JPH0438344A - Sealing material - Google Patents

Abstract

PURPOSE:To obtain a sealing material, which has excellent sealing properties and is executed easily, by composing the sealing material being interposed between members and sealing a section between the members of a resin having superior water absorption properties, being formed in a powdered shape under a non-water absorbing state and being formed in a gelled shape under a water- absorbing state. CONSTITUTION:A resin 51, which has excellent water absorption properties and is formed in a powdered shape under a non-water absorbing state but has properties, in which it is gelled and swollen when it absorbs water while having properties, in which it does not separate once absorbed water even when certain pressure is applied, is used as a sealing material. The desired section of one member A to be sealed is coated with adhesives 50, and the resin 51 is attached uniformly onto the adhesives 50 without clearances. The resin 51 functions as the sealing material itself at that time. The other member B to be sealed is arranged and fixed to the resin 51 under a contact state. When the resin 51 is gelled and swollen under the water-absorbing state, the resin 51 blocks a clearance between the members A, B.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application 1 This invention relates to a sealing material that is interposed between members and provides a seal between the members.

1. Prior Art] FIGS. 8 to 11 show how a conventional sealing material is used. FIG. 8 shows a case where a glass plate 2 is attached to a window frame 1.

A holding member 3 is fixed to the indoor side of the window frame 1 with screws 4, and a crow board 2 is arranged between the window frame 1 and the holding member 3. Sealing materials 5 and 6 are attached between the glass plate 2 and the window frame 1 and between the glass plate 2 and the holding member 3, respectively.

Further, a knoll material 7 is also attached between the indoor side surface of the holding member 3 and the indoor side surface of the window frame l.

Further, a sealing material 8 is also applied to the lower end portion of the screw 4.

FIG. 9 shows the case where the member 11 is attached to the indoor side of the outer wall panel 10. The member 11 is fixed by screws 12 and nano-tooths 13 welded to the indoor side of the outer wall panel 10. A solid member 14 is attached between the double line part of the outer wall panel 10 and the upper part of the member 11.

FIG. 10 shows the case where the frames 20 and 21 are connected. Four fitting parts 20a are formed on the upper end surface of the frame body 20, and a fitting protrusion 21a formed on the lower end surface of the frame body 21 is fitted into this fitting recess 20a. Fixed. It is located on the outdoor side of the fitting convex portion 21a,
A saw member 23 is attached between the upper end surface of the frame body 20 and the lower end surface of the frame body 21.

FIG. 11 shows the contact portion between the window frame 30 and the opening/closing window 31.

An airtight material 32 made of Com is attached to the edge of the window frame 30. The airtight material 32 is fixed by fitting its base 32a into a fitting groove 30a formed in the window frame 30, and a seven-hole material 33 is inserted into the fitting groove 30a. When the opening/closing window 31 is closed, the indoor side surface of the opening/closing window 31 comes into close contact with the airtight material 32.

Each of the above-mentioned sealing materials 5 to 8.14, 23.33 is generally made of polysulfide or noricorn.

[Problem to be solved by the invention] However, each of the above sealing materials 5 to 8, 14°23.3
3 deteriorates due to exposure to ultraviolet rays or temperature changes during long-term use, or may peel off from the surface to which it is attached due to vibrations such as earthquakes. If this happens, there is a risk that the seal may become incomplete and water may enter the interior of the room through the peeled part.

Furthermore, conventional solenoid members made of polysulfide or silicone land are extremely troublesome to construct. In other words, the following construction procedure was required.

First, in order to improve the adhesion between the member to be sealed and the sealant, a brimer is applied to the member.

Also, apply adhesive tape in advance to areas where you do not want the sealant to protrude. Once the primer above is dry, fill it with sealant. After this, peel off the adhesive tape and
Allow the solenoid parts to cure until they harden. This curing period takes several tens of hours, during which time it is impossible to move anything. This is because if it is moved, it may cause peeling, etc., and the performance of the tape may deteriorate. .

This invention has been made in view of the problems of the prior art described above, and its purpose is to provide excellent /
The aim is to provide a sealing material that is easy to install.

"Means for Solving the Problems" This invention has been made to achieve the above objects,
Its gist lies in the following three 7-rule materials.

(1) A solid member that is interposed between members and provides a gap between the members is characterized by being made of a resin that has excellent water absorption and is powder-like in a non-water-absorbing state and forms a kelp-like shape in a water-absorbing state. Seal material.

(2) In the Knoll material that is interposed between parts and seals the parts, there is a nano-like base material and a powdery material with excellent water absorption attached to at least one surface of this base material in a non-water absorbing state. A sealing material characterized by comprising: a resin that forms a shell shape in a water-absorbing state;

(3) In a solid member that is interposed between members and provides a gap between the members, there is a bag-shaped skin made of a water-absorbing material, and a material that is highly water-absorbent and non-resistant, which is housed inside the skin. A sealing material comprising: a resin that is powder-like in a water-absorbed state and gel-like in a water-absorbed state.

In the case of the solenoid members of the first invention and the second invention, the gel-like resin absorbs water and swells to fill the gaps between the members, allowing liquids such as water or air to swell. block the gas passage.

In the case of the 7-ru material of the second invention, the resin is attached to a ribbon-shaped base material, and in the case of the 7-ru material of the third invention, the resin is inside the bag-shaped skin. Since the sealing material is accommodated in the sealing material, it becomes easier to handle the sealing material, and the sealing material installation work becomes easier.

In addition, in the case of the 7-ru material of the third invention, when the resin absorbs water, gels, and swells, the part oozes out of the epidermis through minute pores formed in the epidermis. come. This oozing resin fills the gap between the component and the skin.

[Example] Hereinafter, an example of the present invention will be described based on the drawings from FIG. 1 to FIG. 7.

First, the resin used as the sealing material or a part thereof in the present invention will be explained.

This resin is currently used in disposable diapers and the like, where it absorbs urine and hardens it into a jelly-like form. A specific example of this resin is KT Gel 201K manufactured by Kuraray Co., Ltd.

KT gel 201 has -F2 etc. This resin has extremely excellent water absorbency, and has the property of being powder-like in its non-water-absorbing state, or turning into a kelp and swelling when it absorbs water. It has the property of not letting go.

Next, the form of the sealing material will be explained based on FIGS. 1 to 3.

The first form is as shown in FIG. It is intended to be applied uniformly without any gaps.

In this case, the resin 51 itself serves as the sealing material.

The other member B to be sealed is placed and fixed in contact with the resin 51. When the resin 5I absorbs water, gels, and swells, the resin 51 completely closes the gap between the members AB.

In the second form, as shown in FIG. 2, the resin 51 is uniformly adhered to one adhesive surface of a υ-shaped adhesive tape (base material) 52, which has adhesive surfaces on both sides, without any gaps. A release paper (not shown) is attached to the other adhesive surface and the sealing material 53 is attached.
That is. When attaching the sealing material 53 to the member A, the release paper is peeled off to expose the adhesive surface, and the sealing material 53 is adhered to the member A to be sealed. The other member B to be sealed is placed and fixed in contact with the resin 51. When the resin 51 absorbs water, turns into a gel, and swells, the resin 51 completely closes the gap between the adhesive tape 52 and the member B.

In a third embodiment, as shown in FIG. 3, a skin 54 is formed by making paper or cloth with excellent water absorption into a flat bag, and the resin 51 is filled into the skin 54 to form a sealing material 55. That is. In the case of this sealing material 55, the sealing material 5
It suffices to just sandwich the material A and B between the members A and B to be used.

In the sealing material 55, water absorbed by the outer skin 54 is absorbed by the internal resin 51, where the resin 51 turns into a slag and swells. The swollen resin passes through the fine holes in the skin 54 and oozes out of the skin 54, and this resin 51 fills the gap between the parts A and B to be sealed and the skin 54, allowing water and air to pass through. Try not to get angry.

Next, specific usage conditions of the sealing material will be explained based on FIGS. 4 to 7. FIGS. 4 to 7 show cases corresponding to FIGS. 8 to 11 in the prior art, respectively, and the same reference numerals are given to the same parts as in the prior art for explanation. In addition, these drawings show the case where the sealing material 53 of the above-mentioned second form is used, or the case where the sealing material 51, 55 of the above-mentioned first form or third form is used instead. It is also possible.

First, the case shown in FIG. 4 will be explained. The sealing material 53 is interposed between the window frame 1 and the holding member 3. In the construction procedure, a sealing material 53 is first attached to the window frame 1. At that time, adhesive tape 52 is bonded to the window frame 1 with the powdered resin 51 facing upward.

Place the presser member 3 on top of this powdered resin 51 and screw 4.
Screw in to fix the presser member 3. This completes the work. Incidentally, between the glass plate 2 and the window frame 1 or the holding member 3, 7-ru members 5 and 6 made of the same material as the conventional one are provided. Now, suppose that the sealing material 5 has deteriorated after this construction, and water has entered the interior of the room from between the sealing material 5 and the window frame 1 or the glass plate 2.

However, when this water enters the sealing material 530, the resin 51 of the sealing material 53 absorbs this water, turns into a slag, and swells. The resin 53 then fills the gap between the bottom surface of the pressing member 3 and the adhesive tape 52 to prevent water from passing through. In addition, when screwing in the screw 4, if powdered or gel-like resin 51 is applied to the male threaded part of the screw 4 before screwing in, the part where the screw 4 penetrates the window frame l will also be screwed in. become.

In the above-mentioned embodiment, the resin 51 of the sealing material 53 attached to the window frame 1 is left in powder form to complete the application of the sealing material. However, after the presser member 3 is fixed, the sealing material 5
The application of the sealing material may be completed by positively impregnating the resin 51 of No. 3 with water and gelling it.

In this way, the work of attaching the sealing material 53 becomes much easier than in the past. Moreover, the sealing performance becomes stable over a long period of time.

In the case of FIG. 5, the sealing material 53 is interposed between the outer wall panel and the member 11, and in the case of FIG. Frame body 2
It is interposed between the fitting convex portions 21a formed on the lower end surface of 1. The procedure for attaching the sealing material 53 is the same as that in the embodiment shown in FIG. 4 described above, so the explanation will be omitted.

In the case of FIG. 7, the sealing material 53 is connected to the window frame 30 and the airtight material 3.
It is interposed between 2. When attaching the sealing material 53 to the fitting groove 30a of the window frame 30, the resin 51 is attached to the outdoor side, and the adhesive tape 52 is attached to the bottom surface of the fitting groove 30a. Then, the base 32a of the airtight material 32 is fitted into the fitting groove 30a. If the resin 51 of the sealing material 53 is not actively brought into a water-absorbing state during this construction, when water enters the fitting groove 32 through the gap between the wall surface of the fitting groove 30a and the airtight material 32, the resin 51 51 absorbs this water, turns it into a keloid, and prevents further water from entering.

In addition, since all of the above-mentioned examples are examples of sealing materials whose primary purpose is water sealing, the resin of the sealing material may be in powder form at the time of completion of installation when the sealing material is attached to the member.
If the primary purpose of this sealing material is airtightness, when the sealing material is attached to a member, it is necessary to actively absorb water into the resin and turn it into a gel to complete the installation.

[Effects of the Invention] As explained above, according to the present invention, the installation work of the seal member becomes extremely easy, and stable sealing performance is maintained for a long period of time even after installation, which is an excellent effect. It is played.

[Brief explanation of the drawing]

The drawings from FIG. 1 to FIG. 7 show embodiments of the present invention, and FIG. 1 is a sectional view of the sealing material of the first invention;
Fig. 2 is a sectional view of the sealing material of the second invention, Fig. 3 is a sectional view of the 7-ru material of the third invention, and Figs. 4 to 7 each show the usage state of the sealing material. FIG. or,
FIGS. 8 to 11 are cross-sectional views showing how the conventional sealing material is used. Resin, 52...Adhesive tape (base material), Knoll material,
54 Skin, sealing material, A, B... members.

Claims (3)

[Claims] (1) A sealing material that is interposed between members to seal between the members, and is characterized by being made of a resin that has excellent water absorption and is powder-like in a non-water-absorbing state and gel-like in a water-absorbing state. (2) A sealing material that is interposed between members and seals between the members includes a ribbon-shaped base material and a powder-like material with excellent water absorption attached to at least one surface of this base material in a non-water absorbing state. A sealing material characterized by comprising: a resin that forms a gel-like state when water is absorbed; (3) A sealing material that is interposed between members and seals between the members includes a bag-shaped skin made of a water-absorbing material, and a bag-shaped skin made of a water-absorbing material and a material that is highly water-absorbent and remains in a non-water-absorbing state. A sealing material characterized by comprising: a powder-like resin that becomes gel-like when water is absorbed.