CN111743521A - Care system - Google Patents

Abstract

The invention discloses a care system which comprises a first detection device, a feedback device and an artificial intelligence module. The first detection device is worn by a person to be detected to detect the physical condition of the person to be detected and integrates the detection result of the physical condition of the person to be detected into physical data. The feedback device is worn by a caregiver and is in communication connection with the first detection device so as to feed back the body data monitored by the first detection device to the feedback device, and the caregiver can know the body condition of the person to be detected through the feedback of the feedback device. The artificial intelligence module comprises a processing unit and a first display unit, wherein the processing unit is in communication connection with at least one of the first detection device and the feedback device so as to receive the body data transmitted by at least one of the first detection device and the feedback device, and integrate the specific items of the body data to form an interface to be displayed on the first display unit. The invention can effectively improve the care quality and share the work content and the work pressure of the care giver.

Description

Care system

Technical Field

The invention relates to a care system.

Background

With the progress of the times, medical science and technology are greatly advanced, and medical centers and clinics stand, so that the cost of modern people going to hospitals for diagnosis is greatly reduced, but good medical services can be obtained, the average life of the modern people is higher and higher, and in addition, the phenomenon of minority carrier waves is caused by the fact that the price of the modern people is increased and the living pressure is huge, so that the population distribution of developing countries and developed countries is advanced towards the aging, in the aging society, the care service becomes a very important ring, and how to enable the aged population to be completely cared at home is achieved, so that the health is improved, good living quality is obtained, and the modern society becomes a very important subject.

However, in the current nursing system, a caregiver must take care of several persons to be cared at the same time, and the caregiver needs to measure the physical conditions (such as body temperature, blood pressure, heart rate, etc.) of each person to be cared regularly and to perform rehabilitation aiming at the disease of each person to be cared, which causes the carer to become boring and greatly reduces the quality of care. In addition, when the care experience of the care giver is insufficient, it is difficult to effectively judge the current physical discomfort of the care giver, which easily causes accidents such as delayed medical delivery, and thus, there is a drawback that improvement is urgently needed.

Therefore, there is a need to provide a novel and advanced care system to solve the above problems.

Disclosure of Invention

The present invention provides a care system, which integrates the physical condition of a subject into a physical data by wearing a first detecting device on the subject, and reminds the care provider through a feedback device for reference, so as to effectively improve the quality of care and share the working content and pressure of the care provider.

To achieve the above objective, the present invention provides a care system, which includes a first detecting device, a feedback device and an artificial intelligence module. The first detection device is worn by a testee to detect the physical condition of the testee and integrates the detection result of the physical condition of the testee into physical data. The feedback device is worn by a caregiver and is in communication connection with the first detection device so as to feed the body data monitored by the first detection device back to the feedback device, and the caregiver can know the body condition of the testee through the feedback of the feedback device. The artificial intelligence module comprises a processing unit and a first display unit, wherein the processing unit is in communication connection with at least one of the first detection device and the feedback device so as to receive the body data transmitted by at least one of the first detection device and the feedback device and integrate specific items of the body data to form an interface to be displayed on the first display unit.

The invention has the advantages that:

the care system provided by the invention can integrate the physical condition of the detected person into physical data by wearing the first detecting device on the detected person, and remind the care person through the feedback device to be referred by the care person, so that the care quality can be effectively improved, and the working content and the working pressure of the care person can be shared.

Drawings

Fig. 1 and 2 are schematic views of a preferred embodiment of the present invention.

FIG. 3 is a block diagram of a preferred embodiment of the present invention.

Fig. 4 and 5 are schematic diagrams of a first display unit according to a preferred embodiment of the invention.

FIG. 6 is a schematic interface diagram according to a preferred embodiment of the present invention.

Fig. 7 is a schematic diagram of a second detection device according to a preferred embodiment of the invention.

FIG. 8 is a schematic diagram illustrating the operation of the present invention.

FIG. 9 is a diagram illustrating an augmented reality module according to a preferred embodiment of the present invention.

FIG. 10 is a schematic diagram illustrating the operation of the preferred embodiment of the present invention.

Fig. 11 and 12 are schematic diagrams of virtual reality pictures according to a preferred embodiment of the invention.

FIG. 13 is a diagram illustrating the virtual reality module according to a preferred embodiment of the present invention.

Detailed Description

The following description is given by way of example only, and is not intended to limit the scope of the invention.

Referring to fig. 1 to 13, which illustrate a preferred embodiment of the present invention, the care system of the present invention includes a first detecting device 1, a feedback device 2 and an artificial intelligence module 3.

The first detecting device 1 is worn by a subject 91 to detect the physical condition of the subject 91, and integrates the detected result of the physical condition of the subject 91 into a body data 11.

The feedback device 2 is worn by a caregiver 92 and is in communication connection with the first detecting device 1, so as to feed back the body data 11 monitored by the first detecting device 1 to the feedback device 2, and the caregiver 92 can know the body condition of the subject 91 through the feedback of the feedback device 2.

The artificial intelligence module 3 includes a processing unit 31 and a first display unit 32, the processing unit 31 is in communication connection with at least one of the first detecting device 1 and the feedback device 2 to receive the body data 11 transmitted by at least one of the first detecting device 1 and the feedback device 2, and integrates specific items of the body data 11 to form an interface 33 to be displayed on the first display unit 32, and the processing unit 31 and the first detecting device 1 are in communication connection with the feedback device 2 respectively in this embodiment.

Preferably, the care system further includes a mobile device 6 (in this embodiment, a mobile phone, in other embodiments, other mobile devices 6 such as a tablet computer, etc.), the artificial intelligence module 3 is an APP 61 disposed on the mobile device 6, when the physical condition of the subject 91 detected by the first detecting device 1 is abnormal (such as fever or hypertension), the APP 61 can issue a prompt to remind the subject 91 to take medicine, notify the care device 92 or perform a hospital registration to avoid the subject 91 from neglecting the abnormal physical condition, preferably, the APP 61 has a voice recognition system for performing voice input for performing simple voice control, thereby improving the operation convenience of the artificial intelligence module 3.

Specifically, the first detecting device 1 is a sensing clothing 12 worn by the subject 91, the sensing clothing 12 can detect the physical conditions of the subject 91, such as blood pressure, body temperature, heartbeat, respiratory state, local inflammation, etc., and integrate the physical conditions into the physical data 11, and transmit the physical data 11 to the artificial intelligence module 3, the artificial intelligence module 3 can display the physical data 11 on the first display unit 32 (as shown in fig. 4 to 6), the caregiver 92 can know the detailed physical conditions of the subject 91 via the first display unit 32, if abnormal data occurs, such as hypertension, tachycardia or hyperthermia, etc., the caregiver 92 can immediately care the subject 91, and the caregiver 92 can immediately take simple care (for example, give a prescription made by a physician to the subject 91), if the physical condition of the subject 91 is improved, the medical treatment process is not required, so the care system can share the work content of the care provider 92 and avoid the regret that the care provider 92 cares that the physical abnormality of the subject 91 is not found.

Further, the feedback device 2 comprises a pressure tactile module 21, which, when the feedback device 2 receives the body data 11, the feedback device 2 corresponds the uncomfortable body part of the examinee 91 to the feedback device 2 according to the body data 11, and applies pressure feedback to the caregiver 92, for example, when the right arm of the subject 91 is sprained or has a trauma that causes local inflammation in the subject 91, the feedback device 2 receives the body data 11, the feedback device 2 records the right arm utterance of the subject 91 because the body data 11, so that the feedback device 2 presses the right arm of the caregiver 92, the caregiver 92 can know that the right arm of the subject 91 is in a state of discomfort, the right arm of the subject 91 can be examined immediately for simple fixation and bandaging of the affected part or for medical treatment.

As shown in fig. 7, the care system may further include a second detecting device 7, the second detecting device 7 is in communication connection with the artificial intelligence module 3, the second detecting device 7 is a mirror and includes a scanning lens 71 and a fourth display unit 72, the scanning lens 71 is used for scanning the physical condition of the person 91, and integrating the detection result into the physical data 11 to be displayed on the fourth display unit 72, so that the person 91 can also perform self-detection and view clothing appearance through the second detecting device 7, when the person 91 observes that the body has bad data through the second detecting device 7, the person 91 can also actively know the care device 92, which can achieve the function of bidirectional protection, so as to change the previous passive care mode. It should be noted that, in this embodiment, the care system further includes a cloud processing center 8, the first detecting device 1, the second detecting device 7, the feedback device 2, and the artificial intelligence module 3 are connected to the cloud processing center 8 through an internet, the cloud processing center 8 transmits the body data 11 detected by the first detecting device 1 and the second detecting device 7 to the feedback device 2 and the artificial intelligence module 3, and the cloud processing center 8 can store various data for later query, and in addition, can collect various care big data statistics.

It should be noted that, as shown in fig. 8, the care system of the present invention further includes an Augmented Reality (AR) module 5 and a Virtual Reality (VR) module 4. The augmented reality module 5 is in communication connection with the artificial intelligence module 3 and includes a camera module 51 and a third display unit 52, the camera module 51 forms an augmented reality image 53 from the captured image and displays the augmented reality image 53 on the third display unit 52, and the augmented reality module 5 displays at least one augmented object 54 on the augmented reality image 53. As shown in fig. 9, in the present embodiment, the augmented reality object 54 is an image extending from the body of the subject 91, the subject 91 can selectively move limbs to overlap with the augmented reality element for guiding the subject 91 to perform rehabilitation exercise, further, when the subject 91 is to be rehabilitated, the caregiver 92 can turn on the augmented reality module 5 through the mobile device 6, the augmented reality module 5 displays the image of the subject 91 captured by the camera lens on the third display unit 52 (in the present embodiment, the third display unit 52 is a screen of the mobile device 6), the augmented reality object 54 is a virtual mark extending from the body of the subject 91, the caregiver 92 suggests the subject 91 to swing the limbs to an angle and a position corresponding to the augmented reality object 54 according to the augmented reality object 54 to extend the limbs of the subject 91, thereby effectively performing rehabilitation, even if the rehabilitation experience of the caregiver 92 is insufficient, the augmented reality module 5 can still assist the caregiver 92 to achieve the rehabilitation effect of the subject 91.

In addition, as shown in fig. 10 to 13, the virtual reality module 4 is communicatively connected to the artificial intelligence module 3 and includes a second display unit 41, the second display unit 41 displays a virtual reality screen 42, the feedback device 2 is provided with a dynamic sensor 22 and communicatively connected to the artificial intelligence module 3, the dynamic sensor 22 transmits the displacement information of the feedback device 2 to the virtual reality module 4 through the artificial intelligence module 3, and the virtual reality module 4 adjusts the change of the virtual reality screen 42 according to the displacement information of the feedback device 2. The feedback device 2 is further provided with a weight adjuster 23, at least one virtual object 43 in the virtual reality screen 42 is provided with weight data corresponding to the at least one virtual object 43 in the artificial intelligence module 3, and the artificial intelligence module 3 transmits the weight data of the at least one object touched by the feedback device 2 to adjust the weight of the feedback device 2. For example, in the embodiment, two virtual objects 43 are provided, one of the virtual objects is a virtual patient, the other is a virtual diaper, when the caregiver 92 touches the virtual diaper in the virtual reality screen 42, the weight adjuster 23 of the feedback device 2 changes the weight of the feedback device 2 according to the actual weight of the diaper to simulate the weight feeling when the diaper is taken, and when the caregiver 92 touches the virtual patient in the virtual reality screen 42, the weight adjuster 23 of the feedback device 2 changes the weight of the feedback device 2 according to the actual weight of the patient to simulate the weight feeling when the patient is turned, so as to effectively simulate the action of assisting the patient to change the diaper, thereby achieving the purpose of practice.

In summary, the care system of the present invention integrates the physical condition of the subject into a physical data by wearing the first detecting device on the subject, and reminds the care giver via a feedback device for reference, so as to effectively improve the quality of care and share the working content and pressure of the care giver.

The above description is of the preferred embodiment of the present invention and the technical principles applied thereto, and it will be apparent to those skilled in the art that any changes and modifications based on the equivalent changes and simple substitutions of the technical solution of the present invention are within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. A care system, the system comprising:

the first detection device is worn by a testee to detect the physical condition of the testee and integrates the detection result of the physical condition of the testee into physical data;

a feedback device worn by a caregiver and in communication connection with the first detection device for feeding the body data monitored by the first detection device back to the feedback device, wherein the caregiver can know the body condition of the subject through the feedback of the feedback device;

an artificial intelligence module, including a processing unit and a first display element, the processing unit is connected with at least one communication in the first detection device and the feedback device, in order to receive the body data that at least one of the first detection device and the feedback device sent, and integrate the specific item of the body data and form an interface to display in the first display element.

2. The care system of claim 1, wherein the first detecting device is a sensing garment worn by the subject for detecting the physical condition of the subject.

3. The care system of claim 1, wherein the feedback device comprises a pressure tactile module, and when the feedback device receives the body data, the feedback device corresponds the uncomfortable body part of the subject to the feedback device according to the body data to press the care subject in a pressure feedback manner.

4. The care system of claim 1, further comprising a metaverse module communicatively coupled to the artificial intelligence module and including a second display unit displaying a metaverse picture, wherein the feedback device has a dynamic sensor communicatively coupled to the artificial intelligence module, wherein the dynamic sensor transmits displacement information of the feedback device to the metaverse module via the artificial intelligence module, and wherein the metaverse module adjusts a change of the metaverse picture according to the displacement information of the feedback device.

5. The system of claim 4, wherein the feedback device further comprises a weight adjuster, the artificial intelligence module of at least one virtual object in the virtual reality screen comprises weight data corresponding to at least one virtual object, and the artificial intelligence module transmits the weight data of at least one object touched by the feedback device to adjust the weight of the feedback device.

6. The system of claim 1, further comprising an augmented reality module communicatively coupled to the artificial intelligence module and including a camera module and a third display unit, the camera module configured to capture an image of an augmented reality displayed on the third display unit, the augmented reality module configured to display at least one augmented object on the augmented reality image.

7. The system of claim 6 wherein the augmented object is an image of a body extending from the subject, the subject selectively moving an appendage to overlap the augmented element for guiding the subject in a rehabilitative exercise.

8. The system of claim 1 further comprising a mobile device, wherein the artificial intelligence module is an APP disposed on the mobile device, and when the first detecting device detects an abnormal physical condition of the subject, the APP can issue a prompt to remind the subject to take a medicine, notify the care provider or perform a registration for hospitalization.

9. The system of any one of claims 1 to 8, further comprising a second detecting device, the second detecting device being in communication with the artificial intelligence module, the second detecting device being a mirror and comprising a scanning lens and a fourth display unit, the scanning lens being configured to scan the physical condition of the subject and integrate the detection results into the physical data for display on the fourth display unit.

10. The system of claim 9, further comprising a cloud processing center, wherein the first detecting device, the second detecting device, the feedback device and the artificial intelligence module are connected to the cloud processing center via an internet, and the cloud processing center transmits the body data detected by the first detecting device and the second detecting device to the feedback device and the artificial intelligence module.

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