JP2001182177A - Composite sealing material for concrete product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a composite sealing material for concrete products, which retains part of the original shape thereof, even if compressive force continuously acts thereon over a long period of time can be restored, and can exhibit sealing function over a long period of time. SOLUTION: This composite sealing material is interposed between mutually opposed surfaces to be sealed of the respective two concrete products, and seals the surfaces to be sealed by compressive deformation. Only both end corners of one of sealing surfaces 1 of the sealing material, which is brought into close contact with either of the surfaces to be sealed, are formed into rigid portions 2 which are molded of a solid rubber, and the other portion of the sealing material is formed into a compressive deformation portion 3, which is molded of a sponge rubber.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite sealing material interposed between two opposing surfaces to be sealed of two concrete products and sealing between the surfaces to be sealed by compression deformation.

[0002]

2. Description of the Related Art For example, a water tank for civil engineering buried and used underground is made of concrete and has a rectangular box-like shape, and a top plate for covering the opening thereof. A sealing material is interposed between the water storage tank main body and the top plate for the purpose of cushioning, and the sealing material is compressed and deformed by the weight of the top plate, so that a gap is formed between the two. Was sealed.

The conventional sealing material used for the above-mentioned purpose has a substantially rectangular cross section, and is entirely formed of sponge rubber (soft rubber). For this reason,
When the large weight of the concrete top plate continues to act on the sealing material for a long time, the sealing material is compressed and deformed to the maximum, and is crushed, and hardly recovers, and the cushioning function and the sealing function are almost exhibited. Will not be.

In a box culvert, which is one of the concrete products, a sealing material is interposed on the joint-facing surface. However, since the whole is made of sponge rubber, it is almost the same as the above. There was a problem.

[0005]

SUMMARY OF THE INVENTION The present invention relates to a composite for a concrete product which is capable of restoring a part of its original shape and recovering its sealing function for a long period of time even if a compressive force is continuously applied for a long period of time. The task is to provide a sealing material.

[0006]

According to a first aspect of the present invention, there is provided a method for manufacturing a concrete product, comprising the steps of: interposing a space between opposed surfaces of two concrete products; A composite sealing material that seals, in a cross-sectional view, only the two end corners of either one of the sealing surfaces that are in close contact with the respective sealed surfaces are hard portions molded of solid rubber, and the remaining The feature is that all the parts are compression deformation parts formed of sponge rubber.

According to the first aspect of the present invention, a pair of hard portions made of solid rubber are integrated with a compression-deformed portion made of sponge rubber at either one of the two opposing sealing surfaces at both corners. It becomes a molded structure. Therefore, most of the compressive force at the time of sealing acts on the hard portion,
The compression deformation portion made of sponge rubber is exclusively responsible for the sealing function, and the compression amount of the compression deformation portion of the portion sandwiched between the pair of hard portions is particularly small, and the sponge rubber of the portion is It stops a part of the original shape and is not completely crushed. As a result, the compression amount of the compression deformation portion made of sponge rubber is smaller than that of a conventional sealing material entirely formed of sponge rubber, and even after long-term use, if the compression force is released, It becomes possible to restore, and as a whole, the cushioning function and the sealing function are exhibited over a long period of time.

Further, when the cross-sectional shape of the pair of hard portions is substantially triangular, when a compressive force acts on the sealing material, each of the hard portions is turned outwardly, and the hard portion is turned over against the surface to be sealed of the concrete product. A predetermined gap is formed between the surface of the concrete part to be sealed and the sealing surface on the hard part side of the concrete product to be sealed, and the sealing material. Each of the hard portions at the corners is turned outward, and the hard portions partially adhere to the surface to be sealed of the concrete product, so that the sealing performance of the hard portions is also enhanced.

According to a sixth aspect of the present invention, there is provided a similar composite sealing material, wherein in a cross-sectional view, a predetermined thickness portion on one of the sealing surfaces which is in close contact with each of the sealed surfaces is provided with: Hard portions molded of solid rubber and compression deformation portions molded of sponge rubber are provided alternately along the width direction, and the remaining portions along the thickness direction are all the compression deformation portions. That is the feature.
As described above, the hard portion and the compressive deformation portion are provided alternately on one of the seal surface sides, and the remaining portion is all the compressive deformation portion, so that the hard portion and the compressive deformation portion are on the side of the hard portion. Since the compression deformation portion (sponge rubber) located is smaller in compression amount than the compression deformation portion (sponge rubber) located immediately above the hard portion, the restoring force when the compression force is released increases. , Will stop a part of the original shape.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, the invention of claim 1 will be described. Figure 1 is a perspective view of a composite sealing material S ₁ according to the invention of claim 1, 2 are also sectional view, FIG. 3 is a likewise cross-sectional view of a compressed state, FIG. 4, wherein the composite sealing material S ₁ according to the invention of claim 1, the reservoir 21 of the civil engineering, a partial cross-sectional view showing a sealed state between the top plate 22 covering the opening, Figure 5, reservoir 21 FIG. 4 is a partial perspective view showing a state in which a composite sealing material S1 is stuck to the upper end surface of the _first embodiment. The composite sealing material S ₁ is an extruded rubber product and has a rectangular cross-section, and when viewed in a cross-sectional view, only one of the two corners at either end of two opposing sealing surfaces 1 is an EPDM solid. Hard part 2 made of rubber
, And all the remaining portions have a configuration in which the compression deformation portion 3 is formed of EPDM sponge rubber.

The pair of left and right hard portions 2 has a triangular cross section and is connected via a thin plate-like connecting plate portion 4 formed on the side of the bonding surface. They are formed separately from each other and face each other along a direction perpendicular to the compression direction, and the compression deformation portion 3 is integrally formed therebetween. Also, a pair of left and right hard portions 2
A double-sided tape 5 for sticking to a concrete product is attached to the sticking surface on the side where the and the connecting plate portion 4 are provided. EPDM forming the compression deformation portion 3
The specific gravity of the sponge rubber is (Sg = 0.3), and the hardness of the EPDM solid rubber forming the hard portion 2 and the connecting plate portion 4 is (Hs = 70 °).

As shown in FIGS. 4 and 5, for example, this composite sealing material S ₁ has a cushioning property between a water tank 21 for civil engineering buried underground and a top plate 22 covering this opening. It is used for the purpose of securing the sealing property. The composite sealing material S ₁ is provided on the upper end surface (sealed surface) 21 of the water storage tank 21.
a (see FIGS. 4 and 5) through the double-sided tape 5, the whole shape is affixed in a square frame shape. When covering the opening of the water reservoir 21 in top plate 22, as shown in FIGS. 3 and 4, the whole of the composite sealing material S ₁ is being compressed and deformed. That is, when the compressive force F ₁ acts on the composite sealing material S ₁ , the pair of left and right hard portions 2 provided at both end corners of the sealing surface 1 below the sealing material S ₁ are respectively turned outward. Most of the compressive force F ₁ acts on the pair of hard parts 2, and the pair of left and right hard parts 2, which have been turned outward, are connected to the upper end surface 21 of the water storage tank 21, which is the surface to be sealed.
a predetermined gap 23 is formed between the upper end surface 21a and the upper end surface 21a.

For this reason, the load acting on the compressively deformed portion 3 formed of sponge rubber is reduced, and the compression amount is reduced as compared with the conventional sealing material entirely formed of sponge rubber. , A part of the original shape is stopped (it is not completely crushed). In addition, the compression amount of the portion between the pair of hard portions 2 in the compression deforming portion 3 formed of sponge rubber is particularly small as compared with the other portions, and this reduces the cushioning and sealing properties over a long period of time. Contributes to maintaining sex.

Therefore, even when the top plate 22 is removed, the compression deforming portion 3 of the composite sealing material S ₁ can be restored to a shape close to the original shape by stopping a part of the original shape. , High sealability can be maintained. Also,
The compression force F ₁ acts, a pair of rigid portion 2 is is inverted outward, in order to partially close contact with the upper end surface 21a of the reservoir 21 is to be sealed face, reversal of the pair of rigid portions 2 The phenomenon also enhances the sealing performance.

Further, in FIGS. 6 and 7, another composite sealing material S ₂ of the invention of claim 1 is shown. The composite sealing material S _2, the relative composite sealing material S _1, the connecting plate portion 4 are different only in the configuration obtained by missing, all other parts are identical. As described above, when the connecting plate portion 4 connecting the pair of hard portions 2 is dropped and the pair of hard portions 2 is completely separated, the hard portion 2 when the compressive force F ₂ is applied is removed. Since the degree of freedom of the reversal is increased, the reversal angle to the outside of the hard portion 2 is increased, and the amount of compressive deformation of the compressive deformation portion 3 between the pair of hard portions 2 is further reduced. The resilience of the formed compression deformation portion 3 is further enhanced. As a result, the function of maintaining the cushioning and sealing properties over a long period of time is further enhanced.

[0016] Subsequently, further described alternative composite sealing material S ₃ according to the invention of claim 1. Figure 8 is a perspective view of a composite seal member S _3, FIG. 9 is a same cross section. 8 and 9, the sealing material S ₃ has a trapezoidal shape in cross section as a whole, and in a cross-sectional view, both ends of the sealing surface 12 on the bottom side of the compression deformation portion 11 formed of sponge rubber. A hard portion 13 made of solid rubber is integrally formed at a corner, and an adhesive portion 14 made of butyl rubber is covered on the entire periphery. The adhesive part 1
A net member 15 made by knitting a resin yarn in a net shape in a vertical and horizontal direction is attached to a surface of a portion on the upper side of 4. It said net member 15, at the time of compression deformation of the seal member S _3, a member for the upper side portion side is a non-fixed side is prevented from deviating largely laterally. In addition, a hollow portion 16 is formed at the center of the compression deformation portion 11 to facilitate compression deformation.

The above-mentioned composite sealing material S ₃ is used for sealing a joint portion of a box culvert B as shown in FIG. 10, for example. The box culvert B has a receiving port 31 on one side and a port 32 on the other side.
As shown in, the said bottom side of the composite sealing material S ₃ to sticking concave 34 provided on the flat portion 33 of the socket 31 is attached to a rectangular frame shape through the adhesive portion 14.

As described above, the composite sealing material S ₃ is inserted into one receiving port 31 of the two box culverts B to be joined.
When the spigot 32 of the other box culvert B is inserted into the socket 31, the composite sealing material S ₃ is crushed by the spigot 32 as shown by a solid line in FIG. Compression deformation. As a result, in the same manner as the composite sealing materials S ₁ and S ₂ described above, the pair of hard portions 13 provided at both corners of the sealing surface 12 on the bottom side of the composite sealing material S ₃ are all outward. Flipped,
Most of the compressive force F ₃ is a pair of left and right hard portions 1 in a reversed posture.
3 to act on the compression deformation portion 11 made of sponge rubber.
Of the compression deformation portion 11 made of sponge rubber between the pair of left and right hard portions 13 becomes particularly small. Thereby, the compression deformation portion 11 made of sponge rubber is formed.
When compressed, it is no longer completely crushed,
Since the resilience by the elastic deformation is maintained, the sealing performance over a long period can be maintained.

Next, the sixth aspect of the present invention will be briefly described with reference to FIGS. The same parts as those of the first embodiment of the present invention are denoted by the same reference numerals, and only different parts will be described. Composite sealing material S ₄ according to the invention of claim 6, the overall shape is an isosceles trapezoid shape, in transverse cross-section view, in a predetermined thickness portion of the sealing surface 1 of the base side, only the central portion in the width direction The hard portion 2 is provided, and the remaining portions along the thickness direction are all compressed deformation portions 3.
The configuration is as follows. For this reason, both end corners of the sealing surface 1 on the bottom side become compression deformation portions 3, and the hard portion 2 and the compression deformation portion 3 in a cross-sectional view are formed at predetermined thickness portions of the sealing surface 1 on the bottom side. Are provided alternately. Therefore, acts compressive force F ₄ to the composite sealing material S _4, when the whole is compressed, the majority of the compressive force F ₄ acts on the rigid portion 2, the rigid portion 2 The compression deformation portion 3 made of sponge rubber at both end corners, which is both sides, has a smaller compression amount than that of the compression deformation portion 3 immediately above the hard portion 2 and stops a part of the original shape, It will not be completely crushed. Therefore, in the same manner as described above, both the cushioning property and the sealing property are enhanced as compared with a sealing material entirely formed of sponge rubber.

Further, as another composite sealing material according to the invention of claim 6, in a cross-sectional view, a plurality of hard portions are provided at predetermined intervals along a width direction at a predetermined thickness portion on one sealing surface side. Is provided, the corners at both ends thereof, and the intermediate portion of the adjacent hard portion are constituted by a compression deformation portion made of sponge rubber, and the remaining portions along the thickness direction are all compression deformation portions. Some have been configured. In the composite sealing material having this configuration, most of the compressive force acts on a plurality of hard parts in a distributed manner.

In the above embodiment, each composite sealing material S ₁
Use to S _4, or seals between the reservoir 21 and the top plate 22, or is an example or to join the box culvert B, also in the other concrete products as described above, necessary to make the seal In some cases, two concrete products can be used by being attached to opposing surfaces to be sealed. For example, it is also possible to use it at the upper and lower joints of a concrete soundproof wall used on a highway.

[0022]

When the composite sealing material according to the present invention is used by interposing it between the surfaces to be sealed of two concrete products, most of the compressive force acting on itself is made of solid rubber. Since it acts on the hard part, the compression amount of the sponge rubber compression deformation part can be reduced, and this compression deformation part can be restored by stopping a part of the original shape even after long-term use Therefore, high cushioning properties and sealing properties can be maintained over a long period of time.

[Brief description of the drawings]

1 is a perspective view of a composite sealing material S ₁ according to the invention of claim 1.

FIG. 2 is a sectional view of the same.

FIG. 3 is a sectional view of the same compressed state.

FIG. 4 is a partial cross-sectional view showing a state where the space between the water tank for civil engineering 21 and the top plate 22 covering the opening is sealed by the composite sealing material S1 according to the _first embodiment of the present invention.

FIG. 5 shows a composite sealing material S ₁ on an upper end surface 21a of a water storage tank 21;
FIG. 4 is a partial perspective view of a state where is attached.

6 is a cross-sectional view of a composite sealing material S ₂ according to the invention of claim 1.

FIG. 7 is a sectional view of the same compressed state.

8 is a perspective view of a composite seal member S _3.

FIG. 9 is a sectional view of the same.

FIG. 10 is a perspective view of two box culverts B to be joined.

11 is a partial perspective view of a state in which the paste composite sealant S ₃ in the socket 31 of one of the box culvert B.

12 is a cross-sectional view of a state where the composite sealing material S ₃ is compressed.

13 is a cross-sectional view of a composite seal member S ₄ according to the invention of claim 6.

FIG. 14 is a sectional view of the same compressed state.

[Explanation of symbols]

B: box culverts (concrete products) F ₁ to F _4: compression force S ₁ to S _4: composite sealing material 1, 12: sealing surface 2,13: Solid rubber rigid portion 3,11: Sponge rubber compression Deformation part 14: Adhesive part 21: Water tank (concrete product) 21a: Upper end surface of water tank (sealed surface) 22: Top plate (concrete product)

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) F16J 15/06 F16J 15/10 A 15/10 E04B 1/68 DG F Term (Reference) 2D063 BA06 BA27 DA20 2E001 DA01 FA29 FA30 FA51 GA59 GA60 GA63 GA82 HE01 HE02 LA04 MA02 MA04 MA13 3E070 AA02 AA13 DA03 RA01 RA16 3J040 AA01 AA17 BA01 BA04 EA25 FA05

Claims (6)

[Claims] 1. A composite sealing material interposed between opposing sealing surfaces of two concrete products and sealing between the sealing surfaces by compressive deformation, wherein each of the sealing members is viewed in a cross-sectional view. Only the corners at either end of one of the sealing surfaces that are in close contact with the sealing surface are hard portions molded of solid rubber, and the remaining portions are all compression deformed portions molded of sponge rubber. Characteristic composite sealing material for concrete products. 2. The composite sealing material for a concrete product according to claim 1, wherein a cross section of the hard portion is substantially triangular. 3. The composite sealing material for concrete products according to claim 1, wherein the pair of left and right hard portions are connected to each other via a connecting portion also formed of solid rubber. 4. The composite sealing material for concrete products according to claim 1, wherein the whole shape is a square shape. 5. The whole shape is an isosceles trapezoidal shape, butyl rubber is coated on the whole circumference thereof, and solid rubber made of solid rubber is provided at both corners on the bottom side of the compression deforming part made of sponge rubber in cross-sectional view. The composite sealing material for a concrete product according to claim 1, wherein the hard portion is integrally formed. 6. A composite sealing material interposed between opposing sealing surfaces of two concrete products and sealing between the sealing surfaces by compressive deformation, wherein each of the sealing members is viewed in a cross-sectional view. A hard part molded of solid rubber and a compression deformed part molded of sponge rubber are alternately provided along the width direction on the in-plane thick part on either side of the sealing surface that is in close contact with the sealing surface A composite sealing material for a concrete product, wherein the remaining portion along the thickness direction is all the compression deformation portion.