JP3878773B2 - Construction method of airtight holding structure in fumigation room - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention is a fumigation chamber for keeping a gas body for quarantine used for plant quarantine based on imported phytosanitary regulations airtight for a certain period of time.Airtight holding structure inIt relates to the construction method.
[0002]
[Prior art]
  The inspection standard of the fumigation room according to the above-mentioned import plant quarantine regulations is as follows.
    Rank Gas retention rate Main processed materials Gas used
    Class A 70 (%) or higher
    B grade 55 (%) or more Cereal Methyl bromide
    Class C 40 (%) or more Cereal Methyl bromide
[0003]
  In addition, a gas retention rate means the residual density | concentration 48 hours after administering 10 (g) methyl bromide per cubic rice with respect to a fumigation chamber capacity | capacitance. At this time, the gas pressure applied to the building constituting the fumigation chamber is 40 (mm) water column (0.004 (kgf / cm²))
  According to the above-mentioned import plant quarantine regulations, the fumigation test is conducted after the facilities are completed, but if a defect is found in the airtight layer at this point, interior materials, machinery and equipment are already installed, Since the airtight holding layer cannot be repaired unless these are removed, practically it is impossible to repair after the completion of construction.
  Therefore, in reality, after the airtight holding layer is completed before the interior materials and machinery and equipment are installed, the air pressure of the water column 200 (mm) is applied to check the leakage of the airtight holding layer, and the detected defective part is corrected. I am doing so. In addition, the structure is also structured to withstand the pressure.
[0004]
  As an airtight holding structure of this type of fumigation chamber, when divided according to the material forming the airtight holding layer,
(1) What formed what was called FRP lining which laminates the polyester resin reinforced with the glass cloth, and formed the airtight holding layer.
(2) An airtight holding layer is formed by applying a urethane caulking material to a place where there is a risk of air leakage and spraying urethane foam on site.
(3) A rubber asphalt emulsion film formed with an airtight holding layer.
What is shown to said (1)-(3) is known, and the construction method is also completely different with the material used.
[0005]
  That is, as shown in the above (1), in the method of forming an airtight holding layer by applying FRP lining and forming a heat insulating material layer thereon, as shown in FIGS. It is configured as described in (1-1) to (1-2).
(1-1) After the inside of the fumigation room is dried, the bean plate-like portion, the severe stepped portion, the smooth portion, etc. on the concrete surface are repaired with mortar or the like. In this case, the base of the bolt protrusion 18 is sealed with a urethane coking material (indicated by reference numeral 20 in FIG. 10B).
(1-2) Next, an organic solvent-based primer is applied to the entire surface, and after drying, the polyester resin 22, the glass fiber 23, the polyester resin 22, the glass fiber 23, and the polyester resin 22 are laminated in this order. The iron penetration part 19 (FIG. 10 (B)) such as the door frame, the pipe penetration part, and the air supply / exhaust port is laminated with glass fiber indicated by reference numeral 24 in advance by the same operation with a predetermined width. Since the above lamination is performed, a double lamination is partially performed. The bolt base is fastened with a rubber packing 25 with a nut 19.
[0006]
  Further, as shown in the above (2), in the method of forming an airtight holding layer by applying a urethane-based caulking material to a place where there is a clear possibility of air leakage and spraying a foamed urethane raw material on site, FIG. As shown, it is configured as described in the following (2-1) to (2-2).
(2-1) As shown in FIG. 11, when the building is a steel structure, there is a risk of air leakage, such as the welded part with the iron door frame, the area around the air supply / exhaust hole, the pipe penetrating part, and the iron support hardware projection part. In some places, urethane caulking material is applied to seal the voids.
(2-2) Connection between base walls 1 composed of precast concrete board (PC board), cellular concrete board (ALC board), etc., large gap S1 between deck plate 16 and steel beam 17, PC board The air gap S2 between the ALC plate and the steel frame, and other general plane portions are formed as the airtight holding layer 2 only by the spray layer of the in-situ foamed urethane raw material, and are also used as the heat insulating material layer 3.
[0007]
  Further, as shown in the above (3), in the method of forming an airtight holding layer with a rubber asphalt emulsion film, as shown in FIGS. 9 (a) and (b), the following (3-1) to (3-4) ).
(3-1) For the ceiling surface and the vertical wall surface, a water-soluble primer is applied to the construction surface, and after drying, a rubber asphalt emulsion 27 is attached to the joint portion with the penetrating part hardware 19 such as a corner and a door frame. Prior to spraying, the rubber asphalt emulsion coating material 26 is applied using a trowel or a spatula (FIG. 9B). Bolts 18 attached to hold various equipment, piping, etc., apply a urethane-based caulking material to the base, and apply a rubber asphalt emulsion coating material 26 thereon.
(3-2) This portion is appropriately reinforced with a polyester cloth or the like. A rubber asphalt emulsion 27 is sprayed over the entire surface to form the airtight holding layer 2.
(3-3) Furthermore, a seamless foamed urethane raw material was sprayed onto the upper portion of the airtight holding layer 2 to form the heat insulating material layer 3, and at the same time, a structure that also expected an airtight effect was formed.
(3-4) For the floor surface 10, after reinforcing the corners, an aqueous primer is applied, a rubber asphalt emulsion coating material 27 is applied to form an airtight layer, and the floor heat insulating material layer 29 and the floor are formed thereon. A structure for placing the pressing concrete 14 was configured.
[0008]
[Problems to be solved by the invention]
  As described in the above (1), the conventional technology for constructing an airtight holding layer constructed using FRP is strong in strength and has an airtight effect of the above-mentioned in-situ foamed urethane system and rubber asphalt emulsion system. Although a favorable airtight holding layer can be obtained as compared with the case of using one, there are problems described in the following (1-i) to (1-ni).
(1-A) Since the FRP application work is a so-called hand lay-up method, it requires a great deal of labor and time. In particular, when construction is performed on a ceiling surface that is not suitable for human work, there are many difficult tasks with an unreasonable posture, which requires a significant amount of work and time.
(1-b) Since the roll-like glass fiber is extended and attached to a plane, it is necessary to make the work scaffold relatively large and large so that this work can be performed efficiently, The assembly and disassembly of the scaffold also requires a great deal of work.
(1-c) The whole process is an operation using an organic solvent, and since the operation is often performed in a space where the ventilation is relatively poor, the odor of the organic solvent is likely to be smoked, and there is a concern about adverse effects on the human body. Therefore, large-scale ventilation equipment is required.
(1-d) The construction cost is higher than the in-situ urethane-based airtight holding layer and the rubber asphalt emulsion-based airtight holding layer.
[0009]
  As described in the above (2), the connecting portion is airtight only with a urethane-based caulking material, and the flat portion is airtightly formed by an integrally formed in-situ foam blowing urethane layer. Since the sprayed urethane layer serves both as an airtight holding layer and a heat insulating material layer, it is useful in that it can reduce the man-hours and construction period and can be constructed relatively inexpensively compared to the method (1). On the other hand, there are defects described in (2-i) to (2-c) below.
(2-i) The structure of the building to which this method is applied is composed of several types of materials with different expansion coefficients as shown in FIG. 11, and compared to a reinforced concrete building,
There are many connecting parts, and it is easy to move between the connecting parts under the influence of physical vibration due to cargo handling etc. of adjacent parts, the influence of solar heat, and the pressure during the airtight test, and the members constituting the airtight holding layer ( Unreasonable stress may act on the in-situ foamed urethane and cracks may occur.
(2-b) Compared to reinforced concrete buildings, the rigidity against vibrations such as earthquakes is low, and when there is a vibration, movement occurs between connecting parts. As a result, the strength of urethane foam as an airtight retaining layer is weak In combination with this, there is a possibility that the hermetic holding layer may crack.
(2-c) A wide range of connecting parts, and also the application of mortar and urethane caulking material to gaps that are not suitable for airtight structures such as connecting parts of ceiling deck plates and cut connecting parts of ALC plates, etc. Since construction is a work at a high place, it is often difficult.
(2-D) It is not impossible to make a smooth repair finish with mortar etc. carefully with the above voids, and to install a rubber asphalt emulsion airtight layer or FRP airtight layer on one side, but the quantity is complicated Since the processing finish of the connecting portion having a simple shape requires a great deal of labor and time, and the reliability after finishing is low, it is currently applied only to simple Class B and Class C rooms.
[0010]
  Further, as in the prior art described in (3) above, when the airtight holding layer is constructed using a rubber asphalt emulsion material, the airtight holding layer is formed using the FRP lining as described above. It is possible to significantly reduce the man-hours and work period required to form the retaining layer, and it is more reliable as an airtight retaining layer than when an airtight retaining layer is formed using in-situ urethane foam materials. Although it is useful in that the holding layer can be formed, there are problems in the following points.
[0011]
  First, a basic technique in the case of forming an airtight holding layer using a rubber asphalt emulsion will be described.
(3-I) The rubber asphalt emulsion basically contains moisture of about 20 (%) with a solid content of about 80 (%). Since the water evaporates and the emulsions are polymerized to form an elastic film, the behavior of water around 20% plays an important role in forming an airtight holding layer. .
  That is, if the thickness of the coated surface is good in micron units as in the case of water-based paint, it may be simply coated and the surface naturally dried. However, in order to form an airtight holding layer, 2 to 3 ( mm) is required.
  Although it is possible to apply it thickly if it is limited to a horizontal floor surface, etc., `` sagging '' of rubber asphalt emulsion due to its own weight occurs on the ceiling surface and vertical wall surface, etc., and physical application over a certain thickness In addition, although it is theoretically possible to apply it in a thin film as many times as possible, it is not realistic from the viewpoint of man-hours and construction periods.
(3-B) Here, the case where the vertical wall surface and the ceiling surface are constructed using the rubber asphalt emulsion is described as follows.
  One side is sprayed with a rubber asphalt emulsion from a multi-head spray spray port as shown in FIG. 7, and the other is sprayed with a polyvalent metal salt solution, for example, an aqueous calcium chloride solution.
Then, contact and mixing in the air and on the surface to be irradiated, the stabilizer in the emulsion system is almost instantaneously destroyed. As a result, gelation increases the viscosity of the system, and a thick film can be formed by spraying. The mechanism leading to the film formation is as schematically shown in FIG.
  Explaining this film formation, FIG. 8 (a) shows a state immediately before the rubber asphalt emulsion and the polyvalent metal salt solution as the curing agent are ejected and collide, Collision in Fig. (B), mixing in each other in (c), condensing after mixing starts in Fig. (D), and condensation proceeds as shown in Fig. (E). ), The water evaporates and separates.
  The same figure (G) shows the process where the mixed particles of the rubber asphalt emulsion and the polyvalent metal salt solution adhere to the base wall and agglomerate to separate the water. Thus, a dry film forming state is shown.
(3-c) The structure of the spray spraying device used for the wall surface and ceiling surface and the spray mixing conditions are as shown in FIG. The sprayed rubber asphalt emulsion and the polyvalent metal salt solution are contact-mixed in the air between the spray port and the irradiated surface, and instantly undergo a process of proper gelation. It is necessary to keep this distance properly within an error range of about 10 cm at the maximum. That is, when the distance is longer than the appropriate distance, gelation proceeds excessively, the viscosity of the system rises more than necessary, and a film with many voids is formed.
On the other hand, when the distance is shorter than the appropriate distance, the gelling does not proceed and adheres to the irradiated surface, resulting in “sag” due to its own weight.
  Further, it is necessary to hold the spray port as perpendicular to the surface to be irradiated as possible. That is,
If they are not held at right angles, there will be a difference in the reach of the mixed system to the irradiated surface. If the distance is not accurate, the same problem as when the above-described error occurs is caused. However, operating the spraying device manually on the scaffold is extremely difficult to carry out by holding it completely equidistantly and at a right angle for reasons of weight, environment, and device structure. This is a major disadvantage in terms of work efficiency.
(3-D) The film sprayed on the vertical wall surface and the ceiling surface is schematically shown in FIG. 8 described above. Since the vertical wall is tightened by its own weight, excess water from the rubber asphalt emulsion exudes relatively well, but the ceiling surface is not tightened by its own weight, so the spraying device is held at an equal distance and at a right angle to ensure proper gelling. If the chemical system is not attached, the surplus water does not exude well and the operation of the spraying device requires a very high craftsmanship.
  In addition, it is necessary to pay close attention to the environmental conditions after spraying, particularly drying. Rapid drying may cause a film to be formed on the surface and there is no place for excess water, and if it is severe, it may peel off.
  Further, a natural dry rubber asphalt emulsion paint is sprayed on the entire surface of the membrane for the purpose of closing the excess water exudation hole. In addition, when the floor pressing concrete is placed after the surface is properly dried, the rubber asphalt film may be eluted by water vapor and dropped onto the floor surface.
(3-e) Although the spraying device is suitable for spraying a flat surface, it is difficult to spray uniformly the corners of the entrance, the bases of the protrusions such as piping, bolts and the like due to the structure of the device.
  Therefore, as shown in FIGS. 9A and 9B, first, a paste-like rubber asphalt emulsion is applied and chamfered to eliminate local voids. Further, the corners are coated with a turnback width of about 100 (mm) to 300 (mm) and a thickness of 2 to 3 (mm), and a gauze-like polyester cloth or the like is put into the corner. By adding this work, an airtight holding layer is formed in the corners in advance, so the rubber asphalt emulsion can be sprayed only on the horizontal plane, avoiding the slanting operation that causes problems. Is done.
  However, it can be easily understood from the fact that the addition of this work requires a lot of labor and drying time, and the complicated work described above.
(3-F) The solvent of the primer used in advance on the spray film forming surface of the rubber asphalt emulsion is water, and the main composition is latex rubber, and a very thin rubber film is formed on the concrete surface. Become. Considering the adhesion between the rubber asphalt emulsion forming film and the concrete surface, the adhesion between the primer and the formed film is not a problem with the secondary bond acting between the molecules of the same kind of material. The problem is the adhesion between the concrete surface and the primer. The concrete surface is not discussed in general depending on the dry conditions at the site, but it is thought that there are many parts that mechanically adhere to the uneven surface of the concrete.
  In general, in order to bring adhesive (primer) molecules sufficiently close to the adherend, it is necessary to “wet” the adherend surface well in a liquid state. It is said that the “wetting property” is better when the surface tension of the solvent is smaller.
  The surface tension of various solvents is 72 (dyne / cm for water)²), Various organic solvents are 20-30 (dyne /²) Water is about 3 times that of organic solvents, and “wetting” is poor. Further, the rubber asphalt emulsion sprayed in the form of gel is poor in fluidity and easily generates voids, so that the measures as described in (e) are taken. Also, the uneven surface of the concrete surface, for example,
The joints, separator marks, cracks, bean-plate parts, etc. are smoothed with resin mortar, etc., but for empirical reasons, such places are sprayed after applying paste-like coating material. It is carried out. Such measures have been taken to improve the adhesiveness, but such a large number of parts require a large number of man-hours.
(3-G) Formation of a rubber asphalt emulsion airtight holding layer on a horizontal surface (floor surface), as shown in (Fig. 8), mixing with a curing agent etc. on site according to the drying condition of the concrete surface on site, stirring and mixing Although the method of thickly applying the gentle gelling type coating material to perform at once is taken,
  〇 It is difficult to completely remove dust on the floor surface that impedes “wetability”.
  〇 Since the moisture content of the floor concrete surface during construction varies depending on the location, there is a concern that there will be a difference in the evaporation of surplus water and a uniform finish will not be achieved.
  〇 When mixing and mixing, some air bubbles are unavoidable, the system drying condition, viscosity increase, water absorption to the substrate, surface film condition, etc. act in combination and pinholes and craters Shaped parts occur.
  〇 Careful attention is required to ensure that the air flow after construction dries only the surface early and does not produce a film. If this is neglected, there will be no escape space for excess water, which may cause blistering depending on the degree of water absorption of the substrate.
There are problems as described above. In this way, the on-site environment is non-uniform in place and changes every moment, so it is necessary to use a rubber asphalt emulsion layer as an airtight holding layer for a uniform finish without pinholes or craters. Was extremely skilled.
[0012]
  The present inventionPurpose ofFor steel structures that are difficult to form an advanced airtight retaining layer,Adopt material with short curing time and good workabilityPossible to apply airtight holding structure with excellent airtight holding functionThe point is to provide a construction method.
  Still another object of the present invention is to provide a construction method capable of finishing a spraying work using a super-fast-curing urethane elastic material with a required layer thickness with high accuracy in a state where there is little spraying unevenness. .
[0013]
[Means for Solving the Problems]
  The technical means of the present invention taken to achieve the above object are as follows.
[0014]
  Claim 1The configuration of the invention according to the present invention is a construction method of an airtight holding structure in a fumigation chamber composed of a steel structure constructed by attaching a deck plate and a base wall material constituting a ceiling surface to a receiving structure steel frame,
  For fumigation chamber formationRecessed portions such as constrictions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material on the inner wall surface sideIn addition, a filling material spraying step for forming a filling material layer by spraying in-situ foamed urethane raw material in advance so as to fill the recessed portion,
  The super-fast curing urethane elastic material is sprayed and applied from the indoor side of the fumigation chamber to the area where the filler layer sprayed in the filler spraying step exists, and partial reinforcement for preventing air leakage on a part of the fumigation chamber wall A partial reinforcing portion forming step for forming a portion;
  An airtight holding layer forming step of forming an airtight holding layer by spraying and applying the ultrafast curing urethane elastic material to the entire wall of the fumigation chamber including the area where the partial reinforcing portion is provided,
  In the filler spraying step, the filler layer is constituted by foaming of the in-situ foamed urethane raw material sprayed,
  In the partial reinforcing portion forming step, a polyisocyanate component, a two-component ultrafast curing urethane elastic material composed of a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three The partial reinforcement part is made up of
  In the airtight holding layer forming step, a polyisocyanate component, a two-component ultrafast curing urethane elastic material composed of a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three The airtight holding layer is composed of
  It is characterized in that a partial reinforcing portion forming step is performed after the filler spraying step, and an airtight holding layer forming step is thereafter performed.
  Claim 2The configuration of the invention according to the present invention is a construction method of an airtight holding structure in a fumigation chamber composed of a steel structure constructed by attaching a deck plate and a base wall material constituting a ceiling surface to a receiving structure steel frame,
  For fumigation chamber formationRecessed portions such as constrictions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material on the inner wall surface sideAnd, the filler spraying step of spraying the in-situ foamed urethane raw material in advance to the entire inner wall surface including the flat portion other than the recessed portion existing location, and constituting the filler layer,
  An airtight holding layer forming step of forming an airtight holding layer by spraying and applying an ultrafast curing urethane elastic material to the entire fumigation chamber wall provided with the filler layer,
  In the filler spraying step, the filler layer is constituted by foaming of the in-situ foamed urethane raw material sprayed,
  In the airtight holding layer forming step, a polyisocyanate component, a two-component ultrafast curing urethane elastic material composed of a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three The airtight holding layer is composed of
  It is characterized in that an airtight holding layer forming step is performed after the filler spraying step.
  Claim 3The configuration of the invention according toClaim 1 or 2In the method for constructing the airtight holding structure of the fumigation chamber described above, the airtight holding layer forming step is performed by spraying a plurality of layers of different colors by spraying a raw material of ultrafast curing urethane elastic material colored in a plurality of different colors. There is a feature.
  Claim 4The construction of the invention according to the construction method of the airtight holding structure of the fumigation chamber
  After confirming the drying of the base wall for forming the fumigation chamber, the primer application step of applying an organic solvent-based primer to the floor wall constituting the floor surface of the fumigation chamber, and then spraying and applying the ultrafast curing urethane elastic material An airtight holding layer forming step for forming an airtight holding layer, an adhesive sheet with an aluminum foil is attached to the upper side of the airtight holding layer, and the peripheral part of the adhesive sheet with an aluminum foil is integrated with the airtight holding layer It is characterized in that it comprises a floor surface moisture-proofing step in which the ultrafast curing urethane elastic material is sprayed on the upper peripheral edge of the adhesive sheet with aluminum foil.
[0015]
  [Operation]
  The effects of taking the above technical means are as follows.
(1) As shown in claim 1, an airtight holding layer is formed on the interior wall side of the base wall constituting the fumigating chamber or inside the wall thickness having the airtight holding layer, and the airtight holding layer is used for spraying. Since the ultrafast curing urethane elastic body is used, an airtight holding layer having excellent airtightness can be formed as compared with the case where the airtight holding layer is formed of a urethane foam sprayed urethane layer.
  Compared with the case where an airtight holding layer is formed by FRP lining, it is possible to secure an airtightness that is inferior, but by hand lay-up that requires a large amount of labor and time in an unreasonable working posture. Instead, it can be applied by spraying and in a short time, so that it can be greatly improved in terms of workability.
  In addition, compared with the case of using a rubber asphalt emulsion layer, since the processing operation for the corners before the airtight retaining layer is sprayed can be performed by spraying, the workability is first improved in this respect. In addition, there is no evaporation process of excess water compared to an airtight layer using rubber asphalt emulsion, and strict environmental management from spraying to dry film formation becomes unnecessary. Accordingly, it is possible to avoid a defective finish of the airtight holding layer due to a poor evaporation condition, and it is possible to omit a waiting time such as a dry film forming which requires 2-3 days after the construction. Therefore, an airtight holding structure having a highly functional airtight holding layer can be constructed while significantly reducing the number of man-hours and work periods as compared with the case where the airtight holding layer is formed of a rubber asphalt emulsion layer.
[0016]
(2)Claim 1As shown in FIG. 2, the material constituting the airtight holding layer is a two-component ultra-fast curing urethane elastic material comprising a polyisocyanate component, a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three Therefore, it is possible to shorten the time when the touch can be performed after the completion of the reaction and the curing time, thereby eliminating the actual drying waiting time.
[0017]
[0018]
(3) Claims 1 and 2As shown in FIG. 2, the in-situ foamed urethane raw material is sprayed in advance so as to fill the recessed portion such as a constricted portion or a deep gap in the inner wall surface for forming the fumigation chamber to form a filler layer. Thus, a suitable airtight holding layer for the steel structure can be formed. In other words, because of the complicated structural reasons, steel structures cannot be adequately repaired by the conventional foundation, and fumigation with a low degree of airtightness can be achieved by simply replacing the in-situ foamed urethane as an airtight retaining layer. Although the chamber was built, in the present invention, the in-situ foamed urethane raw material was previously filled in the gap portion to smooth the fumigation chamber surface, and the super fast curing urethane elastic material was sprayed over the entire surface from above to achieve a high degree of airtightness. It became possible to build a fumigation chamber.
[0019]
[0020]
(4) Claim 1As shown in FIG. 3, a filler blowing step for forming a filler layer by spraying in-situ foamed urethane raw material in advance so as to fill the recessed portion in the inner wall surface for forming the fumigation chamber constituted by the steel structure, and the presence of the filler layer A partial reinforcing portion forming step for forming a partial reinforcing portion for preventing air leakage on a part of the fumigation indoor wall by spraying and applying the ultrafast curing urethane elastic material from the indoor side to the range to be provided, and a partial reinforcing portion And the air-tight retaining layer forming step of forming the air-tight retaining layer by spraying and applying the ultra-fast curing urethane elastic material to the entire wall of the fumigation chamber including the range. In the filler spraying step, The filler layer is formed by foaming, and in the partial reinforcing portion forming step and the airtight holding layer forming step, two components comprising a polyisocyanate component, a polyol component and a polyamine component In the ultra-fast curing urethane elastic body raw materials,Contains no blowing agentDensity 0.8-1.4g / cm ^Three Since the partial reinforcing portion and the airtight holding layer are constituted by the above, the filler layer in the recessed portion and the partial reinforcing portion having the airtight holding function are the super fast curing urethane elastic body that becomes the airtight holding layer. It will be formed as a base. Therefore, an airtight holding and holding structure having high airtightness performance can be applied to the fumigation chamber constituted by the steel structure.
[0021]
(5) Claim 2In-situ foamed urethane raw material in advance on the entire inner wall surface including concave portions such as constrictions and deep gaps in the inner wall for forming the fumigation chamber, and flat portions other than the concave portions The filler spraying step for forming the filler layer by spraying, and then the airtight retention layer forming step for forming the hermetic retention layer by spraying and applying the ultrafast curing urethane elastic material, in the filler spraying step, The filler layer is formed by foaming of the sprayed on-site foamed urethane raw material, and in the airtight holding layer forming step, a two-component ultrafast curing urethane elastic material composed of a polyisocyanate component, a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three Since the airtight holding layer is constituted by the above, the filler layer to the recessed portion is formed as a base of the ultrafast curing urethane elastic body that becomes the airtight holding layer. Therefore, for example, when the connection part of a steel structure that constitutes a fumigation chamber is affected by physical vibrations due to cargo handling, etc. of adjacent parts, the influence of air pressure inspection, the influence of solar heat, or the influence of an earthquake, Although there is a tendency for some movement to occur, it is alleviated by the cushioning properties of the filler layer, so that it is possible to avoid applying a large local burden on the hermetic retention layer and to maintain a stable hermetic performance. The construction method of the airtight holding structure that can be obtained.
[0022]
(6) Claim 3As shown in FIG. 4, the airtight holding layer forming step of spraying and applying the ultrafast curing urethane elastic material to form the airtight holding layer is performed by spraying the ultrafast curing urethane elastic material having a plurality of different colors. Since the coating is performed separately for a plurality of layers, it is easier to visually recognize the sprayed state as compared with the case of spraying the colorless and transparent ultrafast curing urethane elastic material.
  Therefore, it is easy to check whether or not the entire surface to be sprayed is sprayed evenly by coloring the ultrafast curing urethane elastic body sprayed before.
  In addition, since the ultra-fast curing urethane elastic material for spraying previously sprayed and the ultra-fast curing urethane elastic material for spraying later sprayed in different colors, the surface of the surface to be sprayed is sprayed later. By spraying the super fast curing urethane elastic material for spraying so as to be overlaid, it is possible to easily form an airtight holding layer having a stable layer thickness.
[0023]
(7) Claim 4As shown in FIG. 4, a primer coating step for coating an organic solvent-based primer on the floor wall surface constituting the floor surface of the fumigation chamber, and then an air-tight retaining layer that forms a hermetic retaining layer by spraying and applying an ultrafast curing urethane elastic material. Affixing an aluminum foil pressure-sensitive adhesive sheet on the upper side of the airtight holding layer and forming the aluminum foil pressure-sensitive adhesive sheet on the upper edge of the aluminum foil pressure-sensitive adhesive sheet so as to be integrated with the airtight holding layer at the peripheral edge of the aluminum foil pressure-sensitive adhesive sheet; It consists of a floor moisture-proof process that sprays the raw material of ultra-fast curing urethane elastic body, so that it can be formed with ultra-fast curing urethane elastic film as well as the formation of an air-tight layer on the floor surface. It is possible to form an airtight layer on the floor surface with an adhesive sheet with an aluminum foil that has not been used for the reason that the construction of the part could not be suitably processed, and an airtight holding structure excellent in moisture proof performance can be obtained.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments of the present invention will be described below with reference to the drawings.
[0025]
[Blowing spray gun]
  FIG. 1 shows an injection nozzle 6 for an injection gun that can be repeatedly operated and stopped repeatedly, suitable for injecting the ultra-fast curing urethane elastic material used for the construction of the airtight holding layer 2 when constituting the airtight holding structure of the present invention. It is a conceptual diagram which shows the cross section of a part.
  The spray nozzle 6 of the spray gun supplies a first supply path 61 for supplying a liquid A which is one of the two liquids which are solidified after spraying to become a super fast curing urethane elastic body, and a liquid B which is the other liquid. The second supply path 62 to be mixed, the mixing chamber 63 for mixing the liquids from both the supply paths 61 and 62, the injection port 64 for discharging the mixed liquid, the both supply paths 61 and 62, and the injection ports 64 is provided with an operating rod 65 for moving back and forth by compressed air pressure to open and close.
  The state shown in FIG. 1A is that the operation rod 65 is located at a front position where the first and second supply passages 61 and 62 and the injection port 64 of the nozzle are closed, and the ultrafast curing urethane elastic body from the injection port 64 In the state shown in FIG. 6B, the operation rod 65 is located at a retracted position where the first and second supply paths 61 and 62 and the injection port 64 of the nozzle are opened, and the first Both liquids supplied from the second supply passages 61 and 62 are jetted at a high pressure from the jet port 64 while being mixed and stirred in the mixing chamber 63.
[0026]
  When injection is necessary, the operation rod 65 moves backward by the driving force of the compressed air pressure when the operation button (not shown) is lightly pressed, and at the same time, 60 (kg / cm) from both supply paths 61 and 62²) The two liquids are simultaneously supplied at the above pressure, and are mixed and stirred in the mixing chamber 63 to form a mist from the injection port 64 and vigorously be ejected onto the surface to be irradiated.
  When the operation button is released, the operation rod 65 immediately moves forward to close both supply passages 61 and 62, and at the same time, the mixture residue in the mixing chamber 63 is forcibly discharged from the injection port 64. The inner wall 66 of the mixing chamber 63 is made of Teflon, and does not become difficult to move by being bonded to the operation rod 65, and it is not necessary to wash with a solvent each time it is used. The operation of the operation button is light, and it operates correctly even if it is frequently stopped for a very short time.
  By using this spray gun, to the base of projections such as bolts scattered in a wide range of the room under construction, the separator mark, the place where the base was repaired, the corner, the joint with the iron parts, etc. By visual inspection, it can be accurately injected in small amounts to the target location. This device can also be used as it is for spraying urethane foam raw material, and the same worker who forms the airtight holding layer can also perform the spraying operation of urethane foam raw material on site. I can do it.
[0027]
  And although it is not an airtight holding | maintenance structure itself, it is possible to use the injection gun which can be frequently operated and stopped in the base repair process. In other words, by performing spraying using this spray gun, all parts are applied manually with a trowel, etc., and compared with conventional groundwork repair work that required drying and curing time, a local location is visually observed. A small amount of ultra-fast curing urethane elastic material can be injected into the body, and a repair material can be molded in a local place in a few seconds. This makes it possible to reduce the number of work steps and is effective in reducing time loss such as waiting for drying.
[0028]
[Embodiment of airtight holding structure]
  The airtight holding structure of the fumigation chamber including the airtight holding layer 2 formed by the above-described spraying operation using the spray gun is a concrete that surrounds the space constituting the fumigation chamber, as shown in FIGS. The airtight holding layer 2 is formed on the indoor surface side of the base wall 1 and the heat insulating material layer 3 is formed on the indoor surface side of the airtight holding layer 2.
  Ultrafast curing using the spray gun at locations around the heat insulation bolt 13 for attaching the interior material 5 and around the piping, which are provided on the wall of the target fumigation chamber constituting the airtight holding layer 2. By partially spraying and applying the urethane elastic material, a partial reinforcing portion 21 is formed to reinforce the hermetic state of a portion where partial leakage is likely to occur.
  The airtight holding layer 2 is airtight by spraying the ultrafast curing urethane elastic material for spraying onto the base wall 1 by spraying operation using the above-mentioned spray gun over the entire fumigation chamber including the partial reinforcing portion 21. A high degree fumigation chamber has been constructed.
  Furthermore, on the indoor surface side of the airtight holding layer 2, the in-situ foamed urethane raw material is sprayed to an appropriate layer thickness to constitute the heat insulating material layer 3.
  Further, an interior material 5 composed of a keystone plate or the like is attached to the indoor surface side of the heat insulating material layer 3 through heat insulating bolts 13 fixed to the vertical wall portion of the base wall 1 in a state of being opposed thereto. It has been.
[0029]
  As shown in FIG. 4, a moisture-proof material layer 4 made of a polyethylene sheet is laid on the floor 10 side of the fumigation chamber from the upper side of the airtight holding layer 2 as a moisture-proof measure. A plate-shaped foam heat insulating board 30 is laid on the upper side of the polyethylene sheet constituting the moisture-proof material layer 4 to form the heat insulating material layer 3, and the pressing concrete 14 is placed on the upper side of the heat insulating material layer 3. Yes.
[0030]
[Super fast curing urethane elastic body]
  The raw material of the ultrafast curing urethane elastic body constituting the airtight holding layer 2 is preferably a density; 0.8 to 1.4 (g / cm ^Three  ), Hardness: 30-100 (JISA), tensile strength: 30-230 (kg / cm²), Elongation rate: 100 to 900 (%), tear strength: 10 to 100 (kg / cm 2), A liquid composed of polyisocyanate component, the other is polyol and polyamine, and curing acceleration Catalyst, stabilizer, antifoaming agent and the like and B liquid appropriately blended, and the blending ratio is composed of two components of A liquid: B liquid = 1 to 99: 1 to 99 (Vol). Air is entrained to have some fine bubbles inside, but it is basically unfoamed. It is desirable that the touchable time after completion of the reaction is as short as 10 to 20 seconds and the curing time is 3 to 5 minutes so that the drying waiting time can be practically omitted. As a specific example, a quick-drying polyurethane resin (trade name “STELLA COAT” (registered trademark)) manufactured by Dainippon Ink and Chemicals, Inc. may be used.
[0031]
  Examples of the polyisocyanate component used in the present invention (corresponding to the above-mentioned liquid A) include organic isocyanate compounds such as 2,4-tolylene diisocyanate (hereinafter abbreviated as TDI), 65 / 35-TDI, 80 / 20-TDI, 4,4′-diphenylmethane diisocyanate (hereinafter abbreviated as MDI), dianisidine diisocyanate, tridenic diisocyanate, metaxylylene diisocyanate, hexamethylene diisocyanate, phenylene diisocyanate, 1,5-naphthalene diisocyanate, polymethylene polyphenyl polyisocyanate, isophorone Examples thereof include organic polyisocyanate compounds selected from aromatic diisocyanates such as diisocyanate, hydrogenated MDI, and hydrogenated TDI, and alicyclic diisocyanates.
[0032]
[0033]
[0034]
  Among the polyols and polyamines used in the present invention and curing accelerators, stabilizers, antifoaming agents, and the like (corresponding to the aforementioned B liquid), the polyol is
For example, polyester polyols, polyether polyols, polyester polyamide polyols, polycarbonate polyols, polycaprolactone polyester polyols, polybutadiene polyols, polypentadiene polyols, castor oil-based polyols, low molecular weight diols, trimethylolpropane, glycerin, It is selected from sorbitol, mannitol, dulcitol and the like.
[0035]
  Preferably, polyether polyols having a molecular weight of about 200 to 10,000 and having a low molecular weight diol, glycerin, trimethylolpropane, hexanetriol, triethanolamine, pentaerythritol, ethylenediamine, tolylenediamine, diphenylmethanediamine, tetramethylolcyclohexane , Methyl glucoside, 2,2,6,6-tetrakis (hydroxylmethyl) cyclohexanol, diethylenetriamine, sorbitol, mannitol,
An alkylene oxide such as ethylene oxide or propylene oxide is added using sucrose as a starting material.
[0036]
  Examples of the polyamine used in the present invention include 3,3′-dichloro-4,4′-diaminodiphenylmethane, a condensate of 2-chloroaniline and formaldehyde, diethyltoluenediamine, 4,4′-diaminodiphenylmethane, 3,3. '5,5'-tetrachloro-4,4'-diaminodiphenylmethane, toluenediamine, ethylenediamine, trioxypropylenediamine, α-ωdiamino-polyoxypolypropylene, α-ωdiamino-polyoxypolyethylene, etc. Any of single and mixed materials can be used.
[0037]
  As the curing accelerator used in the present invention, any known catalyst can be used. For example, trimethylamine, triethylamine, tributylamine, N-dimethyllaurylamine, N-diethyllaurylamine, N, N′-methylpiperazine, N, N′-dimethylbenzylamine, N-methylmorpholine, N-ethylmorpholine, triethylenediamine, N-pentamethylethylenetriamine, N, N, N ′, N′-tetramethylpropylenediamine, N-polymethylpolyethylenepolyamine, etc. Tertiary amines and organic metal salts such as calcium octylate, lead octylate, dibutyltin dilaurate, stannous octate, and the like can be used, and any of them can be used alone or in a mixture. The amount of these curing catalysts used is preferably 0.01 to 1.0 part by weight, more preferably 0.05 to 0.50 part by weight, based on 100 parts by weight of the organic polyisocyanate compound.
[0038]
  As the stabilizer used in the present invention, for example, any known ones of position-hindered phenols such as BHT and BB, benzotriazoles, and benzophenones can be used.
[0039]
  As the antifoaming agent used in the present invention, for example, any known polymethylpolysiloxane can be used.
[0040]
[In-situ urethane foam]
  As the raw material of the in-situ foamed urethane used for forming the heat insulating material layer 3, a well-known in-situ foamed urethane material used as a general heat insulating material is adopted. For example, it is a foam heat insulating material in which the liquid a containing an isocyanate component as a main component and the liquid b obtained by adding a foaming agent to a polyol component are expanded to an expansion ratio of about 10 to 30 times.
  As the foaming agent, for example, Freon 141b (1,1-dichloro-1-fluoroethane (ccl2FcH3)) is used.
[0041]
[Another embodiment of the airtight holding structure]
(1) Ultrafast curing urethane elastic material for spraying constituting the airtight holding layer 2 is a two-component ultrafast curing urethane composed of the above-mentioned polyisocyanate component and a curing agent component selected from a polyol component and / or a polyamine component. Any combination of elastic raw materials may be used as long as the touchable time is fast and sufficient airtightness is obtained, and the above polyisocyanate component, polyol component and / or The material is not limited to a two-component ultrafast-curing urethane elastic material composed of a curing agent component selected from polyamine components, and any material can be used as long as the finger can be touched quickly and has sufficient airtightness.
(2) The heat insulating material layer 3 formed on the indoor surface side of the hermetic holding layer 2 may have an appropriate layer thickness according to the required indoor temperature, and its construction is not limited to the above-mentioned spraying, but the interior surface of the fumigation It is also free to apply an appropriate method such as sticking a plate-like foam insulation board to the vertical wall portion.
  Moreover, when not using as a refrigeration facility, as shown in FIG. 2, you may comprise only the airtight holding | maintenance layer 2 without providing the heat insulating material layer 3. As shown in FIG. In this case, for the floor surface 10 portion, it is better to provide the moisture-proof material layer 4 such as a moisture-proof sheet and the pressing concrete 14 from above the air-tight holding layer 2 in order to protect the moisture-proof and air-tight holding layer 2.
(3) In the steel structure as shown in FIG. 3 and FIG. 5, in the direction along the wall surface in advance with respect to the surface of the base wall 1, not directly joining the base wall 1 and the airtight holding layer 2. The filler layer 20 having a certain degree of elasticity is formed, and the airtight holding layer 2 is formed above the filler layer 20.
  That is, the first gap S1 between the deck plate 16 of the ceiling surface 12 and the receiving structure steel frame 15, the second gap S2 between the receiving structure steel frame 15 and the base wall 1 such as a PC plate, an ALC plate, the PC plate, and the ALC plate. For example, in-situ foamed urethane raw material is used for partial foaming in places with large gaps, such as vertical corners of wall materials, PC boards, ALC boards, and corners between the floor 10 Then, this is used as the filler layer 20, and the ultrafast curing urethane elastic material is sprayed thereon to form the airtight holding layer 2.
  In addition, as shown in FIG. 5, a predetermined thickness of the in-situ foamed urethane material is sprayed onto a flat surface which is not a joint or corner between PC plates and ALC plates, and this is used as a filler layer 20 from above. The airtight holding layer 2 may be formed by spraying an ultrafast curing urethane elastic material.
  The material constituting the filler layer 20 is not limited to the above-mentioned blowing of urethane foam in the field, but can fill the gap on the base wall 1 side to some extent, and the wall surface caused by the shaking of the structure, etc. Any material can be used as long as it has sufficient elasticity to absorb a certain amount of deformation in the direction along the direction.
(4) The floor 10 side of the fumigation chamber is not limited to the one configured as an airtight holding structure by a combination of the airtight holding layer 2 and the moisture-proof material layer 4 made of a polyethylene sheet, as shown in FIG. As shown in FIG. 4, a moisture-proof layer 4 in the form of a pressure-sensitive adhesive sheet in which a moisture-proof layer portion and a pressure-sensitive material layer portion are layered and integrally formed may be laid from the upper side of the airtight holding layer 2.
  This moisture-proof material layer 4 in the form of an adhesive sheet is formed integrally with a moisture-proof layer in which the front and back surfaces of an aluminum foil are covered with a polyethylene film as a moisture-proof measure on the adhesive layer such as rubberized asphalt. Moisture-proof layer and adhesive material layer are integrated, such as pressure-sensitive adhesive sheet with aluminum foil and aluminum vapor-deposited sheet in which a moisture-proof layer made of aluminum vapor-deposited film is integrally formed on the upper side of the adhesive layer of rubberized asphalt compound It is good to use what was formed by laminating | stacking and was equipped with the release paper on the surface of the adhesive material layer, and was comprised in the sheet form.
  In this case, the edge portion of the pressure-sensitive adhesive sheet-shaped moisture-proof material layer 4 such as a pressure-sensitive adhesive sheet with an aluminum foil is the upper surface side of the pressure-sensitive adhesive sheet-shaped moisture-proof material layer 4 of the spraying ultrafast curing urethane elastic material for the edge portion. By being blown from, it is fixed in a state of being held between the airtight holding layer 2 and is configured to regulate the rising of the edge portion of the pressure-sensitive adhesive sheet during decompression.
  In addition, the moisture-proof material layer 4 in the form of an adhesive sheet such as the above-mentioned adhesive sheet with an aluminum foil is not limited to the one provided on the floor surface 10 of the fumigation chamber and the vicinity thereof, and is also provided on the vertical wall portion. Or you may provide in the wide range of the base wall 1, such as providing over the whole vertical wall part and a ceiling wall part. In this case, in addition to the further improvement of a moisture-proof effect, an airtight maintenance effect is further improved.
[0042]
[Embodiment of construction method of airtight holding layer]
  Next, the construction method of the airtight holding layer will be described.
  A preferred example of the construction method of the airtight holding structure of the present invention is as follows. After confirming the drying of the base wall for forming the fumigation chamber, a primer application step of applying an organic solvent-based primer, and then an ultrafast curing urethane elastic body An airtight holding layer forming step of forming an airtight holding layer by spraying the raw material.
[0043]
[Pretreatment process]
  When forming the airtight holding layer of the present invention, if the wall surface of the fumigation chamber to be constructed is in a state where there is no problem with the application of the airtight holding layer 2, a ground treatment step is not necessary, but in reality, Since it is rare that the conditions are satisfied, a description of the ground treatment process is also added.
[0044]
  Of the concrete surface of the base wall 1 from which the formwork has been removed, a part that is finished in the form of a bean plate, a part in which a gap is generated in a joint part of concrete, a part having an extreme step, a part in which a crack is generated, Other parts with voids or partial dents are filled and repaired with resin mortar or the like so as to be smooth. Also, the partial protrusions are finished smoothly with a sander. If the bottom of the beam is pre-arranged with a triangular spacer on the formwork, it will not have a right-angle finish.
  In addition, the rough finished surface that can physically retain air when spraying the ultra-fast-curing urethane elastic material in high-pressure concrete is clogged with Portland cement mixed with the organic solvent primer used in this process. Crush it with a trowel etc. with the "NORO" for the purpose, and perform the process of preventing bubble generation.
[0045]
[Primer application process]
  The concrete surface that has been smoothly repaired is in a predetermined dry state,
For example, after measuring with a surface moisture measuring machine and confirming that it is 8 (%) or less,
Apply primer.
  The primer is obtained by diluting a one-component polyurethane resin with an organic solvent xylene so that secondary bonds can be satisfactorily performed with the reactive group at the end. The surface tension of xylene is 28 (dyne / cm² ) And about 1 / 2.6 of water, it penetrates well into the details of the uneven parts of the concrete, and "wetability" is good, and the polyurethane resin molecules in the primer and the molecules at the end of the concrete are sufficient Close and make good secondary bonds.
  In addition, the -NCO group is present on the other side of the concrete, that is, at the end of the polyurethane resin exposed in the air, and it is highly reactive and has a high reactivity. Bonding is performed and the adhesiveness is high. In addition, since the -NCO group has high reactivity, it reacts with moisture in the air, so it does not leave much after the primer coating and drying, and it can move to the ultrafast curing urethane elastomer spraying process within 24 hours. desirable.
  Primer application is performed using a roller brush, brush, spray, etc., and the application amount is 0.2 (kg / cm²) And the drying time vary depending on the temperature, but are about 1 to 4 hours. Since the primer application work is an organic solvent work, the worker needs to wear an airline mask. Further, it is necessary to discharge the evaporated solvent during the drying time.
[0046]
[Ultra-fast curing urethane elastic body spraying process]
  The entrance corner, the connecting surface between the iron door frame and the concrete, various bolts, through piping, flange protrusion bases such as flanges, and the repaired concrete part are structurally susceptible to leakage.
  In the conventional method, treatment with a urethane-based caulking agent, application of an asphalt emulsion coating material, or polyester cloth in the coating material is performed for reinforcement. In the FRP lining method, the lamination was partially increased to reinforce. Both reinforcements required a great deal of labor, but this method uses an injection gun that can be repeatedly operated and stopped frequently and accurately, and injection molding of the ultra-fast-curing urethane elastic material accurately into each part even by small amounts. Can be reinforced.
[0047]
  Considering the example of reinforcing the corners using this method, the construction time per corner (1m) of the folded width 100 (mm) and the total width 200 (mm) is the discharge flow rate of the pumping machine. Is 3.6 (kg / min), the discharge rate from the gun tip is 60 (g) per second. That is, the time required to inject 1 (m) with a 200 (mm) width of an ultrafast curing urethane elastic body having a thickness of 2 (mm) is as follows:
    Total amount width 0.2 (m) × length 1 (m) × thickness 2 (mm) ≈400 (g),
    400 (g) ÷ 60 (g / sec) = 6.6 seconds
And can be injected in less than 10 seconds. Moreover, the practical curing time is about 10 minutes, and since continuous movement and spraying can be performed, the practical curing waiting time can be omitted.
  If the same calculation is performed, the local injection time to the bolt base, the separator mark, etc. is about 1 second.
  Reference numeral 21 in FIGS. 2 and 3 denotes a partial reinforcement of the ultrafast curing urethane elastic body which is sprayed in advance for reinforcement by partially spraying the ultrafast curing urethane elastic material to a place where there is a risk of structural leakage. The airtight holding layer 2 is formed by further injecting a super fast curing urethane elastic material on the upper side of the partial reinforcing portion 21.
[0048]
  As the two-component urethane resin comprising a polyisocyanate component that is a raw material for the ultrafast curing urethane elastomer used in the construction method of the present invention and a curing agent component selected from a polyol component and / or a polyamine component, The material described in the section of the body may be used. In addition, the spray gun is also equipped with the structure of the spray nozzle 6 shown in FIG. 1 or other two-component high-pressure collision mixing spray machine such as a gasmer GX7, a prober gun, ISOTHERM, Binks, etc. It is possible to use.
[0049]
  The formed ultrafast curing urethane elastic film exhibits suitable performance as the airtight holding layer 2. For example,
  Density: 1.07 (g / cm^Three ), Hardness: 87 (JISA), tensile strength: 130 (kg / cm² ) Elongation rate: 400 (%), tear strength: 70 (kg / cm).
  Moreover, the followability with respect to cracks of concrete or the like that is practically important has a thickness of 2 (mm) and 8 (mm).
  After forming the airtight retaining layer 2, pressurize the interior with 200 (mmAq) compressed air, conduct a leak inspection, and if there is any inspection or rework, heat insulation work and interior decoration with in-situ foam blowing urethane, etc. Perform construction work. In addition, when the on-site foamed urethane raw material is constructed, it has airtightness but does not expect the airtight effect.
[0050]
  When the airtight retaining layer of the present invention is applied and pressurized to the maximum pressure value 40 (mmAq) of the fumigation inspection according to the Imported Plant Quarantine Regulation, the logical amount of gas permeated through the wall surface is considered as follows: become.
  When the structure was made of reinforced concrete with a thickness of 250 mm, its moisture resistance was 167 (m² hr mmHg / g). The moisture permeation resistance value when the thickness of the airtight holding layer 2 made of the ultrafast curing urethane elastic body is 2 (mm) is 25 (m² hr mmHg / g). Therefore, the overall moisture permeability is 192 (m² hr mmHg / g), moisture permeability is 0.0052 (g / m² hr mmHg / g).
  Since the maximum pressure value during the fumigation test is 40 (mmAq) x 48 (hr), the permeation amount at this time is 40 (mmAq) = 2.94 (mmHg), so 0.0052 x 2.94 = 0.0152 (g / m² hr), 0.73 at 48 hours (g / m²48 hr). Now floor area 600 (m²), Volume 3600 (m^Three), Hermetic layer area 1800 (m²) Fumigation chamber of 0.73 (g / m²48hr) x 1800 (m²) = 1314 (g / 48 hr). Since this value is that of water vapor and is 1/2500 in the case of air, 1314/2500 = 0.53 (g / 48 hr) is transmitted.
  Standard air weight is 1.293 (kg / m^Three ) And the previous transmission amount is substantially negligible.
[0051]
  In the construction method of the present invention, the discharge state of the mixture is not particularly limited, and it may be discharged in a sprayed state or a raindrop state, but it is easier to level the mixture when sprayed on the structure in the sprayed state, uniformity. High urethane elastic layer.
[0052]
[Insulation layer construction process]
  From the upper side of the airtight holding layer 2, an in-situ foamed urethane raw material is sprayed to a required thickness by using the spray gun, and the heat insulating material layer 3 is configured to overlap the airtight holding layer 2.
  A fireproofing agent may be appropriately sprayed and applied to the surface of the heat insulating material layer 3 as necessary.
[0053]
[Embodiment of second construction method]
  3 to 6, the vertical wall portion 11 of the base wall 1 is composed of a PC plate, an ALC plate, and the like, and the ceiling surface 12 is concreted on the deck plate 16. Application to the so-called steel structure is performed by the following procedure.
[0054]
[Pretreatment process]
  A first gap S1 between the deck plate 16 of the ceiling surface 12 and the receiving structure steel frame 15, a second gap S2 between the receiving structure steel frame 15 and the base wall 1 such as a PC plate or an ALC plate, a wall such as a PC plate or an ALC plate Parts with large voids, such as the vertical corners of the material, the corners between the PC board, ALC board, etc., and the floor surface 10 are partially blown and foamed by spraying on-site foamed urethane raw material. Is the filler layer 20. Also, where there are no large gaps at the joints or corners of the PC plate and ALC plate, apply an organic solvent-based primer to the spot, and spray the ultrafast curing urethane elastic material after drying (Fig. 3, (See FIG. 4).
  Further, as shown in FIG. 5, the in-situ foamed urethane raw material may be sprayed to a surface that is not a joint or corner between PC plates and ALC plates, and this may be used as the filler layer 20.
[0055]
[Primer application process]
  An organic solvent-based primer is applied with a roller brush, a brush, a spray, or the like on the entire surface of the target surface of the airtight holding layer 2 that has been subjected to the base treatment, except for a portion to which the in-situ foamed urethane raw material is sprayed to a predetermined thickness.
[0056]
[Airtight retention layer forming process]
  An airtight holding layer 2 is formed by spraying the ultrafast curing urethane elastic material on the surface subjected to primer treatment and the surface formed by spraying the in-situ foamed urethane raw material.
[0057]
[Process for forming insulation layers, etc.]
  After the pressure test is completed, the heat insulating material layer 3 is formed by spraying an in-situ foamed urethane raw material. Thereafter, interior work such as attachment of the interior material 4 is performed as necessary.
[0058]
[Embodiment of third construction method]
  On the floor side of the fumigation chamber, as shown in FIG. 5, a moisture-proof material layer 4 made of a pressure-sensitive adhesive sheet with an aluminum foil made of a pressure-sensitive adhesive sheet laminated with rubber foil on rubber asphalt is super-cured. It is laid on the upper side of the airtight holding layer 2 constituted by spraying a urethane elastic material. The edge portion of the pressure-sensitive adhesive sheet with aluminum foil constituting the moisture-proof material layer 4 is held between the airtight holding layer 2 by spraying from the upper side of the sprayed ultrafast curing urethane elastic material to the edge portion. It is fixed in a state, and is configured to regulate the rolling-up of the end portion of the adhesive sheet with aluminum foil at the time of decompression.
  Other construction methods are the same as those in the previous embodiments.
[0059]
[Embodiment of Fourth Construction Method]
  When spraying the airtight holding layer 2 of the fumigation chamber, if the ultrafast curing urethane elastic material for spraying is nearly colorless and transparent, the spraying is performed evenly over the entire surface to be sprayed, and the predetermined thickness Since it is difficult to ascertain whether the coating is evenly applied, the toner is added to the raw material of the ultrafast curing urethane elastomer for spraying and colored. In the coloring method, a toner prepared in advance is added to liquid B, which is a mixture of polyol and polyamine.
  The toner may be adjusted and added in any amount. Preferably, dioctyl phthalate (DOP), dibutyl phthalate (DBP), dioctyl adipate (DOA), which is an organic pigment and / or inorganic pigment compatible with the liquid B, are preferably used. ), A plasticizer such as tricresyl phosphate (TCP), or a mixture of a polyoxypropylene polyol (PPG) and a vehicle, and a paste or liquid in a paint roll such as a three-roll or ball mill. Adjust the toner. The amount of toner added to the liquid B is determined in a range that does not significantly affect the cured physical properties of the ultrafast curing urethane elastic body for spraying and in consideration of the hiding power.
  By coloring in this way, it becomes easy to visually grasp the coating thickness.
  In this embodiment, a plurality of colored ultrafast curing urethane elastic materials for spraying, that is, a plurality of ultrafast curing urethane elastic materials for different colors are prepared, and the ultrafast spraying applied earlier. By spraying the ultrafast curing urethane elastic material for spraying with a different color from the upper side of the cured urethane elastic body, the spraying process of the ultrafast curing urethane elastic material for spraying is performed in multiple steps. Thus, a construction method was obtained which can easily eliminate uneven spraying and uneven thickness.
  About another construction method, it is the same as that of each above-mentioned embodiment.
[0060]
[Embodiment of Fifth Construction Method]
  As shown in FIG. 2, as the airtight holding layer 2 of the fumigation chamber, the ceiling wall and the wall may be constituted only by the airtight holding layer 2 without using the heat insulating material layer 3 together. In this case, the floor side may be composed only of the airtight holding layer 2, but since the floor surface often has the entrance and exit of a transport vehicle, floor concrete is placed only on the floor side and above the airtight holding layer 2. It may be provided.
[0061]
【The invention's effect】
  The effects of the present invention by adopting the above-described configuration are as follows.
(1) In the invention according to claim 1, by using an ultrafast curing urethane elastic body as the airtight holding layer, the airtight holding superior in airtightness as compared with the case where the airtight holding layer is formed of the in-situ foamed urethane layer. Layers can be constructed.
  Compared to the case where an airtight holding layer is formed by FRP lining, it is possible to secure an airtightness that is inferior, but it is not a hand lay-up method that requires a huge amount of work because the work itself is difficult. It is possible to work with efficient and efficient spraying, which can greatly improve the workability.
  In addition, compared to the case of a rubber asphalt emulsion layer, the processing of the corners before spraying can be easily performed by spraying, so that the workability is improved in this respect, and the airtightness using rubber asphalt emulsion is further improved. Compared to the layer, there is a big difference in that there is no evaporation process of excess water. That is, it is not necessary to strictly manage the environment up to the dry film formation after the spraying, and it is possible to omit the waiting time for the dry film formation after the construction, and it can be expected to significantly reduce the work period and the number of steps.
  Therefore, an airtight holding structure having a high function and good workability, which could not be achieved by any of the above conventional techniques, was obtained.
(2) As shown in claim 1, the material constituting the hermetic holding layer is a super-speed for spraying composed of a polyisocyanate component and a two-component ultra-fast curing urethane elastic material comprising a polyol component and a polyamine component. Since it is a cured urethane elastic body, it is possible to shorten the time when the finger can be touched after the end of the reaction and the curing time, thereby omitting the actual waiting time for drying.
(3) Claims 1 and 2In the invention of the construction method of the airtight holding structure of the fumigation chamber,Recessed portions such as constrictions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material on the inner wall surface sideIn addition, the in-situ foamed urethane raw material is sprayed in advance so as to fill the recessed portion, and the filler layer is configured in advance, so that the in-situ foamed urethane raw material is filled in the gap in advance to smooth the inside of the fumigation chamber, and from above to the entire surface It became possible to construct a highly airtight fumigation chamber by spraying ultra-fast curing urethane elastic material. As a result, an airtight holding layer suitable for a steel structure can be formed, and the cost can be reduced including the building itself having a highly functional fumigation chamber.
(4) Claim 1In the invention concerning the fumigation chamber formationRecessed portions such as constrictions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material on the inner wall surface sideIn addition, the in-situ foamed urethane raw material is sprayed in advance so as to fill the recessed portion, and the filler layer is formed by spraying the ultrafast curing urethane elastic material from the indoor side to the area where the filler layer exists. In addition, a part of the fumigation interior wall including a partial reinforcement part forming step for forming a partial reinforcement part for preventing air leakage in a part of the fumigation interior wall and a range in which the partial reinforcement part is provided. An airtight holding layer forming step in which an airtight holding layer is formed by spray coating, and in the filler blowing step, the filler layer is formed by foaming of the in-situ foamed urethane raw material, and the partial reinforcing portion forming step In the airtight holding layer forming step, a polyisocyanate component, a two-component ultrafast curing urethane elastic material composed of a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three Since the partial reinforcing portion and the airtight holding layer are constituted by the above, the filler layer in the recessed portion and the partial reinforcing portion having the airtight holding function are the super fast curing urethane elastic body that becomes the airtight holding layer. It will be formed as a base. Therefore, there is an advantage that an airtight holding and holding structure having high airtightness can be applied to a fumigation chamber constituted by a steel structure.
(5) Claim 2In the invention concerning the fumigation chamber formationRecessed portions such as constrictions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material on the inner wall surface side, And a filling material spraying step for forming a filler layer by spraying an in-situ foamed urethane raw material in advance on the entire inner wall surface including a flat portion other than the recessed portion existing location, and then spraying and applying a super fast curing urethane elastic material. And forming an airtight holding layer. In the filler spraying step, the filler layer is formed by foaming of the in-situ foamed urethane raw material, and in the airtight holding layer forming step, the polyisocyanate is formed. A two-component ultra-fast curing urethane elastic material comprising a component, a polyol component and a polyamine component,Contains no blowing agentDensity 0.8-1.4g / cm ^Three Since the airtight holding layer is constituted by the above, the filler layer to the recessed portion is formed as a base of the ultrafast curing urethane elastic body that becomes the airtight holding layer. Therefore, it is possible to construct an airtight holding and holding structure having high airtightness for a fumigation chamber composed of a steel structure, and the connection part of the steel structure that constitutes the fumigation chamber is used for cargo handling at the adjacent part. The impact of vibration and extension is alleviated by the cushioning properties of the filler layer even when subjected to physical vibrations due to air pressure, the effects of air pressure inspection, the effects of solar heat, or the effects of earthquakes. The construction method of the airtight holding structure that can avoid the burden and can maintain the airtight performance in a stable state is obtained.
(6) Claim 3As shown in FIG. 2, the airtight holding layer forming step is performed by spraying a plurality of layers of different colors by spraying a super fast curing urethane elastic material colored in a plurality of different colors. Compared with the case where the urethane elastic body material is sprayed, it is easy to visually recognize the sprayed state. Therefore, it is easy to check whether or not the entire surface to be sprayed is sprayed evenly by coloring the ultrafast curing urethane elastic body sprayed before. In addition, since the ultra-fast curing urethane elastic material for spraying previously sprayed and the ultra-fast curing urethane elastic material for spraying later sprayed in different colors, the surface of the surface to be sprayed is sprayed later. By spraying the super fast curing urethane elastic material for spraying so as to be overlaid, it is possible to easily form an airtight holding layer having a stable layer thickness.
  As a result, there is an advantage that the spraying operation can be performed uniformly and with high accuracy.
(7) Claim 4As shown in FIG. 2, the adhesive sheet with aluminum foil is attached to the upper side of the airtight holding layer, and the upper edge of the adhesive sheet with aluminum foil is integrated with the airtight holding layer at the peripheral part of the adhesive sheet with aluminum foil. By spraying the ultra-fast curing urethane elastic material on the floor, the floor surface airtight with the adhesive sheet with aluminum foil that has not been used for the reason that the construction of the joint with the wall surface airtight layer could not be properly processed conventionally Layer formation is possible, and an airtight holding structure excellent in moisture proof performance can be obtained.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a tip portion of an injection gun for spraying a super fast curing urethane elastic material used in the present invention.
FIG. 2 shows an airtight holding structure of a fumigation chamber according to the present invention, (a) is a schematic cross-sectional view showing a state in which an airtight holding layer is formed on the inner surface of the fumigation chamber, and (b) is a fumigation chamber in which hardware and bolts are installed. It is sectional drawing which shows the part by the side of an inner surface.
FIG. 3 shows an airtight holding structure of a fumigation chamber according to the present invention, in which (a) is a longitudinal sectional view showing a state in which an airtight holding layer and a heat insulating material layer are formed on the inner surface of the fumigation chamber; It is an arrow view in -a direction view.
FIG. 4 is a longitudinal sectional view showing the vicinity of the floor of the fumigation chamber in the present invention.
FIG. 5 shows another embodiment of the airtight holding structure of the fumigation chamber according to the present invention, and is a longitudinal sectional view showing a state in which a filler layer, an airtight holding layer and a heat insulating material layer are formed on the inner surface side of the fumigation chamber. .
FIG. 6 is a longitudinal sectional view showing another embodiment of the fumigation chamber floor portion in the present invention.
FIG. 7 is a conceptual diagram showing a conventional injection device for forming an airtight layer with a rubber asphalt emulsion.
FIG. 8 is a conceptual diagram showing a process in which an airtight layer is formed by a rubber asphalt emulsion using the injection device shown in FIG.
FIG. 9 is a longitudinal sectional view of a conventional fumigation chamber in which an airtight layer is formed by a rubber asphalt emulsion.
FIG. 10 is a longitudinal sectional view of a conventional fumigation chamber in which an airtight layer is formed by FRP.
FIG. 11 is a longitudinal sectional view of a conventional fumigation chamber in which an airtight layer made of rigid urethane foam is formed.
[Explanation of symbols]
    1 Ground wall
    2 Airtight retention layer
    3 Insulation layer
    4 Moisture-proof material layer
    5 Interior materials
    50 Filler layer

Claims (4)

A construction method of an airtight holding structure in a fumigation chamber composed of a steel structure constructed by attaching a deck plate and a base wall material constituting the ceiling surface to a receiving structure steel frame,
In-situ foamed urethane in advance to fill the recessed portion such as a constricted portion or a deep gap formed between the receiving structure steel frame and the deck plate or wall material on the inner wall side for forming the fumigation chamber A filler spraying step of spraying raw materials to form a filler layer;
The super-fast curing urethane elastic material is sprayed and applied from the indoor side of the fumigation chamber to the area where the filler layer sprayed in the filler spraying step exists, and partial reinforcement for preventing air leakage on a part of the fumigation chamber wall A partial reinforcing portion forming step for forming a portion;
An airtight holding layer forming step of forming an airtight holding layer by spraying and applying the ultrafast curing urethane elastic material to the entire wall of the fumigation chamber including the area where the partial reinforcing portion is provided,
In the filler spraying step, the filler layer is constituted by foaming of the in-situ foamed urethane raw material sprayed,
In the partial reinforcing part forming step, a density of 0.8 to 1.4 g / cm ³ not containing a foaming agent is a two-component ultrafast curing urethane elastic material composed of a polyisocyanate component, a polyol component and a polyamine component. The partial reinforcement part is composed of things,
In the airtight holding layer forming step, a density of 0.8 to 1.4 g / cm ³ not containing a foaming agent is a two-component ultrafast curing urethane elastic material composed of a polyisocyanate component, a polyol component and a polyamine component. An airtight holding layer is constituted by things,
A method for constructing an airtight holding structure in a fumigation chamber in which a partial reinforcing portion forming step is performed after the filler spraying step, followed by an airtight holding layer forming step. A construction method of an airtight holding structure in a fumigation chamber composed of a steel structure constructed by attaching a deck plate and a base wall material constituting the ceiling surface to a receiving structure steel frame,
On the inner wall side for forming the fumigation chamber, there are recessed portions such as constricted portions and deep gaps formed between the receiving structure steel frame and the deck plate or wall material , and flat portions other than the recessed portion existing portions. In addition, a filler spraying step for forming a filler layer by spraying an in-situ foamed urethane raw material in advance on the entire inner wall surface including
An airtight holding layer forming step of forming an airtight holding layer by spraying and applying an ultrafast curing urethane elastic material to the entire fumigation chamber wall provided with the filler layer,
In the filler spraying step, the filler layer is constituted by foaming of the in-situ foamed urethane raw material sprayed,
In the airtight holding layer forming step, a density of 0.8 to 1.4 g / cm ³ not containing a foaming agent is a two-component ultrafast curing urethane elastic material composed of a polyisocyanate component, a polyol component and a polyamine component. An airtight holding layer is constituted by things,
A method for constructing an airtight holding structure in a fumigation chamber in which an airtight holding layer forming step is performed after the filler spraying step. 3. The airtightness of the fumigation chamber according to claim 1 or 2, wherein the airtight holding layer forming step is performed by spraying a plurality of layers of different colors by spraying a plurality of ultrafast curing urethane elastic material materials colored in different colors. Retention structure construction method.   After confirming the drying of the base wall for forming the fumigation chamber, the primer application step of applying an organic solvent-based primer to the floor wall constituting the floor surface of the fumigation chamber, and then spraying and applying the ultrafast curing urethane elastic material An airtight holding layer forming step for forming an airtight holding layer, an adhesive sheet with an aluminum foil is attached to the upper side of the airtight holding layer, and the airtight holding layer is integrated with the airtight holding layer at the peripheral edge of the adhesive sheet with the aluminum foil The construction method of the airtight holding structure of the fumigation room which consists of a floor surface moisture-proof process which sprays a super-fast-curing urethane elastic body raw material on the peripheral upper side of the adhesive sheet with aluminum foil.

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