JPS63126954A - Inorgnanic fiber mat - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to an inorganic fiber mat that is applied to the walls and floors of houses to provide heat insulation and soundproofing.

"Prior Art and its Problems" Conventionally, insulation materials made of inorganic fibers such as glass fibers and mineral fibers have been installed on the walls and floors of houses. In this case, there are regions where inorganic fibers are installed with a moisture-proof film attached in advance, and regions where the inorganic fiber mat is installed as is and a moisture-proof film is applied separately (for example, Hokkaido).

FIG. 5 shows a state in which the inorganic fiber mat is applied to a wall. In other words, pillars 1 are erected at predetermined intervals.
A water shield 3 is fixed to the outside of the pipe. Then, the inorganic fiber mat 4 is fitted between the columns so that they fit tightly together, and the moisture-proof film 2 is covered on the inside. An interior board 6 made of gypsum board or plywood is attached to the inner side of the horizontal board 5.In this way, the inorganic fiber mat 4 is attached to the pillar with its surface covered with the moisture-proof film 2. 1 for heat insulation and soundproofing.

By the way, the inner spacing of the pillars is generally 430 mm between wooden pillars and 400 mm between studs, but in reality there is considerable variation. This depends on the circumstances of each application location. For example, if the auxiliary pillars 7 are installed at the corner of a wall to provide the inner horizontal board 5 or interior board 6, the spacing at that part will be This results in a gap between the auxiliary pillar 7 and the other pillar 1. in this way,
Due to variations in the question intervals of pillar 1, inorganic vA fiber pine 1~
Even if 4 is formed to a predetermined size, it is difficult to fit it exactly into the bar of the pillar 1. Therefore, in order to properly install the inorganic fiber mat 4, it is necessary to carefully measure the spacing between the pillars 1 and cut it to an appropriate length. The debris often caused discomfort in the working grooves. In addition, the inorganic fiber mat 4 is generally made of inorganic fibers by cutting the inorganic fiber pine 1-4 into a slightly larger size, compressing it, and pushing it between the C pillars. were arranged in the plane direction, so the compressibility in the width direction was poor.

FIG. 6 shows the state in which the inorganic fiber mat 4 is installed on the floor. In other words, joists 9 are placed at predetermined intervals above and perpendicular to the main drawers 8 that support the floor surface.

The inorganic fiber mat 4 is fitted between the joists 9. Although not shown, is it inorganic in this case as well? a
The indoor side of the fiber mat 4 is covered with a moisture-proof film. Because the thickness of the joist 9 is different,
There is a lot of variation in the spacing between the holes. For this reason, when installing on floors, the same problems as those described above for walls may occur1.

``Object of the Invention'' Object of the Invention In view of the problems of the prior art, Wang Wang, 1. 1. The purpose is to capture and provide the inorganic fiber pine 1.

``Structure of the Invention'' The present invention involves depositing inorganic fibers and forming slits alternately from both sides of the C at predetermined intervals in the width direction in an inorganic fiber mat made of a plate-shaped (formed L). It is characterized by being bendable.

The inorganic 'fa' mat of the present invention can be bent at the slits (thereby changing the arrangement direction of the inorganic fibers from the plane direction to the thickness direction. As a result, the inorganic fibers can be compressed in the width direction. This improves the quality of the product, allowing it to be compressed and fit snugly even if there is considerable variation in the spacing between columns or the spacing between joists.

Therefore, if you cut the pieces to a size that is a little larger than the specified spacing, you can proceed with the construction without having to go to the site and recut the pieces, which will greatly improve work efficiency and reduce the discomfort caused by cuttings. It is possible to resolve this. In general, since there is no gap between the pillars and the inorganic fiber mat, it is possible to obtain the desired heat insulation and sound insulation performance.

The raw materials for the inorganic fiber mat of the present invention include glass fiber,
Various inorganic fibers such as mineral fibers can be used. These inorganic fibers are formed by various known methods. and,
An inorganic fiber mat can be obtained by depositing inorganic fibers on a cotton collection net, etc., adding a binder made of a thermosetting resin, etc., compressing it in the thickness direction, and heating to harden the binder. . This inorganic fiber mat is cut to a predetermined width and length.

In the present invention, slits are formed in this inorganic fiber mat alternately from both sides of C1 at predetermined intervals in the width direction. In this case, the slit has a certain amount of +, Ti with respect to the opposite surface.
':) Make a bend at the thin part of the hole so that there is one remaining piece.The length of this uncut part is 1 to 20 mm.
It is possible to have a thickness of about 5 to 15 mm. Further, the length of the uncut portion 1) can be changed depending on whether a slit is made from the viewpoint of force (1) or when a slit is made from the other side. As a result, as will be described later, when the inorganic fiber mat is fitted, the moisture-proof film can be used to prevent it from falling off, for example, between the pillars, further improving the performance. be able to.

The density of the inorganic fiber mat according to the present invention is 10 to t2.
0 kg/rn' is possible, but with elasticity 50
It is preferable that the value is less than 9. However, in reality, the key density is more important than the inorganic fiber mat compressed and fitted between pillars or between joists. The key density in the constructed state is preferably 15 to 50 kq/m; if it is less than 15 kg/m, sufficient heat insulation properties and retention when inserted between pillars cannot be obtained, and the density is 9/50 to 50. If it exceeds rn'@, the compressibility will be poor or an extremely strong compressive force will be required, making it difficult to fit it in manually.

"Embodiment of the Invention" FIGS. 1 and 2 show an embodiment of an inorganic fiber mat according to the present invention.

This inorganic fiber mat 11 is formed by depositing short glass fibers, adding 2 to 10% by weight of a phenol resin, compressing it, and curing the resin by heating. In the state shown in FIG. 1, the inorganic fiber mat 11 is cut into dimensions of 60 cm in width, 45 cm in length, and 9.5 cm in thickness. Further, in this state, the bulk density is 24kc+/m. In this state, the glass fibers are arranged in the direction indicated by arrow A in the figure.

This inorganic fiber mat 11 has 10 cm in the width direction.
Slits 12 are formed alternately from both sides at intervals aG of m. This slit 12 has 5 slits between it and the other surface.
An uncut length b of mm is provided, and the slit 1
The part 2 is bendable as shown by the arrow in FIG.

When using this inorganic fiber mat 11, the slit 1
Bend the part 2 as shown by the arrow in Figure 1. As a result, the state shown in FIG. 2 is obtained. In the state shown in Figure 2, width 57
The dimensions are cm, length 45 cm, and thickness I O cm. The glass fibers are arranged in the direction shown by arrow B in the figure. Therefore, the compressibility of the inorganic fiber mat 11 in the width direction is significantly improved.

Therefore, even if there is considerable variation in the spacing between columns, the inorganic fiber mat 11 can be compressed and inserted in the width direction. It can be fitted snugly. In this way, the dimensional tolerance at the application point is increased, so there is almost no need to recut on site, eliminating the discomfort caused by cutting chips, and greatly improving work efficiency. When this inorganic fiber mat 11 was compressed in the width direction and fitted into pillar gates with a spacing of 43 cm, sufficient retention was obtained in that state, and the mat density was 32 kq/rn', which was good. Good insulation and soundproofing performance was obtained.

3 and 4 show other embodiments of the inorganic fiber mat according to the invention.

This inorganic fiber mat 11 basically has the same structure as the embodiment shown in FIGS. 1 and 2. However, in this embodiment, the length bl of the uncut portion of the slit 12 from one surface is different from the length b2 of the uncut portion of the slit 12 from the other surface. That is, bl is 5 mm, b2 is 15 mm
It is said that

This inorganic fiber mat 11 is bent as shown by the arrow in FIG. 3 and fitted between the pillars 1 as shown in FIG. 4. A moisture-proof film 2 and a water barrier 3 are attached to the back side. When the inorganic fiber mat 11 is inserted between the columns 1, it is sufficiently compressed and is held between the columns 1 by its elastic restoring force.
Since the lengths of the uncut portions bl and b2 are different, the retention between the pillars 1 is improved as follows. That is, since the portion bent by the length bl of the uncut portion is long, a force acting on it to return it to its original shape as shown by the arrow in FIG. 4 is applied. On the other hand, the part that was bent using the length b2 of the uncut part is short, so it can be easily bent.
The force that tries to return it to its original state has almost no effect. the result,
The inorganic fiber mat 11 will be pressed by itself in the direction of the gap 3 on the back side, and its retention between the pillars 1 will be further improved. Until covering, inorganic fiber mat 1
1 can be prevented from falling off.

"Effects of the Invention" As explained above, according to the present invention, slits are formed alternately on both sides at predetermined intervals in the width direction, and bending is possible at the slit portions. By bending, the arrangement direction of the inorganic fibers, which was oriented in the plane direction, can be changed to the thickness direction. As a result, the compressibility in the width direction is significantly improved, and even if there is considerable variation in the spacing between columns or the spacing between joists, it can be compressed and fitted tightly.

Therefore, the work can be carried out as is without having to be recut on site, which greatly improves work efficiency and eliminates the discomfort caused by chips.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an embodiment of the inorganic fiber mat according to the present invention, FIG. 2 is a perspective view showing the inorganic fiber mat in a bent state, and FIG. 3 is a perspective view showing an embodiment of the inorganic fiber mat according to the present invention 4 is a cross-sectional view showing another example of the mat; FIG. 4 is a cross-sectional view showing the same inorganic fiber mat bent and fitted between pillars; FIG.
The figure is a sectional view showing a conventional inorganic fiber mat fitted into an opening in a column, and FIG. 6 is a perspective view showing a conventional inorganic fiber mat fitted between joists. In the figure, 1 is a pillar, 2 is a moisture-proof film, 11 is an inorganic fiber mat, 12 is a slit, b, bl, and b2 are the lengths of the uncut portions of the slits, a is the spacing between the slits, and A and B are the inorganic fibers. This is the arrangement direction. Patent applicant Kafiber Glass Co., Ltd. Figure 1 Figure 2

Claims (1)

[Claims] An inorganic fiber mat formed by depositing inorganic fibers and forming them into a plate shape, in which slits are alternately formed on both sides at predetermined intervals in the width direction, and the inorganic fiber mat can be bent at the slit portions. fiber mat.