JPH0848409A - Conveyor belt for manufacturing concrete formed product and manufacture thereof - Google Patents

Abstract

PURPOSE:To provide a conveyor belt for manufacturing a concrete formed product which makes hard the clogging with cement and, in addition, makes it easier for concrete formed product to be peeled off easily from it. CONSTITUTION:In a conveyor belt for concrete formed product production, the unwoven cloth of divided type complex fiber comprising two types of components is put on a base cloth 1 woven with the warp and weft of synthetic resin filament, and formed integrally with the base cloth with needle punching. Also the divided type complex fiber is divided by high-pressure water flow, and the unwoven cloth 2 is confounded three-dimensionally. Thus the clogging of the belt with cement is made hard and, in addition, concrete product can be peeled off easily from the belt.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a slate plate (concrete molded product) in the case of producing a non-combustible exterior wall material (concrete molded product) in which a concavo-convex pattern is formed on the surface of cement or in a pre-process for producing a slate roof tile. The present invention relates to a conveyor belt used when manufacturing.

[0002]

2. Description of the Related Art A production line for producing a non-combustible exterior wall material (concrete molded product) having an uneven pattern formed on the surface of cement will be explained with reference to FIG.
The mold (5) is installed at the A part at one end of the upper part, and the cement slurry (6) is poured into the mold (5) at the B part, and C
The surface of the cement slurry is passed through a pressing machine (7) or a press roller to form a molding pattern on the surface of the cement slurry, and then the drying process of the D portion is passed, and at the other end of the E section, the formwork is conveyed with the conveyor. The product is manufactured by unloading from the belt (4).

In the step C for molding the surface of the cement slurry by pressing, at the same time, the suction mechanism (8) installed under the conveyor belt (4) removes water from the cement slurry. (The conveyor belt used after passing through the press molding process as described above is hereinafter referred to as a press molding belt.)

More precisely, the suction mechanism (8) removes the water leaked from the conveyor belt (4) and the water contained in the conveyor belt (4), and the water contained in the cement slurry (6) is transferred to the conveyor belt (4). Water will be absorbed.

The manufacturing process for manufacturing a slate plate (concrete molded product) in the pre-process for manufacturing slate roof tiles will be described with reference to FIG.
The cement slurry (6) pulled up from the above is sequentially transferred and laminated on the conveyor belt (4) while the thickness is regulated by the gap between the circular mesh (9) and the couch roll (11) paired with the mesh roll (11), and proceeds to the making roll (6). By 12), it is further laminated or smoothed to form a slate plate, which is moved to the next step. (The conveyor belt used for manufacturing the slate plate in this manner is hereinafter referred to as a slate plate forming belt.)

Conventionally, as these conveyor belts, those in which a cloth or felt is pasted on a wire mesh or a woven base fabric made of synthetic fiber filaments are used.
No. 7-103797, in which the warp and weft yarns are made of synthetic fiber filaments and a felt is attached to the base fabric, or a fiber belt made of nylon fibers is needle-punched on the base fabric, or As disclosed in Japanese Unexamined Patent Publication No. Sho 62-10015, a fiber web of hydrophilic synthetic fibers is needle punched on a base fabric, and a conveyor belt or the like has been used in which the web surface is heat-melted and smoothed.

[0007]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
In the conveyor belt having the structure shown in Japanese Patent No. 103797, the fluff follows the cement slurry when the semi-dried product is unloaded from the belt together with the formwork, and the felt comes off.
There is a problem that the fluff on the felt surface is entangled with the product and the peeling from the belt becomes worse.

Further, a conveyor belt in which a fibrous web made of nylon fiber is needle punched on a base cloth or a conveyor belt of the construction shown in Japanese Utility Model Laid-Open No. 62-10015 has a rough material because the material used is thick. , Even if smoothed, the original web layer itself is rough, so cement particles will enter between the webs and cause clogging of the belt, or it will remain dry and will stick to the newly poured cement slurry, At the other end E part, it is difficult to peel off when the whole frame is unloaded from the belt, and in extreme cases, delamination defeats the semi-finished product, and the cement that sticks out from the eyes of the belt and hardens is present between the belt and roll. However, there is a problem that the abrasion of the belt is accelerated and the belt is cut.
The present invention is provided for the purpose of solving such problems.

[0009]

The present invention has solved the problem by making the non-woven fabric surface of the conveyor belt highly dense. That is, one of the present inventions is, in one aspect, a conveyor belt for producing a concrete molded article in which a non-woven fabric is laid on a base fabric woven by warp and weft yarns made of synthetic resin filaments. A non-woven fabric in which composite fibers and other synthetic fibers are mixed is used, needle-punched to be integrated with the base fabric, and then the splittable composite fibers are divided by the dividing means to be entangled with the non-woven fabric. It is a characteristic conveyor belt for producing concrete molded products.

In this case, the fiber mixed with the splittable conjugate fiber is preferably a functional fiber such as a fiber having water absorption property or a fiber having conductivity, and a plurality of fibers may be mixed to add a function depending on the use. .

In this case, the ratio of the splittable conjugate fibers to be mixed is preferably 60% or more, more preferably 8%.
It is 0% or more. The ratio of split type composite fibers to be mixed is 6
If it is 0% or less, the non-woven fabric layer will have coarse meshes even after division, and the surface will lack compactness.

[0012] Another is that a non-woven fabric composed only of splittable composite fibers composed of two components is preliminarily laid on a base fabric woven by warp and weft yarns made of synthetic resin filament and needle-punched. Integrated with
Thereafter, a conveyor belt for producing a concrete molded article, characterized in that the splittable conjugate fibers are split and entangled by a splitting means, and in one, a nonwoven fabric laminated on a base fabric is a laminated nonwoven fabric. The surface layer is 2
It is composed only of splittable conjugate fibers consisting of various components, and this laminated nonwoven fabric is needle punched to be integrated with the base fabric, and thereafter the splittable conjugate fibers of the surface layer are split and entangled by the splitting means. It is a characteristic conveyor belt for producing concrete molded products.

The manufacturing method is as follows: A base fabric woven by warp and weft yarns made of synthetic resin filaments is preliminarily loaded with a non-woven fabric containing splittable conjugate fibers composed of at least two kinds of components, and needle punching is applied to the base fabric. This is a method of producing a conveyor belt for producing a concrete molded article by integrating with a cloth, thereafter dividing the splittable conjugate fiber in the non-woven fabric by a dividing means, and entangled the fibers with each other.

The non-woven fabric mentioned in the present invention includes not only the non-woven fabric which has already been in the form of a sheet but also a fibrous web layer.

The splittable conjugate fiber is a fiber in which polymers having different components are interleaved and spun into a continuous structure in the longitudinal direction. The splittable conjugate fibers are separated from each other by adding splitting means, and each component is separated. This is defined as a composite fiber that becomes a monofilament. In one embodiment, as shown in FIGS. 5 and 6, a polymer composed of an A component and a polymer composed of a B component are radially interposed between each other. Fibers having a chrysanthemum-like cross section and having a continuous structure in the longitudinal direction, which are separated from each other by adding a dividing means such as a high-pressure water stream or compressed air or a dividing means by heat. It is an ultrafine single fiber of each of the component and the component B.

The two types of splittable conjugate fibers composed of two types of components referred to in the present invention are, for example, component A of nylon 6 and B.
Like the splittable conjugate fiber whose component is nylon 12.
Those having the same name but different contents are included as two types.

In any of the above conveyor belts for producing concrete molded products, the total basis weight of the non-woven fabric placed on the base fabric is preferably 50 to 800 g / m ² ,
More preferably, it is 100 to 600 g / m ² .

When the basis weight of the non-woven fabric is 50 g / m ² or less, the non-woven fabric layer after division is uneven, and when it is 800 g / m ² or more, air permeability and water permeability are impaired. Further, the single fiber fineness of the splittable conjugate fiber after splitting is preferably 0.5 denier or less.

The weight per unit area of the non-woven fabric will be described in more detail. Even though the same concrete molded product conveyor belt is used, the press molded belt shown in FIG. 7 and the slate plate molded belt shown in FIG. Therefore, the thickness of the cement slurry loaded on the belt is different, and therefore the basis weight of the nonwoven fabric on the belt used is also different.

Generally, in the case of a press-molding belt, the basis weight may be small, 50 to 300 g / m ² is suitable, and in the case of a slate plate molding belt, the basis weight is larger than that of the press-molding belt. , 300 to 800 g / m ² , and more preferably 300 to 600 g / m ² .

When the non-woven fabric is a laminated non-woven fabric, the above numerical value is the total basis weight. Further, in this case, the basis weight of the non-woven fabric layer composed only of the splittable conjugate fiber composed of two components for forming the surface side layer is preferably 50 g / m ² or more. If it is 50 g / m ² or less, the needle punching holes will not be sufficiently clogged even after the split entanglement, leaving a cause of clogging.

Regarding the material of the above-mentioned conveyor belt for producing a concrete molded product, since the cement slurry which is a raw material of the concrete molded product is alkaline, the material of the base cloth and the non-woven fabric is preferably a polyolefin series or a polyamide series.

The material of the splittable conjugate fiber is preferably a water-absorbing polyamide-based material, but may be a water-repellent polyolefin-based material. If the material of the splittable conjugate fiber is a water-repellent polyolefin-based material, a water-absorbent material such as nylon may be used as the base fabric, and the non-woven fabric is a laminated non-woven fabric, and the surface non-woven fabric layer is water-repellent. When a certain polyolefin-based material is used, the requirement can be satisfied by disposing a water-absorbing non-woven fabric layer such as nylon underneath.

Further, in order to further improve the peelability between the above-mentioned conveyor belt for producing a concrete molded product and the product, it is preferable to apply a post-treatment to the surface of the nonwoven fabric in which the splittable conjugate fiber has already been split. The post-processing treatment is a treatment for preventing fuzz on the surface of the non-woven fabric, and is a heat treatment for smoothing the non-woven fabric surface in which the splittable conjugate fibers are already divided.

Examples of the processing method include a method of impregnating the non-woven fabric with an acrylic ester, and a method of heat-fusing the non-woven fabric with a heat roller to smooth the surface. There is a method of disposing a non-woven sheet-shaped or powder-shaped hot melt adhesive, processing the surface with a heat roller, and heat-sealing the surface to smooth the surface. If the construction of the nonwoven fabric of the present invention is carried out not only on one side but also on both sides of the base fabric, the force for peeling the non-woven fabric from the base fabric by needle punching, that is, the peel strength of the non-woven fabric is further increased.

[0026]

The non-woven fabric placed on the base cloth is firmly integrated with the base cloth by needle punching, but needle holes remain, and since the needle holes are large, cement particles enter through the needle holes. For this reason, at least the nonwoven fabric of the surface layer is split and entangled by splitting the splittable conjugate fiber using a splitting means after they are integrated, so that the non-woven fabric is densified more and the needle hole is erased.

Cement particles are particles having a central distribution of about 10 μmΦ, and a nonwoven fabric formed by split-entanglement of splittable conjugate fibers has a pore size of 10 μmΦ or less, so that cement particles are less likely to enter the belt. Moreover, since this non-woven fabric is divided into ultra-fine single fibers and three-dimensionally entangled to form a dense structure, it is difficult to fluff and deform against pressure.

Moreover, since the cross-sectional shape of the ultrafine single fibers has a modified cross-section with a sharp acute angle, it also has an effect of efficiently trapping solid fine particles in the cement slurry and preventing them from passing through, and also due to the capillary phenomenon. Water easily intervenes at the interface with the cement slurry, which improves the peelability of the cement slurry.

[0029]

EXAMPLES The present invention will be described below based on examples.
1 to 3 are cross-sectional views of Example 1, Example 3 and Example 4, respectively, FIG. 4 is a cross-sectional view of Comparative Example, and FIGS.
It is sectional drawing which shows one aspect of the split-type conjugate fiber which consists of components of a kind.

[Example 1]; Example 1 is 840 for warp yarn.
Denier / 3-ply nylon, weft nylon 0.3mmΦ nylon, vertical density 33 / inch, horizontal density 4
On a base fabric (1) woven in a weft double weave structure at 8 fibers / inch, a split denier composite fiber having a total denier of 3 denier and a denier of 3 denier consisting of two components of polyethylene and polypropylene is 80: Place a non-woven fabric (2) having a basis weight of 300 g / m ² mixed at a ratio of 20% by weight,
After needle-punching and integrating with the base fabric (1), each of the splittable composite fibers was split into 0.2 denier ultrafine single fibers by high-pressure water flow, and concrete molding was made into a three-dimensionally entangled nonwoven fabric. It is a conveyor belt for manufacturing products.

[Embodiment 2] In Embodiment 2, the surface of the conveyor belt for producing a concrete molded product of Embodiment 1 is further heat-bonded by a heat roller at a temperature of 140 ° C. to be smoothed.

[Example 3] In Example 3, 240 g of a basis weight composed of split type conjugate fiber having a total denier of 3 denier consisting of two kinds of components polyethylene and polypropylene on the base fabric (1) having the same specifications as in Example 1 / M ² non-woven fabric (2) is placed and needle punching is applied to the base fabric (1)
After being integrated with each other, each of the splittable conjugate fibers is divided into 0.2 denier ultrafine single fibers by a high-pressure water flow to form a three-dimensionally entangled nonwoven fabric, and the surface is further heated with a heat roller at a temperature of 140 ° C. It is a conveyor belt for producing a concrete molded product which is heat-sealed and smoothed.

[Example 4] In Example 4, the nonwoven fabric laminated on the base fabric (1) having the same specifications as in Example 1 was the laminated nonwoven fabric (3), and 6 denier nylon was used as the lower layer. Place a non-woven fabric (2a) with a unit weight of 300 g / m ² ,
On top of that, as a top layer, a total basis weight of two components polyethylene terephthalate and nylon, a total denier of 3 denier, a basis weight of a splittable conjugate fiber of 120 g / m ²
After the non-woven fabric (2b) is placed on the base fabric and needle punching is performed on both of them to integrate with the base fabric (1), each of the splittable conjugate fibers is divided into 0.2 denier ultrafine single fibers by high-pressure water flow. Then, it is a conveyor belt for producing a concrete molded product, in which the upper layer nonwoven fabric (2b) is three-dimensionally entangled to form a nonwoven fabric.

[Example 5] In Example 5, the non-woven fabric was impregnated with acrylic acid ester as a post-treatment on the conveyor belt for producing a concrete molded product of Example 4 and resin-processed.

COMPARATIVE EXAMPLE 1 In Comparative Example 1, a non-woven fabric (2) having a basis weight of 300 g / m ² using 6-denier nylon was placed on the base fabric (1) used in Example 1 and needle punching was performed. It is a conveyor belt for manufacturing concrete molded products integrated with cloth.

Using the conveyor belts for producing concrete molded products of Examples 1 to 5 and Comparative Example described above, water absorption, cement releasability, clogging with cement particles, and cement passage were tested.

In the test method, the same amount of cement slurry kneaded under the same conditions was placed on each sample, and the water absorption evaluation was performed by visually observing the condition where water was absorbed on the sample surface to evaluate the performance of each sample. The property and clogging due to cement particles were dried as it was, and then the cement was peeled off. The peeling condition and clogging condition were visually judged. Regarding the passability of cement, the state of cement leakage to the back surface was visually judged, and the results were evaluated as good, good, fair, and bad.

As a result of the test, the performance evaluation results shown in Table 1 were obtained.

[0039]

[Table 1]

[0040]

EFFECT OF THE INVENTION Since the base fabric of the conveyor belt for producing a concrete molded product of the present invention is woven by using the synthetic resin monofilament, it has excellent rigidity, withstands high tension and is excellent in dimensional stability. .

Further, the conveyor belt for producing a concrete molded article of the present invention is needle-punched because the surface layer is a non-woven fabric to be laminated on the base fabric and the surface layer contains the splittable conjugate fiber composed of at least two kinds of components. When it is integrated with the base fabric, and then the splitting type composite fiber composed of these two components is split by the splitting means and three-dimensionally entangled, the non-woven fabric becomes more dense and the needle holes are also erased. Slurry does not get into the needle hole.

The cement particles are particles having a central distribution of about 10 μmΦ, and the non-woven fabric in which the splittable conjugate fibers are already split and entangled has a pore size of 10 μmΦ or less, so the cement particles penetrate into the belt. Moreover, since this nonwoven fabric is divided into ultra-fine single fibers and three-dimensionally entangled to form a dense structure, it is difficult to fluff and is not easily deformed by pressure.

Moreover, since the cross-sectional shape of the ultra-fine single fiber has an atypical cross-section with a sharp acute angle, the solid fine particles in the cement slurry are also efficiently captured and prevented from passing through, and water is intervened at the interface by the capillary phenomenon. Since it is easy, it has an effect that the peelability of the cement is good. Further, there is also an advantage that the unit weight used can be smaller than that of general non-woven fabric.

[Brief description of drawings]

FIG. 1 is a sectional view of a first embodiment.

FIG. 2 is a sectional view of a third embodiment.

FIG. 3 is a sectional view of the fourth embodiment.

FIG. 4 is a cross-sectional view of Comparative Example 1.

FIG. 5 is a sectional view showing an embodiment of a splittable conjugate fiber composed of two kinds of components A and B.

FIG. 6 is a cross-sectional view showing an embodiment of a splittable conjugate fiber composed of two kinds of components A and B.

FIG. 7 is a schematic explanatory view of a production line in the case of producing a non-combustible exterior wall material (concrete molded product) in which an uneven pattern is formed on the surface of cement.

FIG. 8 is a schematic explanatory diagram of a papermaking machine for manufacturing a slate plate (concrete molded product).

[Explanation of symbols]

(1); base fabric, (2); non-woven fabric, (2a); non-woven fabric,
(2b); non-woven fabric, (3); laminated non-woven fabric, (4); conveyor belt, (5); formwork, (6); cement slurry, (7); press machine, (8); suction mechanism,
(9); Circle net, (10); Cement bath, (11); Couch roll, (12); Making roll

Claims (4)

[Claims] 1. A conveyor belt for producing a concrete molded article, comprising a non-woven fabric laid on a base fabric woven by warp and weft yarns made of synthetic resin filaments, wherein the non-woven fabric comprises a splittable conjugate fiber comprising at least two components. It is characterized in that a non-woven fabric in which other synthetic fibers are mixed is used, needle-punched to be integrated with the base fabric, and then the splittable conjugate fiber is divided by a dividing means to entangle the non-woven fabric. Conveyor belt for manufacturing concrete molded products. 2. The conveyor belt for producing a concrete molded article according to claim 1, wherein the non-woven fabric laminated on the base fabric is composed only of splittable conjugate fibers composed of at least two kinds of components. 3. The non-woven fabric laminated on the base fabric is a laminated non-woven fabric, and the surface layer is composed only of splittable conjugate fibers composed of at least two components, and the laminated non-woven fabric is needle punched to be integrated with the base fabric. A conveyor belt for producing a concrete molded article, characterized in that the splittable conjugate fiber of the surface layer is split and entangled by a splitting means after that. 4. A base fabric woven by warp and weft yarns made of synthetic resin filament is preliminarily laminated with a non-woven fabric using splittable conjugate fibers composed of at least two components, and needle punching is performed to integrate the base fabric. A method for manufacturing a conveyor belt for producing a concrete molded article, comprising splitting the splittable conjugate fibers in the non-woven fabric by a splitting means, and then interlacing the fibers.