CN106951718B - Self-service old people comprehensive evaluation system - Google Patents

Abstract

The application discloses a self-service comprehensive evaluation system for the elderly, which comprises wearing equipment worn on the body of the elderly for automatically acquiring health data, a control module electrically connected with the wearing equipment and arranged on the wearing equipment, and a cloud server electrically connected with the control module; the control module comprises a cloud server for alarming, a database for storing various evaluation forms and corresponding standard parameter tables of various grades, and a table loading module for inputting health data into the evaluation forms and comparing the health data with the standard parameter tables to obtain comprehensive evaluation scores; the wearing equipment comprises a bracelet worn on the hand of the old; set up the counter that is used for detecting the pulse and beats in the bracelet, be used for detecting acceleration of gravity's acceleration sensor, be used for detecting apart from the distancer of ground height, be used for showing the display screen of comprehensive assessment score and the recommendation information that corresponds.

Description

Self-service old people comprehensive evaluation system

Technical Field

The invention relates to the field of internet medical treatment, in particular to a self-service comprehensive evaluation system for the elderly.

Background

As the elderly population has the characteristics of various diseases, complicated illness states, senile syndrome and incapability in different degrees, the elderly is served by a diagnosis and treatment mode of a single disease or subject at present, the situation of 'multi-subject registration, scattered treatment and repeated prescription' is caused, the problem of influencing the life quality of the elderly is not emphasized, such as the senile syndrome of falling down, dementia, fracture, pain, insomnia, defecation and the like, internal factors of emotion, mental health and the like, home social and environmental factors and the like are not emphasized, and the neglect of the problems causes great harm to the physical and mental health and social functions of the elderly population.

The comprehensive old age assessment is a core technology of old age medicine accepted by the international old age medical community, and by comprehensively assessing diseases, disabilities, psychology, environment, social support, old age care, care requirements and the like of an assessment object, a comprehensive and coordinated diagnosis, rehabilitation, old age care and long-term follow-up health management plan is formulated for patients, so that not only can the health problems of the old people be integrally diagnosed and comprehensively managed, but also guidance opinions can be provided for the old people's requirements for old age care, thereby reducing the waste of medical resources, enhancing and improving the mental health, independent living capacity and functional condition level of the old people to the maximum extent, and greatly improving the life happiness satisfaction of the old people. However, the traditional comprehensive assessment for the elderly is based on forms such as paper questionnaires, the problems of low assessment efficiency, low personalized pertinence, low multi-subject team cooperation level, difficulty in long-term tracking and monitoring and the like are caused by the limitation of assessment tools, and the application of the comprehensive assessment for the elderly in actual clinical diagnosis and treatment and the management of the elderly health is greatly limited.

With the rapid development of internet technology, an internet-based comprehensive evaluation system for the elderly has been proposed. The existing comprehensive old people evaluation system comprises an information acquisition end for acquiring related health data of old people; a database for storing various evaluation tables and standard parameter tables corresponding to the evaluation tables; and the scale loading module is used for inputting the health data into the evaluation table and comparing the health data with the standard parameter table to obtain a comprehensive evaluation score.

However, the existing comprehensive assessment system for the aged can only obtain one comprehensive assessment score, and each person has an understanding deviation on the numerical value of the comprehensive assessment score. This comprehensive assessment score alone does not actually solve the problem of the actual needs of the elderly. For the emergencies such as falling and shock which often cause the accidental death of the old people, the existing comprehensive old people evaluation system does not have the function of dealing with the emergencies. In addition, the conventional comprehensive old people evaluation system is very complex to operate, needs to log in, verify, select and fill in and submit various health data, and the information acquisition end also needs to manually operate to acquire the health data, so that the conventional comprehensive old people evaluation system is not suitable for the operation of old people and has little practical effect on the old people.

Therefore, there is an urgent need to develop a self-service comprehensive evaluation system for the elderly, which can solve the problem of the actual life of the elderly, and especially can cope with the emergency in the life of the elderly.

Disclosure of Invention

The invention aims to provide a self-service comprehensive evaluation system for the aged, which does not need to manually input health data and can deal with sudden accidents.

In order to achieve the above purpose, the following scheme is provided:

the self-service comprehensive old people evaluation system comprises an information acquisition end for acquiring the health data of old people, a database for storing various evaluation forms and standard parameter tables, and a table loading module for inputting the health data into the evaluation forms and comparing the health data with the standard parameter tables to obtain comprehensive evaluation scores; the system also comprises a cloud server; the database and the gauge loading module are both arranged on the cloud server; the information acquisition end comprises wearing equipment worn on the body of the old person for automatically acquiring health data and a control module for controlling the wearing equipment; the control module is connected with the cloud server through a network; the wearing equipment comprises a bracelet worn on the hand of the old; a counter used for detecting pulse jumping, an acceleration sensor used for detecting gravitational acceleration, a distance meter used for detecting the height from the ground, a display screen used for displaying comprehensive evaluation scores and corresponding recommendation information and a sprayer used for spraying a vaporific medicament outwards are arranged in the bracelet; the counter, the acceleration sensor, the distance measuring instrument, the display screen and the pesticide sprayer are all electrically connected with the control module; the control module is internally provided with a beating range standard value of the counter, and when the beating frequency transmitted to the control module by the counter exceeds the beating range standard value, the control module controls the pesticide sprayer to spray pesticide outwards.

The system principle is as follows:

the system automatically acquires the health data through the wearable equipment worn on the old person, and transmits the health data to the control module, and the control module transmits the health data to the cloud server. And a scale loading module in the cloud server respectively loads the health data into corresponding evaluation tables, and compares the health data with each standard parameter table stored in the database to obtain a comprehensive evaluation score and corresponding push information. The control module acquires the comprehensive evaluation score and the corresponding push information from the cloud server, and sends the comprehensive evaluation score and the corresponding push information to the display screen for display. In the health data acquisition process, a bracelet worn on a hand of a person detects the pulse beating condition of the old through a counter of the bracelet and compares the pulse beating condition with a beating range standard value preset in a control module; when the pulse is out of the standard value of the jumping range, the control module controls the medicine sprayer to spray medicine outwards to carry out first aid on the old, and strives for time to wait for rescue. The counter can detect the current pulse beating condition of the old, and check whether the old is in shock or not; the acceleration sensor can detect the change of acceleration and see whether the old falls down; the distance meter can detect the distance between the old man and the bottom surface at the moment, and the current environment height of the old man is checked. The data can automatically form input data to be transmitted to the control module, and relevant judgment is carried out through corresponding standard range values arranged in the control module.

Has the advantages that:

according to the health evaluation system, the health data are directly transmitted to the control module through related devices on the wearable device and then transmitted to the cloud server through the control module for comprehensive evaluation, the operation is simple, and the health evaluation system is suitable for being used by the old.

When the jumping frequency measured by the counter exceeds the standard value of the jumping range, the control module controls the pesticide sprayer to spray pesticide outwards, and the old man is directly subjected to first aid in a pesticide spraying mode. To gain time for the later doctors to arrive.

The invention not only can obtain an evaluation result, but also can automatically take emergency treatment measures for the old through a medicine spraying mode when an emergency situation occurs.

Scheme II: further, the medicine sprayer is a container which is loaded with medicine in advance and is provided with an electromagnetic switch; the electromagnetic switch is electrically connected with the control module.

When the control module detects that the pulse of the old man is not normal, the control module controls the pesticide sprayer to spray pesticide by controlling the on-off of the electromagnetic switch.

The third scheme is as follows: further, the wearable device also comprises a vest used for covering the heart and lung positions of the elderly; a vibration device which can vibrate according to the cardio-pulmonary resuscitation frequency is arranged at the position of the vest close to the cardio-pulmonary; the vibration device is electrically connected with the control module.

When the control module detects that the old people need to do cardio-pulmonary resuscitation operation, the vibration device is communicated, so that the vibration device automatically vibrates to perform cardio-pulmonary resuscitation operation.

And the scheme is as follows: furthermore, a sound pickup for receiving the voice of the old is arranged on the vest, and the sound pickup is electrically connected with the control module; the control module is connected with a voice recognition module for recognizing the voice energy of the old, and a voice information table is stored in the voice recognition module in advance; the sound information table comprises sound signals of all energy levels and a starting item list of the control module corresponding to the level signals.

The sound pickup can detect the sound of old man, and control module judges the energy size in the old man's sound through the size of old man's sound to start corresponding equipment through the starting item list that the sound information table in the microcontroller corresponds.

And a fifth scheme: further, be connected with miniature camera and locator on the bracelet, miniature camera and locator all are connected with control module.

The environment that the old man was located can be shot with miniature camera head, and the locator can the accurate concrete position of locating the old man. The control module transmits the image information transmitted by the micro camera and the position information transmitted by the positioner to the cloud server, so that rescuers can rescue the information quickly through the cloud server.

Scheme six: furthermore, a holographic projection playing device for recording a help-calling and duty-free video in advance is arranged on the bracelet; a standard value information table including a standard value of the jumping range is preset in the control module; the control module receives a signal transmitted by any one of the counter, the acceleration sensor, the distance meter and the sound pick-up, and when the signal exceeds a standard range value recorded in a standard value information table, the holographic projection playing device is started to automatically play a distress call duty-free video.

The control module receives signals which are transmitted by any one of the counter, the acceleration sensor, the distance measuring instrument and the sound pick-up and are out of the standard range value, and the situation that the old man is in a state of needing rescue at the moment and possibly in a state of being incapable of speaking is shown. Through the play of the distress exemption video in the holographic projection play device, a signal for requesting help can be sent out, the worry of a rescuer can be reduced, and the rescue can be carried out.

Drawings

Fig. 1 is a logic block diagram of an embodiment of a self-service comprehensive elderly assessment system according to the present invention.

Fig. 2 is a schematic structural diagram of a wearable device in an embodiment of the self-service comprehensive elderly assessment system of the present invention.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: wearing equipment 1, control module 2, database 3, scale loading module 4, bracelet 5, undershirt 6, counter 7, acceleration sensor 8, distancer 9, display screen 10, medicine sprayer 11.

As shown in fig. 1 and fig. 2, the self-service comprehensive evaluation system for the elderly includes a wearable device 1 worn on the body of the elderly for automatically acquiring health data, a control module 2 electrically connected to the wearable device 1 and disposed on the wearable device 1, and a cloud server electrically connected to the control module 2; the cloud server comprises a database 3 for storing various evaluation forms and standard parameter tables of various levels corresponding to the evaluation forms, and a table loading module 4 for inputting the health data into the evaluation forms and comparing the health data with the standard parameter tables to obtain comprehensive evaluation scores.

The wearing device 1 comprises a bracelet 5 worn on the hand of the old; a counter 7 for detecting pulse beating, an acceleration sensor 8 for detecting gravity acceleration, a distance meter 9 for detecting the height from the ground, a display screen 10 for displaying the comprehensive evaluation score and corresponding recommendation information, and a sprayer 11 for spraying a mist-shaped medicament outwards are arranged in the bracelet 5; the counter 7, the acceleration sensor 8, the distance measuring instrument 9, the display screen 10 and the pesticide sprayer 11 are all electrically connected with the control module 2; the control module 2 is internally provided with a standard value of a jumping range of the counter 7, and when the jumping frequency transmitted to the control module 2 by the counter 7 exceeds the standard value of the jumping range, the control module 2 controls the pesticide sprayer 11 to spray pesticide outwards.

The sprayer 11 is a container with a solenoid switch preloaded with medicament. The electromagnetic switch is connected with the control module 2 through a wire or radio.

When the control module 2 detects that the pulse of the old people is not normal, the control module 2 controls the pesticide sprayer 11 to spray the pesticide by controlling the power-on and power-off conditions of the electromagnetic switch.

A plurality of wide-angle nozzles for spraying medicine to the outside are arranged on a shell in the medicine sprayer, so that the medicine can be sprayed out to form a large enough spraying range, and the old can absorb the medicine as soon as possible. An atomizer communicated with the wide-angle nozzle is arranged in the pesticide sprayer. After the medicine passes through the atomizer atomizing, can be more merrily and lightheartedly, it is farther to spray, and the scope is bigger, and is more tiny after the medicine atomizing simultaneously, more can be along with the air is inhaled into the body by the old man together. The medicine filled into the medicine sprayer is generally used for reducing the energy consumption of the old, so that the old can delay the condition of illness in low energy consumption and wait for a doctor to arrive, and the medicine can be a sedative or other medicines which are pertinently configured according to the frequently-occurring illness condition of the old.

The wearing device 1 also comprises a vest 6 which is worn on the old and used for covering the heart and lung positions of the old; the vest 6 is provided with a vibrating device which can vibrate according to the cardio-pulmonary resuscitation frequency at the position close to the cardio-pulmonary; the vibration device is electrically connected with the control module 2. The vest is made of elastic materials, and can play a role in protecting the body of the old while fixing the vibration device. The vibrating device is a fixed frequency vibrator. Since the elderly may have the vibrator displaced from the cardiopulmonary position during motion, four pulleys are provided around the vibrator at the vest location to move the vibrator position. Each pulley is connected with a motor which drives the pulley to rotate, and the four motors are connected with the control module 2. A standard value information table is preset in the control module 2, and the distances between the four pulleys and the two sides of the human body are input into the standard value information table through input equipment when the pulley is used for the first time. Before the vibration device is started, the control module controls the distance measuring instrument to measure the distances from the four pulleys to two sides of the human body, and the control module moves the vibration device to the heart and lung positions through the pulleys according to the measured results and the moving route in the standard value information table.

When the control module 2 detects that the old people need to do cardio-pulmonary resuscitation operation, the vibration device is communicated to automatically vibrate the vibration device to perform cardio-pulmonary resuscitation operation.

The vest 6 is provided with a sound pickup for receiving the voice of the old, and the sound pickup is connected with the control module 2; the control module 2 is connected with a voice recognition module for recognizing the voice energy of the old, and a voice information table is stored in the voice recognition module in advance; the sound information table comprises sound signals of all energy levels and starting items of the control module 2 corresponding to the level signals.

The sound pickup can detect the sound of old man, and control module 2 judges the energy size in the old man's sound through the size of old man's sound to the corresponding start item of sound information table through the microcontroller starts corresponding equipment.

Be connected with miniature camera and locator on the bracelet 5, miniature camera and locator all are connected with control module 2.

The environment that the old man was located can be shot with miniature camera head, and the locator can the accurate concrete position of locating the old man. The control module 2 transmits the image information transmitted by the micro camera and the position information transmitted by the positioner to the cloud server, so that rescuers can rescue quickly through the information on the cloud server.

A holographic projection playing device for recording a help-calling and duty-free video in advance is arranged on the bracelet 5; when the control module 2 receives a signal which is transmitted by any one of the counter 7, the acceleration sensor 8, the distance measuring instrument 9 and the sound pickup and is out of the standard range value, the holographic projection playing device is started to call for help.

When the control module 2 receives a signal which is transmitted by any one of the counter 7, the acceleration sensor 8, the distance measuring instrument 9 and the sound pick-up and is out of the standard range value, the old man is in a state of needing rescue at the moment and is probably in a state of being incapable of speaking. Through the play of the distress exemption video in the holographic projection play device, a signal for requesting help can be sent out, the worry of a rescuer can be reduced, and the rescue can be carried out.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (4)

1. The self-service comprehensive old people evaluation system comprises an information acquisition terminal for acquiring the health data of old people, a database for storing various evaluation forms and standard parameter tables, and a table loading module for inputting the health data into the evaluation forms and comparing the health data with the standard parameter tables to obtain comprehensive evaluation scores; the method is characterized in that: the system also comprises a cloud server; the database and the gauge loading module are both arranged on the cloud server; the information acquisition end comprises wearing equipment worn on the body of the old person for automatically acquiring health data and a control module for controlling the wearing equipment; the control module is connected with the cloud server through a network; the wearing equipment comprises a bracelet worn on the hand of the old; a counter used for detecting pulse jumping, an acceleration sensor used for detecting gravitational acceleration, a distance meter used for detecting the height from the ground, a display screen used for displaying comprehensive evaluation scores and corresponding recommendation information and a sprayer used for spraying a vaporific medicament outwards are arranged in the bracelet; the counter, the acceleration sensor, the distance measuring instrument, the display screen and the pesticide sprayer are all electrically connected with the control module; the control module is internally provided with a jumping range standard value of the counter, and when the jumping frequency transmitted to the control module by the counter exceeds the jumping range standard value, the control module controls the pesticide sprayer to spray pesticide outwards;

the wearing device further comprises a vest used for covering the heart and lung positions of the elderly; a vibration device which can vibrate according to the cardio-pulmonary resuscitation frequency is arranged at the position of the vest close to the cardio-pulmonary; the vibration device is electrically connected with the control module; four pulleys used for moving the position of the vibration device are arranged at the position of the vest around the vibration device;

the vest is provided with a sound pickup for receiving the voice of the old, and the sound pickup is electrically connected with the control module; the control module is connected with a voice recognition module for recognizing the voice energy of the old, and a voice information table is stored in the voice recognition module in advance; the sound information table comprises sound signals of all energy levels and a starting item list of the control module corresponding to the level signals;

the control module judges the energy size in the voice of the old people according to the size of the voice of the old people, and starts the corresponding wearable equipment according to the starting items corresponding to the voice information table in the microcontroller.

2. The self-service comprehensive elderly assessment system according to claim 1, wherein: the medicine sprayer is a container which is loaded with medicines in advance and is provided with an electromagnetic switch; the electromagnetic switch is electrically connected with the control module.

3. The self-service comprehensive elderly assessment system according to claim 1, wherein: be connected with miniature camera and locator on the bracelet, miniature camera and locator all are connected with control module.

4. The self-service comprehensive elderly assessment system according to claim 1, wherein: a holographic projection playing device for recording a help-calling and duty-free video in advance is arranged on the bracelet; a standard value information table including a standard value of the jumping range is preset in the control module; the control module receives a signal transmitted by any one of the counter, the acceleration sensor, the distance meter and the sound pick-up, and when the signal exceeds a standard range value recorded in a standard value information table, the holographic projection playing device is started to automatically play a distress call duty-free video.

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