CN116312990A - Intelligent oral cavity comprehensive treatment table management system - Google Patents

Abstract

The application relates to an wisdom oral cavity comprehensive treatment platform management system, this system includes: the dental chair, the control equipment, the hospital information subsystem and the background management subsystem; the signal acquisition subsystem is used for acquiring consumption data according to the patient treatment condition, wherein the front-end access of the signal acquisition subsystem is connected with a power supply line and a water supply line of the dental chair, and the consumption data comprises: water consumption data and electricity consumption data; the background management subsystem is used for periodically acquiring consumption data stored in the signal acquisition subsystem and acquiring the patient diagnosis receiving information from the hospital information subsystem; the control equipment is in communication connection with the hospital information subsystem and is used for acquiring doctor identity information and patient information from the hospital information subsystem, displaying the patient information, carrying out doctor identity authentication and carrying out remote control on the dental chair. Through the application, the problem that the dental chairs lack of effective energy consumption management and are mutually fractured with other systems is solved, and the fine management of the dental chair resources of hospitals is realized.

Description

Intelligent oral cavity comprehensive treatment table management system

Technical Field

The application relates to the technical field of medical treatment, in particular to an intelligent oral comprehensive treatment table management system.

Background

A dental chair is a device for oral surgery and examination and treatment of oral diseases, and an electric dental chair is mostly adopted. The working principle is that the motor is started to operate by the control switch and the transmission mechanism is driven to work, so that the corresponding parts of the dental chair are moved. The doctor can operate the control switch button according to the treatment requirement, and the dental chair can finish the actions of ascending, descending, pitching, leaning up, resetting and the like.

The traditional dental chairs are generally directly connected with a water supply pipeline, and an effective and refined monitoring management mechanism is lacked for energy consumption management. And the dental chair equipment and other systems of the hospital lack of interaction mechanisms, and all the equipment (systems) are mutually fractured, so that great inconvenience is caused to the daily use of doctors and operation and maintenance personnel.

Disclosure of Invention

The embodiment of the application provides an intelligent oral comprehensive treatment table management system and method, which at least solve the problem that the dental chairs lack effective energy consumption management in the related art.

In a first aspect, embodiments of the present application provide a management system for an intelligent oral comprehensive treatment table, where the system is built based on an internet of things open platform, and includes: the system comprises a signal acquisition subsystem, a dental chair, control equipment, a hospital information subsystem and a background management subsystem, wherein the signal acquisition subsystem is used for acquiring information of a user;

the signal acquisition subsystem is used for acquiring consumption data according to the patient treatment condition, wherein the signal acquisition subsystem is connected with a power supply line and a water supply line of the dental chair in front, and the consumption data comprises water consumption data and electricity consumption data;

the background management subsystem is used for periodically acquiring consumption data stored in the signal acquisition subsystem and acquiring patient diagnosis information from the hospital information subsystem, wherein the background management subsystem is respectively in communication connection with the signal acquisition subsystem and the hospital information subsystem;

the control equipment is in communication connection with the hospital information subsystem and is used for acquiring doctor identity information and patient information from the hospital information subsystem, displaying the patient information, carrying out doctor identity authentication and carrying out remote control on the dental chair.

In some of these embodiments, the signal acquisition subsystem comprises a master control module and a flow acquisition module, wherein;

the main control module is used for carrying out information interaction with external equipment, carrying out signal conversion on information sent by the external equipment, obtaining the electricity consumption data by detecting the electricity consumption condition of the active load, and controlling the start and stop of the active load;

the flow acquisition module is used for acquiring water consumption data of the dental chair water supply line;

the main control module is also used for sending the water consumption data and the electricity consumption data to the background management subsystem.

In some embodiments, the main control module is further configured to receive a switch instruction sent by the control device or the background management subsystem, and control start and stop of the dental chair according to the switch instruction.

In some of these embodiments, the control device includes a communication module, an authentication module, a remote control module, and an information presentation module, wherein,

the communication module is used for acquiring doctor identity information and patient information from the hospital information subsystem;

the authentication module is used for acquiring authentication information input by a doctor in real time and judging whether the identity of the doctor is credible or not by matching the authentication information with the identity information of the doctor, wherein the authentication information comprises: face information, fingerprint information and account password information;

the remote control module sends a control instruction to the dental chair to instruct the dental chair to open or close;

the information display module is configured to display the patient information, where the patient information includes: basic identity information, diagnosis and treatment information and billing information.

In some embodiments, a software operating system based on Android implementation is run in the control device, and a preset operation and maintenance program is deployed in the operating system, wherein:

the preset operation and maintenance program is used for storing the authorized login state of the doctor and receiving the patient information sent by the hospital information subsystem.

In some embodiments, the preset operation and maintenance program includes: the dental chair real-time information display component, the doctor identity authentication component and the patient information management component.

In some embodiments, the background management subsystem comprises a data storage module, a worksheet generation module, and an arithmetic processing module, wherein;

the data storage module is used for establishing a dental chair database, inputting basic data of each dental chair into the dental chair database according to a preset format, and determining whether the working state of the dental chair is taken and started;

the working table generation module is used for acquiring basic data of each dental chair from the dental chair database and establishing a dental chair working state table according to the basic data, wherein the dental chair working state table comprises state indexes of multiple dimensions;

the operation processing module is used for performing operation processing according to each state index in the dental chair state working table to obtain the stable state information and the energy consumption state information of the dental chair.

In some of these embodiments, the status indicator comprises: the dental chair comprises a dental chair working state, a water outlet state, a repair reporting state, a patient taking state, an average taking water consumption, an average taking power consumption, an hour standby power consumption and an hour standby water consumption.

In some of these embodiments, the dental chair operating state and the water outlet state are from the signal acquisition subsystem;

the report state, the average water consumption of the consultation, the average power consumption of the consultation, the power consumption of the hour standby and the water consumption of the hour come from the background management subsystem;

the patient interface status is from the hospital information subsystem.

In a second aspect, an embodiment of the present application provides a method for managing an intelligent oral comprehensive treatment table, where the method is implemented based on an open platform of the internet of things, and the method includes:

acquiring consumption data according to the patient treatment condition through a signal acquisition subsystem, wherein the signal acquisition subsystem is connected with a power supply line and a water supply line of a dental chair in front, and the consumption data comprises water consumption data and electricity consumption data;

the consumption data stored in the signal acquisition subsystem is periodically acquired through a background management subsystem, and the patient diagnosis information is acquired from a hospital information subsystem, wherein the background management subsystem is respectively in communication connection with the signal acquisition subsystem and the hospital information subsystem;

and acquiring doctor identity information and patient information from the hospital information subsystem through control equipment, displaying the patient information and carrying out doctor identity authentication, and remotely controlling the dental chair, wherein the control equipment is in communication connection with the hospital information subsystem.

Compared with the related art, the intelligent oral comprehensive treatment table management system provided by the embodiment of the application acquires consumption data according to the patient treatment condition through the signal acquisition subsystem, wherein the signal acquisition subsystem is connected with the power supply line and the water supply line of the dental chair in front, and the consumption data comprise water consumption data and electricity consumption data; the consumption data stored in the signal acquisition subsystem is periodically acquired through the background management subsystem, and the diagnosis receiving information of the patient is acquired from the hospital information subsystem; the control device is in communication connection with the hospital information subsystem and is used for acquiring doctor identity information and patient information from the hospital information subsystem, displaying the patient information, carrying out doctor identity authentication and carrying out remote control on the dental chair. The method solves the problems of lack of effective energy consumption management for the dental chairs and mutual rupture with other systems in the related technology, and realizes the fine management of the dental chair resources of hospitals.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a block diagram of a smart oral integrated treatment table management system according to an embodiment of the present application;

FIG. 2 is a flow chart of a method of intelligent oral integrated treatment table management according to an embodiment of the present application;

FIG. 3 is a schematic diagram of the working principle of a signal acquisition system according to an embodiment of the present application;

fig. 4 is a schematic diagram of a business execution timing of the intelligent oral integrated treatment table management method according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described and illustrated below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on the embodiments provided herein, are intended to be within the scope of the present application.

It is apparent that the drawings in the following description are only some examples or embodiments of the present application, and it is possible for those of ordinary skill in the art to apply the present application to other similar situations according to these drawings without inventive effort. Moreover, it should be appreciated that while such a development effort might be complex and lengthy, it would nevertheless be a routine undertaking of design, fabrication, or manufacture for those of ordinary skill having the benefit of this disclosure, and thus should not be construed as having the benefit of this disclosure.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is to be expressly and implicitly understood by those of ordinary skill in the art that the embodiments described herein can be combined with other embodiments without conflict.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. Reference to "a," "an," "the," and similar terms herein do not denote a limitation of quantity, but rather denote the singular or plural. The terms "comprising," "including," "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, article, or apparatus that comprises a list of steps or modules (elements) is not limited to only those steps or elements but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. The terms "connected," "coupled," and the like in this application are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. The term "plurality" as used herein refers to two or more. "and/or" describes an association relationship of an association object, meaning that there may be three relationships, e.g., "a and/or B" may mean: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. The terms "first," "second," "third," and the like, as used herein, are merely distinguishing between similar objects and not representing a particular ordering of objects.

Fig. 1 is a block diagram of a smart oral integrated treatment table management system according to an embodiment of the present application, as shown in fig. 1, comprising: a signal acquisition subsystem 10, a dental chair 11, a control device 12, a hospital information subsystem 13 and a background management subsystem 14, wherein;

the signal acquisition subsystem 10 is used for acquiring consumption data according to the patient treatment condition, and is connected with a power supply line and a water supply line of the dental chair 11 in advance, wherein the acquired consumption data comprises water consumption data and electricity consumption data;

the signal acquisition subsystem 10 is composed of a main control module and a flow acquisition module. The main control module is responsible for network communication, signal processing and conversion, power consumption detection of the active load, control of on-off of the active load and the like, and the flow acquisition module is used for water flow detection.

In this application, the principle of collecting consumption data is as follows: the signal acquisition subsystem 10 is connected with a power supply line and a water supply pipeline of the dental chair 11 in advance, and the consumption count is acquired and recorded through devices such as a water flow sensor, an ammeter and the like in the main control module and the flow acquisition module when the dental chair 11 is used.

Further, the present application is different from the conventional manner, by the signal acquisition subsystem 10, the water consumption and the electricity consumption data can be accurately recorded according to the patient's treatment condition, for example, for a plurality of users, the electricity consumption and the water consumption data generated by a certain diagnosis and treatment performed by a certain user in a certain time period can be obtained.

The water flow sensor is composed of a copper valve body, a water flow rotor assembly, a steady flow assembly and a Hall element. When water flows through the rotor assembly, the magnetic rotor rotates (the rotating speed changes linearly with the flow), the Hall element outputs corresponding pulse signals to feed back to the controller, and the controller judges the water flow.

The principle of measuring the electricity consumption is to measure the electricity consumption by the interaction between the current and voltage coils and the induced eddy currents on the movable aluminum plate. In this embodiment, the type of sensor is not specifically limited, and can be flexibly selected according to actual conditions (such as space size and flow size) during application.

The background management subsystem 14 is used for periodically acquiring consumption data stored in the signal acquisition subsystem 10 and acquiring patient diagnosis information from the hospital information subsystem 13, wherein the background management subsystem 14 is respectively in communication connection with the signal acquisition subsystem 10 and the hospital information subsystem 13;

in this embodiment, the "periodic" may be flexibly specified, for example, "every 30S", "every 60S", etc.;

further, the background management subsystem 14 may be deployed in a machine room of a hospital, and may be connected to the signal acquisition subsystem 10 or the hospital information subsystem 13 through a network cable or a wireless network.

The hospital information system (Hospital Information System, HIS) is an information system for comprehensively managing the personnel flow, logistics and financial flow of the hospital and the departments to which the hospital belongs by means of computer software and hardware technology, network communication technology and the like, collecting, storing, processing, extracting, transmitting and summarizing the data generated at each stage of medical activity, and processing the data to form various information, thereby providing comprehensive automatic management and various services for the whole operation of the hospital.

In this embodiment, the hospital information system stores and manages basic information, diagnosis information, billing information, and identity information of a doctor, etc. of a patient. The basic information comprises information such as gender, age, blood type, past medical history and the like of the patient, and the diagnosis information is accumulated diagnosis conditions of the patient, including diagnosis etiology, diagnosis time, treatment conditions, medication conditions and the like; the bill information is the accumulated diagnosis fee to be paid for the patient at the hospital.

The control device 12 is communicatively connected to the hospital information subsystem 13, and is configured to obtain doctor identity information and patient information from the hospital information subsystem 13, display patient information, perform doctor identity authentication, and remotely control the dental chair 11.

The control device 12 is used for doctor identity authentication, and remotely controls the electronic device for powering on and off the dental chair 11 and displaying patient information, and is accessed to a hospital network through a wireless network or a basic 5G slicing technology.

Alternatively, the control device 12 may theoretically be a smart phone, tablet computer, or the like. Further, it may run, but is not limited to, existing mainstream operating systems, such as Android, windows, ios, etc.; in this embodiment, specifically, the control device 12 runs an Android-based software operating system.

The hardware means of the control device 12 also include a display, which may be, but is not limited to, an LCD panel, an OLED panel, etc. By means of which the patient information acquired from the hospital information subsystem 13 can be displayed in real time.

In addition, the identity authentication process of the doctor can be specifically performed by adopting modern modes such as face recognition, fingerprint recognition, iris recognition and the like, and can also be performed by adopting a traditional account password mode.

Compared with the traditional mode, the system designates interaction control logic among all subsystems (an acquisition subsystem, a background management subsystem, control equipment and a hospital information subsystem) by the signal acquisition subsystem before a dental chair, and interfaces among all the systems according to hospital requirements. Data acquisition and monitoring are carried out on the use, maintenance and the like of the hospital dental chair resources, and the mode of data transmission is carried out through the 5G+ internet of things, so that the fine and convenient management of the hospital dental chair resources is realized.

In some embodiments, the signal acquisition subsystem includes a main control module and a flow acquisition module, where the main control module is used for performing information interaction with an external device, and the external device may be the background management subsystem or a hospital information system;

the main control module is also used for carrying out signal conversion on information sent by external equipment, detecting the electricity consumption condition of an active load through an ammeter to obtain electricity consumption data, and controlling the start and stop of the active load, wherein the active load is connected with the total power supply of the dental chair equipment;

the flow acquisition module is used for acquiring water consumption data of the dental chair water supply line; specifically, the water consumption data accumulated in the patient treatment process can be detected through the built-in water flow sensor.

The main control module is also used for sending the water consumption data and the electricity consumption data to the background management subsystem. The process transmits data or instructions to each other through a wired channel or a wireless network channel established between the two. The main control module is also used for receiving a switch instruction sent by the control equipment or the background management subsystem and controlling the starting and stopping of the dental chair according to the switch instruction.

In some embodiments, the control device is an electronic device for doctor identity authentication, remote control of the on/off of a dental chair and presentation of patient medical information.

The control equipment comprises a communication module, an authentication module, a remote control module and an information display module, wherein,

the communication module is used for acquiring doctor identity information and patient information from the hospital information subsystem;

the authentication module is used for acquiring authentication information input by a doctor in real time and judging whether the identity of the doctor is credible or not by matching the authentication information with the identity information of the doctor, wherein the authentication information comprises: face information, fingerprint information and account password information;

the remote control module is used for sending a control instruction to the dental chair so as to instruct the dental chair to be opened or closed;

the information display module is used for displaying patient information, and the patient information comprises: basic identity information, diagnosis and treatment information and billing information.

Further, a software operating system based on Android implementation is operated in the control device, and a preset operation and maintenance program is deployed in the operating system, wherein:

the preset operation and maintenance program is used for storing the authorized login state of the doctor and receiving the patient information sent by the hospital information subsystem. The preset operation and maintenance program is composed of a dental chair real-time information display component, a doctor identity authentication component and a patient information management component.

In some of these embodiments, the background management subsystem includes a data storage module, a worksheet generation module, and an arithmetic processing module, wherein;

the data storage module is used for establishing a dental chair database, inputting basic data of each dental chair into the dental chair database according to a preset format, and determining whether the working state of the dental chair is led and started;

the working table generation module is used for acquiring basic data of each dental chair from the dental chair database and establishing a dental chair working state table according to the basic data, wherein the dental chair working state table comprises state indexes of multiple dimensions, and the working state table comprises the following specific steps: the state indexes include: the dental chair comprises a dental chair working state, a water outlet state, a maintenance state, a patient diagnosis receiving state, a diagnosis receiving average water consumption amount, a diagnosis receiving average power consumption amount, an hour standby power consumption amount and an hour standby water consumption amount, wherein the maintenance state, the diagnosis receiving average water consumption amount, the diagnosis receiving average power consumption amount, the hour standby power consumption amount and the hour water consumption amount are from a background management subsystem; the patient interface status is from the hospital information subsystem.

The operation processing module is used for performing operation processing according to each state index in the dental chair state working table to obtain the stable state information and the energy consumption state information of the dental chair

The embodiment of the application also provides a method for managing the intelligent oral comprehensive treatment table, fig. 2 is a flowchart of a method for managing the intelligent oral comprehensive treatment table according to the embodiment of the application, as shown in fig. 2, and the flowchart includes the following steps:

s201, acquiring consumption data according to the patient treatment condition through a signal acquisition subsystem, wherein the signal acquisition subsystem is connected with a power supply line and a water supply line of a dental chair in front, and the consumption data comprise water consumption data and electricity consumption data;

s202, periodically acquiring consumption data stored in a signal acquisition subsystem and acquiring patient diagnosis information from a hospital information subsystem through a background management subsystem, wherein the background management subsystem is respectively in communication connection with the signal acquisition subsystem and the hospital information subsystem;

s203, acquiring doctor identity information and patient information from the hospital information subsystem through the control equipment, displaying the patient information and performing doctor identity authentication, and remotely controlling the dental chair, wherein the control equipment is in communication connection with the hospital information subsystem.

Compared with the prior art, the method designates the interaction control logic among the subsystems (the acquisition subsystem, the background management subsystem, the control device and the hospital information subsystem) by the signal acquisition subsystem before the dental chair, and interfaces among the subsystems according to the hospital requirements. Data acquisition and monitoring are carried out on the use, maintenance and the like of the hospital dental chair resources, and the mode of data transmission is carried out through the 5G+ internet of things, so that the fine and convenient management of the hospital dental chair resources is realized. .

For facilitating understanding of the technical scheme of the application, the following describes a specific execution flow applied in a hospital in combination with the technical scheme of the application, and includes the following steps:

firstly, a doctor logs in control equipment according to a unique identification code work card or face recognition mode and the like;

the second step, the control equipment sends an instruction to the signal acquisition system through a network, wherein the instruction is in the following format:

read counter data command (operation mode 1) description: the data of the counter can be read, and all channels can be read, and a single channel can also be read.

Command format: # AA5

AA module address, value range 00-FF (hexadecimal). Factory address is 01, ASCII code with hexadecimal system is converted into each character, for example, address 01 is converted into 30H and 31H with hexadecimal system, and 5 represents counter data commands of reading channel A0-channel B0. The arrangement sequence A0, B0;

(cr) an ending symbol, an upper computer enter key, hexadecimal 0DH;

response format: the following is carried out AAAAAAAAAA, AAAAAAAAAA (cr);

command format: # AA5N;

AA module address, value range 00-FF (hexadecimal). Factory address is 01, ASCII code converted into hexadecimal system for each character is converted, for example, address 01 is converted into hexadecimal system 30H and 31H, and 5 represents a reading counter data command.

N represents a read channel N counter data command, and N takes on the value: 01, corresponding to A0-B0;

(cr) an ending symbol, an upper computer enter key, hexadecimal 0DH;

response format: the following is carried out AAAAAAAAAA (cr);

application example 1: user command (character format) #015;

module answer (character format) ++! 0012345678,0012345678 (cr) (indicating that the count value for all lanes is 12345678;

application example 2: user command (character format) #0151;

1-way encoder pulse counter or 2-way DI high-speed counter, modbus RTU module WJ150 module response (character format) ≡!0012345678 (cr); (Note: channel B0 has a count of 12345678).

Thirdly, the signal acquisition system receives an instruction to close the ammeter, the power supply of the dental chair is connected, the working principle of the signal acquisition system is as follows, corresponding to fig. 3, fig. 3 is a schematic diagram of the working principle of the signal acquisition system according to the embodiment of the application, and as shown in fig. 3;

the liquid flowmeter is connected with the water inlet pipeline of the 1 dental chair, the gas flowmeter is connected with the positive pressure air pipe of the 2 dental chair, and the gas flowmeter is connected with the negative pressure air pipe of the 3 dental chair. The water consumption condition of the dental chair is collected in real time through the flow meters 4, 5 and 6, and the pulse signal detected by the flow meters 456 can be obtained in real time through the pulse signal data lines 12 by the pulse signal measuring devices 7, 8 and 9, and the pulse signals are automatically counted and accumulated. 14. The 15220V mains supply is connected to the 10-switch-on ammeter, and then connected to the dental chair through the 16-17 dental chair power supply wires.

The daily electricity consumption of the dental chair can be measured through the 10-pull switch-on ammeter. The 19 background server is connected with the 11 serial port server through an 18TCP/IP network, and the 11 serial port server is connected with the 789 pulse signal measurer and the 10 switch-on/switch-off ammeter through a 13RS485 data signal line. Through the mode of the virtual serial port of the 11 serial port server, the 19 background server can access 789 the pulse information measurer and the 10 switch-on/off ammeter in the mode of the virtual serial port, obtain pulse accumulation amounts acquired by the 4, 5 and 6 flowmeter and the power consumption of the 10 switch-on/off ammeter in the 7, 8 and 9 pulse information number measurer, and simultaneously can send a control command to control the 10 switch-on/off ammeter to the power supply of the dental chair in a remote mode. The accumulated quantity of each pulse is collected by the 19 background servers before the dental chair is used, and after the dental chair is used, the accumulated quantity of each pulse is collected by the 19 background servers again, and the water and air consumption condition during the use of the dental chair can be obtained by subtracting the accumulated quantities of the front time and the back time.

Step four, the backstage management subsystem periodically (defaults to 30 seconds) acquires the count of hydropower in the signal acquisition system; the counting and collecting instruction refers to the instruction rule of the second step, the counting and storing rule is formed by collecting time, patient medical record number, doctor id and department id, wherein the doctor id and the department id are combined to be used as a counting sequence identifier by using a unique identifier standard of an HIS, and each collecting time is a storing record. If no patient is in a diagnosis during the acquisition process, the patient medical record number is identified as a standby identification; the above-mentioned standby power consumption/hour, standby water consumption/hour, average patient-receiving water consumption/patient, average patient-receiving power consumption/patient are all generated from the statistical data.

Fifthly, a doctor takes a diagnosis at the HIS workstation; the HIS system issues the diagnosis receiving information, and the control equipment and the background management system both receive the diagnosis receiving information, so that the dental chair is in a ready state.

Sixthly, the control equipment receives the diagnosis receiving information, and displays the patient information and the diagnosis information on a screen; the patient needs to confirm the visit.

Seventh, in the diagnosis and treatment process, the background management system continuously repeats the fourth step until the doctor finishes the diagnosis and treatment process.

Eighth, after the doctor fills the prescription and the electronic case in the HIS workstation, the HIS notifies the background management system to end the treatment, and the background management system changes the acquired data into standby identification data.

And ninth, the HIS pushes the diagnosis and treatment bill information to the control equipment through a message, and the patient confirms the bill at the control equipment.

And tenth, the background management system counts the energy consumption condition of the patient in the current visit, the calculation rule of the energy consumption is that the first acquisition after the doctor receives the visit is the beginning time of the patient identification data, the last acquisition time before the HIS informs the background management system of the end is the interception time, and the energy consumption difference is obtained as the single visit energy consumption.

Average water consumption per patient for visit = water consumption per visit;

average power consumption per patient=all power per patient;

standby power consumption/hour= (all standby power consumption-all diagnostic power consumption)/3600 seconds

Standby water consumption/hour= (all standby power consumption-all clinic water consumption)/3600 seconds

Eleventh step, the background calculates single energy consumption request condition, abnormal energy consumption condition (undetermined) informs system manager with short message or enterprise WeChat.

Fig. 4 is a schematic diagram of a business execution timing of the intelligent oral integrated treatment table management method according to an embodiment of the present application.

The foregoing examples represent only a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. An wisdom oral cavity comprehensive treatment platform management system, its characterized in that, the system is built based on the open platform of thing networking, includes: the system comprises a signal acquisition subsystem, a dental chair, control equipment, a hospital information subsystem and a background management subsystem, wherein the signal acquisition subsystem is used for acquiring information of a user;

the signal acquisition subsystem is used for acquiring consumption data according to the patient treatment condition, wherein the signal acquisition subsystem is connected with a power supply line and a water supply line of the dental chair in advance, and the consumption data comprises: water consumption data and electricity consumption data;

the background management subsystem is used for periodically acquiring consumption data stored in the signal acquisition subsystem and acquiring patient diagnosis information from the hospital information subsystem, wherein the background management subsystem is respectively in communication connection with the signal acquisition subsystem and the hospital information subsystem;

the control equipment is in communication connection with the hospital information subsystem and is used for acquiring doctor identity information and patient information from the hospital information subsystem, displaying the patient information, carrying out doctor identity authentication and carrying out remote control on the dental chair.

2. The system of claim 1, wherein the signal acquisition subsystem comprises a master control module and a flow acquisition module, wherein;

the main control module is used for carrying out information interaction with external equipment, carrying out signal conversion on information sent by the external equipment, obtaining the electricity consumption data by detecting the electricity consumption condition of the active load, and controlling the start and stop of the active load;

the flow acquisition module is used for acquiring water consumption data of the dental chair water supply line;

the main control module is also used for sending the water consumption data and the electricity consumption data to the background management subsystem.

3. The system of claim 2, wherein the master control module is further configured to receive a switch instruction sent by the control device or the background management subsystem, and control start and stop of the dental chair according to the switch instruction.

4. The system of claim 1, wherein the control device comprises a communication module, an authentication module, a remote control module, and an information presentation module, wherein,

the communication module is used for acquiring doctor identity information and patient information from the hospital information subsystem;

the authentication module is used for acquiring authentication information input by a doctor in real time and judging whether the identity of the doctor is credible or not by matching the authentication information with the identity information of the doctor, wherein the authentication information comprises: face information, fingerprint information and account password information;

the remote control module sends a control instruction to the dental chair to instruct the dental chair to open or close;

the information display module is configured to display the patient information, where the patient information includes: basic identity information, diagnosis and treatment information and billing information.

5. The system of claim 4, wherein an Android-based software operating system is running in the control device, and a preset operation and maintenance program is deployed in the operating system, wherein:

the preset operation and maintenance program is used for storing the authorized login state of the doctor and receiving the patient information sent by the hospital information subsystem.

6. The system of claim 5, wherein the preset operation and maintenance program comprises: the dental chair real-time information display component, the doctor identity authentication component and the patient information management component.

7. The system of claim 1, wherein the background management subsystem comprises a data storage module, a worksheet generation module, and an arithmetic processing module, wherein;

the data storage module is used for establishing a dental chair database, inputting basic data of each dental chair into the dental chair database according to a preset format, and determining whether the working state of the dental chair is taken and started;

the working table generation module is used for acquiring basic data of each dental chair from the dental chair database and establishing a dental chair working state table according to the basic data, wherein the dental chair working state table comprises state indexes of multiple dimensions;

the operation processing module is used for performing operation processing according to each state index in the dental chair state working table to obtain the stable state information and the energy consumption state information of the dental chair.

8. The system of claim 7, wherein the status indicator comprises:

the dental chair comprises a dental chair working state, a water outlet state, a repair reporting state, a patient taking state, an average taking water consumption, an average taking power consumption, an hour standby power consumption and an hour standby water consumption.

9. The system according to claim 8, wherein:

the working state of the dental chair and the water outlet state come from the signal acquisition subsystem;

the report state, the average water consumption of the consultation, the average power consumption of the consultation, the power consumption of the hour standby and the water consumption of the hour come from the background management subsystem;

the patient interface status is from the hospital information subsystem.

10. An intelligent oral comprehensive treatment table management method is characterized by being realized based on an open platform of the Internet of things, and comprises the following steps:

acquiring consumption data according to the patient treatment condition through a signal acquisition subsystem, wherein the signal acquisition subsystem is connected with a power supply line and a water supply line of a dental chair in front, and the consumption data comprises water consumption data and electricity consumption data;

the consumption data stored in the signal acquisition subsystem is periodically acquired through a background management subsystem, and the patient diagnosis information is acquired from a hospital information subsystem, wherein the background management subsystem is respectively in communication connection with the signal acquisition subsystem and the hospital information subsystem;

and acquiring doctor identity information and patient information from the hospital information subsystem through control equipment, displaying the patient information and carrying out doctor identity authentication, and remotely controlling the dental chair, wherein the control equipment is in communication connection with the hospital information subsystem.

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