JPH06182743A - Applying method of adhesive agent to corrugated paper and obtained integrated block, in manufacturing of integrated block comprising laminated body of ceramic paper - Google Patents

Abstract

PURPOSE:To prevent corrugated paper from deforming by coater pressure even if the coater is pressed against the corrugated paper strongly, the corrugated paper is arranged on a receiving plate having the same form as that and a high-viscous inorganic adhesive agent superior in adhesion is applied to the top part. CONSTITUTION:Corrugated paper 1 is arranged on a receiving plate 3 which possesses uneven top 2 having the same form as its wave form and is provided with an air hole 4 in a state of penetrated through respectively in a vertical direction in the top and bottom and a holed sheet 7 is arranged on the corrugated paper 1. The holed sheet 7 possesses respectively adhesive agent passing through holes 8 in positions corresponding to the top and a horizontal part of the corrugated paper 1. Then an adhesive agent roller coater 9 is pressed strongly against the corrugated paper 1 and high-viscous inorganic adhesive agent superior in adhesion is applied to a gap between both paper so that an air gap to be generated between both paper is filled with the adhesive agent. Coater pressure is improved like this and the adhesive agent is applied to the paper at a fixed thickness evenly by corresponding to a thickness of the holed sheet 7, hardness of a coater surface and the coater pressure.

Description

Detailed Description of the Invention

[0001]

This invention relates to titania, silica,
More detailed method for manufacturing monolithic block composed of a laminate of corrugated ceramic papers holding a porous body made of alumina, various zeolites, etc., or a laminate of corrugated ceramics paper and flat ceramics paper Relates to a method for applying an adhesive to a corrugated paper in the step of adhering these ceramics papers.

The monolithic block obtained according to the present invention is used, for example, as a carrier for a catalyst for the selective reduction of nitrogen oxides in exhaust gas with ammonia, on which an active metal such as vanadium or tungsten is carried. . The integrated block obtained according to the present invention is also used, for example, as a carrier for carrying an adsorbent that removes nitrogen oxides in ventilation gas in various tunnels.

[0003]

An object of the present invention is to produce a laminated body of corrugated ceramic papers holding a porous body or a laminated body of corrugated ceramics papers and flat ceramics papers. It is necessary to pay attention to the following points.

In the adhesive application section, the active metal supporting function of the porous body held on the paper is impaired to some extent, so the application area must be controlled to the necessary minimum.

The surface of the paper holding the porous body is
Since it is a little fluffy and is applied to the powder, it is difficult to apply a high-viscosity adhesive closely to the paper surface.

The low-viscosity adhesive penetrates into the paper, and it is difficult to control the application area, and the amount of the adhesive remaining on the adhesive surface is small, and there is a problem in the adhesiveness itself.

An object of the present invention is to provide a method for applying an adhesive to corrugated paper, which can solve the above problems in an integrated manner.

[0008]

SUMMARY OF THE INVENTION The present invention has been devised to achieve the above object, and comprises a laminate of corrugated ceramic papers holding a porous body, or a laminate of corrugated ceramics paper and flat ceramics paper. In the production of the integrated block, the corrugated paper is placed on a receiving plate having an uneven upper surface of the same shape, and a highly viscous inorganic adhesive having excellent adhesiveness is applied to the top of the corrugated paper. A method of applying an adhesive to corrugated paper in the production of an integrated block made of a laminated body of ceramic paper.

In a preferred mode of carrying out the method of the present invention, after placing the corrugated paper on the backing plate, a perforated sheet having adhesive passage holes for limiting the adhesive application locations is provided on the corrugated paper. Place and apply adhesive through the holes to the required locations on the top of the corrugated paper.

After the adhesive is applied, the corrugated paper comes into close contact with the upper surface of the receiving plate, and when it becomes difficult to remove, the air is pressure-fed through the air holes provided at the required portions of the receiving plate, and pneumatic pressure is applied. It is preferable to lift the corrugated paper from the receiving plate.

The ceramics paper is produced by, for example, paper making of silica-based, alumina-based or silica-alumina-based ceramics fiber, and a porous body made of titania, silica, alumina, various zeolites, etc. inside and on the surface thereof. Is held.

From the characteristics of the ceramic paper holding the porous body, the selection of the adhesive is the most important for achieving the above object.

As the adhesive used in the method of the present invention, a denitration catalyst or the like is usually exposed to a high temperature of 200 ° C. or more, and therefore, in general, an inorganic adhesive based on silica, alumina or the like is used. Agents are used. As inorganic adhesives, various types of adhesives having a wide range of viscosities ranging from several tens centipoises to tens of thousands centipoises are commercially available.

Most of the inorganic adhesives are of a slurry dispersion type in which inorganic particles are dispersed in an aqueous liquid, and in such an adhesive, only the aqueous dispersion penetrates into the paper regardless of the viscosity. However, since the solid content remains on the paper surface, sufficient adhesive force is often not exhibited.

From this point of view, it is considered that a colloidal inorganic adhesive having a relatively high viscosity is preferable. As the highly viscous colloidal inorganic adhesive, “ThreeBond 3732” manufactured by ThreeBond Co., Ltd. is suitable.

When a high-viscosity colloidal inorganic adhesive is used, it is necessary to press the adhesive roller coater strongly against the paper in order to apply it closely to the paper surface, but the corrugated paper itself has poor rigidity. , When it is applied with a coater pressure, it is deformed or destroyed.

According to the method of the present invention, since the corrugated paper is placed on the receiving plate having an uneven upper surface of the same shape as that of the corrugated paper, even if the adhesive roller coater is strongly pressed against the corrugated paper, the corrugated paper is deformed by the pressure of the coater. There is no fear of coming.

Generally, in the case of adhering a paper material whose dimensional accuracy is not so high or a bent product thereof, it is necessary to crimp the adhesive surface to which the adhesive has been applied to the adherend surface. When the ceramics paper and the flat ceramics paper are bonded together, it is difficult to press the ceramics paper firmly, so a relatively large amount (thickness of 0.2 to 0.5 mm) is required depending on the gap between the bonded surfaces. It is necessary to apply the adhesive.

Since increasing the coater pressure reduces the adhesive thickness, the thickness of the perforated sheet can be increased by providing a perforated sheet having a thickness of 0.5 to 1 mm between the top of the corrugated paper and the coater surface. The adhesive can be applied uniformly to a predetermined thickness according to the coater surface hardness and coater pressure.

The perforated sheet is provided with an adhesive permeation hole of a required size corresponding to the application site on the top of the corrugated paper, and the size of the adhesive application surface can be controlled and limited by this hole. .

After the adhesive is applied, the corrugated paper may adhere to the upper surface of the receiving plate and may be difficult to remove. In such a case, it is preferable that a penetrating air hole is provided in the receiving plate, air is pumped through the air hole, and the corrugated paper is lifted from the receiving plate by air pressure.

[0022]

EXAMPLES Examples of the present invention will be shown below to specifically explain the present invention.

At the same time as holding a porous body made of titania on a ceramics paper manufactured by paper making of alumina-based ceramics fiber, the paper is molded into a flat shape and a corrugated shape by a molding machine. In this way, the corrugated ceramic paper and the flat ceramic paper holding the porous body are prepared. Both of them have a size of 1,500 mm × 500 mm.

The obtained corrugated paper (1) is placed on the receiving plate (3) as shown in FIG. The backing plate (3) has a corrugated upper surface (2) having the same shape as the corrugated shape of the corrugated paper (1), and air holes (4) vertically penetrating the top and bottom of the corrugated paper (3).
Is provided. An air chamber (5) communicating with these air holes (4) is provided on the lower surface of the receiving plate (3).
A compressor is connected to (5) via a valve (6).

After placing the corrugated paper (1) on the receiving plate (3), a perforated sheet (7) having a thickness of 0.8 mm is placed on the corrugated paper (1). The perforated sheet (7) has an adhesive passage hole (8) at a position corresponding to the horizontal portion of the top of the corrugated paper (1). The diameter of the adhesive passage hole (8) is set to be slightly smaller than the width of the horizontal portion of the top, and the application locations of the adhesive in the horizontal portion of the top are limited.

Perforated sheet from above the corrugated paper (1)
Corrugated paper (1) with roller coater (9) through (7)
Apply the adhesive to the required locations on the top of the.

As the adhesive, "Three Bond 3732" manufactured by Three Bond Co., Ltd., which is an inorganic highly viscous colloid adhesive, is used.

The adhesive has a white paste appearance, a main component of alumina, an alcohol solvent, a viscosity of 10,000 cP and a specific gravity of 2.6.
As for the physical properties after curing, the heat resistant temperature (Zegel cone method) is 1,400 ° C. or higher, and the thermal expansion coefficient is 75 × 10 ^−7.
/ ° C, thermal conductivity is 6.1 × 10 ^-3 cal / cm · se
Vickers hardness (0.2 kgf) at c · ° C is 200H
v, the bending strength is 100 kgf / cm ² , the mating push-out adhesive force is 26 kgf / cm ² , the volume resistivity (normal temperature) is 1 × 10 ¹² ohm · cm, and the volume resistivity (after boiling for 5 hours). Is 2 × 10 ¹¹ ohm · cm, and the dielectric constant is 6.
0 (1 KHz), the dielectric loss tangent is 4.1 × 10 ^-3 (1 KH
In z), the water repellency (contact angle with water) is 100 ° and the chemical resistance is excellent.

The adhesive roller coater (9) is strongly pressed against the corrugated paper (1), and an adhesive having a thickness of about 0.4 mm is applied so that the voids formed between the two papers to be adhered are filled with the adhesive. . In this way, the coater pressure is increased, and the adhesive is uniformly applied to a predetermined thickness according to the thickness of the perforated sheet (7), the coater surface hardness, and the coater pressure.

After the adhesive is applied, the corrugated paper (1) may adhere to the upper surface (2) of the receiving plate (3) and may be difficult to remove.
In this case, air is pumped through the air holes (4) of the receiving plate (3), and the corrugated paper is lifted from the receiving plate by air pressure.

Next, in the casing (10), as shown in FIG.
As shown in FIG. 3 and FIG. 3, a number of corrugated papers (1) having an adhesive layer (13) are stacked so that the top of the lower corrugated paper is aligned with the bottom of the upper corrugated paper, and the casing (10 ), The integrated block (11) composed of the laminated body of the corrugated paper (1) is constructed.

The structure shown in FIG. 4 is obtained by placing the flat paper (10) on the corrugated paper (1) having the adhesive layer (13) obtained as described above and adhering it. The obtained composite consisting of corrugated paper and flat paper (14)
Is.

[0033]

According to the method of the present invention, since the corrugated paper is placed on the receiving plate having an uneven upper surface of the same shape, even if the adhesive roller coater is strongly pressed against the corrugated paper, the corrugated paper is corrugated by the coater pressure. There is no fear that the paper will be deformed.

After arranging the corrugated paper on the receiving plate, a perforated sheet having an adhesive passage hole is arranged on the corrugated paper, and the adhesive is applied to a required portion on the top of the corrugated paper through the hole. Therefore, the adhesive application holes can limit the locations where the adhesive is applied, and the highly viscous colloidal inorganic adhesive having excellent adhesiveness can be uniformly applied in a required thickness.

Further, when the corrugated paper comes into close contact with the upper surface of the receiving plate after application of the receiving adhesive and becomes difficult to remove,
The shaped paper can be easily separated from the receiving plate by sending air under pressure through the air holes provided at the required positions of the receiving plate and causing the corrugated paper to rise above the receiving plate by air pressure.

[Brief description of drawings]

FIG. 1 is a vertical sectional view showing a bonding step.

FIG. 2 is a perspective view showing an integrated block provided in a casing.

FIG. 3 is a front view showing an integrated block made of a laminate of corrugated ceramic papers.

FIG. 4 is a front view showing a composite of corrugated paper and flat paper.

[Explanation of symbols]

 (1)… Corrugated paper (2)… Uneven top surface (3)… Receiving plate (4)… Air hole (5)… Air chamber (6)… Valve (7)… Perforated sheet (8)… Adhesive permeation hole (9)… Roller coater (10)… Casing (11)… Integrated block (12)… Flat paper (13)… Adhesive layer (14)… Composite

Claims (4)

[Claims] 1. In the manufacture of an integrated block comprising a laminate of corrugated ceramic papers holding a porous body, or a laminate of corrugated ceramics paper and flat ceramics paper, corrugated papers of the same shape are produced. In the production of an integrated block composed of a laminated body of ceramic paper, which is characterized in that it is placed on a receiving plate having an uneven upper surface and a highly viscous inorganic adhesive with excellent adhesiveness is applied to the top of corrugated paper. How to apply adhesive to corrugated paper. 2. After arranging the corrugated paper on the receiving plate, a perforated sheet having an adhesive passage hole for limiting an adhesive application position is arranged on the corrugated paper, and the corrugated paper top portion is provided through the hole. The application method according to claim 1, wherein an adhesive is applied to a required portion. 3. After applying the adhesive, air is pressure-fed through an air hole provided at a required position of the receiving plate, and the corrugated paper is lifted from the receiving plate by air pressure.
The coating method according to claim 1. 4. An integrated block obtained by applying an adhesive by the method according to claim 1 and then adhering corrugated ceramic papers or corrugated ceramic papers and flat ceramic papers.