CN112562290B - Medical care sanitary hand disinfection monitoring system based on intelligent wearable equipment - Google Patents

Abstract

The invention belongs to the technical field of medical care and sanitation, and particularly relates to a medical care and sanitation hand disinfection monitoring system based on intelligent wearable equipment, which comprises a medical care end, a positioning end and a server, wherein the server is connected with the medical care end through a network; the medical care end is worn on the hand of a medical worker and used for transmitting a first signal and also used for acquiring a disinfection signal sent to the server when the medical worker disinfects to wash the hand; the number of the positioning ends is multiple, and each positioning end is provided with a unique positioning number; each positioning end comprises an analysis unit and a plurality of signal receiving units which are respectively arranged at each corner of the same ward; the signal receiving unit is used for receiving first signals transmitted by the medical care end, and the analysis unit is used for positioning medical care personnel in real time and sending the medical care personnel to the server according to the strength of the first signals received by the signal receiving units; the server stores a ward internal space map corresponding to each numbering and positioning end, wherein the ward internal space map comprises distribution positions of sickbeds; by using the system, the disinfection and hand washing work of medical personnel can be effectively supervised.

Description

Medical care sanitary hand disinfection monitoring system based on intelligent wearable equipment

Technical Field

The invention belongs to the technical field of medical care and hygiene, and particularly relates to a medical care and hygiene hand disinfection monitoring system based on intelligent wearable equipment.

Background

In order to understand the condition of the patient, the medical staff needs to go to the ward to check the patient one by one regularly, and the hands of the medical staff can contact with the patient in the checking process. Because some patients have infectious diseases, medical staff need to disinfect hands before and after checking the illness state of the patients to prevent cross infection.

In order to facilitate the disinfection operation of medical personnel, a special disinfection wash platform is arranged in the ward. In addition, in order to monitor the human body, some monitoring devices have been developed, such as chinese patent with publication number CN210354942U, which discloses a hand hygiene compliance monitoring device. The device comprises a mounting box for placing a disinfectant bottle body, wherein an RFID reader, an acousto-optic prompt module, a key module and an infrared proximity sensor are arranged on the mounting box, the modules are electrically connected with a controller and realize power supply under a power management module, and the RFID reader is used for detecting whether medical personnel carrying an RFID label approaches the mounting box; when medical personnel carrying RFID labels approach the mounting box, the acousto-optic prompt module sends acousto-optic prompt information; the medical staff feeds back corresponding scene information through the key module according to different scene states; when medical personnel press the liquid outlet button of the disinfectant bottle body, the infrared proximity sensor acquires the pressing information of the liquid outlet button.

By using the device, when the medical staff is close to the mounting box, the mounting box can read the RFID label of the medical staff and send out a disinfection prompt to remind the medical staff to wash hands for disinfection.

However, when the medical staff looks over the patient, the traveling route of the medical staff is not fixed, and in other words, when the medical staff looks over the patient, the medical staff may not pass through the installation box. Generally, medical personnel just need the condition of key warning for the route that does not pass through the mounting box of device for the disinfection is washed hand, but the device does not play the effect of reminding when medical personnel do not pass through the mounting box. Therefore, the device has a very limited supervision effect on the medical staff when in specific use.

Therefore, there is a need for a medical care hand disinfection monitoring system based on intelligent wearable equipment, which can effectively supervise disinfection and hand washing of medical care personnel.

Disclosure of Invention

The invention aims to provide a medical care sanitary hand disinfection monitoring system based on intelligent wearable equipment, which can effectively supervise disinfection and hand washing work of medical care personnel.

In order to solve the technical problem, the present application provides the following technical solutions:

the medical care sanitary hand disinfection monitoring system based on the intelligent wearable equipment comprises a medical care end, a positioning end and a server;

the medical care end is worn on the hand of a medical care worker and used for transmitting a first signal; the medical care end is also used for collecting a disinfection signal sent to the server when medical care personnel disinfect and wash hands;

the number of the positioning ends is multiple, and each positioning end is provided with a unique positioning number; each positioning end comprises an analysis unit and a plurality of signal receiving units which are respectively arranged at each corner of the same ward; the signal receiving unit is used for receiving first signals transmitted by the medical care end, and the analysis unit is used for positioning medical care personnel in real time and transmitting the medical care personnel to the server according to the strength of the first signals received by the signal receiving units;

a ward internal space map corresponding to each numbering and positioning end is stored in the server, the ward internal space map comprises distribution positions of sickbeds, and each sickbed has a unique sickbed number; the server is used for analyzing a route map of the medical staff according to the received real-time positioning information and the corresponding ward internal space map;

the server is also used for marking the hospital bed as a contact hospital bed and storing the contact hospital bed when the medical staff approaches to the hospital bed and the distance between the medical staff and the hospital bed is less than a preset threshold value; the server is also used for analyzing whether a contact sickbed corresponding to the medical care end exists within a first preset time when the sickbed is marked as the contact sickbed, if so, the server calls the serial number of the last sickbed contacting the sickbed and compares the serial number with the serial number of the current sickbed contacting the sickbed, if the serial numbers of the sickbeds are different, whether a disinfection signal is received within a second preset time is judged, and if not, a reminding signal is sent to the medical care end; if the hospital bed does not contact with the medical care end within the first preset time, the server judges whether a disinfection signal is received within the second preset time, and if the disinfection signal is not received, a reminding signal is sent to the medical care end.

The basic scheme principle and the beneficial effects are as follows:

when the medical staff disinfect and wash hands, the medical staff can know the situation (such as image recognition or sound analysis) by collecting relevant data and send disinfection signals to the server.

When medical personnel are in the ward, the medical end can send a first signal, the signal receiving unit of the positioning end in the ward receives the first signal, and the analysis unit can determine the real-time positioning of the medical personnel by analyzing the signal strength received by each signal receiving unit.

The server is internally stored with a ward internal space map of a ward, and the walking route of medical staff in the ward can be known by combining the real-time positioning of the medical staff. When the medical staff approaches to a certain sickbed and the distance between the medical staff and the sickbed is less than a preset threshold value, the medical staff is about to check the patient on the sickbed. Thus, the server marks the bed as touching the bed and stores.

When the hospital bed is marked to be in contact with the hospital bed, the server analyzes whether the contact hospital bed corresponding to the medical care end exists or not within the first preset time. If the patient exists, the corresponding patient is not the first patient to be examined in the ward. Therefore, the server calls the hospital bed number of the last contact hospital bed (namely the last contact patient) and compares the hospital bed number with the hospital bed number of the current contact hospital bed, if the hospital bed numbers are different, the server indicates that the medical staff checks one patient and then checks another patient, and needs to disinfect and wash hands first, so that the server judges whether a disinfection signal is received within second preset time, and if the disinfection signal is not received, the server indicates that the medical staff does not disinfect and wash hands, and the server sends a reminding signal to the medical staff. Therefore, medical staff can be reminded to carry out disinfection and hand washing. If the hospital bed numbers are the same, it is stated that the medical staff leaves the patient for a short time during the examination of the patient (for example, leave the patient and communicate with other medical staff), and then returns to the patient to continue the examination.

If the contact sickbed corresponding to the medical care end does not exist within the first preset time, the corresponding patient is the first patient to be examined in the sickroom. Therefore, the server judges whether the disinfection signal is received within the second preset time so as to know whether the medical staff carries out disinfection hand washing before the examination work is started, if not, the server indicates that the medical staff does not disinfect hand washing, and the server sends a reminding signal to the medical staff. Therefore, medical staff can be reminded to do disinfection and hand washing work.

In conclusion, the system can effectively supervise the disinfection and hand washing work of medical personnel.

Further, when the number of the last sickbed in contact with the server is the same as the number of the sickbed in contact with the server at present, the server analyzes the current walking track of the medical staff from leaving the last sickbed in contact with the server, judges whether the medical staff leaves the sickroom, and sends a reminding signal to the medical staff if the medical staff leaves the sickroom.

Even if the same patient is examined, if medical staff leaves the ward during the examination pause, the sanitation of the hands of the medical staff is difficult to be ensured, so that the server sends a reminding signal to the medical staff to remind the medical staff to do disinfection and hand washing.

Further, when the server analyzes the route map of the medical care personnel, if the medical care personnel moves towards the ward door and the distance between the medical care personnel and the ward door is smaller than a second threshold value, the server analyzes the leaving time of the patient leaving the last contact sickbed and calls the disinfection time of the latest received disinfection signal, and if the leaving time is after the disinfection time, the server sends a reminding signal to the medical care end.

When the server analyzes the route map of the medical staff, if the medical staff moves towards the ward door and the distance between the medical staff and the ward door is smaller than a second threshold value, the medical staff is indicated to have the intention of leaving the ward. If the doctor and patient leave the ward directly without disinfecting and washing hands after the examination of the patient, the doctor and patient are very unhygienic, bacteria can be brought out of the ward, and personnel outside the ward can be infected. Therefore, the server analyzes the leaving time of the patient leaving the last hospital bed and calls the disinfection time of the received disinfection signal at the last time, if the leaving time is after the disinfection time, the server indicates that the patient leaves the hospital room without disinfection and hand washing after checking the last patient, and therefore the server sends a reminding signal to the medical care end to remind medical care personnel to leave the hospital room after disinfection and hand washing.

Further, the server is also used for storing the disinfection signal.

Further, the end of doctorsing and nurses is intelligent bracelet.

Furthermore, the medical care end is also used for sending out a reminder after receiving the reminder signal.

Further, the reminding mode is vibration reminding.

Drawings

FIG. 1 is a logic diagram of an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

as shown in figure 1, the medical care sanitary hand disinfection monitoring system based on the intelligent wearable device comprises a medical care end, a positioning end and a server.

The medical care end is worn on the hand of a medical care worker and used for transmitting a first signal; the medical care end is also used for acquiring a disinfection signal sent to the server when medical care personnel disinfect and wash hands. In this embodiment, the end of doctorsing and nurses is intelligent bracelet, and the first signal of doctorsing and nurses the end transmission is radio frequency signal. For convenience of description, the medical care terminal in this embodiment is one, and in other embodiments, a plurality of medical care terminals may be adopted, and each medical care terminal is used for a unique identity number.

The number of the positioning ends is multiple, and each positioning end is provided with a unique positioning number; each positioning end comprises an analysis unit and a plurality of signal receiving units which are respectively arranged at each corner of the same ward. The signal receiving unit is used for receiving a first signal transmitted by the medical care end, and the analysis unit is used for positioning medical care personnel in real time and sending the medical care personnel to the server according to the strength of the first signal received by each signal receiving unit. In this embodiment, the signal receiving unit is a radio frequency receiver. The server is a Tencent cloud server.

A ward internal space map corresponding to each numbering and positioning end is stored in the server, the ward internal space map comprises distribution positions of sickbeds, and each sickbed has a unique sickbed number; the server is used for analyzing the route map of the medical staff according to the received real-time positioning information and the corresponding ward internal space map.

The server is also used for marking the hospital bed as a contact hospital bed and storing the contact hospital bed when the medical staff approaches to the hospital bed and the distance between the medical staff and the hospital bed is less than a preset threshold value; the server is also used for analyzing whether a contact sickbed corresponding to the medical care end exists in a first preset time when the sickbed is marked as a contact sickbed, if so, the server calls the sickbed number of the last contact sickbed and compares the sickbed number with the sickbed number currently in contact with the sickbed, if the sickbed numbers are different, whether a disinfection signal is received in a second preset time is judged, and if not, a reminding signal is sent to the medical care end; if the hospital bed does not contact with the medical care end within the first preset time, the server judges whether a disinfection signal is received within the second preset time, and if the disinfection signal is not received, a reminding signal is sent to the medical care end.

When the number of the last sickbed in contact with the server is the same as the number of the sickbed in contact with the server at present, the server also analyzes the current walking track from the last sickbed in contact with the medical staff to judge whether the medical staff leaves the sickroom, and if the medical staff leaves the sickroom, the server sends a reminding signal to the medical staff.

When the server analyzes the route map of the medical staff, if the medical staff moves towards the ward door and the distance between the medical staff and the ward door is smaller than a second threshold value, the server analyzes the leaving time of the patient leaving the last contact sickbed and calls the disinfection time of receiving the disinfection signal for the last time, and if the leaving time is after the disinfection time, the server sends a reminding signal to the medical care end.

The medical care end is also used for sending out a prompt after receiving the prompt signal, and in the embodiment, the prompt mode is vibration prompt.

By using the system, the disinfection and hand washing work of medical personnel can be effectively supervised.

The above are merely examples of the present invention, and the present invention is not limited to the field related to this embodiment, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art can know all the common technical knowledge in the technical field before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the scheme, and some typical known structures or known methods should not become barriers to the implementation of the present invention by those skilled in the art in light of the teaching provided in the present application. 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 (5)

1. Health hand disinfection monitored control system of doctorsing and nurses based on intelligence wearing equipment, its characterized in that: comprises a medical care end, a positioning end and a server;

the medical care end is worn on the hand of a medical worker and used for transmitting a first signal; the medical care end is also used for collecting a disinfection signal sent to the server when medical care personnel disinfect and wash hands;

the number of the positioning ends is multiple, and each positioning end is provided with a unique positioning number; each positioning end comprises an analysis unit and a plurality of signal receiving units which are respectively arranged at each corner of the same ward; the signal receiving unit is used for receiving first signals transmitted by the medical care end, and the analysis unit is used for positioning medical care personnel in real time and sending the medical care personnel to the server according to the strength of the first signals received by the signal receiving units;

the server stores a ward internal space map corresponding to each numbering and positioning end, the ward internal space map comprises distribution positions of sickbeds, and each sickbed has a unique sickbed number; the server is used for analyzing a route map of the medical staff according to the received real-time positioning information and the corresponding ward internal space map;

the server is also used for marking the hospital bed as a contact hospital bed and storing the contact hospital bed when the medical staff approaches to the hospital bed and the distance between the medical staff and the hospital bed is less than a preset threshold value; the server is also used for analyzing whether a contact sickbed corresponding to the medical care end exists in a first preset time when the sickbed is marked as a contact sickbed, if so, the server calls the sickbed number of the last contact sickbed and compares the sickbed number with the sickbed number currently in contact with the sickbed, if the sickbed numbers are different, whether a disinfection signal is received in a second preset time is judged, and if not, a reminding signal is sent to the medical care end; when the number of the last sickbed in contact with the server is the same as the number of the sickbed in contact with the server at present, the server analyzes the current walking track of the medical staff from leaving the last sickbed in contact with the server, judges whether the medical staff leaves the sickroom, and sends a reminding signal to the medical care end if the medical staff leaves the sickbed;

when the server analyzes a route map of the medical care personnel, if the medical care personnel moves towards the ward door and the distance between the medical care personnel and the ward door is smaller than a second threshold value, the server analyzes the leaving time of the medical care personnel leaving the last contact sickbed and calls the disinfection time of the latest received disinfection signal, and if the leaving time is after the disinfection time, the server sends a reminding signal to the medical care end;

if the hospital bed does not contact with the medical care end within the first preset time, the server judges whether a disinfection signal is received within the second preset time, and if the disinfection signal is not received, a reminding signal is sent to the medical care end.

2. The medical care sanitary hand disinfection monitoring system based on intelligent wearable equipment according to claim 1, characterized in that: the server is also used for storing the disinfection signal.

3. The medical care sanitary hand disinfection monitoring system based on intelligent wearable equipment according to claim 1, characterized in that: the end of doctorsing and nurses is intelligent bracelet.

4. The intelligent wearable device-based medical care sanitary hand disinfection monitoring system according to claim 3, which is characterized in that: the medical care end is also used for sending out a prompt after receiving the prompt signal.

5. The intelligent wearable device-based medical care sanitary hand disinfection monitoring system according to claim 4, which is characterized in that: the reminding mode is vibration reminding.

Images