JP2599927B2 - Sterilization method of closed room - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention sterilizes the interior of a closed room such as a clean room, a bio-clean room, an operating room, or a general living room for manufacturing semiconductors, precision equipment, and chemicals. Concerning the improvement of the device for disinfecting with gas, in particular, detecting the concentration of sterilizing gas in the closed chamber, and controlling the amount of sterilizing gas supplied to the closed chamber based on the detected concentration of the sterilizing gas,
The present invention relates to a method for disinfecting a closed chamber, wherein when a sterilizing gas leaks from an injection nozzle when the closed chamber is not being sterilized, the gas is exhausted to the outside to prevent the sterilizing gas from being supplied into the closed chamber.

[Conventional technology]

As a conventional method for supplying a sterilizing gas to a closed chamber, for example, a method described in Japanese Patent Application Laid-Open No. 61-232857 is known.

In this conventional method, a sterilizing gas (phytontide) which does not affect the human body is used, but no means for detecting the concentration of the sterilizing gas is shown.

In addition, sterilizing gas (formalin gas) that has an effect on the human body
When using a sterilizing gas generator, a required amount of a sterilizing agent was put into a sterilizing gas generator, brought into a closed chamber, and evaporated.

[Problems to be solved by the invention]

However, in the former conventional method, a sterilizing gas (phytontide) which does not affect the human body is used. However, if the gas concentration is high, discomfort is given to the human body, and if the gas concentration is low, the sterilizing effect is reduced. There is. Also, in the latter conventional method, when using a sterilizing gas that has an effect on the human body, the sterilizing gas is supplied more than necessary,
There was a problem that the room was not completely disinfected due to insufficient supply. In addition, in any case, there is also a problem that no countermeasures are taken when the sterilizing gas leaks from the injection nozzle at the normal time when a person is in the closed chamber, that is, at the time of non-disinfection.

The present invention has been made in order to solve such a conventional problem, and does not cause discomfort to the human body by freely and appropriately controlling the amount of sterilizing gas supplied into the closed chamber. It is intended to provide a method of disinfecting a closed chamber that can complete the sterilization effect,
It is another object of the present invention to provide the disinfecting method for discharging the sterilizing gas without moving the sterilizing gas to the closed chamber when the sterilizing gas leaks from the injection nozzle during the normal time of non-disinfection.

[Means for solving the problem]

The present invention has solved the above-mentioned problem by the following means. That is, air is supplied to the closed room 1 (clean room in the embodiment) used by a person through the damper 17 for the air outlet, and the air is sucked from the closed room 1 through the damper 15 for the air inlet, and the air is further supplied to the outside air duct. An air conditioner 6 that takes in outside air through a damper 13 is used. The air conditioner 6 includes a heat exchanger 7, a blower 9, and a sterilizing gas injection nozzle 21. Sterilizing gas (formalin gas in the embodiment) injected from the injection nozzle 21 is blown by the blower 9 through an outlet 16. The gas is supplied to the closed chamber 1 and circulated through the air inlet 14 to the blower 9 to gradually increase the concentration of the sterilizing gas in the closed chamber 1. In the closed chamber 1, the concentration of the sterilizing gas is detected by the sterilizing gas concentration sensor 23, and when the detected sterilizing gas concentration reaches a predetermined value, the injection of the sterilizing gas from the injection nozzle 21 is stopped, and The damper 17 for the outlet and the damper 15 for the inlet are closed, and the inside of the closed chamber 1 is sterilized for a predetermined time. Thereafter, by opening the damper 17 for the outlet and the damper 13 for the outside air duct and the exhaust port 2 provided in the closed chamber 1 and closing the damper 15 for the inlet, the outside air is blown by the blower 9 to the closed chamber 1. While discharging the sterilizing gas in the closed chamber 1 from the exhaust port 2,
When the concentration of the sterilizing gas detected by the concentration sensor 23 becomes zero, the air conditioner 6 returns to the normal air-conditioning operation to air-condition the closed chamber 1. Further, when the sterilizing gas leaks from the injection nozzle 21 during the normal air-conditioning operation, this is detected by a sterilizing gas detection sensor 24 provided in the air conditioner 1 and the damper 15 for the intake port and the discharge port for the outlet are detected. By closing the damper 17, the space between the air conditioner 6 and the closed chamber 1 is closed, and the outside air duct damper 13 is opened to introduce outside air into the air conditioner 6. The sterilizing gas is urgently exhausted from the duct 25 together with the outside air.

[Action]

The concentration of the sterilizing gas in the closed chamber is detected by a sterilizing gas concentration sensor, and when the concentration reaches a predetermined value, the injection of the sterilizing gas is stopped. Therefore, the supply amount of the sterilizing gas is optimized. Also, even if sterilizing gas leaks from the injection nozzle during normal air-conditioning operation by the air conditioner, that is, when a person is in a closed room, this is detected by the sterilizing gas detection sensor and the sterilizing gas is urgently exhausted from the emergency exhaust duct. Therefore, it is possible to prevent the sterilizing gas from entering the closed room where a person is present.

〔Example〕

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
This embodiment uses formalin gas as a sterilizing gas.

In FIG. 2, an exhaust port 2, an exhaust port damper 3 and an exhaust fan 4 are arranged in a part of a clean room 1 which is a closed room. By driving the exhaust fan 4, air inside the clean room 1 is exhausted to the outside. Reference numeral 6 denotes an air conditioner. The air conditioner 6 includes a heat exchanger 7, a bypass damper 8, a blower 9 and a high-performance filter 10, and has an outside air intake duct 11 and an outside air A processing filter 12 and an outside air duct damper 13 are provided. In addition, an intake port 14 and an intake port damper 15 are disposed at a boundary portion between the clean room 1 and the air conditioner 6 at a portion facing the outside air intake duct 11, and further, the clean room 1 and the air conditioner 6 above the air conditioner 6. The outlet 16 and the damper 17 for the outlet are arranged at the boundary portion of.

Reference numeral 18 denotes a formalin gas generator for generating formalin gas as a sterilizing gas. The formalin gas generator 18 is connected to a portion of the air conditioner 6 facing the outlet 16 by a formalin gas supply pipe 19, In the middle of the supply pipe 19, a valve 20 for opening and closing the supply of formalin gas
And the air conditioner 6 of the formalin gas supply pipe 19
A formalin gas injection nozzle 21, which is a sterilizing gas injection nozzle, is attached to the connection portion to the.

An appropriate number of formalin gas concentration sensors 23 are installed at appropriate locations such as the ceiling, walls, and floor of the clean room 1.

Further, a formalin gas detection sensor 24 which is a sterilization gas detection sensor is mounted on the upper part of the air conditioner 6 where the formalin gas injection nozzle 21 is mounted.
An emergency exhaust duct 25 and an exhaust duct damper 26 are provided in the upper part of the air conditioner.

Reference numeral 28 denotes a controller. The controller 28 includes a formalin gas concentration sensor 23 and a formalin gas detection sensor.
24 detection signals are sent and the controller 28
From the exhaust port damper 3, the exhaust fan 4, the bypass damper 8, the blower 9, the outside air duct damper 13, the intake port damper 15, the outlet damper 17, the formalin gas generator 1
8, a control signal for operating each of them is supplied to the valve 20 and the exhaust duct damper 26.

 Next, the operation of this embodiment will be described.

When a current is applied to the controller 28, detection signals from the formalin gas concentration sensor 23 and the formalin gas detection sensor 24 are sent to the controller 28.

The clean room 1 is normally air-conditioned by an air conditioner 6. During this air-conditioning operation, the control signal from the controller 28 controls the bypass damper 8 and the exhaust duct damper.
26 is closed, the damper 17 for the air outlet and the damper 15 for the exhaust port are opened, and the damper 13 for the outside air duct and the damper 3 for the exhaust port are opened at an opening corresponding to the required outside air amount and the exhaust amount. The air is supplied to the air inlet 14 by the blower 9 of the air conditioner 6.
The air is sucked into the air conditioner 6, heat is exchanged by passing a heat medium through the heat exchanger 7, dust is removed by the blower 9, dust is removed by the high-performance filter 10, and sent to the clean room 1 from the outlet 16. Circulate. At this time, air corresponding to the amount of air exhausted from the exhaust port 2 is taken into the air conditioner 6 from the outside air intake duct 11.

When disinfecting the clean room 1, the air conditioner 6 is stopped, the damper 13 for the outside air duct, the damper 3 for the exhaust port and the damper 26 for the exhaust duct are closed, the damper 8 for the bypass, the damper 17 for the outlet, and the damper for the intake port. 15 is opened, the formalin gas generator 18 is operated, the valve 20 is opened, and formalin gas is injected from the formalin gas injection nozzle 21 into the air conditioner 6 and the blower 9 is driven. As a result, the formalin gas injected into the air conditioner 6 is sent from the air outlet 16 to the clean room 1 by the blower 9 and is sent into the air conditioner 6 from the intake port 14 while being mixed with the air in the clean room 1. The formalin gas ejected from the injection nozzle 21 is again blown out from the outlet 16 into the clean room 1 together with the formalin gas. Thus, the formalin gas circulates through the clean gas 1 and the inside of the air conditioner 6 while the formalin gas concentration in the clean room 1 is maintained. Gradually become darker.

The concentration of formalin gas in this clean room 1 is
The detection signal is detected by a formalin gas concentration sensor 23 attached to the clean room 1 and the detection signal is compared and determined with a required concentration set in advance by a controller 28, and the detection results of the concentration by all the formalin gas concentration sensors 23 are the predetermined values. When the set value is reached, the valve 20 is closed, the operation of the formalin gas generator 18 is stopped, the supply of formalin gas is stopped, and the clean room 1 is disinfected by leaving it for a predetermined time.

When the clean room 1 has been disinfected after the predetermined time, the damper 15 for the intake port and the damper 26 for the intake duct
Is closed, the damper 13 for the outside air duct, the damper 8 for the bypass, the damper 17 for the outlet, and the damper 3 for the exhaust port are opened, and the blower 9 and the exhaust fan 4 are driven to form the formalin in the clean room 1 and the air conditioner 6. Exhaust port 2 containing air containing gas
And is replaced by fresh outside air taken from the outside air intake duct 11.

At this time, the formalin gas concentration sensor 23 detects that the concentration of formalin gas in the clean room 1 gradually decreases, and when the detection results of all the formalin gas concentration sensors 23 become 0, the clean room 1 Assuming that all the formalin gas has been discharged, the operation returns to the normal air-conditioning operation.

As described above, this air conditioning operation is performed by the bypass damper 8.
Then, the exhaust duct damper 26 is closed, the intake port damper 15 and the outlet damper 17 are opened, the opening degree of the outside air duct damper 13 and the exhaust port damper 3 is set to an appropriate degree, and the blower 9 is driven.

If formalin gas leaks into the air conditioner 6 for any reason during this normal air-conditioning operation, the formalin gas leak is detected by the formalin gas detection sensor 24, and a detection signal is sent to the controller 28. . Therefore, in this case, the intake port damper 15 and the air outlet damper 17 are closed, the outside air duct damper 13, the bypass damper 8, and the exhaust duct damper 26 are opened, and the blower 9 is driven. The formalin gas thus obtained is discharged from the air conditioner 6 through the emergency exhaust duct 25 without being introduced into the clean room 1, and is replaced with fresh air introduced from the outside air intake duct 11.

The series of operations described above may be operated automatically or manually.

In addition, the example using formalin gas as the sterilizing gas has been described, but the present invention is also applicable to phytoncide.

Furthermore, although only one clean room has been described above, it is possible to sterilize a plurality of rooms at the same time, and in that case, the sterilization management can be performed easily and safely.

〔The invention's effect〕

As described above, according to the method for disinfecting a closed chamber according to the present invention, the amount of sterilizing gas supplied into the closed chamber can be controlled to an appropriate amount. It can be something. Also, even if sterilizing gas leaks from the injection nozzle during normal air-conditioning operation by the air conditioner, that is, when a person is in a closed room, this is urgently exhausted from the emergency exhaust duct by the sterilizing gas detection sensor, so that people can be sterilized. The sterilizing gas is prevented from entering the closed chamber, and an effect of preventing a negative effect on the human body by the sterilizing gas can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a basic configuration of a disinfection device for a closed chamber according to the present invention, and FIG. 2 is a configuration diagram showing an embodiment of the present invention. 1 ... clean room, 6 ... air conditioner, 7 ... heat exchanger, 9 ... blower, 10 ... high-performance filter, 18 ... formalin gas generator, 19 ... formalin gas supply pipe, 20
… Valve, 21… Formalin gas injection nozzle, 23… Formalin gas concentration sensor, 24… Formalin gas detection sensor, 28… Controller.

Claims (1)

(57) [Claims] 1. A closed chamber (1) used by a person is supplied with air through an outlet damper (17) and air is taken in from the sealed chamber (1) through an inlet damper (15). Further, an air conditioner (6) for taking in outside air through a damper (13) for outside air duct is used. The air conditioner (6) includes a heat exchanger (7), a blower (9), and a sterilizing gas injection nozzle (21). ), And the sterilizing gas injected from the injection nozzle (21) is supplied from the blower (9) to the closed chamber (1) through the outlet (16), and is supplied to the closed chamber (1) through the air inlet (14). Circulated through the blower (9) to gradually increase the concentration of the sterilizing gas in the closed chamber (1). When the sterilizing gas concentration reaches a predetermined value, the injection of the sterilizing gas from the injection nozzle (21) is stopped. Rutotomoni wherein closing the air outlet damper (17) and the inlet damper (15), sterilizing the sealed chamber (1) in over a predetermined time period,
Then, the damper for an outlet (17), the damper for an outside air duct (13), and the exhaust port (2) provided in the closed chamber (1) are opened, and the damper for an intake port (15) is closed. Outside air is supplied into the closed chamber (1) by the blower (9), and sterilizing gas in the closed chamber (1) is discharged from the exhaust port (2), and is detected by the concentration sensor (23). When the sterilizing gas concentration becomes 0, the operation returns to the normal air-conditioning operation by the air conditioner (6) to air-condition the closed chamber (1). When leaked from (21), this is detected by the sterilizing gas detection sensor (24) provided in the air conditioner (1), and the intake damper (15) and the outlet damper (17) are closed. Closes the space between the air conditioner (6) and the closed chamber (1) And opening the damper for outside air duct (13) to introduce outside air into the air conditioner (6), and an emergency exhaust duct (25) provided in the air conditioner (6).
A method for disinfecting a sealed room, wherein the sterilizing gas is urgently exhausted together with the outside air.