JPH0892987A - Waterproof construction of underground exterior wall and construction method thereof - Google Patents

Abstract

PURPOSE: To eliminate the necessity of adherence of a waterproof sheet, at the same time, to prevent the swelling of the waterproof sheet by water suction and to promote cut-off efficiency of waterproof construction before a structural skeleton is formed. CONSTITUTION: Waterproof construction is formed on an exterior wall surface of an underground structure. A waterproof sheet 3 is mechanically fixed to an earth retaining wall 6. The waterproof sheet 3 is formed of an unvulcanized isobutylene-isoprene rubber sheet containing a butyl reclaimed rubber composition having adhesive efficiency to concrete when ready mixed concrete 1 is solidified. The ready mixed concrete 1 is placed on the waterproof sheet 3, and the ready mixed concrete 1 is solidified and cured to form a concrete structural skeleton 9. If desirable, a reiforcing sheet 5 having drainage performance and buffer performance is held between the earth retaining wall 6 and waterproof sheet 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof structure for waterproofing an outer wall surface in a substructure of a concrete building, and a method of applying the waterproof structure.

[0002]

2. Description of the Related Art In this type of waterproof construction method, it is necessary to provide a waterproof layer between the mountain retaining wall and the concrete structure body. Several methods are known for this. For example, in the method shown in FIG. 3, a vacant land 8 is provided inside the mountain retaining wall 6 to enable waterproofing work, and then fresh concrete is cast on the outside of the vacant land 8 to cure and cure it. Then, the structural body 9 is formed. Then, the waterproof sheet 10 is adhered to the surface of the structural body 9.

In the construction method shown in FIG. 4, the mountain retaining wall 6
A waterproof base material 11 made of a smooth material such as a veneer plate
Is fixed using a fixing material 12, and a waterproof sheet 13 is attached onto the smooth waterproof base material 11 with an adhesive. After this, green concrete 1 is cast on the waterproof sheet 13, and this is cured and cured to form the structural body 9.

[0004]

However, the construction method shown in FIG. 3 requires a vacant lot 8 for work,
The width of this vacant lot should be about 1.5m. But,
In recent urban areas, it is difficult to secure such a large vacant lot within the site. In addition, the waterproof sheet 10
Are bonded to the structural body 9. Since it is not possible to directly bond the waterproof sheet to the green concrete that has not dried, the actual construction process is to pour the green concrete, then cure and cure it, and then place it on the structural frame 9. The waterproof sheet 10 is adhered to. Therefore, the construction period becomes very long. Moreover, for this bonding, it is necessary that the structural body 9 which is the bonding surface is dry, but in the underground, the structural body 9 is likely to be in a wet state due to groundwater, rainwater, dew condensation water or the like. , It is difficult to keep dry. Therefore,
The work efficiency is extremely low. Furthermore, since a large amount of organic solvent is required in the bonding step, it is difficult to maintain a good working environment.

In the construction method shown in FIG. 4, the work of mounting the waterproof base material 11 made of a veneer plate or the like on the mountain retaining wall 6 is very troublesome. Moreover, it is necessary to bond the waterproof sheet 13 onto the waterproof base material 11, but in this bonding step, the same problem as in the construction method of FIG. 3 described above occurs.

Further, the construction method shown in FIG. 5 was also considered.
In this construction method, a waterproof sheet or a waterproof panel 14 made of a water absorbing material such as bentonite is provided on the mountain retaining wall 6.
Are fixed with nails 4 or the like. After this, the waterproof sheet 1
The green concrete 1 is cast on the surface of the base 4, and the hardened and cured to form the structural body 9. Then, after pouring the concrete 9, water flows along the mountain retaining wall 6, but the water absorbing material expands due to this moisture, and the mountain retaining wall 6
And a pressure is exerted on the structural frame 9, which prevents leakage of water.

In the construction method shown in FIG. 5, the Yamadome wall 6 is used.
Since the waterproof sheet 14 is directly fixed on the nail 4 by the nail 4, there is no step of adhering the waterproof sheet. Further, since the fresh concrete is placed on the waterproof sheet 14, the above-mentioned problem that the construction period is prolonged does not occur.

However, the basic problem as an underground structure cannot be solved. That is, underground, groundwater, rainwater,
Since water always flows on the mountain retaining wall 6 due to dew condensation water or the like, after fixing the waterproof sheet 14 on the mountain retaining wall 6 with the nails 4, the water-absorbent material constituting the waterproof sheet 14 absorbs water and expands, It swells and its volume increases. However, if the waterproof sheet 14 expands in advance before forming the structural body in this way, the water stopping ability after forming the structural body will be impaired.

An object of the present invention is to eliminate the need to bond a waterproof sheet, prevent the waterproof sheet from swelling due to water absorption before forming the structural body, and improve the waterproof performance of the waterproof structure. is there.

[0010]

A waterproof structure for an underground structure according to the present invention includes a mountain retaining wall, a waterproof sheet mechanically fixed to the mountain retaining wall, and a waterproof sheet mounted on the waterproof sheet. And a waterproof sheet, which has a structural body of concrete provided, and has adhesiveness to concrete at the time of hardening of fresh concrete, comprising a non-vulcanized butyl rubber sheet containing a butyl recycled rubber composition. Characterize.

Further, in the method for constructing the waterproof structure according to the present invention, the waterproof sheet is mechanically fixed to the retaining wall, and at this time, the waterproof sheet has an adhesive property to the concrete when the fresh concrete is hardened. , A non-vulcanized butyl rubber sheet containing a butyl reclaimed rubber composition, which is characterized by placing fresh concrete on the waterproof sheet and hardening and curing the fresh concrete to form a structural frame of concrete. And

[0012]

The present inventor mechanically fixed to a mountain retaining wall a non-vulcanized butyl rubber sheet containing a butyl reclaimed rubber composition, which has an adhesive property to concrete during hardening of green concrete. It was discovered that the waterproof sheet will not be adversely affected by the groundwater, rainwater, dew condensation water, etc. existing in the foundation until the structural skeleton is formed, and the waterproof performance will not deteriorate due to the swelling of the sheet. Has reached the present invention.

Moreover, since the non-vulcanized butyl rubber sheet is not adversely affected by the moisture on the mountain retaining wall, a pretreatment step for drying the surface of the mountain retaining wall is unnecessary. Therefore, the construction can be completed quickly.

When green concrete is placed on such a non-vulcanized butyl rubber sheet, the non-vulcanized butyl rubber sheet reacts and bonds to the green concrete during the curing process. It was possible to form a uniform and highly watertight waterproof structure. Also,
Non-vulcanized butyl rubber sheet easily plastically deforms,
Since it easily follows irregularities of the Yamadome wall that is the base, it has excellent water-tightness with the Yamadome wall, and construction work is even easier.

[0015]

EXAMPLES In the present invention, it is preferable to sandwich a reinforcing sheet having drainage performance and cushioning performance between the mountain retaining wall and the waterproof sheet. As a result, it is possible to prevent the non-vulcanized butyl rubber sheet from being damaged by the unevenness of the surface of the mountain retaining wall, and also to prevent the non-vulcanized butyl rubber sheet from being deformed or displaced. it can.

The thickness of such a reinforcing sheet is 3.0 mm.
Preferably, the reinforcing sheet has a cushioning property and a reinforcing property, and for example, a non-woven fabric or a polyethylene foam is preferable.

In order to form this structure, a composite sheet including the waterproof sheet and the reinforcing sheet is mechanically fixed to the mountain retaining wall, at which time the reinforcing sheet is attached to the mountain retaining wall. It is preferable to contact them. This is because a watertight bond can be formed between the non-vulcanized butyl rubber sheet and the green concrete by bringing them into contact with each other.

Further, in the present invention, a plurality of waterproof sheets are fixed to the mountain retaining wall, and the end portions of the adjacent waterproof sheets have an adhesive non-vulcanized butyl rubber sealing material containing a butyl recycled rubber composition. It is preferable to join by. Since this sealing material has high adhesiveness to the non-vulcanized butyl rubber sheet, it is possible to further improve the watertightness at this joint portion, and the construction is also extremely easy.

FIG. 1 is a sectional view schematically showing a construction structure according to an embodiment of the present invention. Add explanation while following the construction procedure. First, the composite sheet 2 in which the reinforcing sheet 5 and the non-vulcanized butyl rubber sheet 3 are bonded in advance is prepared.
This composite sheet is mechanically fixed onto the mountain retaining wall 6 using the fixing material 4. At this time, the reinforcing sheet 5 is brought into contact with the mountain retaining wall 6 so that the non-vulcanized butyl rubber sheet is exposed. After this, green concrete 1
Is cast on a non-vulcanized butyl rubber sheet 3 to cure and cure the green concrete 1 to form a concrete structural body 9.

FIG. 2 is a perspective view schematically showing the waterproof structure of FIG. 1, particularly showing a joint portion of a plurality of non-vulcanized butyl rubber sheets 3. A plurality of composite sheets 2 are mechanically fixed on the mountain retaining wall 6. It is necessary to prevent water leakage by joining the ends of the unvulcanized butyl rubber sheets 3 adjacent to each other.

Therefore, in this embodiment, the end portion 3b of one non-vulcanized butyl rubber sheet 3 is directly joined to the reinforcing sheet 5, and the end portion 3a of the other non-vulcanized butyl rubber sheet 3 is joined. Cover on 3b. And the end 3a
An adhesive non-vulcanized butyl rubber sealing material 7 containing a butyl reclaimed rubber composition is sandwiched between and 3b, and the ends 3a and 3b are watertightly joined by this sealing material.

The non-vulcanized rubber sheet and the sticky non-vulcanized rubber sealant each have, as a basic component, recycled butyl rubber regenerated from butyl rubber scrap as a main component, an inorganic filler, a synthetic rubber, an antioxidant, and a softening agent. The composition is obtained by blending agents and the like and mixing them uniformly. Such a composition is a material having an adhesive force to concrete and mortar, and the composition described in JP-B-57-49058 can be preferably used.

Among these, the preferred hardness of the non-vulcanized rubber sheet and the adhesive non-vulcanized rubber sealing material,
Table 1 shows the physical properties such as consistency and the composition. However, in Table 1, the numerical value of each component indicates "part by weight".

[0024]

[Table 1]

Hereinafter, more specific experimental results will be described. A composite sheet as described above was prepared. A polyethylene foam sheet was used as the reinforcing sheet. Placing fresh concrete 1 on a non-vulcanized butyl rubber sheet,
After curing for a predetermined period of time, the vertical pull tester was used to measure the adhesive force during vertical pull.

As a result, after pouring fresh concrete,
After 1 week, the adhesive force when pulled vertically is 89 N / cm
^{It was 2} , and after 2 weeks it was 91 N / cm ² , and after 4 weeks it was 107 N / cm ² . In all cases, very high bonding strength was obtained. Further, in any case, when the state of the peeled surface was observed, the non-vulcanized butyl rubber sheet was cohesively broken. In this way, the non-vulcanized butyl rubber sheet reacted with the curing of the fresh concrete to form a strong joint interface.

From this result, even if the non-vulcanized butyl rubber sheet is locally damaged during the construction and groundwater enters from that part, if the adhesive strength is about this level, the entire surface of the waterproof structure will be obtained. Against this, groundwater never enters.

Next, as shown in FIG. 2, the non-vulcanized butyl rubber seal material 7 was used to attach the ends of the non-vulcanized butyl rubber sheet 3 to each other. This succeeded in forming a watertight joint part without using an adhesive. However, a fixing anchor is used as the fixing material, and the anchor is regularly driven into the mountain retaining wall 6 at intervals of 500 mm to 600 mm in the vertical direction and the horizontal direction, and the non-vulcanized butyl rubber sheet 3 Fixed.

Then, after forming the waterproof structure shown in FIG. 2, water pressure is applied to the entire structure including the end (joint portion) of the non-vulcanized butyl rubber sheet 3 to confirm the presence or absence of water leakage from this joint portion. did. Table 2 shows the results of the water pressure applied to the joint, the pressurization time, and the water leakage test.
Shown in.

[0030]

[Table 2]

As can be seen from these results, even if a high water pressure was applied for a long time, no water leaked from the joints and the like was found, and it was proved that it has extremely high waterproof performance.

[0032]

As described above, according to the present invention, it is not necessary to bond the waterproof sheet to any underlayer, and no smooth waterproof underlayer is required. Moreover, the waterproof sheet is not adversely affected by groundwater, rainwater, dew condensation, etc. until the structural body is completely formed, and the waterproof performance is not deteriorated by the swelling of the sheet. Then, when green concrete is cast on such a non-vulcanized butyl rubber sheet, in the course of this curing, the non-vulcanized butyl rubber sheet has a function of reacting and adhering to the green concrete, so that it is uniform and It was possible to form a watertight waterproof structure. In addition, since the non-vulcanized butyl rubber sheet easily plastically deforms, it easily follows the irregularities of the underlying mountain retaining wall, so it has excellent watertightness with the mountain retaining wall, and Construction work is also easy.

[Brief description of drawings]

FIG. 1 is a sectional view schematically showing a waterproof structure according to an embodiment of the present invention.

FIG. 2 is a perspective view schematically showing a structure of a joint portion, particularly an end portion, of adjacent non-vulcanized butyl rubber sheets 3 in the waterproof structure according to the embodiment of the present invention.

FIG. 3 is a sectional view schematically showing a waterproof structure according to a conventional example.

FIG. 4 is a sectional view schematically showing a waterproof structure according to another conventional example.

FIG. 5 is a sectional view schematically showing a waterproof structure according to still another conventional example.

[Explanation of symbols]

 1 Raw concrete 2 Composite sheet 3 Non-vulcanized butyl rubber sheet 3a Upper end 3b End joined to reinforcing sheet 5 Fixing material 5 Reinforcing sheet 6 Yamadome wall 7 Non-vulcanized butyl rubber sealing material 8 Open space 9 Structural frame 10, 13 Bonded waterproof sheet 11 Smooth waterproof base material 14 Waterproof sheet made of water-absorbent material

Claims (5)

[Claims] 1. A waterproof structure formed on an outer wall surface of an underground structure, which comprises a mountain retaining wall, a waterproof sheet mechanically fixed to the mountain retaining wall, and a waterproof sheet mounted on the waterproof sheet. And a structural body of concrete that is installed, and the waterproof sheet has an adhesive property to concrete when curing fresh concrete, consisting of a non-vulcanized butyl rubber sheet containing a butyl recycled rubber composition. The waterproof structure of the outer wall of the underground. 2. Between the mountain retaining wall and the waterproof sheet,
The waterproof structure for an outer underground wall according to claim 1, wherein a reinforcing sheet having drainage performance and cushioning performance is sandwiched. 3. An adhesive non-vulcanized butyl rubber seal material, wherein a plurality of the waterproof sheets are fixed to the mountain retaining wall, and the end portions of the adjacent waterproof sheets contain a butyl recycled rubber composition. 3. The waterproof structure for the underground outer wall according to claim 1 or 2, wherein the waterproof structure is used for joining. 4. A construction method for forming a waterproof structure on an outer wall surface of an underground structure, wherein a waterproof sheet is mechanically fixed to a mountain retaining wall, wherein the waterproof sheet is made of ready-mixed concrete. It consists of a non-vulcanized butyl rubber sheet containing a butyl reclaimed rubber composition, which has adhesiveness to concrete when cured, and casts fresh concrete on this waterproof sheet, and cures and cures this fresh concrete. A method of constructing a waterproof structure for an underground outer wall, which comprises forming a structural frame of concrete. 5. A composite sheet comprising the waterproof sheet and a reinforcing sheet having drainage performance and cushioning performance,
The method for constructing a waterproof structure for an underground outer wall according to claim 4, wherein the reinforcing sheet is mechanically fixed to the mountain retaining wall, and the reinforcing sheet is in contact with the mountain retaining wall at this time. .