JP2022149031A - Pathogen Infection Prevention Unit - Google Patents

Abstract

To provide a pathogen infection prevention unit and a method therefor, the pathogen infection prevention unit being capable of being installed in a medical facility, an examination facility consultation room, and a facility for the aged and being capable of securely preventing pathogens generated from a patient from infecting a medical worker.SOLUTION: A pathogen infection prevention unit 1 comprises: a consultation room S formed by a rear wall 2 provided in the unit, a side plate 1b of the unit, a ceiling 3, and a punching panel 4; a medical worker area S1 and a patient area S2 partitioned by a partition member 5 in the consultation room; an air outlet provided on a ceiling of the medical worker area; a differential pressure holding damper 12 for taking in air inside a room in which the pathogen infection prevention unit is installed, into the patient area; an air outlet for blowing out, to a return shaft, air taken in from the inside of the room into the patient area; a fan filter unit that cleans air taken in to the return shaft and supplies it to the inside of a plenum chamber; and a vent hole 10 for blowing out surplus air in the medical worker area into the room in which the infection prevention unit is installed.SELECTED DRAWING: Figure 1

Description

The present invention is useful in facilities where many elderly people with reduced resistance to disease reside, such as hospital facilities with examination rooms such as medical facilities and PCR testing facilities, health facilities for the elderly (nursing care facilities for the elderly) and special nursing homes. It relates to a pathogen infection prevention unit to be used, in particular, a pathogen infection prevention unit for preventing pathogens generated from a patient or an object to be inspected from infecting medical personnel and handling personnel (hereinafter referred to as medical personnel).

Conventionally, when the medical staff examines the patient in an examination room where the medical staff and the patient sit facing each other, it is necessary to prevent pathogens such as bacteria and viruses carried by the patient from infecting the medical staff. Various techniques have been proposed for the purpose of preventing this.

In Patent Document 1, there is a clinic provided inside a container in which a medical worker treats a patient with an infectious disease, and a front room provided inside the container and separated from the clinic through a door. , a clinic door through which either one of the medical staff and the patient enters the clinic; an antechamber door provided so that the one flow line entering the room from the chamber door and the other flow line entering the antechamber are different, when viewed from the partition between the antechamber and the examination room The anterior chamber is formed on one gable side of the container and the examination room is formed on the other gable side of the container, and the anterior chamber and the examination room are separated in the longitudinal direction inside the container. A stationary medical container has been proposed, which is characterized by a

Japanese Patent No. 6787618

However, in the technique described in Patent Document 1 described above, a door is provided between a clinic room provided inside a container in which a medical worker treats a patient with an infectious disease and the clinic room provided inside the container. It requires an antechamber that can be partitioned through an intermediary, which increases the size of the examination room as a whole.
In addition, the examination room door through which either one of the medical staff and the patient enters the examination room, and the front room allows the other of the medical staff and the patient to enter the examination room. and an antechamber door provided so that the one flow line for entering the room from the examination room door and the other flow line for entering the antechamber are different, and the air taken in from the intake port provided in the examination room. flows from the medical staff to the patient and finally to the negative pressure equipment, so the air inhaled from the intake port collides with the medical staff and the patient and becomes turbulent, so pathogens generated from the patient spread, enter the breathing zone of medical workers, and increase the risk of airborne infection of medical workers.
Furthermore, since the medical staff and the patient sit facing each other during the examination, there is a risk that the medical staff may be exposed to droplets when the patient coughs or sneezes.

The present invention has been made to solve the above-mentioned problems, and is used in hospital facilities with examination rooms such as medical facilities and PCR testing facilities, elderly health facilities (nursing care facilities for the elderly) and special nursing homes. To provide a pathogen infection prevention unit which can be installed in a facility where a large number of elderly people with weakened resistance reside, and which can reliably prevent pathogens generated from patients from infecting healthcare workers. and

The present inventor has solved the above problems by the following means.
[1] A pathogen infection prevention unit (1) installed indoors with an outer plate composed of an upper plate (1a) and side plates (1b to 1e),
The pathogen infection prevention unit (1) includes a rear wall (2) provided in the pathogen infection prevention unit (1), side plates (1b, 1c, 1e) of the pathogen infection prevention unit (1), a ceiling (3) and an examination room (S) formed by a punching panel (4);
A patient area (S2) having a medical staff area (S1) and the punching panel (4) above, which is configured by partitioning the inside of the examination room (S) with a partition member (5);
A slit-shaped outlet (7) that is provided in the ceiling (3) of the medical worker area (S1) and blows out at high speed;
a differential pressure holding damper (12) that draws the room air into the patient area (S2);
On the opposite side of the patient area (S2) facing the medical staff area (S1), there is a suction port (13) at the bottom partitioned by the rear wall (2), and the air in the patient area is 13) with a letan shaft (8) sucking and moving upward;
a fan filter unit (14) that cleans the air sucked into the letan shaft (8) and supplies it as clean air into the plenum chamber (6);
Of the clean air blown into the medical staff area (S1), surplus air taken in by the differential pressure holding damper (12) is blown into the room where the infection prevention unit (1) is installed. A pathogen infection control unit, characterized in that it comprises a vent (10) located below the side plate.
[2] Pathogen infection according to [1], characterized by comprising an adjustment mechanism (3A) for adjusting the amount of clean air supplied downward through the punching panel (4) into the patient area (S2). prevention unit.
[3] The partition member (5) is transparent, and when the medical staff sits on the examination chair and examines the patient, the glove ( 20) is a pathogen infection prevention unit according to [1] or [2], characterized in that a hand entrance is provided on the side of the medical worker area (S1) and is hermetically fixed.
[4] The partition member (5) is formed of a vinyl curtain, and the contact portion between the ceiling (3) and the side plates (1c, 1e) can be sealed and fixed with a fastener, and the contact portion with the floor in the room is a hem. A pathogen infection prevention unit according to any one of [1] to [3], characterized in that there is a fixing means such as a seal weight that can be fixed so as not to flutter.
[5] A doorway (9) for medical staff for entering and exiting the medical staff area (S1) and a doorway (11) for patients for entering and exiting the patient area (S2) are arranged in separate flow lines. are provided separately so as not to straddle the partition member (5).
[6] Any one of [1] to [5], wherein the pressure in the medical staff area (S1) is positive and the pressure in the patient area (S2) is negative. Pathogen Infection Prevention Unit.
[7] A rear wall (2) and a pathogen infection prevention unit (1) provided in the pathogen infection prevention unit (1) having an outer plate composed of the upper plate (1a) and the side plates (1b to 1e) The examination room (S) formed by the side panels (1b, 1c, 1e), the ceiling (3), and the punching panel (4) can be disassembled, and is movable after disassembly [1]- [6] The pathogen infection prevention unit according to any one of [6].

According to the present invention, since the downdraft velocity in the patient side area S2 can be slowed down, droplets from the patient are not disturbed in the patient side area S2 by aerosols or the like in the air in the pathogen infection prevention unit. Since the high-performance filter of the fan filter unit rides on the airflow sucked from the differential pressure holding damper, it is possible to prevent the medical staff from being infected.
In addition, as a means for maintaining a positive pressure in the medical worker side area S1, the space between the upper plate 1a and the ceiling 3 is made into a plenum chamber 6, and the air is blown out from the fan filter unit 14 to create a positive pressure. A large amount of clean air is blown out from the air outlet 7 of the ceiling 3, and most of it is discharged into the room such as a hospital room where the pathogen infection prevention unit is installed from the air outlet 10 with resistance. Since it can be pressurized, it is possible to prevent invasion of dust-attached pathogens from the outside including the patient area S2 or from the negative pressure part, and to safely protect the medical staff.
In addition, since almost the same amount of air as that released from the ventilation port 10 to the outside of the pathogen infection prevention unit is sucked into the patient side area S2 via the differential pressure holding damper by the suction force of the fan filter unit 14, the patient side area S2 Air can be flowed into the chamber while reducing the pressure in the room where the pathogen infection prevention unit is installed to a negative pressure corresponding to the differential pressure set by the differential pressure holding damper.
Furthermore, comfort can be improved by increasing the speed of the airflow in the medical worker side area S1.
Furthermore, by making it decomposable, it is possible to fold it and store it in normal times other than emergencies.

1 is a cross-sectional view of a pathogen infection prevention unit of the present invention; FIG. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1;

A mode for carrying out the present invention will be described based on drawings of examples.
FIG. 1 is a cross-sectional view of a pathogen infection prevention unit of the present invention, and FIG. 2 is a cross-sectional view along AA of FIG. It is installed and used in facilities where many elderly people with weakened resistance to disease reside, such as hospital facilities, health care facilities for the elderly (long-term care facilities for the elderly), and special nursing homes.

In FIGS. 1 and 2, reference numeral 1 denotes a pathogen infection prevention unit, which comprises an upper plate 1a and four side plates 1b, 1c, 1d and 1e. In the figure, 1b is a side plate located on the back side of the medical staff, 1c is a side plate located on the side of the patient, 1d is a side plate provided facing the side plate 1b, and 1e is facing the side plate 1c. It is a side plate provided by doing.

In the embodiment of the present invention, the pathogen infection prevention unit 1 is used in hospital facilities with examination rooms such as medical facilities and PCR testing facilities, health facilities for the elderly (health care facilities for the elderly), special nursing homes for the elderly, etc. It is used by installing it on the floor of a room such as a facility where many elderly people with reduced blood pressure reside, and although it does not have a lower plate, it can be easily carried by providing a lower plate.
2 is a rear wall provided in the pathogen infection prevention unit 1, 3 is a ceiling, and 4 is a punching panel. An examination room S is configured in the unit 1 .
3A is provided on the top plate 3 and is movable in the direction of the side wall 1b and the side wall 1d. It is an adjusting mechanism that adjusts, and by moving it to the left and right in FIG.

In this embodiment, the punching panel 4 uses an aluminum plate, but a stainless steel plate or an iron plate may also be used. In addition, the plate thickness, hole arrangement, hole diameter, pitch, porosity, etc. should be such that the airflow resistance at the passage speed is greater than the blowout airflow resistance of the outlet (slit) 7 described later. is the basis, and can be appropriately selected according to the purpose.

A partition member 5 is provided between the medical staff and the patient, and the partition member 5 divides the examination room S into a medical staff area S1 and a patient side area S2.
In the embodiment of the present invention, since a transparent vinyl curtain is used as the partition member 5, the partition member 5 sticks to the patient area S2 due to the pressure difference between the medical worker area S1 and the patient area S2. In order to prevent this, a weight is provided at the lower end of the partition member 5, or the lower end of the partition member 5 is placed at the medical facility where the pathogen infection prevention unit 1 is installed. , using hook-and-loop fasteners or the like, to the floor of facilities where many elderly people with reduced resistance to disease reside, such as health care facilities for the elderly (nursing care facilities for the elderly) and special nursing homes. In addition, the side edges of the partition member 5, which is a transparent vinyl curtain, are also fixed to the ceiling 3 and the side walls 1c and 1e with hook-and-loop fasteners or the like to seal the partition member 5. As shown in FIG.

Also, on the partition member 5, gloves 20 are directed into the patient area where the hands of the medical staff are positioned when the medical staff sits on the examination chair and examines the patient. It is provided on the side of the area S1 and is sealed and fixed.
Regarding the gloves 20, the gloves 20 may be disinfected and decontaminated when the patient's examination is completed and the inside of the patient area is disinfected. , the glove 20 may be exchanged when the inside of the patient area S2 is disinfected after the end of the examination of the patient.
This allows medical personnel to use gloves 20 to prevent infection from the patient when examining the patient.

A plenum chamber 6 is constructed between the upper plate 1a, the ceiling 3 and the punching panel 4 and receives the discharge pressure of the fan of the fan filter unit 14, which will be described later.
A vent (slit) 7 is provided between the ceiling 3 and the side plate 1b, and supplies the clean air supplied from the plenum chamber 6 to the medical staff area S1.

Reference numeral 8 denotes a letan shaft (ventilation channel) formed between the side plate 1d of the pathogen infection prevention unit and the rear wall 2 of the examination room S. As shown in FIG.
Numeral 9 denotes a medical worker side doorway provided on the side plate 1b on the back side of the medical worker side.
In the embodiment of the present invention, a sliding door is used as the entrance/exit 9 on the medical staff side because the medical staff area S1 is under positive pressure. good too.

Reference numeral 10 denotes the entrance 9 on the side of the medical staff, or a vent (garari) provided on the side wall 1b, which discharges surplus air in the medical staff area S1 from the pathogen infection prevention unit 1 to the room where it is installed. .
A patient side doorway 11 is provided on a side wall 1c of the patient area S2, and a patient enters and exits the patient area S2 through the patient side doorway 11. As shown in FIG.
In the embodiment of the present invention, since the patient area S2 has a negative pressure, a hinged door is used as the patient side doorway 11, but it is not limited to this, and is similar to the medical worker side doorway. A hinged door may be used.
Reference numeral 12 denotes a differential pressure holding damper for the purpose of holding the room pressure of a relatively airtight room provided at the patient side doorway 11 on the patient side. While introducing air A into the patient area S2, the internal pressure of the patient area S2 is made negative by a predetermined differential pressure that can be defined by the weight of the damper from the pressure in the installation room.

Considering the possibility that the pathogen infection prevention unit of this embodiment will be used in an emergency, the temperature and humidity of the examination room S (medical worker area S1, patient side area S2) should be maintained within the room where the pathogen infection prevention unit is installed. It depends on the comfortable temperature and humidity of the air.
In this way, since the air in the room to be installed is taken into the examination room S from the differential pressure holding damper, an appropriate temperature and humidity environment can be ensured.
A suction port 13 is provided in the lower part of the rear wall 2, and the air B2 that may contain pathogens in the patient area S2 is directed to the letan shaft 8, and the static pressure on the suction side of the fan of the fan filter unit 14. inhaled by

Reference numeral 14 denotes a fan filter unit having a fan 15 and a HEPA filter 16, which is provided at the entrance of the plenum chamber 6 of the pathogen infection prevention unit 1, and draws air B2 from the letan shaft 8 through the suction port side of the fan 15. is the conveying force, the upper part of the let shaft 8 is sucked as the most negative pressure, and the solid pathogens that may exist in the air B2 are filtered through the high-performance filter 16 on the discharge side of the fan 15 to form air B It is supplied under pressure into the plenum chamber 6 .
The fan 15, which is a device that operates on electric power, is small and has a simple structure that only feeds power, and the fan filter unit 14 itself is also light. Other members are lightweight panel materials that can be easily removed or folded by using hinges or bars for temporary installation.

The operation of the pathogen infection prevention unit configured as described above will be described in the case where the pathogen infection prevention unit is installed in the examination room of the laboratory.
When the fan filter unit 14 of the pathogen infection prevention unit 1 installed in the examination room of the examination facility is operated, the air A remaining in the patient area S2 is pushed by the air sucked from the differential pressure holding damper 12. , the air is sucked into the let shaft 8 through the suction port 13 provided in the rear wall 2 and rises as return air. Using the suction force on the suction port side as the conveying force, the upper part of the let shaft 8 is sucked in with the most negative pressure, and the solid pathogens that may exist in the air B2 are filtered through the high-performance filter 16 on the discharge side of the fan 15. is removed and fed into the plenum chamber 6 under pressure.
In such an air flow, the patient area S2, which is set to a predetermined negative pressure from the installation room due to the differential pressure set by the differential pressure holding damper 12, is exposed to the pressure inside the examination room of the testing facility via the differential pressure holding damper 12. Air is taken in.

Most of the air B1 of the clean air B supplied into the plenum chamber 6 through the high-performance filter 16 is sent from the inside of the plenum chamber 6 toward the side plate 1b and changed in direction by the side plate 1b, The air is supplied to the medical staff area S1 along the side plate 1b from an outlet (slit) 7 provided between the ceiling 3 and the side plate 1b.
After that, the air B1 that has descended while maintaining the positive pressure in the medical worker area S1 is accompanied by the air B11 that remains in the medical worker area S1, and is used to raise the predetermined positive pressure from the room pressure of the installation room. It is discharged into the room in which the pathogen infection prevention unit 1 is installed through the ventilation port 10 having ventilation resistance. If necessary, it may be released outdoors.
As a result, the medical staff area S1 side, which aims at both infection prevention and medical examination, secures the number of times of ventilation, uses the Coanda effect of the blowing part, and descends while hitting the medical staff with a certain amount of wind speed. It can give you a refreshing feeling.

A portion B2 of the clean air supplied into the plenum chamber 6 is slowed down by the punching panel 4, supplied to the patient area S2, and taken into the patient area S2 from the differential pressure holding damper 12. While being caught in A, it is blown out into the letan shaft 8 through the outlet 13 provided in the rear wall 2 .
The air A, which has included a part of the clean air B2, is lifted up as return air, and dust in the air is removed by the fan filter unit 14 and returned to the plenum chamber 6.
In this way, since the clean air B2 whose wind velocity is slowed by the punching panel 4 is supplied from above into the patient area S2, contaminants and the like caused by droplets contained in the patient's exhaled breath are flowed downward. This prevents bacteria from staying in the upper part of the patient area S2, and contaminants and the like caused by droplets are quickly removed by the high-performance filter 16 through the rain shaft 8, so that they can be prevented from flowing into the medical worker area S1. can be done.

Furthermore, most of the clean air B1 in the plenum chamber 6 is supplied to the medical worker area S1, while a part of the clean air with a slow wind speed is supplied to the patient area S2. While B2 is being supplied, the pressure in the installation room becomes negative due to the differential pressure in the installation room defined by the differential pressure holding damper 12 installed in the patient side doorway 11, so the medical worker area S1 becomes positive with respect to the patient side area S2. The patient side area S2 is maintained at a negative pressure with respect to the medical staff area S1, thereby preventing the medical staff from being infected by pathogens generated from the patient or the test object.

The number of fan filter units 14 to be set is determined according to the size of the infection prevention unit 1 in which the fan filter units 14 are installed, the number of ventilation times in the examination room S, and the amount of circulating air.

An example of how to use the pathogen infection prevention unit configured as described above will be described with respect to the overall size, necessary air volume to be supplied to the infection prevention unit, distribution of air volume to each area, and the like.
The size of the fan filter unit 14, the frequency of ventilation in the examination room S, the amount of circulating air, etc., are determined according to the purpose. 1) Size of pathogen infection prevention unit Necessary size of pathogen infection prevention unit (W x D x H) , as shown in Table 1, was calculated on the assumption that one patient and one healthcare worker were included.

2) Regarding the required air volume of the pathogen infection prevention unit, as shown in Table 2, the ventilation frequency and the circulating air volume for each ventilation frequency were calculated.

As shown in Table 2, the ventilation frequency (times/h) is the number of times the air in the pathogen infection prevention unit is ventilated per hour (times/h), and the circulating air volume (m ³ /h) is the ventilation frequency. is the volume of air per hour that circulates (enters and exits) in the pathogen infection prevention unit corresponding to .

For example, when the air inside the pathogen infection prevention unit is ventilated 30 times per hour, the air circulation volume per hour circulating inside the pathogen infection prevention unit corresponding to this is 160 (m ³ /h). becomes.
In addition, when the air inside the pathogen infection prevention unit is ventilated 100 times per hour, the circulating air volume per hour circulating inside the pathogen infection prevention unit corresponding to this is 510 (m ³ /h). Become.
By securing the ventilation rate in this way, the air supplied from the outlet (slit) to the medical staff area is immediately blown out from the vent into the installation room, making it easier to maintain a comfortable thermal environment in the medical staff area. can do.

3) Table 3 shows an example of the distribution of the air volume supplied to each area and the required air volume.

The blowing air velocity shown in Table 3 is the air velocity when the clean air B recirculated into the plenum chamber 6 from the fan filter unit 14 is blown out from the air outlet (slit) 7 to the medical worker side area S1 and from the punching panel 4. This is the wind speed when blowing to the patient side area S2.

Also, the size of the air outlet indicates the size of the air outlet 7 that supplies clean air to the medical worker side area S1 and the size of the punching panel 4 that supplies clean air to the patient area S2. The outlet is a long and narrow rectangular slit of 50 mm wide and 1,000 mm long, and the punching panel 4 is substantially square with 1,000 mm wide and 1,100 mm long.
The aperture ratio represents the aperture ratio of the blowout port 7 and the punching panel 4 .
The blown air volume (m ³ /h) is the air volume when the clean air B recirculated into the plenum chamber 6 is blown out from the air outlet 7 to the medical worker side area S1, and the air volume from the punching panel 4 to the patient side area S2. It is the air volume when blowing.
The size of the fan filter unit 14, the number of ventilation times in the examination room S, the circulating air volume, the blowing air velocity, the air outlet size, and the opening ratio air volume are appropriately selected according to the purpose.

1: pathogen infection prevention unit 1a: top plate 1b: side plate (located on the side of medical personnel)
1c: side plate (located on the patient side)
1d: side plate (opposed to side plate 1b)
1e: Side plate (facing side plate 1c)
2: Rear wall 3: Ceiling 3A: Slide ceiling (air volume control mechanism)
4: Punching panel 5: Partition member 6: Plenum chamber 7: Air outlet (slit)
8: Letan shaft (airway)
9: Medical staff side entrance (sliding door)
10: Vent (Garari)
11: Doorway on the patient side (open door)
12: Differential pressure holding damper 13: Discharge port 14: Fan filter unit 15: Fan 16: High performance filter 20: Gloves

Claims (7)

A pathogen infection prevention unit (1) installed indoors with an outer plate composed of an upper plate (1a) and side plates (1b to 1e),
The pathogen infection prevention unit (1) includes a rear wall (2) provided in the pathogen infection prevention unit (1), side plates (1b, 1c, 1e) of the pathogen infection prevention unit (1), a ceiling (3) and an examination room (S) formed by a punching panel (4);
A patient area (S2) having a medical staff area (S1) and the punching panel (4) above, which is configured by partitioning the inside of the examination room (S) with a partition member (5);
A slit-shaped outlet (7) that is provided in the ceiling (3) of the medical worker area (S1) and blows out at high speed;
a differential pressure holding damper (12) that draws the room air into the patient area (S2);
On the opposite side of the patient area (S2) facing the medical staff area (S1), there is a suction port (13) at the bottom partitioned by the rear wall (2), and the air in the patient area is 13) with a letan shaft (8) sucking and moving upward;
a fan filter unit (14) that cleans the air sucked into the letan shaft (8) and supplies it as clean air into the plenum chamber (6);
Of the clean air blown into the medical staff area (S1), surplus air taken in by the differential pressure holding damper (12) is blown into the room where the infection prevention unit (1) is installed. A pathogen infection control unit, characterized in that it comprises a vent (10) located below the side plate. 2. A pathogen infection prevention unit according to claim 1, characterized in that it comprises an adjustment mechanism (3A) for adjusting the amount of clean air supplied downwards through the punching panel (4) into the patient area (S2). The partition member (5) is transparent, and when the medical staff sits on the examination chair and examines the patient, the gloves (20) are directed into the patient area at the height where the hands of the medical staff are located. 3. A pathogen infection prevention unit according to claim 1 or 2, characterized in that a hand entrance is provided on the side of said medical worker area (S1) and is sealed and fixed. The partition member (5) is formed of a vinyl curtain, the contact portion between the ceiling (3) and the side plates (1c, 1e) can be sealed and fixed with a fastener, and the contact portion with the floor of the room is flapped. A pathogen infection prevention unit according to any one of claims 1 to 3, characterized in that there are fixing means, such as a non-stick, fixable sealing weight. A doorway (9) for medical staff for entering and exiting the medical staff area (S1) and a doorway (11) for patients for entering and exiting the patient area (S2) are separated from each other by the partitions. A pathogen infection prevention unit according to any one of claims 1 to 4, characterized in that it is provided separately so as not to straddle the member (5). A pathogen infection prevention unit according to any one of claims 1 to 5, characterized in that the medical staff area (S1) is under positive pressure and the patient area (S2) is under negative pressure. A rear wall (2) provided in the pathogen infection prevention unit (1) having an outer plate composed of the upper plate (1a) and side plates (1b to 1e) and a side plate (1b) of the pathogen infection prevention unit (1) , 1c, 1e) and the examination room (S) formed by the ceiling (3) and the perforated panel (4) can be disassembled and can be moved after disassembly. 1. Pathogen infection prevention unit according to 1.

Images