CN109857001B - Intelligent hospital disinfection service management and control system based on Internet - Google Patents

Abstract

An intelligent hospital disinfection service management and control system based on the Internet comprises an integrated machine and a hospital management module, wherein the integrated machine comprises a hand disinfection module, an information acquisition module, a proofreading module, a detection module and a first communication module.

Description

Intelligent hospital disinfection service management and control system based on Internet

Technical Field

The invention relates to the technical field of intelligent management, in particular to an internet-based hospital intelligent disinfection service management and control system.

Background

Hospitals are densely populated places and are centers for disease control, patients go to the hospitals for treatment, doctors in consulting rooms are the most directly contacting the patients, and in order to advocate clean and sterile consultation, "one patient and one disinfection" is advocated in each hospital, namely, after a doctor in a sitting position diagnoses one patient, the doctor in the sitting position should disinfect hands before diagnosing the next patient, so that the hospitals are not only respectful to the patients and responsible for the health of the doctors, but also effective ways for cutting off disease transmission.

In the existing hospitals, no facility for monitoring or recording the performance of 'one patient and one disinfection' of doctors or nurses exists in each consulting room, so that the slogan is in empty conversation.

Disclosure of Invention

There is a need to provide an internet-based hospital intelligent disinfection service management and control system.

An internet-based hospital intelligent disinfection service management and control system comprises an integrated machine and a hospital management module, wherein the integrated machine comprises a hand disinfection module, an information acquisition module, a proofreading module, a detection module and a first communication module, the information acquisition module is used for acquiring real-time facial information of a person standing in front of the integrated machine and providing the real-time facial information to the proofreading module, the proofreading module compares the real-time facial information with prestored reference information and sends starting information to the hand disinfection module according to a comparison result, the hand disinfection module starts information action to disinfect hands of the person, the detection module is connected with the hand disinfection module to detect the times of the hand disinfection action of the hand disinfection module and provide the times to the hospital management module through the first communication module, the information acquisition module sends starting information to the hand disinfection module according to the comparison result, and then the information acquisition module sends the starting information to the hand disinfection module, the real-time facial information is also provided to a courtyard management module, the courtyard management module counts and summarizes the real-time facial information and the time information of corresponding hand disinfection, a receiving unit is arranged in the courtyard management module and used for receiving the number of patients in each clinic, the receiving unit provides the number of the patients to a central control unit of the courtyard management module, and the central control unit processes the number of the patients in the clinic, the real-time facial information and the time information of corresponding hand disinfection to obtain the number of the patients in the clinic and big data of the hand disinfection condition of the personnel.

According to the invention, the information acquisition module is used as a switching mechanism for starting the hand disinfection module, the proofreading module compares real-time facial information with prestored reference information, the prestored reference information is that the facial information of personnel in the examination room is stored in the proofreading module in advance, when the comparison result is consistent, the personnel is the personnel in the examination room, the hand disinfection of the personnel is started, and if the personnel is not the personnel in the examination room, the hand disinfection is not started, so that the statistics of the hand disinfection condition of the personnel in the examination room is realized, and the accurate evaluation of the personnel in the examination room is prevented from being influenced by the hand disinfection of the personnel in the examination room;

and the detection module sends the disinfection times of the hand disinfection module and the facial features of the personnel corresponding to the times to the school management module, and the school management module carries out statistical analysis on the personnel and the disinfection times, so that one consulting room personnel and the corresponding disinfection condition are obtained, and the aim of carrying out 'one patient and one disinfection' by doctors and nurses from the macroscopic management of the management party is realized.

Compared with the function of recording the positions of the personnel by adopting an independent registration system and the function of independently recording the hand disinfection of the personnel in the consulting room, the system has the advantages of integrating scattered data and comprehensively analyzing, and can detect, collect, analyze and gather various data according to the requirements of a hospital management module to achieve the effect of assisting comprehensive management and control.

Drawings

Fig. 1 is a schematic structural diagram of an integrated machine.

Fig. 2 is a schematic diagram of the connection of the integration machine and the yard management module.

Fig. 3 is a functional block diagram of the integrated machine.

FIG. 4 is a graph of the number of times of hand-disinfection by doctors and nurses in the consulting room 1 and the number of patients receiving a consultation, which is a graph of the patient-disinfection performance of the consulting room 1, processed by the hospital management module.

In the figure: the intelligent control system comprises an integrated machine 10, a spray head 101, a hand disinfection module 11, an information acquisition module 12, a proofreading module 13, a detection module 14, a first communication module 15, an air disinfection module 16, a second timing unit 17, an audible and visual alarm module 18, a yard management module 20, a central control unit 21, a first timing unit 22 and a receiving unit 23.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1 to 3, an embodiment of the present invention provides an internet-based hospital intelligent disinfection service management and control system, including an integrated machine 10 and a hospital management module 20, where the integrated machine 10 includes a hand disinfection module 11, an information acquisition module 12, a verification module 13, a detection module 14, and a first communication module 15, the information acquisition module 12 is configured to acquire real-time facial information of a person standing in front of the integrated machine 10 and provide the real-time facial information to the verification module 13, the verification module 13 compares the real-time facial information with prestored reference information and sends start information to the hand disinfection module 11 according to a comparison result, the hand disinfection module 11 starts information action according to the start information to disinfect a hand of the person, the detection module 14 is connected with the hand disinfection module 11 to detect the number of times of hand disinfection actions performed by the hand disinfection module 11, the times are provided to the institution management module 20 through the first communication module 15, the information acquisition module 12 sends start information to the hand disinfection module 11 according to the comparison result, and also provides the real-time facial information to the institution management module 20, the institution management module 20 counts and summarizes the real-time facial information and the time information of the corresponding hand disinfection actions, a receiving unit 23 is arranged in the institution management module 20, the receiving unit 23 is used for receiving the number of patients in each clinic, the receiving unit 23 provides the number of patients to the central control unit 21 of the institution management module 20, and the central control unit 21 processes the number of patients in clinic, the real-time facial information and the times of the corresponding hand disinfection actions to obtain big data of the number of patients in clinic and the hand disinfection conditions of the personnel.

When the central control unit 21 processes the data, many ways are included, for example, the central control unit 21 compares the number of patients with the number of times of hand consumption of the doctor in the sitting position or the nurse, and assumes that the doctor in the sitting position is the facial information 1 and the nurse is the facial information 2; if the number of times of hand disinfection by doctors or nurses in sitting diagnosis is more than or equal to the number of patients in diagnosis, the doctors or nurses are indicated to achieve 'disinfection once suffering from one patient', even 'disinfection more once suffering from one patient'; if the hand-disinfecting times of the doctors or nurses in the sitting diagnosis are less than the number of the patients in the clinic, the doctor is not affected and disinfected, and the problem that the hands of the doctors or nurses disappear once when two continuous patients are received by one doctor or nurse exists. These data are clear at a glance in the background data of the institution management module 20, which facilitates monitoring of office hand-to-hand consumption from the perspective of the administrator.

The receiving unit 23 can be used for receiving the number of patients in each clinic, for example, the receiving unit is connected to a hospital registration system through a communication method, the registration system sends the number of patients registered on the same day in each clinic to the receiving unit 23, or the receiving unit is connected to an office computer or cooperative software in the clinic through a communication method, an individual number counting module for the number of patients in the same day is arranged in the office computer or the cooperative software, and a doctor can manually send the number of patients in the same day to the receiving unit 23.

The hand disinfection condition of the personnel in the consulting room and the number of the treated patients are sent to the hospital management module 20, the data are processed to form background big data, the big data in a continuous period of time can be displayed in a graphic mode for the manager to look up and monitor at any time, and the manager can obtain the 'one patient and one disinfection' execution condition in the consulting room at a glance only by observing. This approach is more accurate and faster than installing a camera in the office to monitor personnel performing "one patient-one disinfection".

Compared with the conventional hand disinfection machine and the attendance machine, the invention is different. The conventional hand disinfection machine only disinfects the personnel, whether the disinfection is really carried out or not and cannot be supervised, the disinfection frequency cannot be recorded, even if the disinfection frequency is recorded, the disinfection frequency cannot correspond to the hand disinfection personnel one by one, and the hand disinfection personnel cannot be counted and tracked. The attendance machine only records the attendance condition of the personnel through information acquisition, can not organically unify attendance information and the manual attendance of the personnel, and can not supplement the two functions to each other to control and supervise each other.

Further, information acquisition module 12 is facial information acquisition unit, and facial information acquisition unit sets up in the top of the shower nozzle 101 of hand disinfection module 11 to start hand disinfection module 11 through facial scanning, whether gather the completion through hand disinfection module 11 response facial information acquisition unit simultaneously.

Therefore, the facial acquisition is completed while the hands are removed, and the two functions are operated at one time without separate operation and are completed respectively. And only if the facial acquisition is correct, the manual elimination can be started, so that the automatic control of the manual elimination module is realized, whether the facial acquisition is finished or not can be reflected through the action of the manual elimination module, if the manual elimination cannot be started, the facial acquisition unit is indicated to be working, and at the moment, the problem possibly exists that the personnel are not the personnel in the consulting room and the standing position of the personnel is incorrect. The two functions complement each other and are mutually controlled and supervised.

Compared with the prior art, the two functions are controlled respectively, or independently controlled or simply superposed, and are completely different.

The hand disinfection module 11, the working principle and the spray head 101 and the detection module 14 in the patent are the same as those of the former proposal 2017105202342.

Assuming that a doctor and a nurse for medical treatment are arranged in the consulting room 1, the corresponding facial information is facial information 1 and facial information 2, the invention is used for counting the number of patients receiving treatment, facial information and hand-over times of 15 continuous days in the consulting room, and a graph 4 is drawn in the following table.

Date	The number of patients receiving a doctor	Number of times of hand disappearing of 1 face information in consulting room	Number of times of hand disappearing of face information 2 in consulting room 1
				10 months and 1 day	25	25	25
10 months and 2 days	29	27	21
				10 months and 3 days	25	25	25
10 months and 4 days	25	25	22
				10 months and 5 days	25	27	27
10 months and 6 days	15	15	17
				10 months and 7 days	28	28	28
10 months and 8 days	19	21	21
				10 months and 9 days	33	33	30
10 months and 10 days	25	25	29
				10 month and 11 days	35	35	35
10 months and 12 days	25	22	22
				10 months and 13 days	32	32	32
10 months and 14 days	25	25	24
				10 months and 15 days	25	25	21

As is clear from FIG. 4, whether the number of times of hand consumption by a doctor or a nurse is consistent with the number of patients receiving a doctor or a nurse is convenient and quick, and the background supervision and management are convenient.

Further, the integrated machine 10 further comprises a casing and an air disinfection module 16 arranged at the top of the casing, wherein the air disinfection module 16 is an ozone disinfection machine, the ozone disinfection machine is arranged at the top inside the casing, an air hole is formed in the top of the casing, the ozone disinfection machine absorbs external air through the air hole, oxygen in the air is converted into ozone, and the ozone is discharged outwards from the through hole so as to disinfect the air in the surrounding space.

Further, the ozone disinfection machine is also connected with the hospital management module 20 through the first communication module 15, so that the ozone disinfection machine of each integrated machine 10 arranged in each consulting room is uniformly controlled through the hospital management module 20 to realize disinfection.

Usually, each office is inside all to set up independent disinfection facility, for example ultraviolet ray disinfection lamp, after work, or regularly there is special personnel to operate and start, carries out the space disinfection inside the office, and the nurse of this office or the staff on duty that the institute side arranged for example operate ultraviolet lamp, and this kind of mode is original laggard behind, and is inefficient, operates inconveniently, and from the angle of the institute side, can't monitor the real-time true going on of space disinfection, just also leads to the institute side can't master the disinfection condition and the sanitary condition inside the office. Therefore, the ozone disinfection machine is arranged on the integrated machine 10 to disinfect the space, and the ozone disinfection machine is controlled by hospital side unified remote control, so that not only can the disinfection be truly and effectively carried out, but also the hospital side can monitor the space disinfection condition of each consulting room, and the problem of manual disinfection is solved.

For example, the ozone disinfection machine is always kept in a charged state, and the yard management module 20 remotely controls the on and off of the ozone disinfection machine through the communication module.

Further, a first timing unit 22 is arranged inside the courtyard management module 20, the central control unit 21 of the courtyard management module 20 sends a start control instruction to the ozone disinfection machine and first timing information to the first timing unit 22, after the first timing unit 22 times out according to preset time, the central control unit 21 of the courtyard management module 20 sends first closing information, the central control unit 21 sends a stop control instruction to the ozone disinfection machine according to the first closing information, and the space of the ozone disinfection machine is disinfected completely.

Further, the integrated machine 10 further includes a second timing unit 17, the second timing unit 17 is connected to a central control unit 21 of the hospital management module 20 through a first communication module 15, the internet-based hospital intelligent disinfection service management and control system further includes an ozone concentration detector, the ozone concentration detector is disposed inside the hospital room, the central control unit 21 of the hospital management module 20 sends a start control instruction to the ozone disinfection machine, and at the same time sends a start control instruction to the ozone concentration detector, so as to detect the real-time ozone concentration inside the hospital room, the ozone concentration detector sends the real-time ozone concentration to the central control unit 21 of the hospital management module 20 through the first communication module 15, the central control unit 21 compares the real-time ozone concentration with a pre-stored reference ozone concentration according to the real-time ozone concentration, and sends second timing information to the second timing unit 17 according to a comparison result, after the second timing unit 17 finishes timing according to the preset time, second closing information is sent to the central control unit 21 of the yard management module 20, the central control unit 21 sends a stop control instruction to the ozone disinfection machine and the ozone concentration detector according to the second closing information, and the ozone disinfection machine stops detecting after the space disinfection is finished.

In this scheme, adopt second timing unit 17 and ozone concentration detector combined action, realize the control to the disinfection of the inside space of consulting room, different from the above-mentioned scheme that adopts first timing unit 22, first timing unit 22 when well accuse unit 21 sends the enabling signal to ozone sterilizing machine, just begin the timing, the problem that exists like this is, if just begin to consult indoor ozone concentration and can not reach certain requirement, then can not play sterile effect, the condition of virtual disinfection exists. In the scheme, the second timing unit 17 is started after the ozone concentration is detected, so that the condition of virtual disinfection caused by insufficient concentration is avoided.

In addition, in the scheme, the ozone concentration detector and the ozone disinfection machine are synchronously started and stopped, and the ozone concentration detector is different from a conventional ozone concentration detector which detects and implements work in real time, and meets the requirements of energy conservation and consumption reduction.

Further, the interior of the central control unit 21 presets conventional detection time according to system time, the central control unit 21 further sends a starting detection signal to the ozone concentration detector according to the preset conventional detection time, the ozone concentration detector acts according to the starting detection signal and sends a detection result to the central control unit 21 through the first communication module 15, the central control unit 21 compares the received ozone concentration detected by the ozone concentration detector with the pre-stored safe ozone concentration and sends alarm information to the sound and light alarm module 18 according to the comparison result, so that doctors, nurses or patients outside the consulting room can know the ozone content inside the consulting room, and ozone poisoning is avoided.

By the way, the ozone disinfection machine remotely controlled by the hospital side is used for work disinfection at night, such as night 11: 00, stopping disinfection after a certain time, for example, 30 minutes, then naturally emitting ozone along the gaps of the windows and the doorways in the consulting room, wherein the emitting time is very long, for example, one night, so that the concentration of the ozone in the consulting room is reduced to a safe value after the ozone is emitted, and the normal use of the consulting room on the next day is not influenced.

However, under such control, the hospital is still worried about the existence of a leak, for example, the ventilation inside the office is not good, so that the ozone emission is not smooth, so the central control unit 21 is further provided with safe ozone concentration and regular detection time, for example, the regular detection time preset by the central control unit 21 is 6:00 in the morning and 6:00 in the morning every day, the central control unit 21 controls the ozone concentration detector to detect the ozone content inside the office, if the ozone concentration is lower than the preset safe ozone concentration, it indicates that the office can be normally used, and if the ozone concentration is higher than the safe ozone concentration, the audible and visual alarm gives an alarm to prompt a doctor or a nurse not to enter the office.

The modules or units in the device of the embodiment of the invention can be combined, divided and deleted according to actual needs.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a hospital's intelligence disinfection service management and control system based on internet which characterized in that: the system comprises an integrated machine and a hospital management module, wherein the integrated machine comprises a hand disinfection module, an information acquisition module, a proofreading module, a detection module and a first communication module, the information acquisition module is used for acquiring real-time facial information of a person standing in front of the integrated machine and providing the real-time facial information to the proofreading module, the proofreading module compares the real-time facial information with prestored reference information and sends starting information to the hand disinfection module according to a comparison result, the hand disinfection module starts information action according to the starting information to disinfect hands of the person, the detection module is connected with the hand disinfection module to detect the times of the hand disinfection action of the hand disinfection module and provide the times to the hospital management module through the first communication module, and the information acquisition module sends starting information to the hand disinfection module according to the comparison result, the real-time facial information is also provided to a courtyard management module, the courtyard management module counts and summarizes the real-time facial information and the time information of corresponding hand disinfection, a receiving unit is arranged in the courtyard management module and used for receiving the number of patients in each clinic, the receiving unit provides the number of the patients to a central control unit of the courtyard management module, and the central control unit processes the number of the patients in the clinic, the real-time facial information and the time information of corresponding hand disinfection to obtain the number of the patients in the clinic and big data of the hand disinfection condition of the personnel.

2. The internet-based hospital intelligent disinfection service management and control system of claim 1, wherein: the information acquisition module is facial information acquisition unit, and facial information acquisition unit sets up in the top of hand disinfection module's shower nozzle to start hand disinfection module through facial scanning, whether gather the completion through hand disinfection module reaction facial information acquisition unit simultaneously.

3. The internet-based hospital intelligent disinfection service management and control system of claim 1, wherein: the integrated machine further comprises a shell and an air disinfection module arranged at the top of the shell, the air disinfection module is an ozone disinfection machine, the ozone disinfection machine is arranged at the top inside the shell, an air hole is formed in the top of the shell, the ozone disinfection machine absorbs external air through the air hole and converts oxygen in the air into ozone, and the ozone is discharged outwards from the through hole so as to disinfect the air in the surrounding space.

4. The internet-based hospital intelligent disinfection service management and control system of claim 3, wherein: the ozone disinfection machine is further connected with the hospital management module through the first communication module, so that the ozone disinfection machine of each integrated machine arranged in each consulting room is controlled in a unified mode through the hospital management module, and disinfection is achieved.

5. The internet-based hospital intelligent disinfection service management and control system of claim 3, wherein: the method comprises the steps that a first timing unit is arranged in a courtyard management module, a central control unit of the courtyard management module sends a starting control instruction to an ozone disinfection machine and first timing information to the first timing unit, after the first timing unit times out according to preset time, the central control unit of the courtyard management module sends first closing information to the central control unit of the courtyard management module, the central control unit sends a stopping control instruction to the ozone disinfection machine according to the first closing information, and space disinfection of the ozone disinfection machine is finished.

6. The internet-based hospital intelligent disinfection service management and control system of claim 3, wherein: the intelligent Internet-based hospital disinfection service management and control system further comprises an ozone concentration detector, the ozone concentration detector is arranged inside a consulting room, the central control unit of the hospital management module sends a starting control instruction to the ozone disinfection machine to detect the real-time ozone concentration inside the consulting room, the ozone concentration detector sends the real-time ozone concentration to the central control unit of the hospital management module through the first communication module, the central control unit compares the real-time ozone concentration with a prestored reference ozone concentration according to the real-time ozone concentration and sends second timing information to the second timing unit according to a comparison result, and after the second timing unit times according to preset time, and sending second closing information to a central control unit of the yard management module, sending a stop control instruction to the ozone disinfection machine and the ozone concentration detector by the central control unit according to the second closing information, and stopping detection by the ozone concentration detector after the space disinfection of the ozone disinfection machine is finished.

7. The internet-based hospital intelligent disinfection service management and control system of claim 6, wherein: the internal conventional detection time is preset according to the system time of the central control unit, the central control unit also sends a starting detection signal to the ozone concentration detector according to the preset conventional detection time, the ozone concentration detector acts according to the starting detection signal, a detection result is sent to the central control unit through the first communication module, the central control unit compares the ozone concentration detected by the received ozone concentration detector with the pre-stored safe ozone concentration, and alarm information is sent to the sound-light alarm module according to the comparison result, so that doctors, nurses or patients outside the consulting room can know the ozone content inside the consulting room, and ozone poisoning is avoided.

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