CN114152283A

CN114152283A - Family old-care nursing bed service supervision system based on stereoscopic dot matrix technology

Info

Publication number: CN114152283A
Application number: CN202111403269.0A
Authority: CN
Inventors: 李立波; 孙锐; 崔同良; 高佳伟
Original assignee: Shandong Continuous Innovation Network Technology Co ltd
Current assignee: Shandong Continuous Innovation Network Technology Co ltd
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2022-03-08

Abstract

The invention discloses a home-care nursing bed service supervision system based on a stereoscopic dot matrix technology, which relates to the technical field of service supervision and comprises a host and a worker plate, wherein the host and the worker plate are in communication connection with a background through a network, the host comprises a host MCU, the host MCU is electrically connected with a laser radar, the laser radar transmits a generated stereoscopic dot matrix image to the host MCU, and the host MCU judges the work items and the work quality of nursing staff according to the stereoscopic dot matrix image transmitted by the laser radar. The home care nursing bed service supervision system based on the stereoscopic dot matrix technology can effectively supervise the working time and the working quality of nursing personnel and standardize the management of the medical care industry; meanwhile, the environment parameters of the patient can be monitored, treatment and quick rehabilitation of the patient are facilitated, and privacy of a user can be protected.

Description

Family old-care nursing bed service supervision system based on stereoscopic dot matrix technology

Technical Field

The invention relates to the technical field of service supervision, in particular to a home-care nursing bed service supervision system based on a three-dimensional dot matrix technology.

Background

In 2020, the aged population of China reaches 2.55 hundred million, the aged population of China enters a new stage, the support burden of solitary children is increased, the young people are busy, the time for taking care of the aged is shortened, people who lose energy and are mentally disabled are lack of nursing, and the quality of life is reduced. In order to actively cope with the aging of population, improve the life quality of the old and guarantee the life of disabled and mentally disabled people, the state puts forward 'long-term care insurance' and starts test points in a plurality of cities in the country.

However, the industry is an emerging industry, and the working sites of nursing staff are mostly in wards or patient homes, which are relatively dispersed, especially in long-term care service, the nursing staff need to complete a plurality of designated service items each time they get on the door, and each item has a specified duration, in this case, it is difficult to supervise and manage whether the service of each service item is up to the requirement by the nursing staff. Therefore, at present, hospitals, service companies and patients' family members which provide medical services are difficult to effectively monitor the working time and the working quality of nursing staff, and cannot accurately monitor the room environment indexes (such as room temperature, humidity, illumination intensity and the like) of the patients.

Disclosure of Invention

In view of the above defects, the present invention aims to provide a home care bed service monitoring system based on a stereoscopic dot matrix technology, which can effectively monitor the working time and the working quality of nursing staff, standardize the management of the home care industry, protect the privacy of users, and avoid disputes.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the utility model provides a family care for the aged and protect bed service supervisory systems based on three-dimensional dot matrix technique, includes host computer and worker's tablet, the host computer with worker's tablet passes through network and backstage communication connection, the host computer includes host computer MCU, host computer MCU electricity is connected with laser radar, laser radar transmits the three-dimensional dot matrix image that generates host computer MCU, host computer MCU basis nursing staff's work item and operating mass are judged to the three-dimensional dot matrix image of laser radar transmission.

The worker card is in wireless communication connection with the host, the worker card realizes automatic on-duty card punching of a person corresponding to the worker card according to the acquired wireless signal intensity change of the host, and the worker card realizes off-duty card punching of the person corresponding to the worker card according to a voice instruction or the acquired wireless signal intensity change of the host; the work card is provided with a service item card punching module for realizing the start and end card punching of each service item.

When the wireless signal intensity of the host acquired by the work card reaches a set threshold value, determining that the personnel corresponding to the work card is on work; and when the worker card does not acquire the wireless signal of the slave computer within the set time, determining that the personnel corresponding to the worker card is off duty.

The host MCU is also electrically connected with a first Bluetooth module in wireless communication with the work card and a first Internet of things module in communication connection with the background.

The work card comprises a work card MCU, and the work card MCU is electrically connected with the service item card punching module, a second networking module in communication connection with the background and a second Bluetooth module in communication with the first Bluetooth module.

The service item card punching module comprises a voice recognition module electrically connected with the work card MCU, and the voice recognition module is electrically connected with a microphone and a loudspeaker.

The service item card punching module comprises a key module, and the key module is electrically connected with the work card MCU.

The work card MCU is also electrically connected with a GNSS positioning module.

The family care nursing bed service supervision system based on the stereoscopic dot matrix technology further comprises a plurality of slave machines, each slave machine comprises a slave machine MCU, and the slave machine MCU is electrically connected with a third Bluetooth module communicated with the second Bluetooth module.

Wherein, host computer MCU still electricity is connected with environmental sensor, speaker and microphone.

After the technical scheme is adopted, the invention has the beneficial effects that:

the home care nursing bed service supervision system based on the stereoscopic dot matrix technology comprises a host and a worker board, wherein the host and the worker board are in communication connection with a background through a network, the host comprises a host MCU, the host MCU is electrically connected with a laser radar, the laser radar transmits a generated stereoscopic dot matrix image to the host MCU, and the host MCU judges the work items and the work quality of nursing staff according to the stereoscopic dot matrix image transmitted by the laser radar. The laser radar generates a three-dimensional dot matrix image from a detected target object, and the host MCU identifies characters and actions of the characters from the three-dimensional dot matrix image through a deep learning image identification technology, so that work items and work quality of nursing personnel are judged, the working state of the nursing personnel is effectively supervised and managed, and the management of the medical care industry can be effectively standardized; meanwhile, the three-dimensional dot matrix image can protect the privacy of the user and avoid disputes; and the data volume of the dot matrix is greatly reduced compared with video data, and the data transmission and storage pressure is effectively reduced.

The worker card is in wireless communication connection with the host, so that the worker card realizes automatic on-duty card punching of a person corresponding to the worker card according to the acquired wireless signal intensity change of the host, and the worker card realizes off-duty card punching of the person corresponding to the worker card according to the acquired wireless signal intensity change or voice instruction of the host; the work card is provided with a service item card punching module for realizing the start and end card punching of each service item. In the invention, each nursing staff is matched with a worker card, the ID number of the worker card is associated with the host, and the worker card can judge whether the nursing staff is in a working area or not by monitoring the strength of a wireless signal of the host, so that automatic attendance checking of the nursing staff can be realized, and attendance checking can also be realized through a voice instruction of the nursing staff; meanwhile, the intensity of the wireless signal of the host computer can be changed, so that whether the nursing staff is in busy work or passive idling can be determined. Meanwhile, the service item card punching module is arranged on the worker card, so that the time for starting and ending each item (such as auxiliary feeding, auxiliary exercise and the like) of the nursing staff can be recorded, the nursing staff can know whether the service is carried out or not, whether the service carrying time meets the requirement or not can be known, and the effective supervision of the working time and the working quality of the nursing staff can be further realized.

Because host computer MCU electricity is connected with environmental sensor, can real-time detection patient's ambient temperature in room, humidity, illumination intensity etc. through environmental sensor, the nursing staff can ventilate, switch the air conditioner, shelter from (window) curtain etc. according to the testing result, guarantees that patient is in a comfortable environment, is favorable to patient's quick recovered.

In conclusion, the home care nursing bed service supervision system based on the stereoscopic dot matrix technology solves the technical problem that supervision of nursing staff is unfavorable in the prior art, and can effectively supervise the working time and the working quality of the nursing staff and standardize the management of the home care nursing industry; meanwhile, the environment parameters of the patient can be monitored, treatment and quick rehabilitation of the patient are facilitated, and privacy of a user can be protected.

Drawings

FIG. 1 is a block diagram of a first embodiment of a home care bed service monitoring system based on a stereoscopic lattice technology;

FIG. 2 is a block diagram of the host computer of FIG. 1;

FIG. 3 is a block diagram of the slave of FIG. 1;

FIG. 4 is a block diagram of the structure of the I-card of FIG. 1;

FIG. 5 is a sequence diagram of the process of the home care bed service monitoring system based on the stereoscopic lattice technology;

FIG. 6 is a flowchart of a service item card-punching program of the home care bed service monitoring system based on the stereoscopic lattice technology;

FIG. 7 is a flowchart of a attendance card-reading procedure of the home care bed service monitoring system based on the stereoscopic lattice technology;

fig. 8 is a block diagram of a workday brand in an embodiment of a home care bed service monitoring system based on the stereoscopic lattice technology.

Detailed Description

The invention is further illustrated below with reference to the figures and examples.

As shown in fig. 1, a home care bed service monitoring system based on the stereoscopic dot matrix technology includes a front end (not shown), a background, a host, a slave and a worker plate corresponding to a caregiver.

The front end is in communication connection with the background, and comprises a medical care information interface, a patient interface, a medical care interface and a nursing process detail interface. Medical care information can be input into the medical care information interface, medical care registration information is uploaded to the background, and the background documents and stores the medical care information. Patient information can be input in a patient interface, uploaded to a background and subjected to filing and storage by the background; and the host ID can be also recorded and uploaded to the background, and the host and the patient are bound by the background. The medical care interface can be used for filling the associated patient, uploading the association relationship between the nursing staff and the patient to the background, and updating and storing the association relationship by the background. At the care process details interface, care giver's service process regulatory data may be queried.

The host is in communication connection with the background through a network, uploads the laser radar and sensor data to the background, and processes and stores the laser radar and sensor data in the background.

The host and the slave are in wireless communication connection with the work card through the Bluetooth module, the host and the slave conduct Bluetooth broadcasting on the work card, and the work card judges whether to enter a card punching area according to information such as the equipment ID and the equipment type of the Bluetooth beacon.

The work card is in communication connection with the background through a network, after entering a card punching area, the work card sends a work punching request to the background, and the background sends ID information of a host and a slave bound to the service object, information of the number, the type, the duration range of the items, the total duration range of the service and the like required to be completed by the service to the work card. The worker card realizes automatic attendance card punching and working state monitoring of the nursing staff corresponding to the worker card according to the acquired intensity change of the Bluetooth wireless signal. When the intensity of the Bluetooth wireless signal acquired by the worker card reaches a set threshold (if the intensity is higher than-80 dBm), the worker card corresponding to the worker card is determined to be on duty, and then the worker card is punched on duty, so that the automatic punching of the worker card by the nursing staff is completed; when the worker card does not acquire the Bluetooth wireless signal within the set time (such as 100 s), the worker card is determined that the nursing staff corresponding to the worker card leaves the office and goes off duty, and then the worker card is punched off duty to finish the automatic punching off duty of the nursing staff. Meanwhile, the nursing staff can also realize off-duty card punching through voice instructions.

In a long-term care service, a caregiver is required to complete a number of service items, each of which has a specified duration. The work card of the nursing staff is provided with the service item card punching module, when one service item starts, the nursing staff can punch the card by the voice or the key, and after the service item is finished, the nursing staff can punch the card by the voice or the key, so that the starting and ending time of each service item (such as auxiliary feeding, auxiliary exercise and the like) can be recorded, the running time of each service can be known, and the condition that whether the nursing staff performs the service and whether the service running time meets the requirement can be known. Meanwhile, the working state of the nursing staff can be judged according to the intensity change of the Bluetooth wireless signal detected by the work card, and if the intensity of the wireless signal detected by the work card is high and the change is severe, the nursing staff is indicated to work busy; if the wireless signal strength detected by the card is weak, and occasionally changes or basically does not change, the nursing staff is indicated to be in a passive idling state.

The above is only a brief description of the home care and nursing bed service monitoring system based on the stereoscopic lattice technology, and the following describes the technical scheme of the invention in detail through specific embodiments:

the first embodiment is as follows:

as shown in fig. 1, in the preferred embodiment, the host and the worker card are in communication connection with the background through the internet of things, and the worker card is in wireless communication connection with the host and the slave through bluetooth.

As shown in fig. 1 and 2 together, the host includes a host MCU (micro control unit), which is electrically connected with a first internet of things module, a first bluetooth module, a laser radar, an environmental sensor, a speaker, and a microphone. The host computer still includes power module, and power module is used for converting the commercial power into low pressure DC power supply, gives host computer MCU, first thing networking module, first bluetooth module, laser radar, environmental sensor and microphone power supply. The first Internet of things module is used for the communication connection between the host and the background, and the first Bluetooth module is used for the communication connection between the host and the work card. The laser radar is a radar system for emitting laser beams to detect characteristic quantities such as position and speed of a target, the laser radar adopted by the implementation mode is a 3D dot matrix laser radar, the target detected by the laser radar can be generated into a three-dimensional dot matrix image and transmitted to the host MCU, and the host MCU identifies characters and actions of the characters from the three-dimensional dot matrix image through a deep learning image identification technology, so that work items and work quality of nursing personnel are judged, and effective supervision and management of the work state of the nursing personnel are realized. The environment sensor can detect the environment indexes such as the environment temperature, the humidity, the illumination intensity and the like of a room where a patient is located in real time. Speaker and microphone can realize human-computer interaction, like satisfaction evaluation and call for help etc. the host computer embeds has speech synthesis and speech recognition module (similar intelligent degree) promptly, and after the nursing staff service ended, the meeting carries out the service evaluation with the voice prompt user to reach the backstage on with the evaluation result, report like the host computer: asking you to be very satisfied, satisfied or dissatisfied with the service. "user answer: "satisfactory. By service evaluation of each service, the service quality of nursing staff can be mastered in time, the condition that a project is little or not done can be prevented, and the service quality of the nursing staff and the public praise of users can be effectively improved.

As shown in fig. 1 and 3, the present embodiment preferably includes two slave machines, which can be installed in a kitchen or a living room of a patient's home. The slave machine comprises a slave machine MCU, the slave machine MCU is electrically connected with a third Bluetooth module, and the third Bluetooth module is used for realizing Bluetooth wireless connection with the work card. Two slaves are the preferred number of the present embodiment, and the number of slaves is not limited to two in practical application.

As shown in fig. 1 and 4 together, the work card comprises a work card MCU, and the work card MCU is electrically connected with a second bluetooth module, a second networking module, a GNSS positioning module (satellite positioning module) and a service item card punching module. The second Bluetooth module is used for carrying out wireless communication with the first Bluetooth module and the third Bluetooth module. The second networking module is used for carrying out wireless communication with the background. The service item card punching module is used for punching cards by nursing staff when each service item starts and ends. The GNSS positioning module is used for positioning nursing staff outdoors, and the GNSS positioning module can be a GPS positioning module or a Beidou positioning module. When the system works, the host and the slave machine carry out Bluetooth broadcasting to the periphery, the worker card constantly scans the peripheral host and slave machine equipment to acquire the IDs and the signal intensity of the host and the slave machine, whether the host and the slave machine enter a card punching area is judged, then the second networking module sends the on-duty and off-duty card punching information to the background, and the background records the on-duty and off-duty states of nursing staff according to the on-duty and off-duty card punching information uploaded by the worker card.

As shown in FIG. 4, the service item card punching module comprises a voice recognition module electrically connected with the card playing MCU, and the voice recognition module is electrically connected with a microphone and a loudspeaker. The service item card punching module can realize the card punching of the beginning and the end of each service item, such as: when the nursing staff wants to start the auxiliary feeding for the patient, the nursing staff says that: "begin supplemental feeding. "card inquiry: "Assist feeding is to commence. "the caregiver answers: "is. "worker card confirmation: good, successful card punch. The start card punching of the auxiliary feeding item is finished, and the system records the start time of the auxiliary feeding item. The service item ending card punching process is the same and is not detailed here. Therefore, the time of each service item used by the nursing staff can be known, whether the service items used by the nursing staff meet the specified time length can be obtained, and the monitoring on the working state and the service quality of the nursing staff is realized.

In this embodiment, the mode of implementing card punching on duty and off duty is as follows:

checking a card on duty: the nursing staff wears the worker card to enter the Bluetooth scanning areas of the host and the slave machines, when the signal intensity is greater than a threshold value, the nursing staff is considered to enter the service area, the system automatically executes on-duty card punching, the host machine and the slave machines in the service area are matched, the signals are guaranteed not to be interrupted, and the worker card is worn by the nursing staff;

the first mode of card punching for next shift: after work, the nursing staff leaves, and when the interruption of the Bluetooth signal is overtime, the system executes work punching.

The second mode of checking the card next shift: the nursing staff sends out a voice command of 'off duty', the worker card receives the voice command of the nursing staff, gives out voice prompt according to the total service duration, and performs off duty card punching after confirmation.

As shown in fig. 5, the program sequence of the home care bed service monitoring system based on the stereoscopic lattice technology of the present invention is as follows:

the first step is as follows: the host and the slave broadcast the surrounding Bluetooth, and the work board judges whether to enter a card punching area according to information such as equipment ID, equipment type and the like of the Bluetooth beacon;

the second step is that: the worker card judges that the worker card enters a card punching area, and when the worker card is in a non-working state, a card punching request is sent to a background, the background searches task data, and after confirmation, working card punching is allowed;

the third step: the background records the work attendance and checks the card, and downloads task information to the work card, wherein the downloaded task information comprises the information (namely the ID and the type of the host and the slave) of the master and slave devices bound to the service object, the number, the type, the project duration range and the total service duration range of the service to be completed by the service, and the work card successfully checks the card after receiving the task information;

if the background does not retrieve corresponding task data, the worker card fails to be played on duty and answers the worker card, and the worker card fails to be played;

the fourth step: the worker card scans the Bluetooth equipment according to the IDs of the host and the slave machines, records Bluetooth beacons and signal strength values, uploads the Bluetooth beacons and the signal strength values to the background at regular time, records the normal time of the last beacon signal, calculates off-duty time, and records the place where the worker card is located in the background;

the fifth step: the worker card monitors voice and recognizes a card punching instruction;

and a sixth step: the worker card receives a service item starting voice instruction, sends a service item starting card punching request to a background, the background records the service item starting and sends response information to the worker card, the worker card updates the service item state to be the starting after receiving the response information and starts the service item time length timing, and when the first service item is started, the worker card starts the service total time length timing;

the seventh step: calculating the total service duration, and giving a voice prompt before timeout;

eighth step: the worker card receives the service item ending voice instruction, the service item duration meets the requirement, a service item ending card punching request is sent to the background, the background records the service item ending, response information is sent to the worker card, the worker card updates the service item state to be ending after receiving the response information, and the total service duration timing is stopped when the last service item is ended.

The ninth step: the worker card receives the voice command of going to work, gives out voice prompt according to the service total duration, performs the card punching of going to work after confirmation, sends the card punching information of going to work to the background, records the going to work in the background, and sends response information to the worker card, and the worker card is updated to the state of going to work;

or: and after the worker card detects that the worker card leaves the post overtime, the worker card is played for next work, the worker card playing information is sent to a background, the next work is recorded by the background, response information is sent to the worker card, and the worker card is updated to be in a next work state.

As shown in FIG. 6, the service item punch program flow is as follows:

step S100: a program start step, and then, the process proceeds to step S101;

step S101: judging whether a voice recognition module activation signal is received, if so, entering the step S102, and if not, returning to continue judging;

step S102: starting a voice recognition module, and entering step S103;

step S103: judging whether a voice card punching instruction is received, if so, entering step S104, and if not, entering step S117;

step S104: performing a card punching instruction processing process, and entering step S105;

step S105: judging whether the card punching instruction is valid, if so, entering step S106, otherwise, entering step S117;

step S106: uploading the background, and then entering step S107;

step S107: uploading times +1, and then entering step S108;

step S108: delaying for waiting, and entering step S109;

step S109: judging whether a background response is received, if so, entering a step S110, otherwise, entering a step S115;

step S110: judging whether the background allows the card punching, if so, entering step S111, otherwise, entering step S114;

step S111: modifying the card punching state, and then entering the step S112;

step S112: modifying the timer according to the card punching state, and then entering the step S113;

step S113: prompting the background to allow the card punching, and entering step S118;

step S114: prompting the background to refuse to punch the card, and entering step S118;

step S115: judging whether the uploading times exceed the limit, if so, entering the step S116, otherwise, returning to the step S106;

step S116: prompting that the data uploading fails, and entering step S118;

step S117: judging whether the waiting voice command is overtime or not, if yes, entering step S118, and if not, returning to step S103;

step S118: and closing the voice recognition module and returning to the step S101.

As shown in fig. 7, the flow of the work attendance checking program is as follows:

step S200: a program start step, which is started and then proceeds to step S201;

step S201: judging whether the work is not on duty, if so, entering step S202, otherwise, entering step S214;

step S202: scanning surrounding Bluetooth broadcasts, and entering step S203;

step S203: judging whether the broadcast RSSI (signal strength) is higher than a card punching threshold value, if so, entering a step S204, otherwise, returning to the step S201;

step S204: analyzing the broadcast content, acquiring the device type, and then entering step S205;

step S205: judging whether the broadcasting equipment is a host, if so, entering the step S206, and if not, returning to the step S201;

step S206: analyzing the broadcast data, acquiring a host ID, and then entering step S207;

step S207: based on the host ID and the worker card ID, sending a work card punching request to a background, and then entering step S208;

step S208: delaying for waiting, and entering step S209;

step S209: judging whether a background response is received, if so, entering step S210, or otherwise, entering step S213;

step S210: judging whether the work request passes, if so, entering step S211, otherwise, returning to step S201;

step S211: analyzing the background response data, acquiring slave information under the jurisdiction of the current host, and then entering step S212;

step S212: the state is modified to work, and the step S201 is returned;

step S213: and judging whether the retransmission times exceed the limit, if so, returning to the step S201, and otherwise, returning to the step S207.

Step S214: scanning surrounding Bluetooth broadcasts, and entering step S215;

step S215: identifying the broadcast of the host and the subordinate slave machines, recording the signal intensity, and entering step S216;

step S216: judging whether the scanning time reaches the standard, if so, entering step S217, and if not, returning to step S214;

step S217: judging whether the Bluetooth signal meets the on-duty requirement, if so, entering a step S218, otherwise, entering a step S221;

step S218: resetting the off-duty timer, and entering step S219;

step S219: packing the Bluetooth data, and entering step S220;

step S220: uploading Bluetooth data to a background, and returning to the step S201;

step S221: the off duty timer counts and accumulates, and the step S222 is entered;

step S222: judging whether the off duty is overtime or not, if so, entering the step S223, otherwise, returning to the step S219;

step S223: and sending a next shift request to the background, and returning to the step S201.

The slave computer of the embodiment has low power consumption, can be powered by the battery, does not need to replace the battery in the whole service life, and has convenient installation and lower cost.

Example two:

this embodiment is substantially the same as the first embodiment, except that:

as shown in fig. 8, the service item card punching module in this embodiment includes a key module, and the key module is electrically connected to the work card MCU. The key module of the present embodiment includes a plurality of keys, which are the start and end keys of each service item, and each key is disposed on the work card. When a nursing staff wants to carry out a certain service item, the starting button corresponding to the service item can be pressed, and then the starting card punching of the service item can be completed; when the service item is finished, the nursing staff can press the finishing button corresponding to the service item, and the finishing card punching of the service item can be finished.

The starting and ending are divided into two keys in the above embodiment, and in practical application, a key mode can be adopted, namely, pressing one key for starting and pressing the other key for ending, so that the number of keys is small, the circuit structure is simple, the size of the workmanship tablet is reduced, but the implementation procedure of the mode is complex, and the mode has advantages and disadvantages compared with the two-key implementation mode, and the function of punching the service item can be realized. The way in which one key performs two functions is common knowledge in the art, and the specific circuits and procedures are not described in detail herein.

The off-duty card punching in the embodiment can not be realized through voice card punching, and can only be realized through judgment of overtime off duty.

According to the embodiments, the home care bed service supervision system based on the stereoscopic dot matrix technology can effectively supervise the working time and the working quality of nursing personnel, and can standardize the management of the home care industry; meanwhile, the environmental parameters of the patient can be monitored, so that the treatment and the rapid rehabilitation of the patient are facilitated; moreover, the privacy of the user can be protected, and the pressure of data transmission and storage is low.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims

1. Family care of old age is protected a bed service supervisory systems based on three-dimensional dot matrix technique, its characterized in that, including host computer and worker's tablet, the host computer with worker's tablet passes through network and backstage communication connection, the host computer includes host computer MCU, host computer MCU electricity is connected with laser radar, laser radar transmits the three-dimensional dot matrix image that generates host computer MCU, host computer MCU basis nursing staff's work item and work quality are judged to the three-dimensional dot matrix image of laser radar transmission.

2. The system according to claim 1, wherein the worker card is in wireless communication with the host, the worker card realizes automatic on-duty card printing of a person corresponding to the worker card according to the acquired change in the wireless signal strength of the host, and the worker card realizes off-duty card printing of a person corresponding to the worker card according to a voice command or the acquired change in the wireless signal strength of the host; the work card is provided with a service item card punching module for realizing the start and end card punching of each service item.

3. The system according to claim 2, wherein when the wireless signal strength of the host obtained by the worker card reaches a set threshold, the worker card is determined that the person corresponding to the worker card is on duty; and when the worker card does not acquire the wireless signal of the slave computer within the set time, determining that the personnel corresponding to the worker card is off duty.

4. The family endowment nursing bed service supervisory system based on stereoscopic lattice technology of claim 3, characterized in that, host computer MCU still electricity is connected with the first bluetooth module of worker's tablet wireless communication and with the first thing networking module of backstage communication connection.

5. The system according to claim 4, wherein the workmanship comprises a workmanship MCU, and the workmanship MCU is electrically connected with the service item card punching module, a second networking module in communication connection with the background, and a second Bluetooth module in communication with the first Bluetooth module.

6. The system for supervising the service of the home care bed based on the stereoscopic lattice technology as claimed in claim 5, wherein the service item card punching module comprises a voice recognition module electrically connected with the work card MCU, and the voice recognition module is electrically connected with a microphone and a speaker.

7. The system for supervising the home care bed service based on the stereoscopic dot matrix technology according to claim 5, wherein the service item card punching module comprises a key module, and the key module is electrically connected with the work card MCU.

8. The family endowment nursing bed service supervision system based on the stereoscopic lattice technology as claimed in claim 5, wherein the worker board MCU is further electrically connected with a GNSS positioning module.

9. The system for supervising and managing home care bed services based on the stereoscopic lattice technology as claimed in claim 5, wherein the system for supervising and managing home care bed services based on the stereoscopic lattice technology further comprises a plurality of slave machines, each slave machine comprises a slave machine MCU, and the slave machine MCU is electrically connected with a third Bluetooth module which is in communication with the second Bluetooth module.

10. The family endowment nursing bed service supervision system based on the stereoscopic lattice technology as claimed in any one of claims 1 to 9, wherein the host MCU is further electrically connected with an environment sensor, a speaker and a microphone.