CN213211727U - Embedded medical electronic wireless network system - Google Patents

Abstract

The utility model provides an embedded medical treatment electron wireless network system, it has solved medical network service and has covered incomplete scheduling problem, it includes human data acquisition module, human data acquisition module passes through bluetooth transmission module and is connected with mobile terminal, mobile terminal passes through 4G 5G transmission module and is connected with high in the clouds data server and service center, high in the clouds data server and service center pass through switch and hospital control center and wireless router are connected, wireless router and ward assembly and PC end are connected, PC end fixed mounting is on the medical treatment shallow, mobile terminal has GPS positioning unit and 4G 5G communication unit, mobile terminal embeds emergency call unit and data processing unit, install NFC radio frequency identification unit and liquid crystal display unit on the mobile terminal. The utility model has the advantages of wide medical service coverage, high service quality and the like.

Description

Embedded medical electronic wireless network system

Technical Field

The utility model belongs to the technical field of medical system, concretely relates to embedded medical treatment electron wireless network system.

Background

With the increasing of the life expectancy, the decreasing of the birth rate and the concern of people on health, people in modern society need better medical systems. Thus, telemedicine and electronic medical treatment are very urgent. By means of the Internet of things/cloud computing technology, an artificial intelligence expert system and intelligent equipment of an embedded system, a complete Internet of things medical system can be constructed, people can enjoy top-level medical services equally, and the phenomena of difficulty in seeing a doctor, tension in relation between doctors and patients, frequent accidents and the like caused by lack of medical resources are solved or reduced. The intelligent medical treatment consists of three parts, namely an intelligent hospital system, a regional health system and a family health system. The digital hospital comprises four parts, namely a hospital information system, a laboratory information management system, a medical image information storage system, a medical image information transmission system and a doctor workstation. The collection, storage, processing, extraction and data exchange of the diagnosis and treatment information and the administrative management information of the patient are realized. However, in practical application, the conventional hospital system is inconvenient for monitoring the physiological health of the patient leaving the hospital, and cannot provide medical services in time. In addition, the informatization vacancy of '20 meters' exists between the hospital system and the ward, so that doctors and nurses in the department of living are inconvenient to move and work.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, the chinese patent document discloses an intelligent healthcare health management application system [201921853176.6], comprising: the system comprises an appointment terminal, a cloud data server, an intelligent display processing unit, an information sending module, an information receiving module, a voice module, a video module and an electronic medical record database; reservation terminal, including: a first reservation terminal or a second reservation terminal; the cloud data server stores a large amount of medical resource data; the electronic medical record database is stored in the cloud data server; the intelligent display processing unit is used for displaying the requirement service provided by the user for medical staff, and the medical staff carries out corresponding processing on the provided requirement.

The scheme solves the problem of shortage of medical resources to a certain extent, but the scheme still has a plurality of defects, such as inconvenience in mobile and office work of doctors and nurses, incomplete coverage of medical networks and the like.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a reasonable in design, medical service covers wide embedded medical treatment electron wireless network system.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this embedded medical treatment electronic wireless network system, including human data acquisition module, human data acquisition module passes through bluetooth transmission module and is connected with mobile terminal, mobile terminal passes through 4G 5G transmission module and is connected with high in the clouds data server and service center, high in the clouds data server and service center pass through switch and hospital control center and wireless router are connected, wireless router and ward assembly and PC end are connected, PC end fixed mounting is on the medical treatment shallow, mobile terminal has GPS positioning unit and 4G 5G communication unit, mobile terminal embeds emergency call unit and data processing unit, last NFC radio frequency identification unit and the liquid crystal display unit of installing of mobile terminal. Through mobile terminal, the physiological data after patient's leaving hospital can in time be collected to service center and hospital control center, and the patient also can initiatively contact hospital control center, realizes the all-round service of each patient's admission to discharge from hospital, and the medical treatment shallow carries on the PC end, realizes doctor and nurse's paperless official working, improves administrative office efficiency.

In the embedded medical electronic wireless network system, the ward assembly comprises a corridor display module and a sickbed calling module, and a monitoring module and an interaction module are arranged in the ward assembly. The built-in monitor module of ward assembly and interactive module in time monitor indoor environment, improve the patient travelling comfort of being in hospital.

In the embedded medical electronic wireless network system, the monitoring module comprises a temperature monitoring unit, a humidity monitoring unit and a carbon dioxide concentration monitoring unit, wherein the sickbed is provided with a body temperature monitoring unit, a blood pressure monitoring unit and an electrocardio monitoring unit. The monitoring module also includes the monitoring to patient's physiology sign including the monitoring to indoor environment to in time feed back to hospital control center, the physiology when guaranteeing that the patient is in hospital is stable.

In the embedded medical electronic wireless network system, the interaction module comprises a rotating seat fixed at the end of the sickbed, a clamping plate attached to the lower end of the sickbed is arranged on the inner side of the rotating seat, a plurality of studs in threaded connection with the rotating seat are arranged at the lower end of the clamping plate, the rotating seat is connected with a plurality of rotating arms through electric joints, and the end of the last rotating arm is clamped with the touch display screen through a clamping jaw.

In the embedded medical electronic wireless network system, the hospital control center is connected with the air conditioner and the lighting device in the ward in a wired or wireless mode. The hospital control center controls the air conditioner and the lighting device in the ward, thereby controlling the indoor temperature, humidity and illumination.

In the embedded medical electronic wireless network system, the human body data acquisition module comprises a bracelet buckled on the wrist of a human body, and a pulse monitoring mechanism and a body temperature monitoring mechanism are arranged in the bracelet. The human body data acquisition module is relatively independent from the human body data acquisition module, and monitors the pulse and the body temperature of the wrist through the bracelet.

In the embedded medical electronic wireless network system, the mobile terminal is a mobile phone or a tablet computer. The mobile terminal is a mobile phone or a tablet personal computer, is connected with the human body data acquisition module, and is in butt joint with the human body data acquisition module through the Bluetooth transmission module.

In the embedded medical electronic wireless network system, the hospital control center is connected with the nurse station, and the nurse station is adjacently connected with the ward assembly. When a condition occurs in the ward assembly, the hospital control center timely informs the nurse station to dispatch a nurse for observation.

In the embedded medical electronic wireless network system, the hospital control center is connected with the infrared detection module, and the infrared detection module is arranged at the door of the hospital. The infrared detection module monitors the body temperature of people who enter and exit the hospital.

In the embedded medical electronic wireless network system, the infrared detection module is connected with the service center through the switch. Data monitored by the infrared detection module are transmitted to the service center in time, and the physiological conditions of the personnel passing in and out of the hospital can be monitored by the service personnel in time.

Compared with the prior art, the utility model has the advantages of: the human body data acquisition module transmits human body physiological data to a hospital control center and a service center through a mobile terminal, data transmission is realized under the action of a 4G/5G transmission module, and patients are served in an all-round way; a monitoring module is arranged in the ward assembly, so that the indoor environment and the physiological health of the patient are monitored in time, and the comfort of hospitalization is ensured; the hospital control center is connected with the infrared detection module and used for monitoring the body temperature of the personnel who get in and out of the hospital.

Drawings

Fig. 1 is a block diagram of the present invention;

fig. 2 is a block diagram of the monitoring module according to the present invention;

fig. 3 is a block diagram of the mobile terminal of the present invention;

fig. 4 is a structural block diagram of the bracelet of the present invention;

fig. 5 is a structural schematic of the interaction module of the present invention;

in the figure, a human body data acquisition module 1, a bracelet 11, a pulse monitoring mechanism 12, a body temperature monitoring mechanism 13, a bluetooth transmission module 2, a mobile terminal 3, a GPS positioning unit 31, a 4G/5G communication unit 32, an emergency call unit 33, a data processing unit 34, an NFC radio frequency identification unit 35, a liquid crystal display unit 36, a 4G/5G transmission module 4, a cloud data server 5, a service center 6, a switch 7, a hospital control center 8, a wireless router 81, a PC end 82, a medical cart 83, a nurse station 84, an infrared detection module 85, a ward assembly 9, a corridor display module 91, a hospital bed calling module 92, a monitoring module 93, a temperature monitoring unit 931, a humidity monitoring unit 932, a carbon dioxide concentration monitoring unit 933, a body temperature monitoring unit 934, a blood pressure monitoring unit 935, an electrocardio monitoring unit 936, an interaction module 94, a hospital bed calling module 92, a monitoring module 93, a, Rotating base 941, clamping plate 942, stud 943, electric joint 944, rotating arm 945 and clamping jaw 946.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, the embedded medical electronic wireless network system includes a human body data acquisition module 1, the human body data acquisition module 1 is connected with a mobile terminal 3 through a bluetooth transmission module 2, the mobile terminal 3 is connected with a cloud data server 5 and a service center 6 through a 4G/5G transmission module 4, the cloud data server 5 and the service center 6 are connected with a hospital control center 8 and a wireless router 81 through a switch 7, the wireless router 81 is connected with a ward assembly 9 and a PC end 82, the PC end 82 is fixedly installed on a medical cart 83, the mobile terminal 3 has a GPS positioning unit 31 and a 4G/5G communication unit 32, an emergency call unit 33 and a data processing unit 34 are built in the mobile terminal 3, and an NFC radio frequency identification unit 35 and a liquid crystal display unit 36 are installed on the mobile terminal 3. The mobile terminal 3 is carried by a patient, the human body data acquisition module 1 transmits acquired data to the mobile terminal 3, the data are transmitted to the cloud data server 5 and the service center 6 through the 4G/5G transmission module 4, and the service center 6 is in contact with the hospital control center 8, so that the hospital control center 8 can master the condition of the patient in time.

Specifically, the ward assembly 9 includes a corridor display module 91 and a bed calling module 92, and a monitoring module 93 and an interaction module 94 are disposed in the ward assembly 9. The corridor display module 91 is used for displaying the hospital room number, the nursing level and the bed number, and displaying the information such as the date, the time and the nurse position when the hospital is in standby.

Deeply, the monitoring module 93 comprises a temperature monitoring unit 931, a humidity monitoring unit 932 and a carbon dioxide concentration monitoring unit 933, wherein a body temperature monitoring unit 934, a blood pressure monitoring unit 935 and an electrocardiogram monitoring unit 936 are arranged on the hospital bed. The monitoring module 93 is arranged in the ward, detects the indoor temperature, humidity and carbon dioxide concentration, monitors the physical sign conditions of patients, and transmits acquired data to the hospital control center 8 through the wireless router 81 and the switch 7.

Further, the interactive module 94 includes a rotating base 941 fixed at the end of the hospital bed, a clamping plate 942 attached to the lower end of the hospital bed is arranged on the inner side of the rotating base 941, a plurality of studs 943 in threaded connection with the rotating base 941 are arranged at the lower end of the clamping plate 942, the rotating base 941 is connected with a plurality of rotating arms 945 through electric joints 944, and the end of the last rotating arm 945 is clamped with a touch display screen through clamping jaws 946. The touch screen in the interactive module 94 is optionally controlled to adjust the position under the action of the rotating arm 945, so as to meet the requirements of patients.

Further, the hospital control center 8 is connected with the air conditioners and lighting devices in the wards by wire or wireless. The hospital control center 8 controls the temperature and humidity in the ward through an air conditioner, and the illumination intensity is adjustable.

Besides, the human body data acquisition module 1 comprises a bracelet 11 buckled on the wrist of the human body, and a pulse monitoring mechanism 12 and a body temperature monitoring mechanism 13 are arranged in the bracelet 11. The pulse monitoring mechanism 12 in the bracelet 11 monitors the wrist pulse, and the body temperature monitoring mechanism 13 is just to the wrist, measures human body temperature to in time transmit data to the mobile terminal 3.

Meanwhile, the mobile terminal 3 is a mobile phone or a tablet computer. The mobile terminal 3 is carried about and is connected with the bracelet 11 through the Bluetooth transmission module 2 or through a wired interface.

As can be seen, the hospital control center 8 is connected to a nurse station 84, and the nurse station 84 is connected adjacent to the patient room unit 9. The nurse station 84 is directly arranged beside the ward or connected through the hospital control center 8 to perform double monitoring on the ward and timely nurse the patient.

It is obvious that the hospital control center 8 is connected with an infrared detection module 85, and the infrared detection module 85 is disposed at the doorway of the hospital. The infrared detection module 85 detects the entrance and exit personnel at the hospital door one by one, thereby preventing the entrance and exit of the fever personnel and ensuring the safety of the inside of the hospital.

Preferably, the infrared detection module 85 is connected to the service center 6 through the switch 7. The service center 6 crosses the hospital control center 8 to directly monitor, and the data acquisition efficiency is improved.

In summary, the principle of the present embodiment is: the mobile terminal 3 and the ward assembly 9 are connected with the service center 6 and the hospital control center 8, realize the all-round monitoring from admission to discharge of patients, detect the physiological health in time, and complete the data exchange through the 4G/5G transmission module 4.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the human body data acquisition module 1, the bracelet 11, the pulse monitoring mechanism 12, the body temperature monitoring mechanism 13, the bluetooth transmission module 2, the mobile terminal 3, the GPS positioning unit 31, the 4G/5G communication unit 32, the emergency call unit 33, the data processing unit 34, the NFC rfid unit 35, the liquid crystal display unit 36, the 4G/5G transmission module 4, the cloud data server 5, the service center 6, the switch 7, the hospital control center 8, the wireless router 81, the PC terminal 82, the medical cart 83, the nurse station 84, the infrared detection module 85, the ward assembly 9, the corridor display module 91, the bed call module 92, the monitoring module 93, the temperature monitoring unit 931, the humidity monitoring unit 932, the carbon dioxide concentration monitoring unit 933, the body temperature monitoring unit 934, the blood pressure monitoring unit 935, the electrocardiograph monitoring unit 936, and the like are used more frequently The terms interaction module 94, rotation mount 941, clamp plate 942, stud 943, motorized joint 944, rotation arm 945, clamp jaw 946, etc., do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. An embedded medical electronic wireless network system comprises a human body data acquisition module (1) and is characterized in that the human body data acquisition module (1) is connected with a mobile terminal (3) through a Bluetooth transmission module (2), the mobile terminal (3) is connected with a cloud data server (5) and a service center (6) through a 4G/5G transmission module (4), the cloud data server (5) and the service center (6) are connected with a hospital control center (8) and a wireless router (81) through a switch (7), the wireless router (81) is connected with a ward assembly (9) and a PC end (82), the PC end (82) is fixedly installed on a medical cart (83), and the mobile terminal (3) is provided with a GPS positioning unit (31) and a 4G/5G communication unit (32), the mobile terminal (3) is internally provided with an emergency call unit (33) and a data processing unit (34), and the mobile terminal (3) is provided with an NFC radio frequency identification unit (35) and a liquid crystal display unit (36).

2. The embedded medical electronic wireless network system according to claim 1, wherein the ward assembly (9) comprises a corridor display module (91) and a bed calling module (92), and a monitoring module (93) and an interaction module (94) are disposed in the ward assembly (9).

3. The embedded medical electronic wireless network system according to claim 2, wherein the monitoring module (93) comprises a temperature monitoring unit (931), a humidity monitoring unit (932) and a carbon dioxide concentration monitoring unit (933), wherein a body temperature monitoring unit (934), a blood pressure monitoring unit (935) and an electrocardiogram monitoring unit (936) are arranged on a hospital bed.

4. The embedded medical electronic wireless network system according to claim 2, wherein the interactive module (94) comprises a rotating base (941) fixed at the end of the hospital bed, a clamping plate (942) attached to the lower end of the hospital bed is arranged on the inner side of the rotating base (941), a plurality of studs (943) connected with the rotating base (941) in a threaded manner are arranged at the lower end of the clamping plate (942), the rotating base (941) is connected with a plurality of rotating arms (945) through an electric joint (944), and a touch display screen is clamped at the end of the last rotating arm (945) through a clamping jaw (946).

5. The embedded medical electronic wireless network system according to claim 1, 2, 3 or 4, wherein the hospital control center (8) is connected with air conditioners and lighting devices in the ward by wire or wireless.

6. The embedded medical electronic wireless network system according to claim 5, wherein the human body data acquisition module (1) comprises a bracelet (11) fastened on a wrist of a human body, and the bracelet (11) is internally provided with a pulse monitoring mechanism (12) and a body temperature monitoring mechanism (13).

7. The embedded medical electronic wireless network system according to claim 5, wherein the mobile terminal (3) is a mobile phone or a tablet computer.

8. The embedded medical electronic wireless network system according to claim 5, wherein the hospital control center (8) is connected to a nurse station (84), and the nurse station (84) is connected adjacent to the ward assembly (9).

9. The embedded medical electronic wireless network system according to claim 1, wherein the hospital control center (8) is connected with an infrared detection module (85), and the infrared detection module (85) is arranged at the doorway of the hospital.

10. The embedded medical electronic wireless network system as claimed in claim 9, wherein the infrared detection module (85) is connected to the service center (6) through the switch (7).

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