JPH02264083A - Asphalt-impregnated sheet and production thereof - Google Patents

Abstract

PURPOSE:To obtain the subject sheet having excellent air-permeability, exhibiting air-cooling effect and free from tackiness by impregnating straight asphalt into a fiber sheet, cooling below room temperature and embossing the product. CONSTITUTION:Straight asphalt is impregnated into a fiber sheet 1A, pressed and coated with blown asphalt to form a layer 7. Silica sand 8 is attached to the surface, the asphalt layer is cooled and >=40% of the silica sand attached to the surface of the coating layer is removed (to prevent the falling-off of silica sand in use). An embossed pattern is applied to the surface by embossing process to obtain an asphalt-impregnated sheet having high air-permeability owing to the irregularity applied by the embossing process, resistant to the falling-off of silica sand during work and having excellent working efficiency.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to an asphalt-impregnated sheet and a method for producing the same, and in particular, it can be used as a roofing sheet to prevent workers from slipping, and can also be used as a roofing base material. This article relates to an asphalt-impregnated sheet with an air-cooling effect between roofing materials and its manufacturing method.

[Conventional technology]

Traditionally, asphalt roofing sheets (paper, cloth) are installed under roof tiles or shingles, and - compact asphalt roofing sheets are made of core paper impregnated and coated with asphalt, and both sides are coated with asphalt. -Approximately 200t to 250g of silica sand is attached per piece. Moreover, the surface is flat.

[Problem to be solved by the invention]

Conventional asphalt roofing sheets have no drawbacks of their own, and the silica sand is used to prevent the coating layer of asphalt from becoming sticky due to outside temperature. When roofing is done with conventional asphalt roofing sheets, the sheet surface is flat and silica sand adheres to it, which easily falls off, making it difficult for workers to walk on the asphalt roofing sheets. It has been pointed out that workers may slip and that there is a gap in labor safety management.

In addition, silica sand falls intermittently during the transportation process of the asphalt roofing sheet, staining the floor, and if silica sand that falls off during strong winds gets into your eyes or nose, it can be very painful because silica sand has sharp crystals. there were.

In view of the above-mentioned problems, an object of the present invention is to provide an asphalt-impregnated sheet that prevents workers' footwear from slipping even when it is installed on a steeply sloped roof, and that prevents silica sand from being removed during transportation, as well as a method for manufacturing the same. It was developed as.

[Means to solve the problem]

In order to solve the above problems, the present invention provides (1) an asphalt-impregnated sheet in which a fiber sheet is impregnated with straight asphalt and, after cooling, an embossed pattern is formed that bulges from the back side to the front side.

(2) Impregnate a fiber sheet with straight asphalt, form a blown asphalt coating layer on both sides, attach silica sand to both sides, cool it, and then remove 40% or more of the silica sand attached to the surface of the coating layer. A method for producing an asphalt-impregnated sheet that is subjected to embossing processing.

A technical measure was taken.

[Effect]

The blown asphalt layer coated on the fiber sheet is coated at a temperature of around 200°C, and its surface is sticky. Therefore, ordinary silica sand is deposited and cooled.

By brushing the surface after this cooling, more than 40% of the adhered silica sand can be removed.

If embossing is then performed, the embossing machinery will not be contaminated with silica sand that easily falls off, and in particular, wear of the embossing rollers due to silica sand will be prevented. As a result, the manufactured asphalt-impregnated sheet has more than 40% less silica sand on the surface compared to conventional products, so the silica sand does not fall off during transportation and stain the floor or get into your eyes. It does not slip even when placed on a roof with a steep slope, and since the embossed pattern is formed on the surface, there is good air circulation and air cooling even when it is rolled up and transported, and the silica sand on the surface There is no stickiness at all, and since there are convex parts on the surface, it prevents workers from slipping when roofing is installed on a steeply sloped roof. The gaps created between the material and the embossed pattern have an air-cooling effect due to air circulation, and also have the effect of improving the sulphation of rainwater in the event of a leak.

Even if a fiber sheet is impregnated with straight asphalt, cooled and then embossed, the sheet will not become sticky due to the air cooling effect even if it is rolled up and transported.

〔Example〕

Embodiments of the invention will be described based on the drawings.

FIG. 1 is a front view showing the manufacturing process of a roofing sheet.

Fiber sheet (roofing paper, non-woven fabric) 1^ is roller 2
It is sent out from the tip into the dipping tank 3 in a wound state. There are 220 straight asphalts 4 in the dipping tank 3.
The fiber sheet 1A immersed in this straight asphalt 4 is kept warm at ~230°C.
The impregnated state is pressed by press rollers 5, 5.

In the next step, the fiber sheet 1^ impregnated with straight asphalt 4 is rolled by coating roller 6.
The blown asphalt 7A melted at around 0° C. is coated in layers to form the blown asphalt coating layer 7.

In the next step, approximately 9250 g of No. 8 silica sand 8 per 1 rrf is applied to the front and back surfaces of the fiber sheet 1A on which the blown asphalt coating layer 7 is formed on the - side.

In the next step, after a cooling step using six to eight water-cooled rollers 9, 9, . . . , the state shown in FIG. 2 is obtained. In the next step, the sand removal device 10.10 (rotary brush and suction device) removes 40x or more of the silica sand adhering to the front and back surfaces. In other words, most of the silica sand, which has poor adhesion and is unstable and easily removed, is removed.

Thereafter, the asphalt-impregnated sheet 1 on which the embossing pattern 912 has been formed so as to have a convex surface by the embossing roller 11.11 is in the state shown in FIG. After this processing is completed, it is wound up on a winding roller 13.

Since the thickness of the asphalt-impregnated sheet 1 for roofing is generally 1 rMa, the bulging height by embossing is about 0.5 to 1 -, which is sufficient to provide anti-slip and air cooling effects. When using a thick sheet such as roofing felt, emboss it to the appropriate height.

Further, the area of the embossing process (pressure swelling part) is preferably in the range of 20% to 30% of the total area, and if the area is too large, the anti-slip effect will be reduced.

Asphalt impregnated sheet 1 manufactured by the above process
Since the silica sand has been removed by more than 40% compared to conventional products, there is no problem of silica sand falling off during transportation, staining floors, etc., or getting blown into the eyes by the wind, and can be used on steep slopes. Even if it is installed on the roof, there is no risk of workers slipping.

Because the emboxing pattern is formed on the surface,
Even when installed on a steeply sloped roof, there is no risk of workers slipping, and even when rolled up, there is an embossed convex pattern, so even if there is little silica sand on the surface, it has an air cooling effect. There is no risk of stickiness occurring.

Furthermore, even if a galvanized iron plate or the like is placed on top of this sheet, there is ventilation between the roofing material and the sheet, and there is an air cooling effect. For tiled roofs, anti-slip material is applied horizontally onto the sheet, but with conventional products, water that enters through the joints of the tiles is stopped by the anti-slip material and causes water leakage, but this sheet uses emboxing. Because of the patterned protrusions, even if rainwater enters, it flows downstream on the sheet, protecting the base material from water leakage.

An asphalt-impregnated sheet 1 for walls is shown in FIG. 4. This sheet 1 is produced by omitting the steps of coating 6.6, silica sand spreading 8.8 and sand removal device 10.10 in FIG. The asphalt-impregnated sheet 1 used in this application also has convex portions with an emboxing pattern 12, so it does not easily become sticky even when silica sand is not attached, and when used as a wall covering material, the convex portions are easy to follow along the sheet surface. It provides ventilation in both directions and has an air cooling effect.

〔Effect of the invention〕

As described above, this invention has the following excellent effects.

(1) Asphalt-impregnated sheets with embossed surfaces have an air-cooling effect and are non-sticky even when rolled up, even if silica sand is not attached to the surface. be.

(2) The asphalt-impregnated sheet is manufactured by attaching silica sand to the surface in the process after applying blown asphalt, and then adding a process of removing the silica sand and adding an emboxing pattern. (a) Silica sand is transported and Since it does not fall off during construction, there is no problem such as staining floors or getting into eyes, and in addition, even when roofing is installed on a steep slope, the silica sand tends to fall off, causing accidents such as workers slipping. It has the effect of preventing

(b) This has the effect of preventing the silica sand from falling off and causing trouble to the embossing mechanical system, and reducing the wear of the rollers due to the silica sand.

(A) The uneven embossing process prevents workers' footwear from slipping even when installed on steeply sloped roofs.

(:) Whether the sheet is rolled up or placed on the roof, the bossing process has an air cooling effect.

[Brief explanation of drawings]

The drawings relate to embodiments of the present invention, and FIG. 1 is a schematic front view of the entire device showing the manufacturing process, and FIG. 2 is a cross-sectional view of an asphalt-impregnated sheet for roofing before embossing.
FIG. 3 is a sectional view of an embossed asphalt-impregnated sheet, and FIG. 4 is a sectional view of an asphalt-impregnated sheet for walls. 1... Asphalt impregnated sheet, 1^... Fiber sheet, 2... Roller, 3... Soaking tank, 4...
...Straight asphalt, 5...Press roller,
6... Coating roller, 7... Blown asphalt coating layer, 7^... Blown asphalt, 8... Silica sand, 9... Water-cooled roller,
10... Sand removal device, 11... Embossing roller, 12... Embossing pattern, 13.
...Take-up roller. Patent applicant: Utoyo Paper Co., Ltd. II
Tomi Toke Bilt Co., Ltd. -615"-

Claims (4)

[Claims] (1) A method for producing an asphalt-impregnated sheet, which comprises impregnating a fiber sheet with straight asphalt, cooling it to room temperature or below, and then subjecting it to embossing. (2) Impregnate a fiber sheet with straight asphalt, form a blown asphalt coating layer on its surface, attach silica sand to the surface, cool it, and then remove 40% or more of the silica sand attached to the surface of the coating layer. A method for manufacturing an asphalt-impregnated sheet, which comprises removing the asphalt and subjecting it to embossing. (3) An asphalt-impregnated sheet characterized by forming an embossed pattern that bulges from the back side to the front side on a fiber sheet impregnated with straight asphalt. (4) A coating layer of blown asphalt was formed on both sides of a fiber sheet impregnated with straight asphalt, and an embossing pattern was formed that bulged from the back side to the front side with a small amount of silica sand attached to both sides. Characteristic asphalt impregnated sheet.