KR102527332B1 - Ward system to isolate and manage infectious disease patients - Google Patents

Abstract

The present invention relates to a hospital room system for isolating and managing infectious disease patients. The present invention is configured to efficiently adjust the air flow by adjusting the intensity of the negative pressure according to the number of people present in the hospital room and the anterior room with respect to the negative pressure device in the anterior chamber where patients with infectious diseases are isolated and managed and medical staff pass through before entering the hospital room. hospital room system. In addition, the present invention, when the negative pressure device operates normally based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room, the UV lamp configured to disinfect the air discharged through the negative pressure device through UV light irradiation The UV irradiation intensity of the negative pressure device is also adjusted to increase or decrease in synchronization with the sound pressure intensity of the negative pressure device, thereby providing a hospital room system configured to efficiently manage the UV filter. In addition, the present invention, when the negative pressure device operates abnormally, unlike the control based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room, by increasing the UV irradiation intensity of the UV filter for the air discharged through the negative pressure device A hospital room system configured to compensate for the deterioration of the negative pressure device is provided.

Description

Hospital room system to isolate and manage infectious disease patients {WARD SYSTEM TO ISOLATE AND MANAGE INFECTIOUS DISEASE PATIENTS}

The present invention relates to a hospital room system for isolating and managing infectious disease patients. Specifically, the present invention efficiently adjusts the air flow by adjusting the intensity of the negative pressure according to the number of people present in the hospital room and the anterior room for the negative pressure device in the hospital room where patients with infectious diseases are isolated and managed and the medical staff pass through before entering the hospital room. It relates to a hospital room system configured to.

Recently, the spread of infectious diseases such as SARS, MERS, and coronavirus has become a social problem. When an infectious disease spreads, there is a need for a hospital room where patients with suspected infectious diseases can be identified, isolated, and medical measures can be taken. Typically, a negative pressure room is used in which air flow to the outside is blocked, or air is passed through to the outside after being filtered, and only air from the outside is introduced.

The negative pressure ward uses an independent ward for each patient, and the medical staff enters the ward through the front room before entering the ward from the corridor. When medical staff enter a negative pressure room, they enter it with the air outside the room. In addition, after the medical staff enters the negative pressure ward, the medical staff and the patient talk while talking through their mouths for treatment. There is a concern about blocking the air in the negative pressure room due to the inflow of air from the outside and the conversation in which droplets come out after entering the room by someone other than the patient.

Since the negative pressure device consumes a lot of power because it circulates air, it is inefficient to always maintain a maximum output or strong negative pressure close to it even in normal times. In addition, the negative pressure device is usually set to have a strong negative pressure in the order of hospital room>front room>corridor.

Therefore, a hospital room system configured to efficiently adjust the airflow by adjusting the sound pressure intensity according to the number of people present in the hospital room and the anterior room for the negative pressure device in the hospital room where patients with infectious diseases are isolated and managed and the medical staff pass through before entering the hospital room This is what is needed.

Registered Patent No. 10-1649600 (Mobile Negative Pressure Isolation Ward System)

Based on the above discussion, the present invention provides a hospital room system for isolating and managing infectious disease patients.

In addition, the present invention efficiently adjusts the air flow by adjusting the sound pressure intensity according to the number of people present in the hospital room and the anterior room with respect to the negative pressure device in the anterior room where patients with infectious diseases are isolated and managed and medical staff pass through before entering the hospital room Provides a hospital room system configured to

In addition, the present invention, when the negative pressure device operates normally based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room, the UV lamp configured to disinfect the air discharged through the negative pressure device through UV light irradiation The UV irradiation intensity of the negative pressure device is also adjusted to increase or decrease in synchronization with the sound pressure intensity of the negative pressure device, thereby providing a hospital room system configured to efficiently manage the UV filter.

In addition, the present invention, when the negative pressure device operates abnormally, unlike the control based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room, by increasing the UV irradiation intensity of the UV filter for the air discharged through the negative pressure device A hospital room system configured to compensate for the deterioration of the negative pressure device is provided.

According to various embodiments of the present invention, in a hospital room system for isolating and managing infectious disease patients, a corridor connected to the outside of the hospital room system, an anterior room connected to the corridor through a first automatic door, and the anterior room are within the anterior room A first negative pressure device for discharging air to the outside, a first thermal imaging camera for measuring the body temperature of a person present in the front room, connected to the front room through a second automatic door, and the infectious disease patient is isolated and managed A hospital room, wherein the hospital room includes a second negative pressure device for discharging air in the hospital room to the outside, a second thermal imaging camera for measuring the body temperature of a person present in the hospital room, and the first automatic door and the first automatic door. The second automatic door is configured not to open at the same time, but only one of the two, and the first thermal imaging camera and the second thermal imaging camera are configured based on the measured body temperature, respectively, based on the number of people present in the front room and the hospital room. When the first automatic door or the second automatic door is opened and the number of people present in the front room increases than before, the first negative pressure device is configured to determine the sound pressure intensity of the first negative pressure device configured to increase the first basic sound pressure intensity by more than a set ratio, and the second negative pressure device, when the second automatic door is opened and the number of people present in the hospital room increases than before, the second negative pressure device Provided is a hospital room system configured to adjust the sound pressure intensity of a negative pressure device to be increased by a set ratio or more than a second basic sound pressure set by default.

The present invention can provide a hospital room system for isolating and managing infectious disease patients.

In addition, the present invention efficiently adjusts the air flow by adjusting the sound pressure intensity according to the number of people present in the hospital room and the anterior room with respect to the negative pressure device in the anterior room where patients with infectious diseases are isolated and managed and medical staff pass through before entering the hospital room A hospital room system configured to do so may be provided.

In addition, the present invention, when the negative pressure device operates normally based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room, the UV lamp configured to disinfect the air discharged through the negative pressure device through UV light irradiation A hospital room system configured to efficiently manage UV lamps can also be provided by adjusting the UV light irradiation intensity to increase or decrease in synchronization with the sound pressure intensity of the negative pressure device.

In addition, the present invention increases the UV light irradiation intensity of the UV lamp for the air discharged through the negative pressure device when the negative pressure device operates abnormally unlike the control based on the air flow measurement results of the negative pressure device in the anterior chamber and the hospital room. By doing so, it is possible to provide a hospital room system configured to compensate for the deterioration of the function of the negative pressure device.

The effects obtainable in the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below. will be.

1 shows the configuration of a ward system in a hospital according to various embodiments of the present invention.
Figure 2 shows the configuration of a ward system in a hospital according to various embodiments of the present invention.
3 illustrates a configuration of a ward system in a hospital according to various embodiments of the present invention.

Terms used in the present invention are only used to describe a specific embodiment, and may not be intended to limit the scope of other embodiments. Singular expressions may include plural expressions unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meaning as commonly understood by a person of ordinary skill in the art described in the present invention. Among the terms used in the present invention, terms defined in a general dictionary may be interpreted as having the same or similar meaning as the meaning in the context of the related art, and unless explicitly defined in the present invention, an ideal or excessively formal meaning not be interpreted as In some cases, even terms defined in the present invention cannot be interpreted to exclude embodiments of the present invention.

1 shows the configuration of a ward system in a hospital according to various embodiments of the present invention.

Referring to FIG. 1, patients with infectious diseases are isolated and managed in single-person wards where negative pressure treatment is possible. Each single-person ward includes a toilet available for use by the patient as an inner room. Each single ward is connected to the corridor through the front room. A hallway is a passage through which medical staff or other hospital workers can move. Medical staff can enter each single room only after passing through the front room through the corridor.

All zones up to the corridor leading to the hospital room are configured to move through the front room. For example, the medical staff may move to a worker's hallway - front room - dressing room - shower room - changing room - internal negative pressure corridor - front room - hospital room. Alternatively, the medical staff may move to a worker's corridor - anterior hallway - inner negative pressure corridor - anterior room - hospital room. Also, for example, the patient may move to a patient-only elevator-internal negative pressure corridor-front room-ward.

Since medical staff enter a hospital room after being exposed to air from the outside, or enter a hospital room after being exposed to air from another hospital room, from the point of view of an isolated patient in a hospital room, a medium that has room to introduce contaminated air from the outside corresponds to

In addition, there is a risk of being exposed to infectious diseases because the medical staff is exposed to contaminated air containing droplets from the patient when entering the hospital room space that directly shares air with the patient.

Because medical staff and patients have to face-to-face in the same space for treatment, they share dangerous moments in which infectious diseases can spread to each other.

In order to prevent the spread of infectious diseases, it is necessary to separate each space and operate negative pressure devices for each space. The negative pressure device discharges air in the space to the outside and introduces filtered air from the outside into the space.

Since the negative pressure device circulates air and operates non-stop after the patient enters, power consumption is high. Therefore, in a normal case, the intensity of the negative pressure device is set to the highest in the room where the patient is present, and the intensity of the negative pressure device is lowered toward the front room and corridor.

However, in a general case, it may be efficient to operate the sound pressure intensity of the hospital room, the front room, and the corridor at the set intensity, but at a special moment, for example, a medical staff enters the hospital room through the front room from the corridor, and also interacts with the patient in the hospital room. Even when the medical staff facing each other goes out to the corridor again through the front room, there is a concern that the effect of preventing the spread of infectious diseases will be insufficient if the negative pressure device is operated at the same fixed sound pressure intensity.

When the medical staff enters the hospital room and the medical staff leaves the hospital room again, it is effective in preventing the spread of infectious diseases to adjust the sound pressure intensity according to the risk level of the transmission possibility of infectious diseases.

Figure 2 shows the configuration of a ward system in a hospital according to various embodiments of the present invention.

Specifically, FIG. 2 shows a specific configuration for a hallway-front room-ward.

Referring to FIG. 2 , a corridor may be assumed to be a clean area because no patients are present. The corridor is connected to the ante room through a door.

The air inside the front chamber is discharged to the outside and fresh air from the outside is introduced into the front chamber by the negative pressure device. The anterior chamber may be maintained at negative pressure. The negative pressure device in the anterior chamber may use a multi-layered filter for air circulation. The filter connected to the negative pressure device in the front chamber is an air handling unit composed of a pre-filter, a medium-filter, a cooling coil, a heat pipe, and a booster fan ( air handling unit (AHU).

A hospital room is an isolated room and can be assumed to be a contaminated area because patients are present. The hospital room is connected to the front room through a door. The internal air of the hospital room is discharged to the outside by the negative pressure device and fresh air from the outside is introduced into the hospital room. The sound pressure in the hospital room can be maintained as stronger than the sound pressure in the anterior room. The negative pressure device in the hospital room may use an air handling unit (AHU) composed of multi-layered filters in air circulation. The negative pressure device in the hospital room may include a pre-cooled fresh air unit that preemptively cools fresh air introduced from the outside through a pre-filter, a heat pipe, and a cooling coil. In addition, the negative pressure device in the hospital room can introduce an external unit into the hospital room through an air handling unit (AHU) composed of a pre-filter, a medium filter, a UV lamp, a cooling coil, a heat pipe, and a booster fan, and a HEPA filter. . In addition, the negative pressure device in the hospital room may exhaust air through a pre-filter, a medium filter, a HEPA filter, a UV lamp, and an exhaust fan.

3 illustrates a configuration of a ward system in a hospital according to various embodiments of the present invention.

Specifically, FIG. 3 shows configurations of an exemplary front room and a hospital room in a hospital room system to which a negative pressure device is applied.

Referring to FIG. 3 , the entrance from the hallway of the ante room is opened and closed with an automatic door by an ante room door switch sensor. At the entrance of the front room, a building automation system monitor is placed so that the status of the front room/patient room can be viewed at a glance. In addition, an ante room pressure controller/monitor for pressure such as negative pressure in the anterior chamber is disposed at the entrance of the anterior chamber. Exhaust venturi air valves are disposed in the anterior chamber to manage air in the anterior chamber.

The entrance to the hospital room from the front room is opened and closed with an automatic door by an isolation room door switch sensor. An isolation room pressure controller/monitor for pressure such as negative pressure in the hospital room is disposed at the entrance of the hospital room. An isolation room pressure sensor capable of measuring pressure, such as negative pressure in the hospital room, is disposed in the hospital room. Supply venturi air valves are disposed in the hospital room to manage the air in the hospital room. A thermostat sensor capable of detecting temperature is disposed in the hospital room to collect information about the temperature in the hospital room.

According to various embodiments of the present invention, in a hospital room system for isolating and managing infectious disease patients, a corridor connected to the outside of the hospital room system, a plurality of front rooms connected to the corridor and an automatic door, and the plurality of front rooms It includes a plurality of hospital rooms connected through automatic doors, the plurality of hospital rooms are connected to the corridor only through the plurality of front rooms, and each of the plurality of front rooms and each of the plurality of hospital rooms includes a thermal imaging camera, a negative pressure device, and a transceiver. The thermal imaging camera is configured to measure the number of people present in each of the plurality of front rooms and each of the plurality of hospital rooms and the body temperature of each person, wherein the thermal imaging camera measures the body temperature Based on, the number of people present in the front room or hospital room corresponding to the thermal imaging camera is configured to be measured, and the negative pressure device measures the number of people present in the front room or hospital room corresponding to the negative pressure device by the thermal imaging camera. and adjust the sound pressure intensity of the negative pressure device based on the number of people present in the antechamber or hospital room and the body temperature of each person present in the antechamber or hospital room, wherein the transceiver is configured to adjust the sound pressure intensity of the plurality of anterior chambers and each of the A hospital room system configured to transmit information on the number of people present in a plurality of hospital rooms, the body temperature of each person, and the sound pressure intensity of the negative pressure device to a hospital server.

According to various embodiments of the present disclosure, the negative pressure device, when the number of people present in the front room or hospital room corresponding to the negative pressure device is 2 or more, a threshold standard deviation between body temperatures of people present in the front room or hospital room is set If it is more than the standard deviation degree, it may be configured to adjust the sound pressure intensity of the negative pressure device higher than before.

According to various embodiments of the present invention, each of the plurality of front rooms may include the number of people present in each of the plurality of hospital rooms connected to each of the plurality of front rooms, and the number of people present in each of the plurality of hospital rooms. A display configured to display the number of people whose body temperature exceeds a set range among people toward the corridor may be included.

According to various embodiments of the present disclosure, the negative pressure device operates with a set basic sound pressure intensity when no person exists in the anterior room or hospital room corresponding to the negative pressure device, and the person in the anterior room or hospital room corresponding to the negative pressure device When present, the added sound pressure intensity is determined based on the number of people present in the front room or hospital room and the standard deviation between the body temperatures of the people present in the front room or hospital room, and the basic sound pressure intensity and the added sound pressure intensity It can be configured to operate with a determined sound pressure intensity that is the sum of

According to various embodiments of the present invention, the transceiver transmits identification information of the hospital room to the hospital server when a person with a body temperature within the normal range and a person with a body temperature exceeding the normal range exist together in the hospital room corresponding to the transceiver. It may be configured to transmit a warning message of the risk of spreading an infectious disease including.

According to various embodiments of the present invention, each of the plurality of hospital rooms includes an air flow meter for measuring the air flow direction and air flow strength of a negative pressure device in the hospital room, and an air flow meter for disinfecting air discharged from the hospital room with UV (ultra-violet) light. A UV lamp may be further included.

According to various embodiments of the present invention, the UV lamp, when the air flow direction and air flow intensity measured by the air flow meter are different from the air flow direction and air flow intensity controlled by the negative pressure device, the UV light irradiation intensity of the UV lamp It can be configured to adjust to increase.

According to various embodiments of the present disclosure, the transceiver transmits identification information of the hospital room to the hospital server when the airflow direction and airflow intensity measured by the airflow meter are different from the airflow direction and airflow intensity controlled by the negative pressure device. It may be configured to transmit a warning message over a negative pressure device including a.

According to various embodiments of the present invention, the negative pressure device in each of the plurality of hospital rooms first adjusts the sound pressure intensity higher than before when a person enters the anterior room connected to each of the plurality of hospital rooms, and in the anterior room When a person enters each of the plurality of hospital rooms, the sound pressure intensity is secondarily adjusted higher than before, and when the person in each of the plurality of hospital rooms leaves the front room, the sound pressure intensity is firstly adjusted lower than before, When a person in the front room goes out into the corridor, the sound pressure intensity may be secondarily adjusted lower than before.

According to various embodiments of the present invention, each of the plurality of hospital rooms is based on the number of people present in each of the plurality of front rooms connected to each of the plurality of hospital rooms, and the number of people present in each of the plurality of front rooms. It may include a display configured to display the number of people whose body temperature exceeds a set range among people toward the inside of each of the plurality of hospital rooms.

According to various embodiments of the present invention, each of the plurality of hospital rooms includes a sensing device for a digital tag, the digital tag is based on a short-range wireless communication technology, and the short-range wireless communication technology is NFC (near field communication) , RFID (radio frequency identification), UWB (ultra-wideband), WIFI (wireless fidelity), and Bluetooth (Bluetooth), and the sensing device is based on the digital tag filled with each person present in the hospital room. The transceiver transmits identity information of the person present in the hospital room and body temperature information measured by the thermal imaging camera of the person present in the hospital room to the hospital server. can be configured to transmit.

According to various embodiments of the present invention, the transceiver is further configured to receive, from the hospital server, information on the severity of an infectious disease for a patient in a hospital room corresponding to the transceiver, and the negative pressure device is configured to detect the severity of the infectious disease based on the information on the severity of the infectious disease. It may be further configured to adjust the sound pressure intensity of the negative pressure device.

According to various embodiments of the present invention, a hospital room system for isolating and managing infectious disease patients includes a corridor connected to the outside of the hospital room system; a front room connected to the hallway through a first automatic door; and a hospital room connected to the front room through a second automatic door and in which the patient with the infectious disease is isolated and managed. The anterior chamber may include a first negative pressure device for discharging air in the anterior chamber to the outside, and a first thermal imaging camera for measuring a body temperature of a person present in the anterior chamber. The hospital room may include a second negative pressure device for discharging air in the hospital room to the outside, and a second thermal imaging camera for measuring the body temperature of a person present in the hospital room. The first automatic door and the second automatic door do not open together at the same time, and may be configured to open only one of them. The first thermal imaging camera and the second thermal imaging camera may be configured to determine the number of people present in the front room and the hospital room based on the measured body temperature, respectively. When the first automatic door or the second automatic door is opened and the number of people present in the front room increases compared to the previous one, the first negative pressure device has a first basic negative pressure set based on the sound pressure intensity of the first negative pressure device. It can be configured to adjust to increase more than a set percentage than the intensity. In the second negative pressure device, when the second automatic door is opened and the number of people present in the hospital room increases than before, the sound pressure intensity of the second negative pressure device is increased by more than a set ratio than the second basic sound pressure set by default. can be configured to adjust accordingly.

According to various embodiments of the present disclosure, the first negative pressure device is further configured to differentially adjust the sound pressure intensity of the first negative pressure device according to the number of people present in the anterior chamber, and the first negative pressure device When the number of people present in the anterior chamber is two or more, the sound pressure intensity of the first negative pressure device is further configured to differentially adjust according to the standard deviation of body temperatures of the people present in the anterior chamber, and the second negative pressure device It is further configured to differentially adjust the sound pressure intensity of the second negative pressure device according to the number of people present in the hospital room, wherein the second negative pressure device is configured to differentially adjust the number of people present in the hospital room when the number of people present in the hospital room is two or more. It may be further configured to differentially adjust the sound pressure intensity of the second negative pressure device according to the standard deviation of the body temperature of the people present.

According to various embodiments of the present disclosure, the first negative pressure device may be used when the first automatic door or the second automatic door is opened and the number of people present in the front room is greater than the average number of people in the front room for a previously set time. , It may be further configured to adjust the sound pressure intensity of the first sound pressure device to increase by a set ratio or more than the first basic sound pressure intensity. When the second automatic door is opened and the number of people present in the hospital room is greater than the average number of people in the anterior room for a previously set time, the second negative pressure device is configured to measure the sound pressure intensity of the second negative pressure device. It may be further configured to increase the basic sound pressure by more than a set ratio.

According to various embodiments of the present disclosure, the first negative pressure device may be used when the first automatic door and the second automatic door are not opened for a set time and the number of people present in the front room does not change. It may be further configured to adjust to the first basic sound pressure intensity with respect to the sound pressure intensity of. The second negative pressure device may be further configured to adjust the sound pressure intensity of the second negative pressure device to the second basic sound pressure intensity when the second automatic door is not opened and the number of people present in the hospital room is not changed. can

According to various embodiments of the present disclosure, the anterior chamber further includes a first carbon dioxide measuring device configured to measure the carbon dioxide concentration in the anterior chamber, and the hospital room further includes a second carbon dioxide measuring device configured to measure the carbon dioxide concentration in the hospital room. can include The first negative pressure device may be further configured to adjust the sound pressure intensity of the first negative pressure device based on the carbon dioxide concentration in the anterior chamber. The second negative pressure device may be further configured to adjust the sound pressure intensity of the second negative pressure device based on the carbon dioxide concentration in the hospital room.

According to various embodiments of the present disclosure, the first negative pressure device, when the first automatic door or the second automatic door is opened and the number of people present in the front room decreases than before, the number of people present in the front room Maintaining the sound pressure intensity of the first negative pressure device for a set time from the time the number of people decreases, and adjusting the sound pressure intensity of the first negative pressure device to decrease after a set time elapses from the time the number of people present in the front room decreases More can be configured. The second negative pressure device, when the second automatic door is opened and the number of people present in the hospital room decreases than before, the second negative pressure device for a set time from the time when the number of people present in the front room decreases. It may be further configured to adjust the negative pressure intensity of the second negative pressure device to decrease after a set time elapses from the time when the number of people present in the hospital room decreases while maintaining the negative pressure intensity.

According to various embodiments of the present disclosure, the first negative pressure device includes a first UV lamp for disinfecting air discharged from the anterior chamber with ultra-violet (UV) light having a wavelength of 100 to 280 nm, and the second The negative pressure device may include a second UV lamp for disinfecting the air discharged from the hospital room with UV light having a wavelength of 100 to 280 nm. The first UV lamp may be configured to adjust UV light irradiation intensity of the first UV lamp to increase or decrease based on the sound pressure intensity of the first negative pressure device. The second UV lamp may be configured to adjust UV light irradiation intensity of the second UV lamp to increase or decrease based on the sound pressure intensity of the second negative pressure device.

According to various embodiments of the present disclosure, the anterior chamber further includes a first air flow measuring device for measuring an air flow direction and an air flow strength of the first negative pressure device, and the hospital room may include an air flow direction and an air flow of the second negative pressure device A second airflow measuring device for measuring strength may be further included. The first UV lamp controls the UV light irradiation intensity of the first UV lamp when the measured airflow direction and airflow intensity of the first negative pressure device are different from the airflow direction and airflow intensity controlled by the first negative pressure device. It can be further configured to adjust incrementally. The second UV lamp controls the UV light irradiation intensity of the first UV lamp when the measured airflow direction and airflow intensity of the second negative pressure device are different from the airflow direction and airflow intensity controlled by the second negative pressure device. It can be further configured to adjust incrementally.

According to various embodiments of the present disclosure, in the first UV lamp, when the measured airflow direction and airflow intensity of the first negative pressure device are the same as the airflow direction and airflow intensity controlled by the first negative pressure device, the first UV lamp The UV light irradiation intensity of 1 UV lamp is multiplied by (the ratio of the sound pressure intensity of the first sound pressure device to the first basic sound pressure intensity) and (the first basic UV light irradiation intensity set for the first UV lamp) It may be further configured to adjust. The second UV lamp determines the UV light irradiation intensity of the second UV lamp when the measured airflow direction and airflow intensity of the second negative pressure device are equal to the airflow direction and airflow intensity controlled by the second negative pressure device. It may be further configured to adjust as a product of (the ratio of the sound pressure intensity of the second negative pressure device to the second basic sound pressure intensity) and (the second basic UV light irradiation intensity set for the second UV lamp).

According to various embodiments of the present disclosure, when the first automatic door is opened and the number of people present in the front room increases more than before, the second negative pressure device primarily measures the sound pressure intensity of the second negative pressure device. and when the second automatic door is opened and the number of people present in the hospital room increases than before, the sound pressure intensity of the second negative pressure device may be adjusted to increase secondarily.

In the specific embodiments of the present invention described above, components included in the invention are expressed in singular or plural numbers according to the specific embodiments presented. However, the singular or plural expressions are selected appropriately for the presented situation for convenience of description, and the present invention is not limited to singular or plural components, and even if the components expressed in plural are composed of a singular number or singular Even the expressed components may be composed of a plurality.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments and should not be defined, but should be defined by not only the scope of the claims to be described later, but also those equivalent to the scope of these claims.

Claims (10)

In the hospital room system for isolating and managing infectious disease patients,
A corridor connected to the outside of the hospital room system;
A front room connected through the corridor and a first automatic door, the front room including a first negative pressure device for discharging air in the front room to the outside, and a first thermal imaging camera for measuring the body temperature of a person present in the front room do,
A hospital room connected to the front room through a second automatic door and in which the patient with the infectious disease is isolated and managed, wherein the hospital room includes a second negative pressure device for discharging air inside the hospital room to the outside, and measuring the body temperature of a person present in the hospital room. And a second thermal imaging camera for doing, wherein the first automatic door and the second automatic door are configured not to open together at the same time, but to open only one of them,
The first thermal imaging camera and the second thermal imaging camera are configured to determine the number of people present in the front room and the hospital room based on the measured body temperature, respectively.
When the first automatic door or the second automatic door is opened and the number of people present in the front room increases compared to the previous one, the first negative pressure device has a first basic negative pressure set based on the sound pressure intensity of the first negative pressure device. It is configured to increase the strength by more than a set ratio,
In the second negative pressure device, when the second automatic door is opened and the number of people present in the hospital room increases than before, the sound pressure intensity of the second negative pressure device is increased by more than a set ratio than the second basic sound pressure set by default. configured to adjust
hospital room system.
According to claim 1,
The first negative pressure device is further configured to differentially adjust the sound pressure intensity of the first negative pressure device according to the number of people present in the front room,
The first negative pressure device is further configured to differentially adjust the sound pressure intensity of the first negative pressure device according to the standard deviation of body temperatures of people present in the anterior chamber when the number of people present in the anterior chamber is two or more,
The second negative pressure device is further configured to differentially adjust the sound pressure intensity of the second negative pressure device according to the number of people present in the hospital room,
The second negative pressure device is further configured to differentially adjust the sound pressure intensity of the second negative pressure device according to the standard deviation of body temperatures of people present in the hospital room when the number of people present in the hospital room is two or more.
hospital room system.
According to claim 1,
When the first automatic door or the second automatic door is opened and the number of people present in the front room is greater than the average number of people in the front room for a previously set time, the sound pressure intensity of the first negative pressure device is determined by the first negative pressure device. Is further configured to adjust to increase by more than a set ratio than the first basic sound pressure intensity with respect to,
When the second automatic door is opened and the number of people present in the hospital room is greater than the average number of people in the anterior room for a previously set time, the second negative pressure device is configured to measure the sound pressure intensity of the second negative pressure device. Further configured to adjust to increase more than a set ratio than the basic sound pressure,
hospital room system.
According to claim 1,
When the first automatic door and the second automatic door are not opened for a set time and the number of people present in the front room does not change, the first negative pressure device determines the first basic sound pressure intensity of the first negative pressure device. further configured to adjust with the sound pressure intensity;
The second negative pressure device is further configured to adjust the sound pressure intensity of the second negative pressure device to the second basic sound pressure intensity when the second automatic door is not opened and the number of people present in the hospital room does not change,
hospital room system.
According to claim 1,
The anterior chamber further includes a first carbon dioxide measuring device configured to measure a carbon dioxide concentration in the anterior chamber;
The hospital room further includes a second carbon dioxide measuring device configured to measure the carbon dioxide concentration in the hospital room,
the first negative pressure device is further configured to adjust the sound pressure intensity of the first negative pressure device based on the carbon dioxide concentration in the anterior chamber;
The second negative pressure device is further configured to adjust the sound pressure intensity of the second negative pressure device based on the carbon dioxide concentration in the hospital room.
hospital room system.
According to claim 1,
The first negative pressure device, when the first automatic door or the second automatic door is opened and the number of people present in the front room decreases than before, for a set time from the time when the number of people present in the front room decreases It is further configured to maintain the sound pressure intensity of the first negative pressure device and adjust the sound pressure intensity of the first negative pressure device to decrease after a set time elapses from the time when the number of people present in the anterior chamber decreases,
The second negative pressure device, when the second automatic door is opened and the number of people present in the hospital room decreases than before, the second negative pressure device for a set time from the time point when the number of people present in the hospital room decreases. Further configured to maintain the sound pressure intensity and adjust the sound pressure intensity of the second negative pressure device to decrease after a set time elapses from the time when the number of people present in the hospital room decreases,
hospital room system.
According to claim 1,
The first negative pressure device includes a first UV lamp for disinfecting the air discharged from the anterior chamber with ultra-violet (UV) light having a wavelength of 100 to 280 nm;
The second negative pressure device includes a second UV lamp for disinfecting the air discharged from the hospital room with UV light having a wavelength of 100 to 280 nm,
The first UV lamp is configured to adjust the UV light irradiation intensity of the first UV lamp to increase or decrease based on the sound pressure intensity of the first negative pressure device,
The second UV lamp is configured to adjust the UV light irradiation intensity of the second UV lamp to increase or decrease based on the sound pressure intensity of the second negative pressure device,
hospital room system.
According to claim 7,
The anterior chamber further includes a first air flow measurement device for measuring an air flow direction and an air flow strength of the first negative pressure device;
The hospital room further includes a second air flow measurement device for measuring an air flow direction and an air flow strength of the second negative pressure device,
The first UV lamp controls the UV light irradiation intensity of the first UV lamp when the measured airflow direction and airflow intensity of the first negative pressure device are different from the airflow direction and airflow intensity controlled by the first negative pressure device. further configured to adjust incrementally;
The second UV lamp controls the UV light irradiation intensity of the first UV lamp when the measured airflow direction and airflow intensity of the second negative pressure device are different from the airflow direction and airflow intensity controlled by the second negative pressure device. further configured to adjust incrementally,
hospital room system.
According to claim 8,
The first UV lamp controls the UV light irradiation intensity of the first UV lamp when the measured airflow direction and airflow intensity of the first negative pressure device are equal to the airflow direction and airflow intensity controlled by the first negative pressure device. further configured to adjust by a product of (the ratio of the sound pressure intensity of the first negative pressure device to the first basic sound pressure intensity) and (the first basic UV light irradiation intensity set for the first UV lamp);
The second UV lamp determines the UV light irradiation intensity of the second UV lamp when the measured airflow direction and airflow intensity of the second negative pressure device are equal to the airflow direction and airflow intensity controlled by the second negative pressure device. Further configured to adjust by the product of (the ratio of the sound pressure intensity of the second negative pressure device to the second basic sound pressure intensity) and (the second basic UV light irradiation intensity set for the second UV lamp),
hospital room system.
According to claim 1,
The second negative pressure device adjusts the sound pressure intensity of the second negative pressure device to increase first when the first automatic door is opened and the number of people present in the front room increases than before, and the second automatic door Further configured to adjust the sound pressure intensity of the second negative pressure device to be increased secondarily when the number of people present in the hospital room increases than before when the number of people present in the hospital room is opened.
hospital room system.

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