JP2014050829A - Paint scattering prevention sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a paint scattering prevention sheet which has higher paint scattering prevention effect and less probability of breakage in use and is easy to be handled and administered.SOLUTION: A Net Nis disposed on each of both surfaces of a nonwoven fabric sheet Ato make three layers. The nonwoven fabric sheet Aand the nets Nconstituting three layers are subjected to a needle punch process to be made into a single piece over the whole area.

Description

  The present invention is installed around a structure in order to prevent the paint from splashing when painting on a bridge, road tower, radio tower, power transmission tower, chimney, various structures, etc. The present invention relates to a paint scattering prevention sheet.

  Prevent paint from splashing around the towers, etc. in order to prevent paint from splashing around when painting on bridges, road towers, radio towers, power transmission towers, chimneys, and various structures. The painting work is done by enclosing with a sheet.

  As one of the conventional paint scattering prevention sheets S ′ used for such a purpose, as shown in FIG. 5, two or three nets N ′ each having a vertical and horizontal mesh interval of about 1 mm are overlapped. There is a structure in which the entire periphery is covered with a tape 60 folded in the width direction and sewn by sewing. The airflow (air) containing the scattered paint passes through the mesh of the net N ′ as it is, but the scattered paint contained in the airflow adheres to the vertical and horizontal threads of the net N ′ or two nets. By being stored during N ′, scattering of the paint is prevented.

  FIG. 6 is a schematic diagram of the paint scattering prevention sheet S ″ disclosed in Patent Document 1, in which the nonwoven fabric sheet A ″ is sandwiched between two nets N ″. The whole periphery is covered with a double-folded tape 60 and is sewn by sewing. The paint scattering prevention sheet S ″ is a sheet in which the paint that has passed through the net N ″ is adhered to the nonwoven fabric sheet A ″, and the paint scattering prevention effect is enhanced with respect to the paint scattering prevention sheet S ′.

  However, in any of the sheets S ′ and S ″, the peripheral edges of a plurality of nets or non-woven sheets are only sewn by sewing, and the other portions are merely overlapped. The net N ′ (N ″) and the nonwoven fabric sheet A ″ are greatly expanded and separated from each other due to strong winds, etc. In this state, the original function of preventing the paint from scattering is reduced and the net N ′ (N ″ ) Or the nonwoven fabric sheet A ″ is easily damaged. Further, in the sheet S ″, the nonwoven fabric sheet A ″ is only integrated by a sewing process between the two nets N ″. In addition, since the two nets N ″ and the nonwoven fabric sheet A ″ are separated in all remaining portions except the peripheral portion, the length (width) of the central portion is larger than the length (width) of the peripheral portion. Is also larger (longer) Acts a large tensile force at the center of the nonwoven fabric sheet, the nonwoven sheet becomes intolerable to the tensile force, there even be broken.

  In addition, when any of the sheets S ′ and S ″ is broken, in order to effectively use the remaining portion, the periphery of the broken portion is removed, and a new repair sheet is integrated into the removed portion by sewing. However, since the net and the non-woven fabric sheet are separated, the range of removal of the above-described breakage portion is widened, so that the above-described repair sheet is subjected to a large sewing process.

  On the other hand, from the viewpoint of management, even when the sheets S ′ and S ″ are folded or stored when not in use, the peripheral portions of the plurality of nets or non-woven sheets are sewn by sewing. However, since most of the remaining parts are separable from each other, there is a problem that this folding / winding operation is difficult.

  In addition, as an improvement of the paint scattering prevention sheet S ″ in which only the peripheral edge is sewn by sewing, an intermediate product having a three-layer structure having a width of about 1 m and the entire peripheral edge being temporarily sewn by sewing. By forming a large number of the intermediate products and sewing them sequentially in the width direction, it is possible to form a paint scattering prevention sheet in which three layers are sewn at a narrow interval of about 1 m. The nets can be prevented from being largely separated, but there is a problem that productivity is lowered because a great amount of labor is required for sewing work by sewing.

JP 2012-95423 A

  SUMMARY OF THE INVENTION An object of the present invention is to provide a paint scattering prevention sheet that has a high effect of preventing the original paint from scattering, is less likely to be damaged during use, and is easy to handle and manage.

  The invention of claim 1 for solving the above-described problem is that the nets are arranged on both the front and back surfaces of the nonwoven fabric sheet to be formed in three layers, and the nonwoven fabric sheet of each of the three layers and each net are subjected to needle punch processing over the entire surface. It is characterized by a single sheet.

  The paint scattering prevention sheet according to the invention of claim 1 is a fiber in which the three layers formed by arranging nets on both the front and back surfaces of the nonwoven fabric sheet are integrated over the entire surface by needle punching to constitute the nonwoven fabric sheet. By entering into the mesh of the sheet, the net bites into both the front and back surfaces of the nonwoven sheet, forming a nonwoven sheet, and a part of the fibers entangled with the net is exposed on the surface of the net, It is in the form of a single sheet over the entire surface. With this structure, a single nonwoven fabric sheet is reinforced in strength by the nets arranged on the front and back, and can withstand a large wind pressure during use. Moreover, even if the nets are arranged on both the front and back sides of the non-woven sheet and the entire three layers are formed into a single sheet over the entire surface by needle punching, the front and back sides are nets. The original high air permeability is secured, and this high air permeability contributes to the paint scattering prevention effect.

  On the other hand, with regard to the original paint scattering prevention function, the component of the splash paint that is the coating film adheres mainly to each thread portion of the net of the surface net, and the solvent of the splash paint mainly passes through the net of the net. And absorbed into the nonwoven sheet. The coating film component adhering to each thread of the net mesh is directly in contact with the nonwoven fabric sheet because the net mesh penetrates into the nonwoven fabric sheet, and the absorption effect of the coating film component itself is increased. .

  Furthermore, at the time of use, like the paint scattering prevention sheet described in Patent Document 1, the nonwoven fabric sheet and each net are separated, and in some cases, the nonwoven fabric sheet or the net may be torn. The paint scattering prevention sheet according to the present invention is in the form of a single sheet in use, and the nonwoven fabric sheet and the net are separated, or a large tensile force acts on the nonwoven fabric sheet, and the nonwoven fabric sheet There is no fear of tearing, and since it can withstand a large wind pressure, it can be used stably over a long period of time.

  In addition, even if a part of the paint scattering prevention sheet is damaged and repaired or modified, it is damaged because the two nets and one nonwoven sheet are integrated by needle punching. It is only necessary to remove the damaged part and integrate a new repair sheet to the removed part by sewing, etc., so that the range of repair / remodeling is narrow, and the whole paint is prevented from being scattered. Since the repair sheet only needs to be integrated with the sheet, the repair work becomes easy. Furthermore, since it is easy to wind or fold during storage, transportation and storage are facilitated.

  The invention of claim 2 is characterized in that a net is arranged on the surface of the nonwoven fabric sheet to be formed into two layers, and the two-layer nonwoven fabric sheet and the net are formed into a single sheet over the entire surface by needle punching. Yes.

  The invention of claim 2 is different from the invention of claim 1 only in that the net is arranged only on one side of the nonwoven fabric sheet, whereas the sheet is arranged on both the front and back sides. The whole is in the form of a single sheet, the absorbing action (principle) of the scattered paint, and the ease of transportation and storage conform to the invention of claim 1.

  The invention of claim 3 is characterized in that, in the invention of claim 1 or 2, the nonwoven fabric sheet is made of a short fiber nonwoven fabric.

  Generally, the air permeability of the nonwoven fabric sheet is greater when the nonwoven fabric sheet is made of a short fiber nonwoven fabric than when the nonwoven fabric sheet is made of a long fiber nonwoven fabric. Since the important characteristic required when using a nonwoven fabric sheet as a paint scattering prevention sheet is “breathability”, according to the invention of claim 3, a sheet having a high paint dispersion prevention effect can be obtained by using a short fiber nonwoven fabric. Is obtained.

  The invention of claim 4 is the invention according to any one of claims 1 to 3, wherein the compression ratio of the overall thickness before and after needle punching of the multilayer nonwoven fabric sheet and the net is 0. 4 to 0. 7 is a feature.

  In order to ensure the inherently high air permeability of the nonwoven fabric sheet, as specified in claim 4, the compression ratio of the total thickness before and after needle punching of the multilayer nonwoven fabric sheet and the net is 0. 4 to 0. 7 is desirable. In needle punch processing, due to the nature of processing, it is difficult to reduce the overall thickness compression ratio to less than 0.7, and the overall thickness compression ratio is 0. 4 Below, the original air permeability of the nonwoven fabric is lowered, and the paint scattering prevention effect is lowered.

  The invention of claim 5 is the invention according to any one of claims 1 to 4, wherein the nonwoven fabric sheet is made of a highly lipophilic material.

  In the invention of claim 5, when the paint is oily, that is, when the solvent of the paint is oily, the nonwoven sheet is a material having high oil solvent absorbability, that is, high lipophilicity. It is preferable.

  The invention of claim 6 is characterized in that in the invention of any one of claims 1 to 4, the nonwoven fabric sheet is made of a highly hydrophilic material.

  In the invention of claim 6, when the paint is aqueous, that is, when the solvent of the paint is aqueous, the nonwoven fabric sheet is a material having high water solvent absorbability, that is, a highly hydrophilic material. It is preferable.

  A seventh aspect of the invention is characterized in that, in any one of the first to sixth aspects of the invention, the net is a Russell net in which both the warp and the weft are made of loop-like fibers.

  In the invention of claim 7, when both the warp and the weft are made of loop-like fibers, the yarn itself is three-dimensionally arranged, and a raschel net having a large total contact area is used, it is scattered rather than using a plain weave net. The adhesion effect of the component which becomes the most troublesome coating film of the paint is enhanced.

  The invention of claim 8 is characterized in that, in the invention of any one of claims 1 to 7, the non-woven fabric sheet is made of recycled polyester fibers made from recycled PET resin such as waste PET bottles.

  According to invention of Claim 8, since a nonwoven fabric sheet consists of a reproduction | regeneration raw material, it contributes to reuse of resources.

The invention of claim 9 is the invention according to any one of claims 1 to 8, wherein the air flow rate of the paint scattering prevention sheet is 250 to 700 cm ³ / cm ² · when measured by the Frazier method defined in JIS L1913. It is characterized by being s.

In the invention of claim 9, if the air flow rate is less than 250 cm ³ / cm ² · s, the supplementary action of the paint is reduced due to the fact that the airflow containing the scattered paint becomes difficult to pass through the sheet, or There is a problem in that the wind pressure received by the seat becomes too large and the seat cannot be stably installed. On the other hand, if the air flow rate exceeds 700 cm ³ / cm ² · s, the gap between the fibers constituting the nonwoven fabric becomes too large, and the proportion of the paint passing through increases as it is, reducing the supplementary action of the paint. End up.

  The paint scattering prevention sheet according to the present invention has a configuration in which a sheet is formed over the entire surface by needle punching in a two-layer or three-layer state in which a net is disposed on at least one surface of a nonwoven fabric sheet. Therefore, the coating film component of the paint adhering to the net is absorbed in contact with the non-woven sheet that the net bites into, increasing the capture rate of the scattered paint, and ensuring the breathability of the non-woven sheet Thus, since the nonwoven fabric sheet and the net of each layer are not separated even during use, the use strength is increased.

FIG. 3 is a perspective view of a paint scattering prevention sheet S ₁ of Example 1. Is a perspective view of a separation state before the needle punching nonwoven fabric sheet A ₁ and net N ₁ of both sides constituting the paint scattering prevention sheet S _1. (A), (b) is a partial sectional view before and after performing a needle punching paint scattering prevention sheet S ₁ of the first embodiment of the present invention. It is a partial cross-sectional view of the paint shatterproof sheet S ₂ of the second embodiment of the present invention. It is typical sectional drawing of the conventional paint scattering prevention sheet S '. FIG. 10 is a schematic cross-sectional view of another conventional paint scattering prevention sheet S ″.

  Hereinafter, the present invention will be described in more detail with reference to a plurality of examples.

Paint scattering prevention sheet S ₁ of the first embodiment is shown in FIGS. The paint scattering prevention sheet S ₁ is formed by arranging nets N ₁ on both front and back sides of the nonwoven fabric sheet A ₁ made of short fiber nonwoven fabric, and performing needle punching over the entire surface to form a single piece (integrated) ). Nonwoven fabric sheet A ₁ is one in which the short-fiber nonwoven fabric was capable of holding the sheet by needle punching. The reason for selecting the short fiber nonwoven fabric is as follows. To increase the supplementary rate of scattering paint is passed through the air flow (air) that convey the scattered paint, only scattered paint contained in the inside air flow is necessary to adhere to the paint scattering prevention sheet S ₁ , higher preferred coating shatterproof sheet S ₁ having air permeability, in general, the short fiber nonwoven fabric, because of the high air permeability than the long-fiber nonwoven fabric, the nonwoven fabric sheet a ₁ constituting the paint scattering prevention sheet S ₁ material As preferred.

The net N ₁ is a plain weave net, and a PE monofilament system or a vinyl chloride monofilament system is used. The PE monofilament-based plain weave net has an advantage that it can be used repeatedly because the dried paint easily peels off from the vertical and horizontal threads constituting the mesh after the paint attached to the mesh is dried. On the other hand, PVC monofilament-based plain woven nets can be used for a long time due to their high durability, but the paints are not easily peeled off after the paints are dried due to the high adhesion of the paints to the mesh. Due to difficulties, the use of PE monofilament plain weave nets is preferred. In addition, the distance between the vertical and horizontal threads constituting the mesh of the plain weave net is preferably about 1 mm in consideration of the adhesion of the coating film component in the scattered paint.

In a state where the net N ₁ is arranged on both the front and back surfaces of the non-woven sheet A ₁ to form three layers, the non-woven sheet A ₁ and each net N ₁ constituting the three layers are integrated by a known needle punching process to form a whole. Process into a single sheet. The staple fiber nonwoven fabric constituting the nonwoven fabric sheet A ₁ is formed by the needle punching process, and the fibers constituting the nonwoven fabric are drawn up and down by penetration of the needle to constitute each net N ₁ existing on both front and back surfaces of the nonwoven fabric sheet A _1. By entwining the longitudinal and lateral yarns 1 and 2, the nonwoven fabric sheet A ₁ constituting the three layers and the nets N _{1 on} both sides thereof are integrated over the entire surface, and the whole becomes a single sheet. In this single sheet state, each net N _{1 on the} front and back is in a form of being bitten on both the front and back surfaces of the nonwoven fabric sheet A ₁ . Here, since the purpose of needle punching the three-layer nonwoven fabric sheet A ₁ and the nets N ₁ on both sides thereof is to integrate the three layers, the number of needles driven per unit area is a general needle. This can be less than punching. In FIG. 3B, reference numeral 11 denotes fibers of the non-woven sheet A ₁ entangled with the vertical and horizontal threads 1 and 2 of the net N ₁ .

Further, as shown in FIG. 3, the ratio (compression ratio) of the layer thicknesses T ₁ and T ₂ of the three-layer nonwoven fabric sheet A ₁ before and after needle punching and the nets N _{1 on} both sides thereof is determined by the nonwoven fabric sheet A. _{It is} determined from the viewpoints of ensuring air permeability of ₁ and minimum compression ratio necessary for needle punching. That is, from the viewpoint of securing the air permeability of the nonwoven fabric sheet A _1, when the compression ratio is too large, the air permeability is a property required as a paint scattering prevention sheet is lowered, supplemental rate of scattering coating is reduced. From this viewpoint, the compression ratio is preferably in the range of 0.4 to 0.7. The layer thickness T ₂ of the net N ₁ after needle punching varies depending on the types of the nonwoven fabric sheet A ₁ and the net N ₁ and is (1.6 to 2.4) mm.

The shape and size of the nonwoven fabric sheet A ₁ and each of the two nets N _{1 on} both the front and back sides are naturally the same and variously selected depending on the application, but most of them are rectangular (square and rectangular A concept that includes both). In the case of a square shape, the entire peripheral edges of the four sides are covered with a half-folded peripheral edge stop net N ₀ by a normal method and integrated with the paint scattering prevention sheet S ₁ by sewing. The peripheral stop net N ₀ shown in the figure has a configuration in which the hook portion 50 is formed integrally with the net N ₀ itself and has an advantage of not using a metal eyelet. May be used.

Such coatings scattering prevention sheet S ₁ is viaduct bridges roads and railways, towers, power transmission towers, chimneys, is used in a state of covering the periphery of various structures. Among the scattered paint, the coating film component adheres to the vertical and horizontal yarns 1 and 2 constituting the mesh of the net N _{1 on} the surface and the non-woven sheet A ₁ on the back thereof. through the mesh of N _1, is absorbed by the nonwoven fabric sheet a ₁ of the back, further, the airflow that has conveyed the scattered paint (air), the meshes of the net, and nonwoven fabric sheet a ₁ having a high air permeability pass. As a result of the supplementary principle of the scattered paint, the scattered paint adheres to and is absorbed by the paint scattering prevention sheet S ₁ with a high supplementation rate. As a result, compared to the conventional paint scattering prevention sheets S ′ and S ″, Increases the catch rate of splash paint.

The property of the nonwoven fabric constituting the nonwoven fabric sheet A ₁ is preferably selected depending on whether the scattered paint is water-based or oil-based. That is, as described above, since the solvent in the splash paint is absorbed by the nonwoven fabric, the hydrophilic and lipophilic properties of each of the aqueous and oily solvents corresponding to the aqueous and oily properties of the paint are high. It is preferable to select a nonwoven fabric.

Paint scattering prevention sheet S ₁ described above is not a single shaped nonwoven fabric sheet A ₁ and each net N ₁ of three layers are integrated, large surfaces of the strength weak nonwoven fabric sheet A ₁ is intensity each Since the structure is reinforced by the net N ₁ , the overall strength is increased and the structure can withstand a large wind pressure during use.

Further, even when a part of the paint scattering prevention sheet S ₁ is damaged and repaired or modified, the two nets N ₁ and the one non-woven sheet A ₁ are integrated by needle punching. Therefore, only the damaged part can be removed, and a new repair sheet can be integrated into the removed part by sewing, etc., so the range of repair / remodeling is narrow and the whole is in a single sheet Since the repair sheet only needs to be integrated with the paint scattering prevention sheet S ₁ , the repair work is facilitated.

Also, the paint shatterproof sheet S _1, in order to entire three-layer structure is in the are integrated by needle punching a sheet-like, folding, and for the winding can be easily, easy transportation and storage It becomes.

Here, with respect to the airflow rate of the paint scattering prevention sheet S _1, in consideration of the stability of the supplementary action of the paint (Supplementary effect) and installation of the sheet itself, for the reasons mentioned in paragraph "0031", JISL1913 (generally short fibers In the “Fragile type method” defined in (Nonwoven fabric test method), it is necessary to be 250 to 700 cm ³ / cm ² · s, and preferably 300 to 500 cm ³ / cm ² · s.

Paint shatterproof sheet S ₂ of the second embodiment is shown in FIG. Paint shatterproof sheet S _2, the paint shatterproof sheet S _1, only one surface of the nonwoven fabric sheet A ₁ and place net N _1, was the sheets A ₁ and the net N ₁ integrated by needle punching Is. In use, the paint shatterproof sheet S ₂ is arranged to scatter paint on the side of the nonwoven fabric sheet A ₁ is exposed to adhere directly.

Since the paint scattering prevention sheet S ₂ is composed of two sheets of the net N ₁ and the non-woven sheet A ₁ , there is an advantage of being lighter than the above-described sheet S ₁ . Regarding the other points, the structure of the sheet described with respect to the paint scattering prevention sheet S ₁ described above, the absorption principle of the scattering paint, the increase in strength as a sheet, and the characteristics of ease of handling are used almost as they are. Detailed explanation is omitted.

The paint scattering prevention sheet of Example 3 uses a Russell net in which each of the vertical and horizontal yarns is made of loop-like fibers in place of the plain weave net N ₁ of the paint scattering prevention sheet S ₁ of Example 1. .

  The use of raschel net yarn has three-dimensionally arranged nets on both the front and back sides of the non-woven sheet, resulting in an increase in the total area of the net. There is an advantage that the supplemental effect of the membrane component is increased.

  In addition, although each said Example is an example which used the short fiber nonwoven fabric with high air permeability as a nonwoven fabric sheet, in this invention, use of a long fiber nonwoven fabric is not excluded.

  Moreover, the said nonwoven fabric sheet can also be shape | molded with the recycled polyester fiber which uses recycled PET resin, such as a waste plastic bottle, as a raw material, and contributes to reuse of resources by this.

A ₁ : Nonwoven fabric sheet
N ₁ : Net
S ₁ and S ₂ : Paint scattering prevention sheet
1,2: Threads that make up the net
11: Nonwoven sheet fiber entangled with each thread of the net

Claims (9)

  A paint scattering prevention sheet characterized in that nets are arranged on both front and back sides of a nonwoven fabric sheet to form three layers, and the three-layer nonwoven fabric sheet and each net are formed into a single sheet over the entire surface by needle punching. .   A paint scattering prevention sheet characterized in that a net is disposed on the surface of a non-woven sheet to form two layers, and the two-layer non-woven sheet and net are formed into a single sheet over the entire surface by needle punching.   The said nonwoven fabric sheet consists of a short fiber nonwoven fabric, The coating material scattering prevention sheet of Claim 1 or 2 characterized by the above-mentioned.   The compression ratio of the total thickness before and after needle punching of the multilayer nonwoven sheet and net is 0. 4 to 0. The paint scattering prevention sheet according to any one of claims 1 to 3, wherein the paint scattering prevention sheet is 7.   5. The paint scattering prevention sheet according to claim 1, wherein the nonwoven fabric sheet is made of a highly lipophilic material.   5. The paint scattering prevention sheet according to claim 1, wherein the nonwoven fabric sheet is made of a highly hydrophilic material.   The paint scattering prevention sheet according to any one of claims 1 to 6, wherein the net is a Russell net in which both the warp and the weft are looped fibers.   The paint scattering prevention sheet according to any one of claims 1 to 7, wherein the nonwoven fabric sheet is made of a recycled polyester fiber made from a recycled PET resin such as a discarded plastic bottle. 9. The air flow rate of the paint scattering prevention sheet is 250 to 700 cm ³ / cm ² · s when measured by the Frazier method defined in JIS L1913, according to claim 1. Paint scattering prevention sheet.

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