CN110575559A - Automatic disinfection and sterilization system special for ICU ward - Google Patents

Abstract

The invention relates to the field of medical treatment and health, in particular to an automatic disinfection and sterilization system special for an ICU ward, which is arranged in the ICU ward and comprises a central control device, wherein the central control device is electrically connected with an air conditioner, a detection device, a disinfection device, a sterilization lamp, an exhaust fan and an electric window. The intelligent control system is utilized, the disinfection and sterilization work of the ICU ward when the intelligent control system is unattended is realized, and compared with the traditional manual disinfection work, the intelligent control system is more stable, convenient, efficient and reliable.

Description

Automatic disinfection and sterilization system special for ICU ward

Technical Field

The invention relates to the field of medical treatment and health, in particular to an automatic disinfection and sterilization system special for an ICU ward.

Background

At present, an ICU ward is mainly disinfected in a manual disinfection mode, special workers need to enter the ICU ward periodically to conduct disinfection work, and a large amount of manpower and time are wasted. If manual cleaning is not available or the ICU ward cannot be regularly disinfected, it can be fatal to the incoming critically ill patient.

Disclosure of Invention

In order to solve the technical problems, the invention provides an automatic disinfection and sterilization system special for an ICU ward, which is particularly suitable for the ICU ward in unattended operation.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides an automatic disinfection and sterilization system special for ICU ward, installs in ICU ward, includes central control device, central control device electricity is connected with air conditioner, detection device, degassing unit, sterilamp, exhaust fan and electric window. The central control device is installed at the side edge of the ICU ward door, and a touch screen for interaction is arranged on the outer side of the central control device. The detection device comprises a far infrared heat sensor, a temperature sensor and an ATP fluorescence detector. The air conditioner is installed on the wall surface in the ICU ward and is at least more than three-fourths of the height of the wall surface. The sterilizing lamp is arranged in the roof of the ICU ward, and the sterilizing lamp adopts an ultraviolet lamp. The exhaust fan is installed at the inside top in ICU ward, the electric window is installed on the one side wall of morning sunward in the ICU ward, and apart from ground 1.2 meters at least.

Further, well accuse device networks in real time and acquires external information, and shows information such as external weather condition, particulate matter concentration in real time through the touch-sensitive screen.

Further, the electric window comprises a window body, a transmission structure is arranged on the upper portion of the window body, the transmission structure is connected with a transmission strip on the wall surface in a clamped mode, and the transmission strip is powered by a motor.

Furthermore, the disinfection device comprises spray headers arranged at four corners of the upper part in the ICU ward, the spray headers are communicated with the disinfection liquid pool outside the ward, and the disinfection liquid is pumped to the spray headers through a water pump.

further, the water pump is a canned pump.

furthermore, the central control device comprises an MCU microprocessor and an upper computer.

Further, the far infrared heat sensor adopts an RD-624 pyroelectric infrared sensor; the temperature sensor adopts a DS18b20 temperature sensor.

Therefore, compared with the traditional technical means, the automatic disinfection and sterilization system special for the ICU ward has the following beneficial effects:

1. The intelligent control system is utilized, the disinfection and sterilization work of the ICU ward when the intelligent control system is unattended is realized, and compared with the traditional manual disinfection work, the intelligent control system is more stable, convenient, efficient and reliable.

2. the invention is networked in the whole process, and can timely know the current weather condition from the internet so as to control the windowing and air exchange time and improve the disinfection efficiency.

Drawings

The foregoing and other objects, features, and advantages of the invention will be apparent from the following detailed description taken in conjunction with the accompanying drawings.

FIG. 1 is a schematic diagram of an ICU ward indoor structure of the present invention;

FIG. 2 is a schematic diagram of an ICU ward outdoor structure of the present invention;

FIG. 3 is a schematic view of a power window according to the present invention;

FIG. 4 is a top view of the motorized window of the present invention;

Fig. 5 is a schematic view of the disinfection device according to the invention.

The system comprises a central control device 1, a touch screen 11, an air conditioner 2, a detection device 3, a far infrared heat sensor 31, a temperature sensor 32, an ATP fluorescence detector 33, a disinfection device 4, a spray header 41, a disinfectant tank 42, a water pump 43, a sterilizing lamp 5, an exhaust fan 6, an electric window 7, a window 71, a transmission structure 72, a transmission strip 73 and a motor 74.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. The following description with reference to the accompanying drawings is provided to assist in understanding the embodiments of the invention defined by the claims. It includes various specific details to assist understanding, but they are to be construed as merely illustrative. Accordingly, those skilled in the art will recognize that various changes and modifications can be made to the embodiments described herein without departing from the scope and spirit of the present invention. Also, in order to make the description clearer and simpler, a detailed description of functions and configurations well known in the art will be omitted.

As shown in fig. 1-2, the automatic disinfection and sterilization system special for the ICU ward is installed in the ICU ward, and is characterized by comprising a central control device 1, wherein the central control device 1 is electrically connected with an air conditioner 2, a detection device 3, a disinfection device 4, a sterilization lamp 5, an exhaust fan 6 and an electric window 7;

the central control device 1 is arranged at the side edge of the ICU ward door, and a touch screen 11 for interaction is arranged at the outer side of the central control device; the central control device 1 is arranged on the side edge of a ward door, is helpful for patrolmen or nurses to know the disinfection condition in a ward at any time, and can autonomously control each device in the ward as required.

The detection device 3 comprises a far infrared heat sensor 31, a temperature sensor 32 and an ATP fluorescence detector 33; the far infrared heat sensor 31 is used for detecting whether a person exists in a ward; the temperature sensor 32 is used for detecting the temperature in the ward in real time; the ATP fluorescence detection 33 instrument uses a luciferase-luciferin system to rapidly detect adenosine triphosphate ATP, and because all living cells of organisms contain constant ATP, the ATP content can clearly indicate the residual quantity of microorganisms and other organisms in a sample, and the ATP fluorescence detection can be used for detecting the quantity of bacteria.

The air conditioner 2 is arranged on the inner wall surface of the ICU ward and is at least more than three-fourths of the height of the wall surface; because the patient is at the lower position of the ground, the air conditioner 2 at the high position can blow cold air or warm air downwards, so that the position close to the ground reaches the required temperature firstly.

The sterilizing lamp 5 is arranged in the roof of an ICU ward, and the sterilizing lamp 5 adopts an ultraviolet lamp which can perform good sterilizing action.

The exhaust fan 6 is arranged at the top of the interior of the ICU ward, and the electric window 7 is arranged on the wall surface of one side of the ICU ward facing the sun in the morning and at least 1.2 m away from the ground; the exhaust fan 6 and the electric window 7 are arranged to effectively ventilate and ventilate, and the harmful air in the ward is diluted or discharged by using natural wind or the exhaust fan 6. And the power window 7 is at least 1.2 meters from the ground to prevent a patient or child from falling off the power window.

Further, well accuse device 1 networks in real time and acquires external information, and shows information such as external weather condition, particulate matter concentration in real time through touch-sensitive screen 11. When external particulate matter concentration is higher or weather is not good, be unsuitable to open electric window 7, the central control device 1 that obtains this information can avoid opening electric window 7 and take a breath when taking a breath, and increases exhaust volume of exhaust fan 6 to guarantee the air cleanness in the ICU ward.

Further, the power window 7 comprises a window body 71, a transmission structure 72 is arranged at the upper part of the window body 1, the transmission structure 72 is connected with a transmission bar 73 on the wall surface in a clamping manner, and the transmission bar 73 is powered by a motor 74. The electric window 7 has simple structure and is convenient to open and close.

Further, the disinfection device 4 comprises spray headers 41 arranged at four corners of the upper part in the ICU ward, the spray headers 41 are communicated with a disinfection solution pool 42 outside the ward, and the disinfection solution is pumped to the spray headers 41 through a water pump 43; after the absence of a person is confirmed in the ward, the sterilizing device 4 starts sterilizing.

Further, the water pump 43 is a canned pump. Compared with common water, the disinfectant has higher corrosivity, so that the conventional water pump is easy to damage a stator or a rotor after being corroded, and the whole water pump is scrapped; but the canned motor pump is because its stator is kept apart, even corroded the back also only need change the rotor can, need not whole change, reduced use cost.

Further, the far infrared heat sensor 31 adopts an RD-624 pyroelectric infrared sensor; the temperature sensor 32 is a DS18b20 temperature sensor. The RD-624 pyroelectric infrared sensor is a high-precision thermal sensor and can quickly and effectively detect the body temperature of a patient in a icu ward; the DS18b20 temperature sensor has high measurement accuracy and low price, and has both economical efficiency and practicability.

according to the foregoing embodiments and technical measures, the principle and steps of the invention for achieving the main purpose of the invention are briefly described as follows:

1. The central control device 1 first receives the signal returned by the far infrared heat sensor 31 to determine whether there is a person in the ICU ward.

2. If a person exists in the ward, the central control device 1 continues to judge whether the electric window 7 needs to be opened according to the external weather condition obtained by the internet, and if the weather is fine, the electric window 7 and the exhaust fan 6 are opened for ventilation; if the external weather condition is severe, only the exhaust fan 6 is turned on to perform ventilation, and the exhaust amount of the exhaust fan 6 is increased. Meanwhile, the temperature sensor 32 transmits the obtained temperature signal back to the central control device 1, and the central control device 1 controls the air conditioner 2 to adjust the temperature in the ward to 23-25 ℃.

if no person exists in the ward, the central control device still judges whether the electric window 7 needs to be opened according to the external weather condition obtained by the internet, and if the weather is fine, the electric window 7 and the exhaust fan 6 are opened for ventilation; if the external weather condition is severe, only the exhaust fan 6 is turned on to perform ventilation, and the exhaust amount of the exhaust fan 6 is increased. After the ventilation is performed for a certain time, the electric window 7 and the exhaust fan 6 are closed. At this time, the ATP fluorescence detector 33 starts to detect the concentration of bacteria in the air, the central control device 1 controls the disinfecting device 4 to spray disinfectant, and controls the sterilizing lamp 5 to be turned on for disinfection until the concentration of bacteria in the air is reduced to be within the qualified standard range.

3. The central control device 1 opens the exhaust fan 6 again to ventilate and remove the smell of the sterilized water in the ward.

Claims (7)

1. an automatic disinfection and sterilization system special for an ICU ward is installed in the ICU ward and is characterized by comprising a central control device (1), wherein the central control device (1) is electrically connected with an air conditioner (2), a detection device (3), a disinfection device (4), a sterilization lamp (5), an exhaust fan (6) and an electric window (7);

The central control device (1) is arranged at the side edge of a door of an ICU ward, and a touch screen (11) for interaction is arranged at the outer side of the central control device;

The detection device (3) comprises a far infrared heat sensor (31), a temperature sensor (32) and an ATP fluorescence detector (33);

The air conditioner (2) is arranged on the inner wall surface of the ICU ward and is at least more than three-fourths of the height of the wall surface;

The sterilizing lamp (5) is arranged in the roof of the ICU ward, and an ultraviolet lamp is adopted by the sterilizing lamp (5);

Exhaust fan (6) are installed at the inside top in ICU ward, install on the wall of one side that the morning was sunny in the ICU ward electric window (7), and apart from the ground at least 1.2 meters.

2. an automated disinfection and sterilization system dedicated to an ICU ward according to claim 1 and characterized in that: well accuse device (1) real-time networking acquires external information, and shows information such as external weather condition, particulate matter concentration in real time through touch-sensitive screen (11).

3. An automated disinfection and sterilization system dedicated to an ICU ward according to claim 1 and characterized in that: the electric window (7) comprises a window body (71), a transmission structure (72) is arranged on the upper portion of the window body (1), the transmission structure (72) is connected with a transmission strip (73) on the wall surface in a clamping mode, and the transmission strip (73) is powered by a motor (74).

4. An automated disinfection and sterilization system dedicated to an ICU ward according to claim 1 and characterized in that: the disinfection device (4) comprises spray heads (41) arranged at four corners of the upper part in the ICU ward, wherein the spray heads (41) are communicated with a disinfection liquid pool (42) outside the ward, and the disinfection liquid is pumped to the spray heads (41) through a water pump (43).

5. An automated disinfection and sterilization system dedicated to an ICU ward according to claim 4 and characterized in that: the water pump (41) is a canned pump.

6. an automated disinfection and sterilization system dedicated to an ICU ward according to claim 1 and characterized in that: the central control device (1) comprises an MCU (microprogrammed control unit) microprocessor (11) and an upper computer (12).

7. an automated disinfection and sterilization system dedicated to an ICU ward according to claim 1 and characterized in that: the far infrared heat sensor (31) adopts an RD-624 pyroelectric infrared sensor; the temperature sensor (32) adopts a DS18b20 temperature sensor.