JP2018044748A - Clean room - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a clean room capable of reducing a pollution risk in a clean room, without disturbing airflow in a safe cabinet and without scattering dust from a worker as a dust emission source into the clean room.SOLUTION: A clean room includes an operation device configured to operate a sample, and a clean booth, therein. On an upper side of a worker space in front of the operation device, a first fan filter unit is provided, and a wind speed of the first fan filter unit is made faster than that of its periphery. Outside the clean booth, provided is a circulation flow passage communicating from an opening formed at its lower part to a second fan filter unit arranged at its upper part, and at the lower part of the clean booth, provided is the opening through which air flows into the circulation flow passage from at least a worker side.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a clean room for supplying clean air.

For example, a clean room is used to supply clean air inside a pharmaceutical or cosmetics manufacturing factory.
Conventionally, when a culture vessel for cell manipulation is released, it is necessary to set it as an aseptic control area (grade A) according to “standards for production control and quality control of pharmaceuticals and quasi drugs”. In addition, when introducing a culture container or a medium-containing container into a culture system, it is necessary to install a pass box and a clean booth that realize an aseptic management area. In addition, a cell processing facility that guarantees sterility (hereinafter, CPC: Cell Processing Center) is used as a facility for performing cell manipulation.
In order to realize these aseptic management areas, a clean booth using a fan filter unit that supplies clean air is used.

  In Patent Document 1, for the purpose of providing a clean booth structure that can maintain the internal space in a clean environment and that can be well controlled in the surrounding area, a “local clean environment is used. The provided clean booth structure has a main booth (1) that should keep the internal space in a clean environment, communicates with the main booth via the first opening (2), and via the second opening (4). A sub-booth (3) communicating with the outside, a fan filter unit (5) for cleaning the air sucked from the suction port (5a) and blowing it out from the blow-out port (5b) to the inside of the main booth, and the air inside the sub-booth as a fan And a return air passage (6) for leading to the suction port of the filter unit (summary) ".

JP 2014-5992 A

Eliminate the risk of contamination by connecting an open safety cabinet and clean booth within the CPC, and moving a series of culture vessels up to cell culture, medium replacement, and packing within Grade A (high cleanliness). Can do.
FIG. 4 shows this prior art. The clean room 1 accommodates CPC. The CPC is configured by connecting a clean booth 21 on the receiving side, a safety cabinet 3 and a clean booth 22 on the outlet side. In the clean booth 21 on the receiving side, the cell culture container is received and temporarily stocked. Thereafter, the cell culture container is moved to the safety cabinet 3 to perform cell operation operations such as inspection and medium exchange. Then, it moves to the clean booth 22 on the exit side, and performs operations such as packing, culturing, and centrifugation. Since this device uses an open safety cabinet, the operability is good, the size is small, and the sterilization time is shortened. In the figure, arrows indicate the air exhausted from the clean booths 21 and 22.

  However, since the exhaust air from the clean booths 21 and 22 and the safety cabinet 3 diffuses into the CPC, the airflow in the CPC may be disturbed and dust may float. Further, the exhaust air from the clean booths 21 and 22 disturbs the airflow in the safety cabinet 3 that performs cell operation. In addition, the worker 5 works while standing in front of the safety cabinet 3, but there is a risk that dust from the worker who is one of the dust generation sources will be scattered in the CPC.

  Patent Document 1 describes a clean booth structure that performs good pollution control even in the peripheral area of the clean booth, but does not consider the dust generated by workers.

  It is an object of the present invention to provide a clean room that can reduce the risk of contamination in a clean room without disturbing the airflow in the safety cabinet and without scattering dust from an operator who is a source of dust.

  In order to solve the above-described problems, in the present invention, a circulation channel is provided outside the clean booth, and an opening is provided on the worker side, thereby collecting dust from the worker. Further, by increasing the wind speed of the fan filter unit in the space where the worker in the clean room is present, a flow path is formed that leads to a positive pressure from the surroundings and leads to the circulation path of the clean booth.

An example of the “clean room” of the present invention is a clean room having an operation device for operating a sample and a clean booth inside,
A first fan filter unit is provided on the upper side of the operator space in front of the operating device, and the wind speed of the first fan filter unit is made larger than the surroundings,
The clean booth is provided with a circulation channel on the outside thereof, which is connected to the second fan filter unit arranged at the upper part from the opening formed at the lower part,
In the lower part of the clean booth, an opening through which air flows into the circulation channel from at least an operator side is provided.

  According to the present invention, it is possible to reduce the risk of contamination in the clean room without disturbing the airflow in the safety cabinet, and without scattering dust from the worker who is the source of dust.

It is a top view which shows the outline of the clean room of Example 1 of this invention. It is sectional drawing which shows the clean booth by the side of reception of Example 1 of this invention. It is sectional drawing which shows the clean booth by the side of the exit of Example 1 of this invention. It is sectional drawing which shows the clean booth on the receiving side of Example 2 of this invention. It is sectional drawing which shows the clean booth by the side of the exit of Example 2 of this invention. It is a top view which shows the outline of the clean room of the prior art of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that in the drawings for describing the embodiments, the same components are denoted by the same names and reference numerals as much as possible, and the repeated description thereof will be omitted.

The clean room of Example 1 of this invention is shown to FIGS. 1-2B.
FIG. 1 is an example of a schematic plan view of a clean room according to the first embodiment. Example 1 is applied to CPC (cell processing facility). In FIG. 1, the CPC is configured by connecting a clean booth 21 on the receiving side, a safety cabinet 3 which is an example of an operating device for operating a sample such as a cell, and a clean booth 22 on the outlet side. As shown in the figure, the receiving-side clean booth 21, the safety cabinet 3, and the outlet-side clean booth 22 are arranged in a U-shape. In front of the safety cabinet 3, an operator space 4 where an operator is present is set. Here, the clean booth refers to a device that maintains cleanliness of the space in the booth by supplying clean air using a fan filter unit or the like. In this embodiment, a safety cabinet is used as the operating device, but an isolator may be used as the operating device for operating the cells.

  In the present embodiment, a fan filter unit 7 (first fan filter unit) is provided on the upper side of the worker space 4 where the worker 5 is located. Compared with a fan filter unit (not shown) provided on the cabinet 3, the wind speed of the fan filter unit 7 provided on the worker space 4 where the worker is present is increased so that the worker space 4 where the worker is present is positive. Pressure.

  Next, in the clean booth 2, a structure for forming a circulation flow path is provided on the outside, and an opening is provided on the worker side, whereby dust emitted from the worker is collected. Therefore, the atmospheric pressure in the main booth 14 in the clean booth is set to a positive pressure of about +20 to 30 (Pa), and the positive pressure in the CPC is set to about +10 to 20 (Pa). Moreover, dust is collected by making the inside of the circulation flow path (chamber) 15 outside the clean booth 2 have a negative pressure of about −10 to 20 (Pa).

  2A and 2B show examples of the clean booths 21 and 22 shown in FIG. 2A corresponds to the clean booth 21 on the receiving side, and FIG. 2B corresponds to the clean booth 22 on the outlet side. In FIGS. 2A and 2B, arrows indicate the air flow.

The main booth 14 in the clean booth 2 is 20-30 (by clean air supplied through the filter 13 from the fan 12 of the fan filter unit 11 (second fan filter unit) installed on the ceiling surface of the clean booth. The positive pressure of Pa).
A chamber 15 serving as a circulation channel is provided outside the main booth 14 using a stainless plate, an acrylic plate, or the like. In addition, these plates have openings inside and outside the clean booth. That is, an inner opening 16 is provided on the main booth 14 side inside the chamber, and an outer opening 17 is provided outside the chamber. The stainless steel plate and the acrylic plate can be replaced as long as they are not deformed by the exhaust air velocity, such as a vinyl chloride plate or a glass plate.
The chamber 15 provided on the outside with a stainless steel plate, an acrylic plate or the like has a negative pressure of about −10 to 20 (Pa) due to the suction of air from the fan 12 of the fan filter unit 11.

  In the clean room 1, only the fan filter unit 7 installed on the worker space 4 is operated at a high rotational speed, the wind speed is increased, and the worker space 4 is set to a positive pressure of about +10 to 20 (Pa).

  Air flows from positive pressure to negative pressure. Therefore, the exhaust of the clean booth 2 sent by the fan filter unit 11 flows through the inner opening 16 into the negative pressure chamber 15 installed outside the main booth 14. Further, the air in the clean room 1 flows from the positive pressure in the worker space 4 to the negative pressure chamber 15 installed outside the clean booth through the outer opening 17. The air in the negative pressure chamber 15 passes through the filter 13 by the fan 12 installed in the fan filter unit 11 to remove dust, and circulates in the clean booth 2 as clean air.

  According to the present embodiment, the chamber 15 is provided outside the clean booth 2 and the circulation passage returning from the lower side of the main booth to the fan filter unit 11 through the chamber 15 is formed. 1 is not discharged, and the airflow in the safety cabinet 3 is not disturbed. Further, by increasing the pressure in the worker space 4 where the worker who is the source of dust is higher than the surroundings, the dust generated by the worker can be collected by the circulation channel outside the clean booth 2. The dust floating in the clean room 1 can be collected in the filter 13 of the clean booth 2 in the shortest time.

3A and 3B show a clean booth according to the second embodiment of the present invention. 3A shows the clean booth 21 on the receiving side, and FIG. 3B shows the clean booth 22 on the outlet side.
In the clean booth of the first embodiment, the outer opening 17 is provided only on the worker space side in the lower part of the clean booth. However, in the present embodiment, the outer opening 17 is provided on the worker space side and the opposite wall side. Is provided. For example, by setting a positive pressure of about +10 to 20 (Pa) in the CPC and a negative pressure of about −10 to 20 (Pa) in the chamber 15, dust on the wall side in the clean room also passes through the outer opening 17. It can collect | recover by a circulation flow path.

  According to the present embodiment, not only dust generated by an operator but also dust on the wall side can be collected. On the other hand, in the clean booth according to the first embodiment, the outer opening 17 is provided only on the worker space side, so that dust generated from the worker can be effectively collected.

DESCRIPTION OF SYMBOLS 1 Clean room 2 Clean booth 21 Reception side clean booth 22 Outlet side clean booth 3 Safety cabinet 4 Worker space 5 Worker 6 Second fan filter unit 7 First fan filter unit 11 Fan filter unit 12 Fan 13 Filter 14 Main booth 15 chamber (circulation flow path)
16 Inner opening 17 Outer opening

Claims (5)

It is a clean room with an operating device for operating the sample and a clean booth inside,
A first fan filter unit is provided on the upper side of the operator space in front of the operating device, and the wind speed of the first fan filter unit is made larger than the surroundings,
The clean booth is provided with a circulation channel on the outside thereof, which is connected to the second fan filter unit arranged at the upper part from the opening formed at the lower part,
A clean room characterized in that an opening through which air flows into the circulation channel from at least the worker space side is provided at the lower part of the clean booth. In the clean room according to claim 1,
It has a clean booth on the receiving side, an operating device, and a clean booth on the exit side.
The clean room, wherein the receiving-side clean booth, the operating device, and the outlet-side clean booth are connected in a U-shape. In the clean room according to claim 1,
The operating device is a safety cabinet or an isolator. In the clean room according to claim 1,
In the clean booth, the main booth on the lower side of the second fan filter unit is set to a positive pressure, the inside of the circulation channel is set to a negative pressure, and the air exhausted downward from the second fan filter unit is A clean room which returns to the second fan filter unit through the circulation flow path and sucks ambient air into the circulation flow path from an opening at a lower portion of the clean booth. In the clean room according to claim 4,
The clean room is characterized in that the opening at the bottom of the clean booth is open only to the worker space side.

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