JP2018115487A - Self-standing clean room unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a self-supporting clean room unit installed in an existing building.SOLUTION: The clean room unit comprises a machine room 1 in which an air conditioner main body and the like are installed, a front room 3 which is an entrance space adjacent to the machine room 1, and in a working room 2 and between the front room 3 and the work room 2, a first blocking chamber 4 and a second blocking chamber 5 separating the chambers is installed, and an air conditioner 26 having an air flow adjustment plate 30 is attached to the ceiling of the work chamber 2, and the air conditioner 26 is provided with an opening/closing means for enabling the air conditioner cover 27 to be removed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a self-supporting clean room unit having a partition structure that can be installed in an existing building in a short construction period and can manage cleanliness, temperature, humidity, room pressure, and the like.

  Clean rooms are often used as operating rooms for hospitals, such as when manufacturing semiconductors, when manufacturing food, and when manufacturing pharmaceuticals. The clean room must have a high cleanliness, the temperature and humidity can be kept constant, and the room pressure in the clean room must be configured so that dust, fine particles, bacteria, etc. from the outside do not enter.

  However, in the case of a clean room constructed by a conventional construction method that can be installed at a low cost, problems remain in the management of the cleanliness, room temperature, humidity, and room pressure. For example, a panel constituting a wall of a clean room often has a gypsum board attached to a steel base (LGS), and further a resin material interior material for a clean room such as dust-proof wallpaper.

For this reason, the interior material has been peeled off as it has deteriorated over time, and cracks and the like have occurred in the gypsum board due to external forces such as earthquakes, resulting in failure to perform normal functions as a clean room.
On the other hand, an air conditioner is installed at a predetermined location in the clean room. However, when the air conditioner is installed on the ceiling, it is necessary to perform piping work on the back of the ceiling. Become. Further, in this case, since the size of the ceiling is required to some extent, there is a problem that the installation of the clean room is limited depending on the ceiling height of the entire building.

Conventionally, various clean rooms are known.
The “vector production facility” according to Japanese Patent Application Laid-Open No. 2003-47457 is one of clean rooms and satisfies the physical containment level P2 or P3 defined in the recombinant DNA experiment guidelines and the safety standards defined in GMP. In addition, it is a vector production facility with excellent productivity.
That is, this vector production facility comprises a preparation room, a first airlock front room, a vector production room, a post-airlock room and a sterilization treatment room, and an operator enters the preparation room, and the first airlock front room, Each room is moved in the order of the vector production room and the post-airlock room, and doors are provided between the rooms so as to form a restricted flow line of going out through the sterilization room. An indoor pressure adjusting means for adjusting the indoor pressure is provided.

  A “clean room” according to Japanese Patent Application Laid-Open No. 11-30436 is a clean room that satisfies a new specification required by using a conventional clean room building. That is, the wall between the work room and the general passage is removed, and the work room is expanded to an area that has been a general passage. When there is a part of the floor of the work room that is not a grating structure, the floor is changed to a grating structure and the floor is a perforated free access floor. The ceiling of the work room is the system ceiling of the frame structure, and if necessary, the dust collection filter with a unit size of 600 x 1200 mm can be freely attached and detached, and the ulpa filter is laid in the part where high cleanliness is required. . Panels of the same dimensions that do not allow air to pass through can be attached to the parts that do not require the dust collection filter.

The “clean room partition device” according to Japanese Utility Model Laid-Open No. 8-1501 makes it easy to attach and detach the partition panel, ensure airtightness, cleanliness, etc. Dust emission is reduced. That is, a clean room in which a partition panel is arranged at an appropriate position between a ceiling frame and a ventilated floor framed in a lattice shape and attached with a filter on the frame or in the frame, and a lifting adjustment means is provided at the lower part of the partition panel. A partitioning device, wherein the ceiling frame is formed with a series of ridges extending in the material length direction on the lower surface, and the partition panel is provided with a groove on the upper surface that engages with the ridges in the material length direction. While forming in series, a sealing material is housed in the groove.
"Vector production facility" according to JP-A-2003-47457 "Clean room" according to JP-A-11-30436 "Clean room partition device" according to actual utility hei 8-1501

  Conventionally, various types of clean rooms are known, but the problem to be solved by the present invention is that the cleanliness is much better, the temperature, humidity, and room pressure are easily managed, and it is self-supporting that can be installed by simple construction. Provide type clean room unit.

  The self-supporting clean room according to the present invention has a structure including a machine room, a work room, a front room, a first shut-off room, and a second shut-off room. The machine room is provided with an air conditioner main body and the like, and the door provided in the front room is opened to allow access to the machine room. The machine room has an air conditioner body and other machines necessary for operating an air conditioner installed on the ceiling of the work room and serving as an air outlet in order to maintain the cleanliness, temperature, and humidity of the work room. is set up.

  And the door for entrance is provided in the front room used as the entrance space of a clean room unit. Furthermore, the work room is arranged at a position separated from the front room so that high cleanliness can be maintained, and a first shut-off chamber and a second shut-off chamber are provided between them, and when moving to the work room, When entering the first shut-off room and returning to the previous room after finishing the work, the user can leave the second shut-off room. That is, the process of entering and leaving the work room of the clean room unit is regulated.

  By the way, equipment required for work is arranged on the table in the work room, the space of the work room is kept highly clean, and the temperature and humidity are kept constant. And a flow from the upper part to the floor part is formed in the entire space of the work room. Each room of the clean room unit is partitioned by a partition device, and the partition device has a front-and-back split type structure in which wall panels are arranged in pairs. In addition, a sealing process is performed in order to improve airtightness without leaving a gap in the joint.

  The clean room unit of the present invention has a structure having a machine room, a work room, a front room, a first shut-off room, and a second shut-off room, and the machine room is provided with an air conditioner main body and the like. It is possible to enter and exit from the open door and maintain the equipment without affecting the work room. Equipment for managing the cleanliness, temperature, humidity, room pressure, etc. of the work room is installed in the machine room, and the air conditioner equipped with the airflow adjustment plate installed over the ceiling of the work room is operated. I can do it.

  That is, since the machine room is configured as a part of the clean room unit, it does not require a large-scale construction of the ceiling space. Since the airflow adjusting plate is provided, a uniform airflow can be created in the working chamber. In addition, since the air conditioner cover of the air conditioner can be removed, sterilization and cleaning inside the apparatus can be easily performed.

  Since the clean room unit is composed of a partitioning device, it is easier to disassemble and relocate than a clean room unit with a gypsum board attached to a steel foundation (LGS) of a conventional construction method and a dust-proof wallpaper. I can do it. That is, since walls, doors, and other members can be reused, it is possible to flexibly cope with layout changes and to suppress waste generated during construction.

And since the surface of a wall or a door is bake-finished, the surface of a wall or a door becomes difficult to be damaged, and chemical resistance can be improved. It is also possible to select a free color according to customer requirements. For example, the door surface of the first shut-off chamber and the door surface of the second shut-off chamber can be finished in different colors, so that the entrance into the work room and the exit from the work room can be reliably distinguished without making a mistake.
Furthermore, since these walls have a front and back divided structure, wiring and piping work for the air conditioner main body and other facilities can be easily performed.

Schematic which shows the internal structure of the clean room unit of this invention. The example which shows the lower end part structure of a wall or a partition wall. Wall top and ceiling structure. External view of a clean room unit. Internal structure of the work room of the clean room unit. The longitudinal cross-sectional view of the air conditioner attached to the ceiling. The A section enlarged view of FIG.

FIG. 1 is an embodiment showing the internal structure of the clean room unit of the present invention. In FIG. 1, 1 is a machine room, 2 is a work room, 3 is a front room, 4 is a first shut-off room, 5 is a second shut-off room. Represents each. The machine room 1 and the front room 3 are necessarily adjacent to each other, and a door 6 for entering the machine room 1 from the front room 3 is provided. The front chamber 2 is an entrance space of the clean room unit, and is provided with a door 7 for entering and exiting the outside. Further, a first blocking chamber 4 and a second blocking chamber 5 are arranged between the front chamber 3 and the work chamber 2 and are provided with doors 8 and 9 for entering and leaving the chamber, respectively.
The layout of the present embodiment is only one specific example, and the layout of other rooms is not limited as long as the machine room 1 and the front room 3 are adjacent to each other.

  By the way, the work room for the clean room can be worn in the front room 3 and the work room 2 can be entered through the doors 8 a and 8 b of the first shut-off room 4. Then, when exiting the work chamber 2 after finishing the work, the door 9a, 9b of the second shut-off chamber 5 is moved to the front chamber 3. That is, the process of entering and leaving the front room 3 to the work room 2 in the clean room unit is restricted to one-way.

  In the internal structure of the clean room unit shown in FIG. 1, the outer wall and the partition wall of each room are configured by a partition device. FIG. 2 shows a cross-sectional structure of the lower end portion of the wall in the partition device. Floor rails 12 are laid on the floor surface 11, and adjuster devices 13 are arranged in places on the floor rails 12. The adjuster device 13 includes an adjuster base 14, an adjuster screw 15, and a support plate 16, and a base board 17 is placed on the support plate 16 fixed to the head of the adjuster screw 15 that is screwed onto the adjuster base 14.

  On the baseboard 17, wall panels 18 and 18 stand with a space 19 therebetween. The wall panel 18 has a structure in which a steel plate is bonded to a plate-like member such as a stone board. In this way, the wiring and piping of the equipment can be accommodated in the space 19 by adopting a front and back split type structure. In addition, a sealing process is performed so as not to leave a gap between the boundary between the floor surface 11 and the floor rail 12 and between the baseboard 17 and the wall panel 18.

  FIG. 3 shows a cross section of the upper end portion of the clean room unit, and a ceiling panel 20 is attached to the upper end. Similar to the wall panel 18, the ceiling panel 20 has a structure in which a steel plate is bonded to a plate-like member such as a stone board. In a space 19 formed between the wall panels 18 and 18, a steel base 21 having a square cross section is horizontally disposed, and a ceiling member 22 is attached to the upper ends of both the wall panels 18 and 18 so as to face each other. The ceiling base material 23 is suspended over the wall panels 18 and 18 to be suspended.

  On the lower side of the ceiling base material 23, a plurality of ceiling base materials 24, 24... Made of square pipes are arranged in the vertical direction between the ceiling panel 21. A joint is formed between the ceiling panel 20 and the wall panel 18, and a sealing process is performed to close the gap. By the way, the wall panel 18 and the ceiling panel 20 of the partition device constituting the clean room unit shown in FIGS. 2 and 3 are baked and painted to ensure surface hardness and chemical resistance. The type of baking coating is preferably a urethane-modified acrylic resin system, but is not limited to this as long as it is a baking coating that can ensure cleanliness of the clean room.

FIG. 4 is an external view showing the clean room unit of the present invention. The box is surrounded by wall panels 18, 18... And the upper part is a box covered with ceiling panels 20, 20. Are equipped with lighting fixtures 25, 25.
FIG. 5 shows the state of the work room 2 of the clean room unit. An air conditioner 26 is attached to the center of the ceiling, and the temperature and humidity of the work room 2 are kept constant from the air conditioner 26. Yes. And, in order to prevent the entry of dust, fine particles and bacteria from the outside and keep the cleanliness of the working chamber 2 higher than that of the front chamber 3, the first blocking chamber 4 and the second blocking chamber 5, the chamber pressure becomes slightly higher. So that the air is blowing out.

  FIG. 6 shows a longitudinal section of the air conditioner 26, and the air conditioner cover 27 is attached to the ceiling panel 20 via an angle. The air-conditioning cover 27 has a horizontal bottom plate 28 and inclined side plates 29, 29. The bottom plate 28 and the side plates 29, 29 are provided with a number of holes for blowing out air.

  In the air conditioning cover 27, a plurality of airflow adjustment plates 30, 30... Are arranged, and the airflow adjustment plates 30, 30. It penetrates. The air sent from the air conditioner body installed in the machine room and entering the internal space 32 of the air conditioner 26 shown in FIG. 6 flows through the holes 31, 31... Of the air flow adjusting plates 30, 30. By doing so, it can flow out uniformly from all the many holes formed in the air-conditioning cover 27, and the entire work chamber can be air-conditioned without shifting.

As shown in the enlarged view of part A of FIG. 6 in FIG. 7, the air conditioner 26 is attached so that it can be easily removed. An L-shaped angle 33 is screwed to the ceiling panel 20, and an air-conditioning cover 27 is screwed and attached to a vertical piece of the L-shaped angle 33. Therefore, if the screw is removed, the air conditioning cover 27 is removed. The airflow adjusting plate 30 can be removed from the ceiling by removing the mounting plate 34 screwed to the ceiling.
In the present embodiment, the structure using screws is used as the detachable opening / closing means of the air conditioner 26, but is not limited thereto. For example, means such as a hinge type and a magnet type are possible.

DESCRIPTION OF SYMBOLS 1 Machine room 2 Work room 3 Front room 4 1st shut-off room 5 2nd shut-off room 6 Door 7 Door 8 Door 9 Door
11 Floor
12 floor rails
13 Adjuster device
14 Adjuster stand
15 Adjuster screw
16 Support plate
17 Baseboard
18 Wall panel
19 space
20 Ceiling panel
21 Steel foundation
22 Ceiling members
23 Ceiling substrate
24 Ceiling substrate
25 Lighting equipment
26 Air conditioner
27 Air conditioning cover
28 Bottom plate
29 Side plate
30 Airflow adjustment plate
31 holes
32 Interior space
33 angle
34 Mounting plate

Claims (2)

In a self-supporting clean room unit that is installed in an existing building and the ceiling and walls are configured by a partition device, the clean room unit is a machine room in which an air conditioner main body is installed, an entrance space adjacent to the machine room, and the like. An air conditioner provided with an air flow adjusting plate on the ceiling of the work room, and a work room, further comprising a first shut-off room and a second shut-off room separating the two rooms between the front room and the work room. Is installed,
An air-conditioning cover of the air conditioner is provided with a detachable opening / closing means. 2. The self-supporting clean room unit according to claim 1, wherein the walls constituting the self-supporting clean room unit are divided into front and back surfaces, and the surfaces of the wall panel and the door are baked.