JPH11300114A - Press dehydrator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a solid-liquid separation filter which hardly becomes dirty and is little in restriction in design, and also to more reduce the water content of a material to be dehydrated. SOLUTION: A press part 2 for pressing a wet material to be dehydrated 1 to dehydrate it, is provided with a solid-liquid separation filter 3 on which the material to be dehydrated 1 is mounted. This solid-liquid separation filter 3 has a water non-holding layer 5 at least on the outer layer thereof and has a water holding layer 6 just below it. These water non-holding layer 5 and water holding layer 6 are laminated and integrated to form the filter 3. The water non-holding layer 6 is formed of fabric woven of synthetic fiber yarn, and the water holding layer 6 is formed of fabric woven of synthetic fiber chenille or multi-filament yarn or natural fiber yarn. And, the water holding layer 6 is arranged in a place 0.3-3.0 mm apart from the surface of the water non-holding layer 5 positioned on the outer layer of the filter.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a press dewatering apparatus. More specifically, the present invention relates to a press dewatering apparatus provided with a solid-liquid separation filter that can further reduce the amount of water in a dewatering target, is less likely to be contaminated, and has less design restrictions.

[0002]

2. Description of the Related Art Conventionally, a press dewatering apparatus for pressing and dewatering a wet material to be dewatered has been known. This press dewatering apparatus is provided with a solid-liquid separation filter for performing solid-liquid separation, but if it is desired to particularly reduce the amount of water after the dewatering press of the material to be dewatered, a general solid-liquid separation filter is not sufficient. Therefore, a filter having an excellent effect of lowering the water content is used.

[0003] Such filters are roughly classified into the following three types. That is, the specific gravity of the filter is high, the type that reduces the amount of water by capillary action, the type that has cushioning properties, and the type that reduces the amount of water by the dropper effect at the time of press decompression, The type that is highly hydrophobic This is a type that reduces the amount of water by repelling the water that comes out.

[0004]

However, although such a solid-liquid separation filter is excellent in the effect of reducing the water content of the dewatered material, there are some problems that must be solved in practical use. It is also a fact. That is, the above-mentioned types of filters have a disadvantage that they are easily soiled. For this reason, frequent cleaning is required to maintain the predetermined performance, which affects the dewatering efficiency. In addition, the above-mentioned types of filters have a drawback that the material is specified and it is difficult to design a filter corresponding to the equipment.

The present invention has been made in view of the above circumstances, and can solve the drawbacks of the solid-liquid separation filter in the conventional dewatering press device, and can further reduce the water content of the material to be dewatered. It is an object of the present invention to provide a press dewatering apparatus provided with a solid-liquid separation filter that is less likely to be soiled and has less design restrictions.

[0006]

In order to solve the above-mentioned problems, the present invention provides a solid-liquid separation filter for placing a material to be dehydrated on a press section for pressing and dewatering a wet material to be dehydrated. A press dewatering apparatus for press-dewatering an object to be dewatered on a solid-liquid separation filter, wherein the filter has a non-water retaining layer at least on a surface layer, and has a water retaining layer immediately below the non-water retaining layer. And a press dewatering apparatus characterized by being formed by lamination and integration.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a press dewatering apparatus according to the present invention will be described in more detail with reference to the drawings. As shown in FIG. 1, the press dewatering apparatus of the present invention includes a press section (2) for pressing a wet dewatered object (1) to dewater it, and the press section (2) includes a dewatered object. A solid-liquid separation filter (3) on which (1) is placed is provided. In press dewatering of the object to be dehydrated (1), the object to be dehydrated (1) is placed on a solid-liquid separation filter (3) and pressed to dewater.

The press section (2) may be provided with a perforated dewatering plate (4) so as to be applied from below the solid-liquid separation filter (3). In the press dewatering apparatus according to the present invention, the solid-liquid separation filter (3) has at least a non-water retaining layer (5) on the surface layer and a water retaining layer (6) immediately below the non-water retaining layer (6). 5) and the water retention layer (6) are formed by lamination and integration.

In the solid-liquid separation filter (3),
The non-water retaining layer (5) is located at least on the surface layer which is in direct contact with the object to be dehydrated (1), and the water retaining layer (6) is disposed immediately below the non-water retaining layer (5). Specifically, for example, each is disposed on the surface layer and the back layer of the solid-liquid separation filter (3), or when an intermediate layer is provided to form a multilayer structure, each is disposed on the surface layer and the intermediate layer. Is exemplified. Alternatively, the non-water retaining layer (5) may be disposed on the surface layer and the intermediate layer, and the water retaining layer (6) may be disposed on the back layer.

The non-water retaining layer (5) can be formed, for example, from a woven fabric using synthetic fiber yarns for the warp (7) and the weft (8). In this case, the synthetic fiber yarn is preferably made of a monofilament of a synthetic fiber such as polyester, polypropylene, and polyamide in order to realize non-water retention. On the other hand, the water retention layer (6) can be formed, for example, from a woven fabric woven from a molding yarn or a multifilament yarn of a synthetic fiber such as polyester, polypropylene, or polyamide, or a natural fiber yarn such as cotton.
In this case, in order to easily realize integration with the non-water retaining layer (5), for example, only the weft (8) of the woven fabric is a synthetic fiber molding yarn or multifilament yarn, or a natural fiber yarn such as cotton. be able to.

The water retaining layer (6) is formed from the surface of the non-water retaining layer (5) located on the surface of the solid-liquid separation filter (3).
It is preferable to dispose them at a distance of 0.3 to 3.0 mm from the viewpoint of better reducing the water content of the object to be dehydrated (1).
As described above, in the continuous dewatering press of the present invention, the solid-liquid separation filter (3) has the non-water retaining layer (5) at least on the surface layer and the water retaining layer (6) immediately below the non-water retaining layer (6). Since the water retention layer (5) and the water retention layer (6) are formed by laminating and integrating, the water that oozes on the surface of the object to be dehydrated (1) during the dehydration press passes through the water retention layer (5) through the non-water retention layer (5). Absorbed in 6). When the press is decompressed after dehydration, the material to be dehydrated (1) rides on the non-water retaining layer (5) located on the surface side of the solid-liquid separation filter (3). The water absorbed by the water retaining layer (6) does not return to the dehydrated object (1). Thus, the material to be dehydrated (1)
Is dehydrated to very low moisture levels.

Since the non-water retaining layer (5) is provided on the surface side of the solid-liquid separation filter (3), the solid-liquid separation filter (3) is not unnecessarily stained. And
The solid-liquid separation filter (3) has few restrictions on its material selection, structure, and the like, and can be designed for various facilities. For example, it can be processed endlessly (endless processing), and can be sufficiently used as a belt.

[0013]

Examples (Example 1-3, Comparative Example 1-3) Wet sheets for fiber-reinforced cement boards (5% pulp fiber, 50% ordinary Portland cement, and silica powder 4) were used as dewatering objects.
A finished sheet (water: solids = 48: 50%) prepared from a cement slurry having a composition of 5% by a fourdrinier method.
100)) was selected and the following solid-liquid separation filter was provided in a press dehydrator to perform press dehydration. The wet sheet was press-dewatered on a solid-liquid separation filter, a perforated dehydration plate was placed below the solid-liquid separation filter, and water discharged from the perforated dehydration plate was promptly removed by a pump. The pressing conditions were a pressure of 10 MPa and a holding time of 5 seconds.

Example 1: One composed of three layers • Plain weave (air permeability: 20 cc / cm ² / sec, thickness: 1.8 mm) • Warp (common to three layers): polyester monofilament (0.6 mm diameter) • Weft: surface layer and Intermediate layer (non-water retaining layer) Polyester monofilament (0.4 mm diameter) Back layer (water retaining layer) Polyester molding yarn (1.0 mm diameter) Non-water retaining layer (1.1 mm thickness) Example 2: Solid-liquid separation used in Example 1 In the filter, the water retaining layer was arranged at a position of 0.3 mm or less from the surface of the surface non-water retaining layer.

Example 3 In the solid-liquid separation filter used in Example 1, the water-retaining layer was set at 3.
It was placed at a distance of 0 mm or more. Comparative Example 1: A commonly used high specific gravity press felt (air permeability 9 cc / cm ² / sec, thickness 1.4 mm) Comparative Example 2: A commonly used high cushioning felt (air permeability 22 cc / cm ² / sec, Comparative example 3: Highly hydrophobic filter commonly used (air permeability: 18 cc / cm ² / sec, thickness: 1.2 mm) And, together with dehydration, the dirtiness of solid-liquid separation filter and compatibility with equipment are evaluated. did.

The dehydration property is determined by drying the sample (105
(3 ° C., 3 hours).
The soiling property of the solid-liquid separation filter was visually evaluated after washing for 2 seconds at a water pressure of 0.2 MPa. In addition, equipment compatibility was evaluated based on the tensile strength and endless workability of the solid-liquid separation filter. Table 1 shows these results.

[0017]

[Table 1]

As is apparent from Table 1, it was confirmed that the continuous dewatering press of the present invention was excellent in all aspects including the dewatering property, the soiling property of the solid-liquid separation filter, and the compatibility with equipment. . As can be seen from the comparison with Comparative Example 1-3, all the disadvantages in the prior art are eliminated. In addition, comparing Example 1 with Examples 2 and 3,
From the viewpoint of dehydration, it can be said that the water retention layer is preferably disposed at a position of 0.3 to 3.0 mm away from the surface of the non-water retention layer located on the surface of the solid-liquid separation filter.

Of course, the present invention is not limited by the above embodiments. It goes without saying that various aspects are possible for the detailed configuration of the solid-liquid separation filter, such as the configuration and structure of the press section, the material and diameter of the warp and weft, and the like.

[0020]

As described in detail above, according to the present invention, it is possible to realize a solid-liquid separation filter which is less likely to be soiled and has less design restrictions, and can further reduce the water content of the dewatering object.

[Brief description of the drawings]

FIG. 1 is an outline view showing an embodiment of a press dewatering apparatus of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Dehydration thing 2 Press part 3 Solid-liquid separation filter 4 Perforated dehydration board 5 Non-water retention layer 6 Water retention layer 7 Warp 8 Weft

Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI B01D 29/04 510A 530A

Claims (5)

[Claims] 1. A solid-liquid separation filter for mounting a dewatered object on a press section for pressing and dewatering a wet dewatered object, and a press dewatering apparatus for press-dewatering the dewatered object on the solid-liquid separation filter. The solid-liquid separation filter has a non-water retaining layer at least on its surface, has a water retaining layer immediately below the non-water retaining layer, and is formed by laminating and integrating these non-water retaining layers and water retaining layers. Press dewatering equipment. 2. The press dewatering apparatus according to claim 1, wherein the non-water retention layer is formed of a woven fabric woven from synthetic fiber yarns. 3. The press dewatering apparatus according to claim 2, wherein the synthetic fiber yarn is made of a monofilament. 4. The press dewatering apparatus according to claim 1, wherein the water-retaining layer is formed of a woven fabric woven from synthetic fiber molding yarn or multifilament yarn or natural fiber yarn. 5. The press dewatering apparatus according to claim 1, wherein the water retaining layer is disposed at a position 0.3 to 3.0 mm away from the surface of the non-water retaining layer located on the surface of the filter.