JP7297205B2 - Breathable cushioning sheet for waterproof construction - Google Patents

Description

TECHNICAL FIELD The present invention relates to a waterproofing breathable buffer sheet to be installed on a substrate in a waterproofing method, a manufacturing method of the waterproofing breathable buffering sheet, and a waterproofing method using the waterproofing breathable buffer sheet.

As a waterproof construction method for building roofs, etc., there is an adhesion construction method in which a waterproof layer such as urethane is applied to a concrete base to form a waterproof layer, and a ventilation buffer sheet such as non-woven fabric is laid between the base and the waterproof layer. There is a ventilation buffer construction method, etc., in which a ventilation buffer layer is provided.

In the adhesion construction method, since the waterproof layer is adhered to the entire surface of the substrate, the ability to follow the movements and cracks of the substrate due to the expansion and contraction of the substrate is insufficient, and cracks may occur in the waterproof layer, reducing the waterproof effect. be. In addition, there is a possibility that the moisture contained in the base becomes water vapor and is released from the base as the temperature rises, causing a so-called blistering phenomenon in which the waterproof layer partially peels off from the base and floats up.

In the ventilation buffer method, since there is a ventilation buffer sheet between the base and the waterproof layer, the waterproof layer can easily follow the movement of the base, and gases such as water vapor released from the base in the plane direction of the ventilation buffer sheet can be ventilated. As such a breathable cushioning sheet, for example, there is a cushioning underlay material for coating film waterproofing work as disclosed in Patent Document 1.

JP-A-2001-90290

However, the underlay cushioning material for coating film waterproofing work as disclosed in Patent Document 1 has holes penetrating in the thickness direction, and the base is partially exposed during construction. Therefore, if it rains after laying the underlayer cushioning material for paint waterproofing work on the groundwork, the groundwork and the underlayment cushioning material for paint waterproofing work will get wet with rain, and the groundwork and underlayment cushioning material for paint waterproofing work will dry out. In some cases, the waterproofing method must be suspended until

In addition, in the underlay cushioning material for coating film waterproofing construction as disclosed in Patent Document 1, the waterproofing material applied from above tends to permeate the entire surface. In the waterproofing method, in order to form a waterproof layer with a uniform thickness and a good appearance, it is common to use multiple types of waterproofing materials and apply them in multiple coats such as undercoat, intermediate coat, and topcoat. Applying multiple types of waterproofing materials in multiple steps requires a large number of work processes, which prolongs the construction period of the waterproofing method and requires a large number of craftsmen.

In the application of the waterproofing material, the waterproofing material with the highest viscosity is usually used as the undercoat, and the waterproofing material with the lowest viscosity is used as the topcoat. As a specific example, a waterproof material having a viscosity of 50000 mPa s (cps) or more is used for the undercoat, and a waterproof material having a viscosity of about 7500 mPa s (cps) is used for the intermediate and top coats to form a waterproof layer. be. It is difficult to form a waterproof layer with a uniform thickness and a good appearance, and in particular, a high level of skill is required to evenly apply a highly viscous waterproof material to the base.

The present invention has been made in view of the above-mentioned problems, and its object is to shorten the construction period of the waterproofing method and to form a waterproof layer with a uniform thickness and a good appearance. The object is to provide a sheet, a method for manufacturing a breathable buffer sheet for waterproof construction, and a waterproof construction method using the breathable buffer sheet for waterproof construction.

The breathable buffer sheet for waterproof construction of the present invention, which has solved the above problems, has a resin layer and a nonwoven fabric layer, and the resin layer has a cross-sectional area of 3 mm ² or more perpendicular to the thickness direction of the resin layer. It has through-holes, the non-woven fabric layer does not have through-holes communicating with the through-holes of the resin layer, and the resin layer has a water repellent agent.

In the air-permeable cushioning sheet for waterproof construction of the invention, the resin layer preferably has a thickness of 30 μm or more.

In the air-permeable buffer sheet for waterproof construction method of the above invention, the resin layer preferably contains an ultraviolet curable resin.

In the air-permeable cushioning sheet for waterproof construction method of the above invention, the nonwoven fabric layer preferably has an adhesive layer on the opposite side of the resin layer.

The waterproofing method of the present invention, which was able to solve the above-mentioned problems, is a waterproofing method using the air-permeable buffer sheet for waterproofing method of the above-mentioned invention, which comprises a step of applying an undercoat material to the substrate, and A step of applying an adhesive, a step of installing a waterproofing ventilation buffer sheet on a substrate coated with a primer, and a step of applying a waterproofing material to the waterproofing ventilation buffer sheet are performed in sequence. It is. Further, a waterproofing method using the breathable buffer sheet for waterproofing method of the above invention, comprising the step of applying an undercoat material to the base, the step of installing the breathable buffer sheet for waterproofing on the base coated with the undercoat, and the waterproofing method. and a step of applying a waterproof material to the air-permeable buffer sheet.

The method for producing a breathable cushioning sheet for waterproof construction according to the present invention, which can solve the above-mentioned problems, comprises the steps of forming a nonwoven fabric layer, applying a water repellent agent to the nonwoven fabric layer, and forming through holes in the nonwoven fabric layer. and a step of forming a resin layer having.

The air-permeable buffer sheet for waterproof construction of the present invention has a resin layer and a non-woven fabric layer, and the resin layer has through holes having a cross-sectional area of 3 mm ² or more perpendicular to the thickness direction of the resin layer. , The waterproof material applied from above passes through the through-holes of the resin layer and the non-woven fabric to reach the substrate, and the waterproof layer is firmly fixed to the substrate, but the waterproof material penetrates the ventilation buffer sheet for waterproof construction method more than necessary. It is not necessary to apply multiple types of waterproofing materials with different viscosities in multiple times as in the past. Since a waterproof layer with high resistance can be easily formed, the construction period of the waterproofing method can be shortened. In addition, the nonwoven fabric layer of the air-permeable cushioning sheet for waterproofing method of the present invention does not have through-holes communicating with the through-holes of the resin layer, and has a water repellent agent on the resin layer side. The water repellent agent in the non-woven fabric prevents permeation and does not easily reach the substrate. By wiping off the rainwater adhering to the surface of the air-permeable buffer sheet for waterproofing after rainfall, the possibility of resuming the waterproofing construction work early increases. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a breathable buffer sheet for waterproof construction according to an embodiment of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS The partially broken perspective view which shows the example of waterproofing construction using the ventilation|gas_flowing buffer sheet for waterproofing construction methods of this invention is represented.

Hereinafter, the breathable cushioning sheet for waterproof construction according to the present invention will be described in detail with reference to the drawings, but the present invention is not limited to the illustrated examples, and is within the scope that can be adapted to the gist of the above and below. It is also possible to implement it with appropriate modifications, and all of them are included in the technical scope of the present invention.

As shown in FIG. 1, a breathable cushioning sheet for waterproof construction 1 according to the present invention has a resin layer 10 and a nonwoven fabric layer 20. The resin layer 10 has a cross-sectional area perpendicular to the thickness direction of the resin layer 10 ( The nonwoven fabric layer 20 has through holes 11 with a cross-sectional area of 3 mm ² or more, and the nonwoven fabric layer 20 does not have through holes communicating with the through holes 11 of the resin layer 10 . The through-holes of the nonwoven fabric layer 20 are formed in the nonwoven fabric layer 20 by punching, for example, and have a cross-sectional area perpendicular to the thickness direction of the nonwoven fabric layer 20 (hereinafter sometimes simply referred to as “cross-sectional area”) of 0.5 mm ^{2 .} The gaps between the fibers forming the nonwoven fabric layer 20 are not used as the through holes of the nonwoven fabric layer 20 . In addition, holes having a cross-sectional area of less than 0.5 mm ² in the nonwoven fabric layer 20 are not through-holes in the nonwoven fabric layer 20 . Since the air-permeable buffer sheet for waterproofing method 1 is configured in this way, as shown in FIG. The waterproof layer 200 can be sufficiently fixed to the base 100 while securing a space for ventilation between the waterproof layer 200 formed by the waterproof material and the base 100 through the layer 20 to reach the base 100 .

The nonwoven fabric layer 20 has a water repellent agent 30 on the resin layer 10 side. Since the nonwoven fabric layer 20 is configured in this manner, even if water enters the through holes 11 of the resin layer 10 due to rain or the like during waterproof construction, the water repellent agent 30 makes it difficult for the water to permeate the nonwoven fabric layer 20, thereby protecting the base. 100 can be prevented from getting wet. When the substrate 100 gets wet, the waterproof material in contact with the substrate 100 may be hardened poorly, and the bonding strength between the waterproof layer 200 formed by the waterproof material and the substrate 100 and the durability of the waterproof layer 200 formed by the waterproof material are reduced. may decrease. Therefore, it is necessary to suspend the waterproofing method until the foundation 100 dries. In the breathable buffer sheet for waterproofing 1 of the present invention, the water repellent agent 30 prevents the infiltration of water, and the inside of the breathable buffering sheet for waterproofing 1 and the base 100 are less likely to get wet. It can be shortened, and it is possible to shorten the construction period of the waterproofing method.

FIG. 1 illustrates a mode in which the entire surface of the nonwoven fabric layer 20 facing the resin layer 10 has the water repellent agent 30. may be provided on the entirety of the resin layer 10 or may be provided only on the portion exposed from the through hole 11 of the resin layer 10 . Above all, it is preferable that the water-repellent agent 30 is applied to the entire surface of the non-woven fabric layer 20 on the resin layer 10 side, because the air-permeable cushioning sheet 1 for waterproof construction is easy to manufacture.

Examples of the water repellent agent 30 include paraffin-based water repellent agents, silicone-based water repellent agents, fluorine-based water repellent agents, and the like. Among them, the water repellent agent 30 is preferably a paraffin water repellent agent. By configuring the water repellent agent 30 in this way, it is possible to impart a high water repellent effect to the nonwoven fabric layer 20 and to firmly adhere the water repellent agent 30 to the nonwoven fabric layer 20 .

The thickness of the resin layer 10 is preferably 30 μm or more, more preferably 40 μm or more, and even more preferably 50 μm or more. By setting the lower limit of the thickness of the resin layer 10 in this way, the waterproof material hardly penetrates into the resin layer 10 itself, and a sufficient ventilation space is secured between the base 100 and the waterproof layer 200 formed by the waterproof material. be able to. Also, the thickness of the resin layer 10 is preferably 200 μm or less, more preferably 180 μm or less, and even more preferably 150 μm or less. By setting the upper limit of the thickness of the resin layer 10 as described above, the waterproof breathable cushioning sheet 1 becomes flexible, and the work of laying the waterproof breathable cushioning sheet 1 on the base 100 is facilitated.

The resin layer 10 can be formed by printing or coating various resins, laminating films, etc. Among them, it is preferable to have an ultraviolet curable resin. Since the resin layer 10 contains an ultraviolet curable resin, the resin layer 10 having a uniform thickness and having the through holes 11 can be easily manufactured. Examples of UV curable resins include urethane acrylate resins, acrylic acrylate resins, epoxy acrylate resins, and the like. Among them, the resin layer 10 is preferably mainly composed of an acrylic acrylate-based resin, and more preferably contains 50% or more of the acrylic acrylate-based resin. By configuring the resin layer 10 in this way, it is possible to make it difficult for the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction to permeate the resin layer 10 . In addition, the material forming the resin layer 10 may contain curing accelerators, dyes, pigments, etc., in addition to the ultraviolet curing resin. That is, the resin layer 10 may be composed of a mixture of an ultraviolet curable resin and other materials.

The shape of the through-hole 11 of the resin layer 10 in the cross section in the direction perpendicular to the depth direction of the through-hole 11 is not particularly limited, and examples thereof include a circular shape, an elliptical shape, and a polygonal shape. Above all, the shape of through-hole 11 of resin layer 10 in the cross section of through-hole 11 is preferably circular. Since the shape of the through-hole 11 of the resin layer 10 in the cross section of the through-hole 11 is circular, the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method easily enters the entire through-hole 11 of the resin layer 10. , the bonding strength between the waterproof layer 200 formed by the waterproof material and the base 100 can be further increased.

Regarding the through hole 11 of the resin layer 10, the length of the long axis of the cross-sectional shape of the through hole 11 in the direction perpendicular to the depth direction is preferably 3 mm or more, more preferably 4 mm or more, and 6 mm or more. is more preferable. By setting the lower limit value of the length of the long axis of the cross-sectional shape of the through hole 11 of the resin layer 10 in this way, the waterproof layer 200 formed by the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method and A sufficient amount of the waterproofing material can pass through the through-holes 11 of the resin layer 10 and reach the base 100 so that the bonding strength with the base 100 is sufficient. Moreover, the length of the major axis of the cross-sectional shape of the through hole 11 of the resin layer 10 is preferably 20 mm or less, more preferably 15 mm or less, and even more preferably 10 mm or less. By setting the upper limit of the length of the major axis of the cross-sectional shape of the through hole 11 of the resin layer 10 in this way, the through hole 11 of the resin layer 10 can be coated with the ventilation buffer sheet 1 for waterproof construction method. Excessive intrusion of the waterproof material is prevented, and large unevenness is less likely to occur on the surface of the waterproof layer 200 formed by the waterproof material.

The through-hole 11 of the resin layer 10 may have a cross-sectional area of 3 mm ² or more, preferably 7 mm ² or more, more preferably 15 mm ² or more, and even more preferably 25 mm ² or more. By setting the lower limit value of the cross-sectional area of the through-holes 11 of the resin layer 10 in this way, the bonding strength between the waterproof material applied on the air-permeable buffer sheet for waterproof construction method 1 and the base 100 is further increased, and the waterproof material The durability of the waterproof layer 200 formed by can be enhanced. The through-hole 11 of the resin layer 10 preferably has a cross-sectional area of 300 mm ² or less, more preferably 200 mm ² or less, and even more preferably 100 mm ² or less. By setting the upper limit of the cross-sectional area of the through-holes 11 of the resin layer 10 in this manner, the thickness of the waterproof layer 200 formed by the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method becomes uniform. It is easy to use and can improve appearance quality.

It is preferable that the resin layer 10 has a plurality of through-holes 11 . Since the resin layer 10 has a plurality of through-holes 11, there are a plurality of joints between the waterproof material applied on the air-permeable buffer sheet for waterproof construction method 1 and the base 100, and the waterproof layer formed by the waterproof material. 200 durability can be further enhanced.

When the resin layer 10 has a plurality of through-holes 11, each through-hole 11 may have a different shape and cross-sectional area in a direction perpendicular to the depth direction, but preferably the same. Since the through-holes 11 have the same cross-sectional shape and cross-sectional area, the entire waterproof layer 200 formed by the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method has uniform durability and thickness. It becomes easy to become a thing.

When the resin layer 10 has a plurality of through-holes 11, the pitch of each through-hole 11 is preferably 30 mm or more, more preferably 45 mm or more, and even more preferably 60 mm or more. By setting the lower limit value of the pitch of each through-hole 11 in this manner, the interval of the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method passing through the through-holes 11 of the resin layer 10 can be made appropriate. The surface of the waterproof layer 200 formed by the waterproof material can be made flat and the waterproof layer 200 can have a good appearance. Also, the pitch of the through-holes 11 is preferably 200 mm or less, more preferably 160 mm or less, and even more preferably 120 mm or less. By setting the upper limit of the pitch of each through-hole 11 in this way, the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method sufficiently reaches the substrate 100 through the through-holes 11 of the resin layer 10. It is possible to increase the bonding strength of the waterproof layer 200 formed by the waterproof material to the base 100 . The pitch of each through-hole 11 can be obtained by measuring the shortest distance between the end of the through-hole 11 and the end of the through-hole 11 adjacent to the through-hole 11 .

The porosity of the resin layer 10 is preferably 0.5% or more, more preferably 0.7% or more, and even more preferably 1% or more. By setting the lower limit of the porosity of the resin layer 10 in this way, it is possible to secure a sufficient area where the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method and the substrate 100 are bonded. Thus, the bonding strength of the waterproof material to the base 100 can be made sufficient. The open area ratio of the resin layer 10 is preferably 50% or less, more preferably 40% or less, and even more preferably 30% or less. By setting the upper limit of the porosity of the resin layer 10 in this way, it is possible to secure a sufficient ventilation space between the air-permeable cushioning sheet for waterproof construction method 1 and the substrate 100 .

Materials constituting the nonwoven fabric layer 20 include polyethylene terephthalate, polyethylene, polypropylene, and the like. Among them, the material constituting the nonwoven fabric layer 20 is preferably polyethylene terephthalate. By using polyethylene terephthalate as the material for the non-woven fabric layer 20, it is possible to obtain the air-permeable cushioning sheet for waterproofing 1 having high strength and excellent durability.

The types of nonwoven fabrics that constitute the nonwoven fabric layer 20 include needle-punched nonwoven fabrics, spunbonded nonwoven fabrics, melt-blown nonwoven fabrics, etc. Among them, needle-punched nonwoven fabrics are preferred. Since the nonwoven fabric layer 20 is a needle-punched nonwoven fabric, the flexibility of the air-permeable buffer sheet 1 for waterproof construction can be increased, and laying on the base 100 is facilitated.

The nonwoven fabric forming the nonwoven fabric layer 20 is preferably a resin-impregnated nonwoven fabric. By impregnating the nonwoven fabric with a resin, the resin-impregnated nonwoven fabric can strengthen the bonding between the fibers constituting the nonwoven fabric, and the nonwoven fabric layer 20 can be bulky to increase the ventilation space in the air-permeable cushioning sheet 1 for waterproof construction method. can be ensured. Examples of the resin with which the nonwoven fabric is impregnated include acrylic resins and polyurethane resins. Among them, the resin with which the nonwoven fabric is impregnated is preferably an acrylic resin. By impregnating the nonwoven fabric with the acrylic resin, it is possible to secure a wide space through which gases such as water vapor released from the base 100 pass while maintaining the flexibility of the nonwoven fabric layer 20 .

The thickness of the nonwoven fabric layer 20 is preferably 5 times or more the thickness of the resin layer 10, more preferably 10 times or more, even more preferably 20 times or more, particularly 30 times or more. preferable. By setting the lower limit of the ratio of the thicknesses of the nonwoven fabric layer 20 and the resin layer 10 in this way, the waterproof layer 200 formed by the waterproof material applied on the air-permeable buffer sheet for waterproof construction method 1 and the substrate 100 are formed. It becomes easy to sufficiently secure the ventilation space formed between them, and the effect of the ventilation cushioning of the ventilation cushioning sheet 1 for waterproof construction method can be further enhanced. Although the upper limit of the thickness ratio between the nonwoven fabric layer 20 and the resin layer 10 is not particularly limited, it can be, for example, 70 times or less, 60 times or less, or 50 times or less. The thickness of the nonwoven fabric layer 20 is measured according to JIS L1913 6.1.1 A method.

The nonwoven fabric layer 20 does not have through holes that communicate with the through holes 11 of the resin layer 10 , but may have through holes that do not communicate with the through holes 11 of the resin layer 10 . That is, the nonwoven fabric layer 20 has through-holes with a cross-sectional area of 0.5 mm ² or more, and the resin layer 10 is formed such that the through-holes of the nonwoven fabric layer 20 are located in areas where the through-holes 11 of the resin layer 10 are absent. 10 and the nonwoven fabric layer 20 may be laminated. When the non-woven fabric layer 20 has through-holes and is laminated with the resin layer 10 in this way, even if it rains after laying the air-permeable buffer sheet for waterproof construction method 1 on the substrate 100, rainwater will not be absorbed. It is difficult to reach the groundwork 100, and the period of interruption of the waterproof construction method due to rain or the like can be shortened, and the waterproof construction method can be continued without interruption, so that the construction period of the waterproof construction method can be shortened.

The nonwoven fabric layer 20 may have through-holes with a cross-sectional area of 0.5 mm ² or more that do not communicate with the through-holes 11 of the resin layer 10, but the cross-sectional area of the entire nonwoven fabric layer 20 is 0.5 mm ² . It is preferable not to have the above through-holes. A waterproofing material is applied on the air-permeable buffer sheet 1 for waterproofing method, and when a load is applied to the air-permeable buffering sheet 1 for waterproofing method, the portion of the air-permeable buffering sheet 1 for waterproofing method having a through hole of the nonwoven fabric layer 20 is removed. The thickness tends to be thinner than the portion without through-holes, and the thickness of the waterproof layer 200 formed by the waterproof material may vary. Since the non-woven fabric layer 20 has no through-holes in its entirety, the thickness of the waterproof layer 200 formed by the waterproof material applied on the air-permeable buffer sheet 1 for waterproof construction method tends to be uniform.

The basis weight of the nonwoven fabric layer 20 is preferably 100 g/m ² or more, more preferably 130 g/m ² or more, and even more preferably 160 g/m ² or more. By setting the lower limit of the basis weight of the non-woven fabric layer 20 in this way, the air-permeable buffer sheet for waterproof construction method 1 having a sufficient space for gas such as water vapor released from the base 100 to pass can be obtained. The basis weight of the nonwoven fabric layer 20 is preferably 400 g/m ² or less, more preferably 350 g/m ² or less, and even more preferably 300 g/m ² or less. By setting the lower limit of the basis weight of the non-woven fabric layer 20 in this way, it becomes easier to lay the air-permeable buffer sheet for waterproof construction method 1 on the substrate 100, and workability can be improved. The basis weight of the nonwoven fabric layer 20 is measured according to 6.2 of JIS L1913.

The air permeability of the nonwoven fabric layer 20 is preferably 10 cm ³ /cm ² ·s or more, more preferably 30 cm ³ /cm ² ·s or more, and further preferably 50 cm ³ /cm ² ·s or more. preferable. By setting the lower limit of the air permeability of the non-woven fabric layer 20 in this way, it is possible to secure a sufficient ventilation space for the air-permeable buffer sheet 1 for waterproofing, and the gas released from the base 100 can be used as an air-permeable buffer for waterproofing. It can be passed in the surface direction of the sheet 1 . In addition, the air permeability of the nonwoven fabric layer 20 is preferably 1000 cm ³ /cm ² s or less, more preferably 750 cm ³ /cm ² s or less, and 500 cm ³ /cm ² s or less. is more preferred. By setting the upper limit of the air permeability of the non-woven fabric layer 20 in this way, when the waterproof material is applied on the air-permeable buffer sheet 1 for waterproof construction method, it passes through the through-holes 11 of the resin layer 10 and permeates the non-woven fabric layer 20. Thus, the waterproof material reaching the base 100 hardly penetrates in the surface direction of the nonwoven fabric layer 20, thereby preventing the ventilation space of the ventilation buffer sheet 1 for waterproof construction method from being reduced. The air permeability of the nonwoven fabric layer 20 is measured according to the Frazier method of 6.8.1 of JIS L1913.

The nonwoven fabric layer 20 preferably has an adhesive layer 40 on the opposite side of the resin layer 10 . That is, the nonwoven fabric layer 20 preferably has the water repellent agent 30 on one side, which is the resin layer 10 side, and the adhesive layer 40 on the other side. The adhesive layer 40 is provided for adhering the air-permeable buffer sheet 1 for waterproof construction method to the substrate 100 . Since the nonwoven fabric layer 20 has the adhesive layer 40, the air-permeable buffer sheet 1 for waterproofing method can be temporarily fixed to the substrate 100 by the adhesive layer 40, and the working efficiency of the waterproofing method can be improved.

The material forming the adhesive layer 40 is not particularly limited, and examples thereof include acrylic adhesives, rubber adhesives, silicone adhesives, urethane adhesives, and the like. Among them, an acrylic pressure-sensitive adhesive is preferable. Since the adhesive layer 40 is configured in this manner, the waterproof breathable buffer sheet 1 is adhered to the base 100 while maintaining sufficient adhesive force necessary for fixing the waterproof breathable buffer sheet 1 to the base 100. - 特許庁When the position of 1 is misaligned, it is also possible to reattach the air-permeable buffer sheet 1 for waterproof construction method. The adhesive layer 40 can be formed, for example, by applying an adhesive to the side of the nonwoven fabric layer 20 opposite to the resin layer 10 .

When the nonwoven fabric layer 20 has the adhesive layer 40 on the opposite side of the resin layer 10, the adhesive layer 40 preferably has release paper on the opposite side of the nonwoven fabric layer 20, although not shown. Since the adhesive layer 40 has a release paper, the adhesive layer 40 of the ventilation buffer sheet 1 for waterproof construction method does not unintentionally stick to other objects during storage or transportation of the ventilation cushion sheet 1 for waterproof construction method. can be prevented, and the handling of the air-permeable buffer sheet 1 for waterproof construction method becomes easy.

The waterproof construction method using the air-permeable buffer sheet 1 for waterproof construction method according to the present invention includes a step of applying an undercoat material to a substrate 100, a step of applying an adhesive to the substrate 100 coated with the undercoat material, and a step of applying an adhesive to the substrate 100 coated with the undercoat material. The method is characterized in that a step of installing the waterproofing ventilation buffer sheet 1 on 100 and a step of applying a waterproofing material to the waterproofing ventilation buffer sheet 1 are sequentially performed. In the case where the waterproof breathable buffer sheet 1 has the adhesive layer 40, the step of applying the undercoat material to the base 100 and the step of installing the waterproof breathable buffer sheet 1 on the base 100 to which the undercoat has been applied. , and a step of applying a waterproof material to the air-permeable cushioning sheet 1 for waterproof construction method are sequentially performed. The waterproof construction method of the present invention will be described below.

First, an undercoat material is applied to the substrate 100 . The undercoat material is applied to the surface of the undercoat 100 in order to increase the adhesion between the undercoat 100 and the waterproof layer 200 formed by the waterproof material, and is sometimes called a primer. By applying the undercoat material to the undercoat 100, an undercoat material layer 101 is formed on the undercoat 100, as shown in FIG.

Types of undercoating materials include, for example, urethane-based, epoxy-based, acrylic-based, and ethylene-vinyl acetate-based materials. Among them, the undercoat material is preferably urethane-based. By using a urethane-based undercoat material, the adhesive strength between the base 100 and the waterproof layer 200 can be increased, and the durability of the waterproof layer 200 can be improved.

Next, an adhesive is applied to the substrate 100 to which the undercoat material has been applied. By applying an adhesive to the substrate 100, the waterproof ventilation buffer sheet 1 can be fixed to the substrate 100, and the step of installing the waterproof ventilation buffer sheet 1 on the substrate 100, the waterproof ventilation buffer sheet It becomes easier to perform the step of applying a waterproof material to 1. In addition, when the waterproof breathable buffer sheet 1 has the adhesive layer 40, the waterproof breathable buffer sheet 1 is fixed to the base 100 by the adhesive strength of the adhesive layer 40. may be omitted.

Further, the air-permeable buffer sheet 1 for waterproof construction method is installed on the substrate 100 to which the undercoat material is applied. In other words, the air-permeable buffer sheet for waterproof construction method 1 is laid on the undercoat material layer 101 formed by the undercoat material on the substrate 100 . As described above, the waterproofing ventilation buffer sheet 1 is fixed to the base 100 coated with the undercoat material by applying an adhesive or the like to the base 100 coated with the undercoat material and fixing the waterproofing ventilation buffer sheet 1. Alternatively, if the air-permeable cushioning sheet for waterproof construction method 1 has an adhesive layer 40 , the adhesive force of the adhesive layer 40 may be used to fix the air-permeable cushioning sheet 1 to the substrate 100 coated with an undercoat material.

Then, a waterproof material is applied to the air-permeable buffer sheet 1 for waterproof construction method. As shown in FIG. 2, a waterproof layer 200 is formed by applying a waterproof material to the air-permeable buffer sheet for waterproof construction method 1 placed on an undercoat material layer 101 formed on a substrate 100 . By configuring the waterproof layer 200 in this way, waterproof performance is imparted by the waterproof layer 200, and gas such as water vapor released from the base 100 passes through the nonwoven fabric layer 20 of the ventilation buffer sheet 1 for waterproof construction method. Therefore, the blistering phenomenon can be prevented. In addition, in order to prevent the penetration of the waterproof material applied on the waterproof ventilation buffer sheet 1 into the resin layer 10 of the waterproof ventilation buffer sheet 1, a plurality of types of waterproof materials with different viscosities are applied to the waterproof ventilation buffer sheet 1. 1, it is possible to shorten the work process in the waterproofing construction method.

In the present invention, the waterproof material is paint that forms the waterproof layer 200, and refers to, for example, a waterproof material having a viscosity of 8000 mPa·s or less. The viscosity can be measured according to JIS Z8803. The viscosity of the waterproof material is preferably 8000 mPa·s or less, more preferably 7000 mPa·s or less, still more preferably 6000 mPa·s or less, and even more preferably 5000 mPa·s or less. By setting the upper limit of the viscosity of the waterproof material in this manner, the surface of the waterproof material is easily smoothed, the waterproof material is easily applied uniformly, and the thickness of the waterproof layer 200 is easily made uniform. Although the lower limit of the viscosity of the waterproof material is not particularly limited, it can be, for example, 100 mPa·s or more, 500 mPa·s or more, or 1000 mPa·s or more.

The manufacturing method of the air-permeable cushioning sheet for waterproof construction 1 according to the present invention includes the steps of forming a nonwoven fabric layer 20, applying a water repellent agent 30 to the nonwoven fabric layer 20, and and forming the layer 10 . The through-holes 11 in the resin layer 10 are those having a cross-sectional area of 3 mm ² or more, and those having a cross-sectional area of less than 3 mm ² are not through-holes 11 . A method for manufacturing the air-permeable buffer sheet 1 for waterproof construction of the present invention will be described below.

The nonwoven fabric layer 20 is preferably formed by needle punching using polyethylene terephthalate as a material. By forming the non-woven fabric layer 20 in this way, it is possible to obtain the air-permeable buffer sheet 1 for waterproof construction that is high in strength and flexibility and easy to handle.

A step of forming an adhesive layer 40 on one side surface of the nonwoven fabric layer 20 may be included after the step of forming the nonwoven fabric layer 20 . Since the waterproof breathable buffer sheet 1 has the adhesive layer 40, the waterproof breathable buffer sheet 1 can be temporarily fixed to the base 100, and the work of laying the waterproof breathable buffer sheet 1 is reduced. easier to go.

Application of the water repellent agent 30 to the nonwoven fabric layer 20 is performed by a method capable of surface coating such as comma coater, bar coater, gravure printing, offset gravure printing, flexographic printing, etc. Among them, flexographic printing is preferable. , but not limited to. By applying the water repellent agent 30 to the nonwoven fabric layer 20 in this manner, it is possible to easily apply the water repellent agent 30 uniformly to the nonwoven fabric layer 20 .

In the production of the air-permeable cushioning sheet for waterproof construction method 1, when the step of forming the adhesive layer 40 on one side surface of the nonwoven fabric layer 20 is included, the step of applying the water repellent agent 30 to the nonwoven fabric layer 20 includes the adhesive layer 40. It may be before the step of forming, but preferably after. Since the air-permeable buffer sheet for waterproof construction method 1 is manufactured in this way, after the adhesive layer 40 is formed on one side surface of the nonwoven fabric layer 20, the nonwoven fabric, such as the application of the water repellent agent 30 and the formation of the resin layer 10, is performed. Since the processing steps for the other side surface of the layer 20 can be carried out collectively, the breathable cushioning sheet for waterproofing 1 can be produced efficiently.

Before the step of applying the water repellent agent 30 to the nonwoven fabric layer 20, there may be a step of printing characters, pictures, etc. on the surface of the nonwoven fabric layer 20 to which the water repellent agent 30 is applied. Moreover, before the step of forming the adhesive layer 40 on one side surface of the nonwoven fabric layer 20, a step of printing characters, pictures, etc. on the side of the nonwoven fabric layer 20 to which the adhesive is applied may be included. .

In the step of forming the resin layer 10 having the through-holes 11, the method of forming the resin layer 10 having the through-holes 11 includes, for example, applying a resin to the nonwoven fabric layer 20 so as to form a structure having holes, or having holes. A method such as attaching a resin film to the nonwoven fabric layer 20 may be used. Above all, the resin layer 10 having the through-holes 11 is preferably formed by applying a resin to the nonwoven fabric layer 20, and more preferably by performing rotary screen printing on the nonwoven fabric layer 20. By forming the resin layer 10 in this way, the resin layer 10 having the structure having the through holes 11 can be formed on the nonwoven fabric layer 20 at high speed, and the production efficiency of the air-permeable cushioning sheet 1 for waterproof construction method can be improved. can.

In the case of a configuration in which the entire surface of the nonwoven fabric layer 20 facing the resin layer 10 is coated with the water repellent agent 30 as shown in FIG. , the step of forming the resin layer 10 having the through holes 11 in the nonwoven fabric layer 20 is performed. In the case of a configuration in which the water repellent agent 30 is provided only on the portions of the resin layer 10 exposed from the through holes 11 , the step of forming the resin layer 10 having the through holes 11 in the nonwoven fabric layer 20 includes: It may be before or after the step of applying the water repellent agent 30 . Above all, since the air-permeable cushioning sheet for waterproof construction method 1 can be efficiently manufactured, the resin layer 10 having the through-holes 11 is formed in the non-woven fabric layer 20 after the step of applying the water repellent agent 30 to the non-woven fabric layer 20. It is preferable to perform the step of

The resin layer 10 having the through holes 11 is preferably formed by rotary screen printing an ultraviolet curable resin on the nonwoven fabric layer 20 . In this case, after performing the rotary screen printing on the nonwoven fabric layer 20, the step of irradiating the printed UV curable resin with UV light is performed.

As described above, the air-permeable buffer sheet for waterproof construction of the present invention has a resin layer and a nonwoven fabric layer, and the resin layer has through holes having a cross-sectional area of 3 mm ² or more perpendicular to the thickness direction of the resin layer. However, since the non-woven fabric layer does not have through-holes communicating with the through-holes of the resin layer, and has a water repellent agent on the resin layer side, the waterproof material applied from above does not pass through the through-holes of the resin layer. And the nonwoven fabric reaches the base, and the waterproof layer is firmly fixed to the base, but the water repellent agent in the nonwoven fabric prevents rainwater from penetrating and does not easily reach the base, reducing the interruption of the waterproofing construction method due to rainfall. can. In addition, since the resin layer prevents the waterproofing material from penetrating the breathable cushioning sheet for waterproofing construction method more than necessary, it is not necessary to apply multiple types of waterproofing materials with different viscosities in multiple times as in the past. A high-quality waterproof layer can be easily formed simply by applying a low-viscosity waterproofing material that makes it easy to create a beautiful appearance with a uniform thickness. can do.

1: Breathable buffer sheet for waterproof construction method 10: Resin layer 11: Through hole 20: Nonwoven fabric layer 30: Water repellent agent 40: Adhesive layer 100: Undercoat 101: Undercoat material layer 200: Waterproof layer

Claims (3)

It has a resin layer and a nonwoven fabric layer,
The resin layer is formed by performing rotary screen printing on the nonwoven fabric layer,
The resin layer has a through hole with a cross-sectional area of 3 mm ² or more perpendicular to the thickness direction of the resin layer,
The nonwoven fabric layer does not have through holes communicating with the through holes of the resin layer, and has a water repellent agent on the resin layer side,
The air-permeable buffer sheet for waterproof construction, wherein the resin layer contains an ultraviolet curable resin. The air-permeable buffer sheet for waterproof construction according to claim 1, wherein the resin layer has a thickness of 30 µm or more. 3. The breathable cushioning sheet for waterproof construction according to claim 1, wherein the nonwoven fabric layer has an adhesive layer on the opposite side of the resin layer.

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