JPH06123172A - Lining for concrete panel - Google Patents

Abstract

PURPOSE:To enhance draining and deaerating efficiencies after concrete pouring by providing a lining with a filter layer to which a fabric woven of thermoplastic synthetic resin fibers is thermally bonded and a water permeable layer composed of fabric and the like. CONSTITUTION:A fabric woven of thermoplastic synthetic resin fibers is thermally bonded to a lining X, X for a concrete panel so as to form a filter layer 2. The lining is also provided with a water permeable layer 1 comprising a fabric, a nonwoven fabric, a net, a flat yarn fabric, etc. A mold releasing sheet 4 provided on the back of the lining is peeled and concrete 7 is poured into a concrete panel 5, 5 lined with the lining X. Then extra water and bubbles in the concrete 7 are discharged to the outside through the filter layer 2 and the water permeable layer 1 from small drain holes 6, 6 formed in the lower portion of the panel 5. It is thus made possible to prevent formation of cracks, honeycombs, and pin holes, etc., in the concrete.

Description

Detailed Description of the Invention

[0001]

[Industrial application] Concrete structures such as construction civil engineering are made up of wooden or metal panels to form a formwork, and concrete is poured into the formwork to be compacted and cured. After curing, the mold is demolded and constructed. The present invention relates to a lining material for concrete panels, which is used by being attached to the inner surface of a concrete formwork during such concrete placing work.

[0002]

2. Description of the Related Art In concrete pouring work, after pouring concrete, cracks, junkers, pinholes, etc. occur because water and bubbles in the concrete are not discharged to the outside of the form. Furthermore, the size of the pores contained in the concrete that affects the permeation and diffusion of gas, water, chlorine ions, etc. into the concrete is considered to be 800 to 1500 A °, but these voids increase in size. However, cracks occur due to corrosion of rebar, which is a major cause of significant reduction in strength.

In recent years, the durability of reinforced concrete structures has come to be regarded as a problem, and therefore, it has become necessary to improve the durability of concrete. Therefore, as shown in, for example, Japanese Patent Application Laid-Open Nos. 2-3886 and 2-308049, various woven fabrics, non-woven fabrics,
Adopting a lining material such as perforated film, which is used to quickly discharge excess water and air bubbles in the cast concrete to the outside of the mold through the voids such as woven cloth, non-woven fabric, and perforated film. Has been done.

[0004]

However, in the case where the above-mentioned lining material is adhered to a concrete form, there are many problems in construction workability, number of times of diversion, ease of demolding work, and the like. At present, it has not been used for anything other than buildings and civil engineering structures that require durability.

In view of the above problems, the present invention aims to improve the efficiency of drainage and deaeration after placing concrete, is excellent in demolding property, and is capable of remarkably increasing the number of diversions. The purpose is to provide wood.

[0006]

In order to achieve the above object, the lining material for a concrete panel according to the present invention is obtained by subjecting at least one side of a woven fabric woven from thermoplastic synthetic resin fibers to thermocompression bonding. A filter layer and a water-permeable layer composed of a woven fabric, a non-woven fabric, and a flat yarn fabric are provided, and the filter layer is made of a thermoplastic synthetic resin or a high melting point. The surface of the synthetic resin core material is woven with threads of composite synthetic resin fiber coated in a sheath shape with a low melting point synthetic resin, and the water permeable layer is made of a thermoplastic synthetic resin or high melting point synthetic resin core material. Is composed of a non-woven fabric composed of composite filaments whose surface is covered with a low melting point synthetic resin in a sheath shape.

The filter layer and the water-permeable layer may be laminated by thermocompression bonding or an adhesive and heat sealing method, or may be subjected to thermocompression bonding after being sewn and covered with a thread of thermoplastic synthetic resin fiber. , On the back surface of the lining material for concrete panel according to the present invention, a release sheet is pasted through an adhesive coating layer, and the release sheet is peeled off and lined on the concrete panel with the adhesive. is there.

[0008]

Next, the function of the lining material for concrete panels according to the present invention will be described. That is, the release sheet is peeled off and the concrete is placed in the concrete panel lined with the lining material for the concrete panel. However, excess water and bubbles in the placed concrete are the surface of the lining material. The lower part of the panel through the filter layer formed by thermocompression-bonding a woven cloth woven from thermoplastic synthetic resin fibers having pores continuous in the zone direction, and the water permeable layer composed of woven cloth, non-woven cloth, and flat yarn woven cloth. It will be discharged to the outside from the small holes of the concrete, and it will prevent cracks, junkers, pinholes, etc. from occurring in the concrete, and because it has water repellent, the lining material will be peeled off after the concrete structure is completed. The surface of the concrete structure after completion can be finished neatly because it has a smooth interface.

[0009]

EXAMPLES Examples of the lining material for concrete panels according to the present invention will be specifically described below with reference to the drawings. FIG. 1 is a cross-sectional view of a concrete panel lining material X according to the present invention, and FIG. 2 shows a state in which concrete is placed in a panel lined with a concrete panel lining material according to the present invention. FIG. In the figure, 1 is a water permeable layer, 2 is a filter layer, 3 is an adhesive, 4 is a release paper, 5 is a plywood panel, 6 is a small hole for drainage drilled at the lower end of the plywood panel 5, and 7 is a punch. It is concrete that has been installed.

FIG. 3 is a twill weave structure diagram of a woven fabric of thermoplastic synthetic resin fibers used as an example of the material of the lining material X for concrete panel according to the present invention.
Is a plan view, (b) is a sectional view, (c) is a right sectional view,
In the figure, 1, 2, 3, 4, 5, 6 are wefts, 1 ', 2',
3 ', 4', 5 ', 6'are warp threads. FIG. 4 shows a state in which the above-mentioned thermocompression bonding is performed, and (a) is a plan view,
(B) is a sectional view and (C) is a right sectional view. 5 and 6 are enlarged views of the surfaces of the fibers shown in FIGS. 1 and 2, respectively.

It is woven with twisted yarns, aligned yarns, flat yarns and the like of thermoplastic synthetic resins such as polyamide type, polyester type, polyacrylic type, polyvinylidene chloride type, polyolefin type and polyurethane type. It is also possible to use a composite fiber having a core-sheath structure in which the surface of the sheath of the high melting point synthetic resin is coated with the low melting point synthetic resin.

Regarding the thickness of the yarn, a stable fiber having a denier of 1 to 30 denier, preferably 2 to 10 denier, and a filament yarn having a thickness of 30 to 250 denier, preferably 50 to 150 denier are used. The spun yarn used is 10'-60'S, preferably 20-40'S.

The density of the woven fabric is 70 to 200 warps / inch, preferably 90 to 180 threads / inch, and weft 50 to 1
20 lines / inch, preferably 70 to 100 lines / inch are used.

The structure of the woven fabric is a plain weave, a twill weave, a twill weave, etc. The air permeability thereof varies greatly depending on the thickness, density and structure of the yarn, but it is 50 by the Frazier type tester. The air flow rate is up to 300 cm ³ / cm ² / sec.

A woven fabric composed of spun yarns or multifilaments composed of the stable shown in the enlarged view of FIG. 5 is subjected to thermocompression bonding at a temperature below the melting point of the thermoplastic synthetic resin by a heat calendar roll. The shape of the fiber is compressed in the thickness direction, the fibers are partially fused to reduce the voids, and as shown in the enlarged surface view of FIG. Those that do not infiltrate and solidify are desirable.

Further, since the thermoplastic synthetic resin loses the shape performance of the fiber when the temperature rises close to the melting point of the resin,
The core of the high melting point synthetic resin is composed of a thread whose surface is coated with the low melting point synthetic resin, and the monofilaments in the thread are partially fused or the intersections of the filaments are fused and integrated, resulting in a fine filtration port. The sheet-shaped one is used while holding the.

The thermocompression bonding treatment varies depending on the type of synthetic resin, but is 90 to 220 ° C. by a heat calender roll.
It is desirable to carry out at this temperature. Since the sheet-shaped woven cloth that has been subjected to the heat treatment is used as a filter material for cement particles, it is essential that it has air permeability, and the air permeability is 0.1
It is preferably 30 cm ³ / cm ² / sec.

The water-permeable layer 1 attached to the back surface of the filter layer 2.
Is made of any material selected from natural fiber, synthetic fiber woven fabric, non-woven fabric, and flat yarn woven fabric. Further, a release paper 4 is attached to the back surface of the water permeable layer 1 via an adhesive 3. Of.

The material most preferably used among these is
Nonwoven fabrics and flat yarn woven fabrics are used as non-woven fabrics, which are short fibers such as cotton, rayon, wool and synthetic fibers, and have an apparent fiber density of 0.1 to 0.5 gr / cm ³ and a water permeability coefficient of 1 × 1.
It is preferably 0 ⁻⁴ cm / sec or more. As the flat yarn woven fabric, a plain tape woven of polypropylene or vinylon in the form of a thin tape having a width of about 2 to 3 mm is used. When this flat yarn woven fabric constitutes a sheath-shaped composite film and is thermocompression-bonded with a heat calendar roll, the warp yarn and the weft yarn are fused to each other to form a water-permeable layer which is not frayed by cutting.

As a method for adhering the filter layer 2 and the water permeable layer 1 to each other, there are a stitching method using a thread, a total adhesion or partial adhesion with an adhesive, and a heat adhesion method by melting fibers on the adhesion surface.

In the sewing method using threads, the sewing threads are exposed in a dotted line on the surface of the filter layer 2, and when the concrete 7 is placed by lining it on the inner surface of the plywood panel 5 of the concrete formwork, the cement particles in the concrete 7 It is not preferable because the threads enter and harden, making it difficult to remove the mold.However, if the threads made of thermoplastic synthetic resin are sewn together and then heat-treated with a heat calender roll, the filaments of the threads are partially melted. Since it becomes flat and adheres to the filter layer 2 when it is worn, it does not bite into the concrete 5 and the demolding property is improved.

Adhesion with the adhesive 4 is dot adhesion or powdery hot melt adhesive is sprinkled between the filter layer 2 and the water permeable layer 1 and thermocompression-bonded by a heat calender roll. Acrylic emulsion, SBR latex, nitrile rubber latex, vinyl acetate emulsion are used as the adhesive 4, and nylon 11, nylon 12, nylon copolymer polymer, etc. are used as the hot melt adhesive.

Applying to one surface of the water permeable layer 1, plywood panel 5
Adhesives for attaching the lining material to the rubber are rubber-based or acrylic-based adhesives such as natural rubber, recycled rubber, polyisobutylene, butylene butadiene, polyisobutylene, etc. Alternatively, it is desirable to apply in the form of polka dots.

Further, as the release paper 4 attached to the water permeable layer 1 via the adhesive adhesive 3, kraft paper, pulp paper or various resin sheets coated with the release agent is used.

The filter layer 2 is a multifilament of thermoplastic synthetic resin, or a woven fabric such as plain weave or twill weave woven from composite fibers, and when at least one side of the woven fabric is thermocompression-bonded with a heat calender roll, each filament becomes flat, and The filaments are appropriately heat-sealed to each other to form pores with large stitches and fine pores of about 100 μm. Therefore, since the cement particles are filtered on the surface of the filter layer 2,
Excess water and bubbles in the cast concrete 7 move in the surface area direction of the lining material and pass through the small holes 6 for drainage of the plywood panel 5 without penetrating inside and causing clogging. It is sequentially discharged to the outside.

Similarly, in the case of a woven fabric composed of multifilaments, the filaments constituting the filament yarn are appropriately heat-sealed to reduce the voids, and
The overlapping parts of the multifilaments are fused to form fine pores, perform the same function as described above, and can prevent the fraying of the yarn at the time of cutting.

Further, when the filter layer 2 is subjected to thermocompression bonding with a heat calender roll, the surface is smooth without fine irregularities and fluffs, so that the actual contact area of the concrete 7 to be cast becomes small, and the concrete 7 The fine fibers therein will not be entangled, and the cement particles will not enter the filter layer 2 and harden. Therefore, the finished surface can be finished to have a glossy appearance, and the number of times the lining material is diverted can be increased.

When a composite fiber is used as the filament material as the woven fabric material, partial fusion of the filaments forms a filter layer having fine and uniform voids, so that further excellent smoothness and releasability are imparted. As a result, the number of diversions increases significantly.

Specific examples of the construction of the lining material for concrete panels according to the present invention will be described below.

A. Preparation of the lining material woven fabric (1) Polyethylene 70 denier 210 pieces plain woven fabric,
A sheet-like material having a ventilation rate of 30 cm ³ / cm ² / sec and subjected to thermocompression bonding with a heat calender at 110 ° C to 130 ° C is obtained. This gives a ventilation of 10 cm ³ / cm ² / s
It becomes ec. On this, a powdered hot melt adhesive of Nylon 12 is sprinkled at about 15 g / m ² , and Unitika nylon spunpond non-woven fabric PO403 WTO basis weight 40 g / m 2.
^2. Attach 0.33 mm thick by thermocompression bonding. (2) Nylon 80 denier 260 pieces plain weave fabric, air permeability of 100 cm ³ / cm ² / sec, 180 ° C to 2
A sheet-like material subjected to thermocompression bonding with a heat calender at 00 ° C is obtained. With this, the air flow rate is 10 cm ³ / cm
² / sec. This gives a ventilation of 15 cm ³ / c
m ² / sec. On this, an acrylic emulsion adhesive is applied in spots by an engraved roll, and a polypropy flat yarn woven fabric of 500 denier, 24 warps and 18 wefts is attached. (3) A polyester taffeta (fiber density of 200, air permeability of 300 cm ³ / cm ² / sec) at a temperature of 180 ° C.
A sheet-like material which has been subjected to thermocompression bonding with a heat calendar having a pressure of about 2.5 ton / cm ² is obtained. This gives a ventilation of 10c
It becomes m ³ / cm ² / sec. 20 g / m ^{2 of} hot melt powder nylon 11 is sprinkled on this, Unitika nylon spun pond non-woven fabric PO403 WTO basis weight 40
G / m ² and thickness 0.33 mm are bonded by thermocompression bonding at a temperature of 140 ° C.

B. Application of pressure-sensitive adhesive A solvent light chloroprene adhesive is applied in a sever shape (width 5 mm) to the backing layer of the lining material woven fabric as in the above A, and release paper is attached.

C. Structure of formwork A liner for general formwork (900 x 18
00mm) with a release paper, and two panels with the heat-treated woven fabric attached to the surface, and two sheets without the lining material attached, cross section 900 × 900mm, height 180
A 0 mm square prism mold was produced. In addition, a small hole for water permeation was bored in the lower part of the mold to which the lining material was attached.

D. Casting and curing of fresh concrete Fresh concrete of slump 18 cm (water cement ratio 60%) was cast in the above mold. There was no drainage from the surface where the plywood formwork was used, and 2.8 l / m ² of excess water was drained from the small holes for water permeation at the bottom of the formwork to which the lining material was attached.

E. Demolding the mold After curing for 72 hours, the mold was demolded. The panel to which the lining material was attached could be released from the mold very easily, and there was no cement adhered to the surface of the woven fabric, and it was in a state where it could be reused sufficiently. The surface of the concrete structure was dark gray with no pinholes or junkers.

F. Comparison of surface strength, neutralization resistance, chloride ion penetration resistance, and freeze-thaw resistance. Various tests were conducted at 9 locations evenly arranged on the upper, lower, middle and left-right center of each surface of the concrete structure. The results measured in the laboratory are shown in Table 1.

[0036]

[Table 1]

As described above, when the lining material according to the present invention is used, the surface strength is increased by about 40%, the carbonation gas neutralizes the concrete, and the chlorine ion salt blocking property is 1/2 to 1 / It was proved that it became 3, and the durability of the concrete structure was significantly promoted.

[0038]

The lining material for concrete panels according to the present invention is obtained by subjecting a woven fabric woven of thermoplastic synthetic resin fibers to a thermocompression bonding treatment, and integrally bonding a water-permeable layer on the surface of the woven fabric, Since the adhesive is applied, wrinkles and slack do not occur when it is attached to a concrete panel, and it can follow the panel surface. Therefore, the woven fabric is not entangled in the cast concrete layer, and the fact that the surface of each woven fabric forms smooth fine pores makes it extremely easy to peel off, and the woven fabric is not damaged at all. Instead, it can be reused a considerable number of times. Further, it is not necessary to wind it around the end of the panel because the thread does not fray from the end.

When concrete is placed in a framed formwork by the panel to which the lining material for concrete panel according to the present invention is adhered, surplus water and air bubbles in the placed concrete cause the woven surface of the woven fabric. Since it is quickly discharged from the pores that are continuous in the zone direction, no pockmarks or junkers are generated on the concrete surface, and in combination with good releasability, a very beautiful and glossy finish is possible.

When the composite fiber sheathed with a low melting point synthetic resin is used as the woven fabric, the filaments are easily flattened and, at the same time, the filaments are partially fused to each other to form fine pores. Since the cement particles in the inside do not become entangled, the releasability can be further improved and the number of times of diversion can be further increased. When a water-permeable material such as a non-woven fabric is applied as the backing material, the drainage efficiency is further improved, and dense and highly durable concrete can be placed.

In other words, according to the lining material for a concrete panel of the present invention, a filter layer formed by thermocompression-bonding a woven fabric woven of thermoplastic synthetic resin fibers, a woven fabric, a non-woven fabric, By a water permeable layer composed of a flat yarn fabric, to the concrete structure constructed by placing concrete, to impart water permeability and water permeability to prevent cracks, junkers, pinholes, etc. from occurring, Further, since it has water repellent property, it is easy to peel off the lining material after placing concrete, and since there is a smooth interface, the surface of the completed concrete structure can be finished neatly. However, the number of diversions is large, so it is extremely economical, and it has features such as being able to reduce the cost of concrete placing work.

[Brief description of drawings]

FIG. 1 is a sectional view of a lining material for a concrete panel according to the present invention.

FIG. 2 is a cross-sectional view showing a state where concrete is placed in a panel lined with a lining material for a concrete panel.

FIG. 3 is a twill weave structure diagram of a woven fabric of thermoplastic synthetic resin fibers used as an example of a material for a lining material for a concrete panel according to the present invention, in which (a) is a plan view and (b) is (b). Cross-sectional view, (C) is a right cross-sectional view.

4A and 4B show the same thermocompression-bonded state, in which FIG. 4A is a plan view, FIG. 4B is a sectional view, and FIG. 4C is a right sectional view.

5 is an enlarged view of the surface of the fiber shown in FIG.

6 is an enlarged view of the surface of the thermocompression-bonded fiber shown in FIG.

[Explanation of symbols]

 1 Water-permeable layer 2 Filter layer 3 Adhesive 4 Release paper 5 Plywood panel 6 Small holes for drainage 7 Concrete

 ─────────────────────────────────────────────────── ─── Continued Front Page (71) Applicant 591070624 Jay. C-Composite Co., Ltd. 1-3-4 Uchiwaji-cho, Chuo-ku, Osaka-shi, Osaka (72) Inventor Tokuji Fukuoka 2-54 Sanjo-oji, Nara-shi (72) Inventor Seiichiro Ishihara 9-Donomachi, Takatsuki-shi, Osaka 10 Shuttle Garden A-103 (72) Inventor Kazuhiko Tatematsu 2-9-14 Nakamichi, Higashinari-ku, Osaka City, Osaka Daiho Morinomiya Royal Heights 302 (72) Inventor Wataru Tashiro 1-5, Minamiizumigaoka, Izumisano, Osaka Prefecture 2 (72) Inventor Takeshi Yamaguchi 5-chome Mitsuigaoka, Neyagawa-shi, Osaka 1-89-102 (72) Inventor Shuichiro Furuya 3-16 Karigigaoka, Hirakata-shi, Osaka B-8-301

Claims (7)

[Claims] 1. A lining material for a concrete panel, characterized in that at least one surface of a woven fabric woven from thermoplastic synthetic resin fibers is subjected to a thermocompression bonding treatment to form a filter layer. 2. The lining material for a concrete panel according to claim 1, further comprising a water permeable layer made of a woven fabric, a non-woven fabric, a net-like material, a flat yarn woven fabric or the like. 3. A high-melting-point synthetic resin core material is provided with a filter layer woven with a thread made of a composite synthetic-resin fiber covered with a low-melting point synthetic resin in a sheath shape on the surface of the core material. The lining material for concrete panels according to claim 1. 4. A water-permeable layer composed of a non-woven fabric composed of composite filaments sheathed with a low-melting synthetic resin on the surface of a core material made of a high-melting synthetic resin. Lining material for the concrete panel described. 5. The lining material for a concrete panel according to claim 2, further comprising a filter layer and a water permeable layer laminated by thermocompression bonding or an adhesive and a heat sealing method. 6. The concrete panel according to claim 2, further comprising a filter layer and a water permeable layer which are thermocompression-bonded after they are sewn and laminated with a thread of thermoplastic synthetic resin fiber. Lining material. 7. The release sheet is attached to the back surface via an adhesive coating layer.
Lining material for the concrete panel described.