage unit is used for recording the information received by the information processing unit;

the remote terminal module comprises a control unit and a display unit, and the control unit is used for controlling the mattress control module and the communication module; the display unit is used for displaying the received information.

Preferably: the information processing unit comprises a receiving end and a processing end, the receiving end is used for receiving real-time net weight information and real-time temperature information on the mattress, and the processing end is used for processing the real-time net weight information and the real-time temperature information and forming periodic processing threshold value data; when the gravity sensor monitors that the real-time net weight information on the mattress exceeds a corresponding threshold range in the periodic processing threshold data, sending a gravity alarm to the remote terminal module; and when the temperature sensor monitors that the real-time temperature information on the mattress exceeds a corresponding threshold range in the periodic processing threshold data, sending a temperature alarm to the remote terminal module.

Preferably: the periodic processing threshold data forming method comprises the following steps:

step 1, a receiving end acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking net weight time coordinate graphs and temperature time coordinate graphs of the previous day and N days before the previous day, and respectively calculating the average values of the net weight time coordinate graphs and the temperature time coordinate graphs to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

Preferably: the mattress control module is also provided with a mattress micro-control unit which is used for controlling the gravity sensor and the temperature sensor to be opened and closed, and when the gravity sensor and the temperature sensor are closed for more than 12 hours, the mattress micro-control unit controls the gravity sensor and the temperature sensor to be automatically started.

Preferably: the mattress module also comprises a magnetic field generating unit and a maneuvering unit, wherein the magnetic field generating unit is used for generating a magnetic field and carrying out magnetic therapy on the living body in the magnetic field, and the maneuvering unit is used for controlling the opening and closing of the magnetic field generating unit.

Preferably: and the maneuvering unit is connected with the gravity sensor, and closes the magnetic field generating unit when the gravity sensor monitors that the real-time net weight information suddenly drops.

A second object of the present application is to provide a mattress control method, comprising the steps of:

step 1, a gravity sensor in a mattress control module acquires real-time net weight information and a temperature sensor acquires real-time temperature information, and the acquired real-time net weight information and the acquired real-time temperature information are sent to a central control module through a communication module;

step 2, after the information processing unit of the central control module receives the real-time net weight information and the real-time temperature information through the receiving end of the information processing unit, the corresponding real-time net weight information and the corresponding real-time temperature information are stored through the storage unit of the information processing unit, and the processing end of the information processing unit obtains periodic processing threshold value data;

step 3, if the real-time net weight information monitored by the gravity sensor exceeds a corresponding threshold range in the periodic processing threshold data, sending a gravity alarm to the remote terminal module, and continuing the step 5, otherwise continuing the step 4;

step 4, if the real-time temperature information monitored by the temperature sensor exceeds the corresponding threshold range in the periodic processing threshold data, sending a temperature alarm to the remote terminal module, and continuing to step 5, otherwise continuing to step 1;

and 5, displaying the received alarm information by a display unit of the remote terminal module, and starting the emergency communication device by a control unit to realize real-time communication telephone.

Preferably: in step 2, the method for forming the periodic processing threshold data includes the following steps:

step 1, a receiving end acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking net weight time coordinate graphs and temperature time coordinate graphs of the previous day and N days before the previous day, and respectively calculating the average values of the net weight time coordinate graphs and the temperature time coordinate graphs to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

According to the scheme, the mattress control system and the control method thereof have the following beneficial effects:

1. real-time net weight information and real-time temperature information on the mattress are monitored through the gravity sensor and the temperature sensor respectively, and the information is transmitted to the remote terminal module, so that the remote care effect is improved;

2. through the formation of the periodic processing threshold data and the comparison between corresponding real-time net weight information and real-time temperature information, when early warning information is generated, the early warning information is sent to the remote terminal module in time, so that the remote care effect is further improved;

3. the privacy function is realized through the setting of the mattress micro-control unit, and the maximum time for single closing of the gravity sensor and the temperature sensor is set to be 12 hours, so that the effects of information receiving and remote care of the remote terminal module, which are influenced by the error closing, are avoided;

4. the magnetic field generating unit generates a magnetic field and performs magnetic therapy on the living body in the magnetic field, so that the magnetic therapy effect is realized, and the functionality of the control system is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a block diagram of a mattress control system as disclosed herein;

FIG. 2 is a block diagram of a mattress control module disclosed herein;

FIG. 3 is a block diagram of a central control module disclosed herein;

fig. 4 is a block diagram of a remote terminal module disclosed in the present application.

Description of reference numerals: 1. a mattress control module; 11. a gravity sensor; 12. a temperature sensor; 13. an emergency communication device; 14. a mattress micro-control unit; 15. a magnetic field generating unit; 16. a motorized unit; 2. a central control module; 21. an information processing unit; 211. a receiving end; 212. a processing end; 22. a storage unit; 3. a communication module; 4. a remote terminal module; 41. a control unit; 42. a display unit.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Example one

As shown in fig. 1-4, a mattress control system includes a mattress control module 1, a central control module 2, a communication module 3, and a remote terminal module 4. The communication module 3 is used for remotely connecting the mattress control module 1, the central control module 2 and the remote terminal module 4.

The mattress control module 1 comprises a gravity sensor 11, a temperature sensor 12, an emergency communication device 13, a mattress micro-control unit 14, a magnetic field generation unit 15 and a motorized unit 16. The gravity sensor 11 is used to monitor the net weight on the mattress; the temperature sensor 12 is used for monitoring the temperature on the mattress; the emergency communication device 13 is used for connecting with the central control module 2 and carrying out real-time communication telephone; the mattress micro-control unit 14 is used for controlling the gravity sensor 11 and the temperature sensor 12 to be turned on and off, and when the gravity sensor 11 and the temperature sensor 12 are turned off for more than 12 hours, the mattress micro-control unit 14 controls the gravity sensor 11 and the temperature sensor 12 to be automatically started, so that the privacy function is realized in the setting of the mattress micro-control unit 14, and after the maximum time of single turn-off of the gravity sensor 11 and the temperature sensor 12 is set to 12 hours, the effects of information receiving and remote care of the remote terminal module 4, which are influenced by error turn-off, are effectively avoided; the magnetic field generating unit 15 is used for generating a magnetic field and carrying out magnetic therapy on the living body in the magnetic field so as to realize the magnetic therapy effect and effectively improve the functionality of the control system; and the motorized unit 16 is used for controlling the opening and closing of the magnetic field generating unit 15. It should be mentioned that the mobile unit 16 is connected to the gravity sensor 11, and when the gravity sensor 11 detects a sudden drop of the real-time net weight information, the mobile unit 16 turns off the magnetic field generating unit 15, so as to avoid wasting resources.

The central control module 2 comprises an information processing unit 21 and a storage unit 22, wherein the information processing unit 21 is used for receiving real-time net weight information on the mattress monitored by the gravity sensor 11 and real-time temperature information on the mattress monitored by the temperature sensor 12; the storage unit 22 is used for recording the information received by the information processing unit 21. Meanwhile, the remote terminal module 4 comprises a control unit 41 and a display unit 42, wherein the control unit 41 is used for controlling the mattress control module 1 and the communication module 3; the display unit 42 is used for displaying the received information.

Note that the information processing unit 21 includes a receiving end 211 and a processing end 212. The receiving end 211 is configured to receive real-time net weight information and real-time temperature information on the mattress; the processing terminal 212 is used for processing the real-time net weight information and the real-time temperature information and forming periodic processing threshold data; the periodic processing threshold value data forming method comprises the following steps:

step 1, a receiving end 211 acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking the net weight time coordinate graph and the temperature time coordinate graph of the previous day and 7 days before the previous day, and respectively calculating the average values of the net weight time coordinate graph and the temperature time coordinate graph to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

Further, when the gravity sensor 11 monitors that the real-time net weight information on the mattress exceeds a corresponding threshold range in the periodic processing threshold data, a gravity alarm is sent to the remote terminal module 4; and sends a temperature alarm to the remote terminal module 4 when the temperature sensor 12 monitors that the real-time temperature information on the mattress is outside the corresponding threshold range within the periodic processing threshold data. Therefore, the real-time net weight information and the real-time temperature information on the mattress are respectively monitored by the gravity sensor 11 and the temperature sensor 12, and the information is transmitted to the remote terminal module 4, so that the remote care effect is effectively improved; and when monitoring that the corresponding information exceeds the corresponding threshold range in the periodic processing threshold data, the remote terminal module 4 receives the instant alarm information, so as to achieve the purpose of further improving the remote care effect.

The application also discloses a mattress control method, which comprises the following steps:

step 1, a gravity sensor in a mattress control module acquires real-time net weight information and a temperature sensor acquires real-time temperature information, and the acquired real-time net weight information and the acquired real-time temperature information are sent to a central control module through a communication module;

step 2, after the information processing unit of the central control module receives the real-time net weight information and the real-time temperature information through the receiving end of the information processing unit, the corresponding real-time net weight information and the corresponding real-time temperature information are stored through the storage unit of the information processing unit, and the processing end of the information processing unit obtains periodic processing threshold value data;

step 3, if the real-time net weight information monitored by the gravity sensor exceeds a corresponding threshold range in the periodic processing threshold data, sending a gravity alarm to the remote terminal module, and continuing the step 5, otherwise continuing the step 4;

step 4, if the real-time temperature information monitored by the temperature sensor exceeds the corresponding threshold range in the periodic processing threshold data, sending a temperature alarm to the remote terminal module, and continuing to step 5, otherwise continuing to step 1;

and 5, displaying the received alarm information by a display unit of the remote terminal module, and starting the emergency communication device by a control unit to realize real-time communication telephone.

In step 2 of the mattress control method, the periodic processing threshold data forming method includes the steps of:

step 1, a receiving end acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking the net weight time coordinate graph and the temperature time coordinate graph of the previous day and 7 days before the previous day, and respectively calculating the average values of the net weight time coordinate graph and the temperature time coordinate graph to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

Example two

The difference between the second embodiment and the first embodiment is that, in step 3 of the method for forming cycle processing threshold value data of the second embodiment, the net weight time graph and the temperature time graph of the previous day and 15 days before the previous day are taken and averaged to obtain the customary net weight time graph and the customary temperature time graph, that is, the cycle processing threshold value data.

EXAMPLE III

The third embodiment is different from the first embodiment in that, in step 3 of the method for forming cycle processing threshold value data of the third embodiment, net weight time graphs and temperature time graphs of the previous day and 30 days before the previous day are taken and averaged to obtain a habitual net weight time graph and a habitual temperature time graph, that is, cycle processing threshold value data.

References in this application to "first," "second," "third," "fourth," etc., if any, are intended to distinguish between similar elements and not necessarily to describe a particular order or sequence. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises" and "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, or apparatus.

It should be noted that the descriptions in this application referring to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (8)

1. A mattress control system characterized by: the mattress control system comprises a mattress control module, a central control module, a communication module and a remote terminal module;

the communication module is used for remotely connecting the mattress control module, the central control module and the remote terminal module;

the mattress control module comprises a gravity sensor, a temperature sensor and an emergency communication device; the gravity sensor is used for monitoring net weight on the mattress; the temperature sensor is used for monitoring the temperature on the mattress; the emergency communication device is used for being connected with the central control module and carrying out real-time communication telephone;

the central control module comprises an information processing unit and a storage unit; the information processing unit is used for receiving real-time net weight information on the mattress monitored by the gravity sensor and real-time temperature information on the mattress monitored by the temperature sensor; the storage unit is used for recording the information received by the information processing unit;

the remote terminal module comprises a control unit and a display unit, and the control unit is used for controlling the mattress control module and the communication module; the display unit is used for displaying the received information.

2. The mattress control system of claim 1, wherein: the information processing unit comprises a receiving end and a processing end, the receiving end is used for receiving real-time net weight information and real-time temperature information on the mattress, and the processing end is used for processing the real-time net weight information and the real-time temperature information and forming periodic processing threshold value data; when the gravity sensor monitors that the real-time net weight information on the mattress exceeds a corresponding threshold range in the periodic processing threshold data, sending a gravity alarm to the remote terminal module; and when the temperature sensor monitors that the real-time temperature information on the mattress exceeds a corresponding threshold range in the periodic processing threshold data, sending a temperature alarm to the remote terminal module.

3. A mattress control system according to claim 2, wherein: the periodic processing threshold data forming method comprises the following steps:

step 1, a receiving end acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking net weight time coordinate graphs and temperature time coordinate graphs of the previous day and N days before the previous day, and respectively calculating the average values of the net weight time coordinate graphs and the temperature time coordinate graphs to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

4. The mattress control system of claim 1, wherein: the mattress control module is also provided with a mattress micro-control unit which is used for controlling the gravity sensor and the temperature sensor to be opened and closed, and when the gravity sensor and the temperature sensor are closed for more than 12 hours, the mattress micro-control unit controls the gravity sensor and the temperature sensor to be automatically started.

5. The mattress control system of claim 1, wherein: the mattress module also comprises a magnetic field generating unit and a maneuvering unit, wherein the magnetic field generating unit is used for generating a magnetic field and carrying out magnetic therapy on the living body in the magnetic field, and the maneuvering unit is used for controlling the opening and closing of the magnetic field generating unit.

6. The mattress control system of claim 5, wherein: and the maneuvering unit is connected with the gravity sensor, and closes the magnetic field generating unit when the gravity sensor monitors that the real-time net weight information suddenly drops.

7. A mattress control method is characterized by comprising the following steps:

step 1, a gravity sensor in a mattress control module acquires real-time net weight information and a temperature sensor acquires real-time temperature information, and the acquired real-time net weight information and the acquired real-time temperature information are sent to a central control module through a communication module;

step 2, after the information processing unit of the central control module receives the real-time net weight information and the real-time temperature information through the receiving end of the information processing unit, the corresponding real-time net weight information and the corresponding real-time temperature information are stored through the storage unit of the information processing unit, and the processing end of the information processing unit obtains periodic processing threshold value data;

step 3, if the real-time net weight information monitored by the gravity sensor exceeds a corresponding threshold range in the periodic processing threshold data, sending a gravity alarm to the remote terminal module, and continuing the step 5, otherwise continuing the step 4;

step 4, if the real-time temperature information monitored by the temperature sensor exceeds the corresponding threshold range in the periodic processing threshold data, sending a temperature alarm to the remote terminal module, and continuing to step 5, otherwise continuing to step 1;

and 5, displaying the received alarm information by a display unit of the remote terminal module, and starting the emergency communication device by a control unit to realize real-time communication telephone.

8. The mattress control method of claim 7, wherein: in step 2, the method for forming the periodic processing threshold data includes the following steps:

step 1, a receiving end acquires real-time net weight information and real-time temperature information;

step 2, respectively forming corresponding XY-axis coordinate graphs, namely a daily net weight time coordinate graph and a daily temperature time coordinate graph, according to the real-time net weight information and the time and the real-time temperature information and the daily time;

and 3, taking net weight time coordinate graphs and temperature time coordinate graphs of the previous day and N days before the previous day, and respectively calculating the average values of the net weight time coordinate graphs and the temperature time coordinate graphs to obtain a habitual net weight time coordinate graph and a habitual temperature time coordinate graph, namely period processing threshold data.

Images