CN112885444A - Hand hygiene compliance management system and monitoring method thereof - Google Patents

Abstract

A hand hygiene compliance management system comprises a ward, a corridor, a mobile sensor and a central controller, wherein the ward is divided into a sickbed area, a water washing area, a ward insensitive area, a ward sterile area and a ward waste area; compared with the prior art, through installing the recognizer on corridor and ward, thereby discernment medical staff's the business turn over condition, thereby switch medical staff's hand health state, at sick bed bottom installation bed discernment management and control all-in-one, switch medical staff's hand health state, add pressure sensor simultaneously on liquid soap and hand disappearance bottle, the in service behavior of discernment liquid soap and hand disappearance bottle, switch medical staff's hand health state, and implement the record and can trace back medical staff's hand health condition.

Description

Hand hygiene compliance management system and monitoring method thereof

Technical Field

The invention belongs to the technical field of hand hygiene, and particularly relates to a hand hygiene compliance management system and a monitoring method thereof.

Background

Nosocomial infections often involve direct or indirect contact of patients and contaminated articles by the hands of medical personnel and are the primary transmission vehicle for nosocomial infections. Keeping hand hygiene is the most important factor for preventing nosocomial infection, and improving the hand washing effect of medical staff is an important measure for controlling nosocomial infection. The hand hygiene is the most basic, simplest and most feasible means for effectively preventing the spread of pathogenic microorganisms, is the most important measure for reducing hospital infection, enhances the hand hygiene, improves the hand washing compliance of medical staff and ensures the safety of patients.

According to the medical staff hand hygiene norm: in medical institutions, departments such as operating rooms, delivery rooms, catheter rooms, laminar flow clean wards, bone marrow transplantation wards, organ transplantation wards, intensive care wards, newborn rooms, maternal and infant rooms, hemodialysis wards, burn wards, infectious disease departments, stomatology departments need to strictly establish a hand hygiene compliance management system.

Hand contamination is closely related to nosocomial infections, and hand washing is the most basic, simple, convenient and easy means for effectively preventing and controlling pathogen transmission and is the most economical method for controlling nosocomial infections. At present, most medical staff in hospitals have the following problems in hand washing and hand hygiene compliance management: medical staff is in onerous medical care work, the microbial contamination of hand is serious, because ward work load is big, operating time is tight, critical patient is many and neglect washing hand, the doctor washes hand after examining every patient, only few doctors can accomplish, most doctors can not do, especially when making a visit to the room, in daily work, the nurse often just washes hand after accomplishing the nursing operation in whole ward, some other people are busy because the patient is many, think frequently to wash the hand waste time and neglect the work of washing hand.

And after some medical staff wash hands, most of the medical staff use public big towels or small towels used by one person to dry hands, and the number of people using white big clothes to scrape hands at two sides or inside is not small, so that the hands are polluted again.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a hand hygiene compliance management system which is monitored in real time, reminded in time, safe, reliable, traceable and analyzable and a monitoring method thereof.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a hand hygiene compliance management system comprises wards, corridors, a mobile inductor and a central controller, wherein the mobile inductor is electrically connected with the central controller, the corridors are communicated with at least one ward, and the corridors are communicated with the wards through ward doors; the ward is divided into a sickbed area, a water washing area, a ward non-sensitive area, a ward sterile area and a ward waste area, and the sickbed area, the water washing area, the ward sterile area and the ward waste area are all provided with corresponding identifiers; the corridor is divided into a corridor insensitive area and a corridor waste area, and the corridor waste area is provided with a recognizer; the corridor is provided with an outdoor recognizer, the ward door is provided with an indoor recognizer, and the outdoor recognizer and the indoor recognizer are electrically connected with the central controller; and display lamps with different colors are displayed on the mobile sensor.

As a preferable scheme of the invention, the ward is also divided into a ward fast elimination area, the ward fast elimination area is positioned near the water washing area and the sickbed area, the corridor is also divided into a corridor fast elimination area, and the corridor fast elimination area is positioned near the corridor waste area.

As a preferred scheme of the invention, hand disinfectant bottles are arranged in the ward quick-disinfecting area and the corridor quick-disinfecting area, and pressure sensors are arranged on the hand disinfectant bottles.

As a preferable scheme of the invention, the washing area is provided with a hand sanitizer, and a pressure sensor is arranged on a hand sanitizer bottle cover.

As a preferable scheme of the invention, the sickbed area comprises at least one sickbed, and an infrared sensor matched with the size of the sickbed is arranged in the sickbed.

As a preferred aspect of the present invention, the mobile inductor carrier is classified into a clean state, an unclean state, and a transition state according to display lamps displaying different colors.

As a preferable embodiment of the present invention, the movement sensor is mounted on a chest card, a brooch, a armband, or a bracelet.

A monitoring method of a hand hygiene compliance management system, comprising a hand hygiene compliance management system as claimed in claims 1-7, comprising the steps of:

step A: the medical staff wears the mobile sensor on the body, the mobile sensor moves along with the movement of the medical staff, and the central controller monitors the position of the mobile sensor in real time;

and B: when the medical staff appears on the corridor, the initial hospital staff state is displayed as an unclean state;

and C: after the medical staff uses the hand disinfection bottle on the corridor, the state of the hospital staff is displayed as clean after the pressure sensor (4) on the hand disinfection bottle detects the pressure;

step D: when the state of the medical staff enters the ward is switched to a transition state, and when the medical staff is in a non-sensitive area of the ward and exceeds 60 seconds or the infrared sensor of the sickbed recognizes that the medical staff approaches the ward and exceeds 6 seconds, the state of the medical staff is switched to an unclean state;

step E: when medical staff use the hand disinfectant bottle in a sickbed area or a washing area in a ward, and a pressure sensor (4) on a hand disinfectant bottle or a hand disinfectant bottle in the washing area detects pressure, the state of the hospital staff is displayed as clean.

Step F: the system is provided with a database, records the moving condition of each moving sensor and the condition of an identifier or an infrared sensor or a pressure sensor triggered by the moving sensor in real time, and correspondingly records the moving conditions according to specific personnel and time and specific operation of the moving sensor, so that the tracing and statistical analysis of each moving sensor at the later stage are facilitated; the system can monitor, feed back and remind and early warn the hand hygiene compliance rate in real time.

As a preferred aspect of the present invention, the status of hospital staff is indicated as unclean after the medical staff approach the ward waste area or corridor waste area.

As a preferable scheme of the present invention, a red light, a green light and a blue light are displayed on the mobile sensor, the green light corresponds to a clean state, the red light corresponds to an unclean state, and the blue light corresponds to a transition state.

Compared with the prior art, the invention has the beneficial effects that: through installing the recognizer on corridor and ward, thereby discernment medical staff's the business turn over condition, thereby switch medical staff's hand health state, and add in the sick bed bottom and establish infrared inductor, monitor the medical staff who is close to the sick bed, switch medical staff's hand health state, add pressure sensor on liquid soap and hand disinfectant bottle simultaneously, discern the in service behavior of liquid soap and hand disinfectant bottle, switch medical staff's hand health state, can carry out real time monitoring to medical staff hand health compliance, in time remind, safety and reliability have, can trace back, analyzable advantage.

Drawings

FIG. 1 is a schematic structural view of the invention;

FIG. 2 is a schematic view of a hand sanitizer bottle;

FIG. 3 is a schematic view of the connection of a hand sanitizer bottle to a pressure sensor;

FIG. 4 is a schematic structural diagram of a pressure sensor;

FIG. 5 is a schematic view of a clamp sensing assembly;

reference numbers in the figures: the bottle comprises a bottle body 1, a bottle cap 2, a liquid outlet pipe 3, a pressure sensor 4, a pressure sensing component 5, a connecting column 5-1, a protrusion 5-2, a clamping sensing component 6, a matching column 6-1 and a groove 6-2.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1-5, a hand hygiene compliance management system comprises a plurality of wards, a corridor, a mobile sensor and a central controller, wherein the mobile sensor is electrically connected with the central controller, the corridor is communicated with at least one ward, and the corridor is communicated with the wards through a ward door; the ward is divided into a sickbed area, a water washing area, a ward non-sensitive area, a ward sterile area and a ward waste area, and the sickbed area, the water washing area, the ward sterile area and the ward waste area are all provided with corresponding identifiers; the corridor is divided into a corridor insensitive area and a corridor waste area, and the corridor waste area is provided with a recognizer; an outdoor recognizer is arranged on the corridor, an indoor recognizer is arranged on the ward door, and the outdoor recognizer and the indoor recognizer are electrically connected with the central controller; display lamps with different colors are displayed on the mobile sensor.

The movable sensor is worn on the body of a medical worker, the movable sensor moves along with the movement of the medical worker, and the central controller receives signals of the movable sensor, so that the position of the movable sensor is observed in real time.

The mobile inductor consists of a 125K and 433M communication circuit, a low-power consumption MCU, a power supply processing module, a lithium battery and a shell. The mobile inductor adopts a 125K and 433M dual-band RFID communication mechanism, wherein 125K is mainly used for operations such as position setting, MCU awakening and the like, and 433M is used for communication with the identifier.

The low-power consumption MCU selects ZI MSP430F2274, and the radio frequency adopts ZI-CC1101 communication transceiver chip, and the working voltage is 1.8-3.3V; the power module adopts S-1206B33-U3T1G/SOT89-3, a 2.7V low-point detection S-80827CNUA is further arranged in the module, and when the battery voltage is lower than 2.7V, the device low-point prompt is carried out; the piezoelectric buzzer selects PKB24SPCH3601-B0, the power consumption is low, the lowest working voltage is 3.0V, and the normal working current is 4.5 mA; the three-color luminous tube selects a domestic common low-power-consumption light-emitting diode; the batteries adopt two loose CR3032, and each battery has the capacity of 500 mAh.

When the mobile inductor receives 125K communication, the MCU is switched to a working state from a dormant state, and sends self RFID identification numbers and various parameters through the 433M communication module, and the low-power-consumption three-color LED lights different colors in different states and sounds through the piezoelectric buzzer.

The door outer identifier and the door inner identifier are used for receiving signals of the mobile sensor, when the mobile sensor is monitored to move from the door outer identifier to the door inner identifier, the medical staff is displayed to enter the ward, and similarly, when the mobile sensor is monitored to move from the door inner identifier to the door outer identifier, the medical staff is displayed to leave the ward.

Still divide in the ward and have ward fast district that disappears, ward fast district that disappears is located near washing district and sick bed district, also divides in the corridor and has the corridor fast district that disappears, and the corridor fast district that disappears is located near corridor abandonment district, and ward fast is disappeared and is equipped with hand liquid bottle in the corridor fast district that disappears, installs pressure sensors on the hand liquid bottle.

The pressure sensor is installed at the bottle cap position of the hand disinfection bottle, when the bottle cap position of the hand disinfection bottle is extruded and the hand disinfection bottle extrudes cleaning liquid, the pressure sensor receives the extruded pressure from the bottle cap and feeds back a signal to the central controller, and the controller detects hand washing records of medical staff.

Liquid soap has been placed in the washing district, installs pressure sensor on the liquid soap bottle lid, and the bottle lid position department of liquid soap takes place the extrusion, and when the liquid soap extrudes the washing liquid, pressure sensor received the extruded pressure that comes from the bottle lid, and feedback signal to central controller, controller detected medical staff's record of washing hand.

The liquid soap bottle comprises a bottle body 1, a bottle cap 2 and a liquid outlet pipe 3, the liquid outlet pipe 3 is communicated with the bottle body 1 and the bottle cap 2, a liquid outlet communicated with the liquid outlet pipe 3 is formed in the bottle cap 2, a pressure sensor 4 is of a U-shaped structure, the pressure sensor 4 is formed by connecting a pressure sensing component 5 and a clamping sensing component 6, the pressure sensing component 5 is connected onto the bottle cap 2, the clamping sensing component 6 clamps the liquid outlet pipe 3, the clamping sensing component 6 is arranged in an overhead mode under the action of the pressure sensing component, a connecting column 5-1 is formed at the bottom of the pressure sensing component 5, a matching column 6-1 matched with the connecting column 5-1 is formed on the clamping sensing component 6, a plurality of bulges 5-2 distributed along the length direction of the connecting column 5-1 are formed on the connecting column 5-1, a plurality of grooves 6-2 matched with the bulges 5-2 are formed on the matching column 6-1, the clamping induction component 6 is of a U-shaped structure, and the clamping induction component 6 is sleeved outside the liquid outlet pipe 3.

The bottom of the pressure sensing assembly 5 is provided with a bonding layer, the bottom of the pressure sensing assembly 5 is bonded to the top of the bottle cap 2, the matching column 6-1 is matched with the connecting column 5-1, and the protrusions 5-2 on the connecting column 5-1 are connected with the grooves 6-2 at different positions, so that the distance between the pressure sensing assembly 5 and the clamping sensing assembly 6 can be adjusted, and the clamping sensing assembly is suitable for bottles 1 of different sizes.

Pressure-sensitive subassembly 5 surface is formed with pressure sensor, and 6 bottoms of centre gripping response subassembly are formed with contact pick up, and when bottle lid 2 in the in-process of pushing down, in time operating personnel do not contact pressure-sensitive subassembly 5, and centre gripping response subassembly 6 also can be along with bottle lid 2 pushes down to contact with bottle 1 after the certain degree to send signal to central controller.

The sick bed district includes at least one sick bed, is equipped with the infrared inductor with sick bed size looks adaptation in the sick bed, and the quantity of sick bed sets up according to actual need, and the infrared ray scope of infrared inductor transmission is unanimous with the size of sick bed, and when infrared inductor detected that the foreign object is close to, and the door internal identification ware sensed and moved the inductor and be close to the sick bed, just detected medical staff and sick bed and contacted this moment.

The infrared emitter, the infrared inductor and the controller form a bed identification and control all-in-one machine, the bed identification and control all-in-one machine is installed at the bottom of a sickbed, and the emitting range and the emitting time of the infrared inductor can be adjusted through the controller.

The mobile inductor carrier is divided into a cleaning state, an unclean state and a transition state according to display lamps displaying different colors, and the mobile inductor is arranged on a chest card or a brooch or an armband or a bracelet.

The system is provided with a database, records the moving condition of each moving sensor and the condition of the identifier or the infrared sensor or the pressure sensor triggered by the moving sensor in real time, and carries out corresponding recording according to specific personnel and time and specific operation of the moving sensor, so that the system is convenient for tracing and statistical analysis of each moving sensor in the later period. And the system can record qualified operation rate according to the hand washing condition of each mobile sensor, and can set a preset qualified operation rate in the system, for example 70 percent, so that when the hand washing condition of a certain mobile sensor is lower than the qualified hand hygiene compliance rate, feedback and warning are carried out. Meanwhile, monitoring data and prompt information of hand hygiene compliance can be displayed at the mobile terminal.

A method of monitoring a hand hygiene compliance management system, comprising the steps of:

step A: the medical staff wears the mobile inductor on one's body, and the mobile inductor removes along with medical staff's removal, and central controller real time monitoring moves the position of inductor, and the recognizer outside the door and the recognizer in are used for discerning medical staff and gets into the ward or leave the ward.

And B: when medical staff appeared on the corridor, the initial hospital personnel state all showed to be unclean state, and medical staff sends ruddiness on one's body at this moment, and the buzzer sound production reminds medical staff to wash hands.

And C: the central controller detects that the medical staff is close to the hand disinfection bottle, and after the medical staff uses the hand disinfection bottle on the corridor, the state display of the hospital staff is clean after the pressure sensor on the hand disinfection bottle detects the pressure, at the moment, the mobile sensor on the body of the medical staff emits green light, and the buzzer does not sound.

Step D: when medical staff enters a ward and the state is switched to a transition state, a mobile sensor on the body of the medical staff emits blue light, and when the medical staff is located in a non-sensitive area of the ward and exceeds 60 seconds or when an infrared sensor of a sickbed recognizes that the medical staff approaches, the state of the medical staff is switched to an unclean state and the infrared sensor of the sickbed exceeds 6 seconds.

When medical staff is in a non-sensitive area of a ward and is smaller than 60S or when an infrared sensor of a sickbed recognizes that the medical staff is close to the ward and is smaller than 6S, the medical staff is in a transition state, and a mobile sensor on the body of the medical staff emits blue light.

When the movable sensor on the body of the medical staff emits red light, the buzzer sounds to remind the medical staff to wash hands.

Step E: when medical staff use a washing area or a hand sanitizer bottle in a ward, and pressure sensors on a hand sanitizer bottle cap or the hand sanitizer bottle in the washing area detect pressure, the state of hospital staff is displayed as clean, at the moment, a mobile sensor on the body of the medical staff emits green light, and a buzzer does not sound.

Step F: the system is provided with a database, records the moving condition of each moving sensor and the condition of an identifier or an infrared sensor or a pressure sensor triggered by the moving sensor in real time, and correspondingly records the moving conditions according to specific time and specific operation of the moving sensor, so that the tracing and statistical analysis of each moving sensor can be conveniently carried out in the later period; the hand hygiene compliance rate of the system is monitored, fed back, reminded in time and early warned in real time.

However, the status of the hospital staff is indicated as unclean after the medical staff has approached the ward waste area or corridor waste area.

The movable sensor is provided with a red light, a green light and a blue light, wherein the green light corresponds to a cleaning state, the red light corresponds to an uncleaning state, and the blue light corresponds to a transition state.

The first embodiment is as follows:

when the removal inductor is the bracelet structure, because doctor's that this application is emphasized hand health, the bracelet more is close the position of hand, and at doctor and patient contact in-process, the hand is relative to the health, the infrared inductor's of the sick bed of being more convenient for discernment, and the bracelet can set up different vibrations and realize the suggestion to the doctor.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more here: the bottle body 1, the bottle cap 2, the liquid outlet pipe 3, the pressure sensor 4, the pressure sensing component 5, the connecting column 5-1, the bulge 5-2, the clamping sensing component 6, the matching column 6-1, the groove 6-2 and other terms are used, but the possibility of using other terms is not excluded; these terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. A hand hygiene compliance management system is characterized by comprising sickrooms, corridors, a mobile inductor and a central controller, wherein the mobile inductor is electrically connected with the central controller, the corridors are communicated with at least one sickroom, and the corridors are communicated with the sickrooms through a sickroom door; the ward is divided into a sickbed area, a water washing area, a ward non-sensitive area, a ward sterile area and a ward waste area, and the sickbed area, the water washing area, the ward sterile area and the ward waste area are all provided with corresponding identifiers; the corridor is divided into a corridor insensitive area and a corridor waste area, and the corridor waste area is provided with a recognizer; the corridor is provided with an outdoor recognizer, the ward door is provided with an indoor recognizer, and the outdoor recognizer and the indoor recognizer are electrically connected with the central controller; and display lamps with different colors are displayed on the mobile sensor.

2. The system of claim 1 wherein the patient room is further partitioned into a patient room tachy-meter area, the patient room tachy-meter area being located adjacent the water wash area and the patient bed area, and a corridor tachy-meter area being partitioned into a corridor and a corridor waste area.

3. The hand hygiene compliance management system according to claim 1, wherein hand sanitizer bottles are arranged in the ward fast-elimination area and the corridor fast-elimination area, pressure sensors (4) are arranged on the hand sanitizer bottles, a hand sanitizer bottle is placed in the similar washing area, and the pressure sensors (4) are arranged on the hand sanitizer bottle caps.

4. The hand hygiene compliance management system according to claim 3, wherein the hand hygiene compliance management system comprises a bottle body (1), a bottle cap (2) and a liquid outlet pipe (3), the liquid outlet pipe (3) is communicated with the bottle body (1) and the bottle cap (2), a liquid outlet communicated with the liquid outlet pipe (3) is formed in the bottle cap (2), a pressure sensor (4) is of a U-shaped structure, the pressure sensor (4) is formed by connecting a pressure sensing component (5) and a clamping sensing component (6), the pressure sensing component (5) is connected to the bottle cap (2), the clamping sensing component (6) clamps the liquid outlet pipe (3), the clamping sensing component (6) is arranged in an overhead manner under the action of the pressure sensing component, a connecting column (5-1) is formed at the bottom of the pressure sensing component (5), a matching column (6-1) matched with the connecting column (5-1) is formed on the clamping sensing component (6), a plurality of bulges (5-2) distributed along the length direction of the connecting column (5-1) are formed on the connecting column (5-1), a plurality of grooves (6-2) matched with the bulges (5-2) are formed on the matching column (6-1), the clamping induction component (6) is of a U-shaped structure, and the clamping induction component (6) is sleeved outside the liquid outlet pipe (3).

5. The system of claim 1, wherein the hospital bed area comprises at least one hospital bed, and the size of the hospital bed is adapted to an infrared sensor.

6. A hand hygiene compliance management system according to claim 1, wherein the mobile sensor carrier is divided into a cleaning state, a non-cleaning state and a transition state according to display lights displaying different colors.

7. A hand hygiene compliance management system according to claim 1, wherein the movement sensor is mounted on a chest card or pin or armband or bracelet.

8. A method of monitoring a hand hygiene compliance management system, comprising a hand hygiene compliance management system as claimed in claims 1-7, characterized by the steps of:

step A: the medical staff wears the mobile sensor on the body, the mobile sensor moves along with the movement of the medical staff, and the central controller monitors the position of the mobile sensor in real time;

and B: when the medical staff appears on the corridor, the initial hospital staff state is displayed as an unclean state;

and C: after the medical staff uses the hand disinfection bottle on the corridor, the state of the hospital staff is displayed as clean after the pressure sensor (4) on the hand disinfection bottle detects the pressure;

step D: when the state of the medical staff enters the ward is switched to a transition state, and when the medical staff is in a non-sensitive area of the ward and exceeds 60 seconds or the infrared sensor of the sickbed recognizes that the medical staff approaches the ward and exceeds 6 seconds, the state of the medical staff is switched to an unclean state;

step E: when medical staff use the hand disinfectant bottle in a sickbed area or a washing area in a ward, and a pressure sensor (4) on a hand disinfectant bottle or a hand disinfectant bottle in the washing area detects pressure, the state of the hospital staff is displayed as clean.

Step F: the system is provided with a database, records the moving condition of each moving sensor and the condition of an identifier or an infrared sensor or a pressure sensor triggered by the moving sensor in real time, and correspondingly records the moving conditions according to specific personnel and time and specific operation of the moving sensor, so that the tracing and statistical analysis of each moving sensor at the later stage are facilitated; the system can monitor, feed back and remind and early warn the hand hygiene compliance rate in real time.

9. A method of monitoring a hand hygiene compliance management system as claimed in claim 8, wherein the status of hospital staff is indicated as unclean after medical staff approaches a ward waste area or corridor waste area.

10. The method of claim 8, wherein the moving sensor displays a red light, a green light and a blue light, the green light corresponding to a clean state, the red light corresponding to an unclean state and the blue light corresponding to a transition state.

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