JPH11128869A - Waste disposal plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an waste disposal plant which is made maintenance-free by automatically stopping water by utilizing the water leaking out of a damaged part of a waterproof layer in case this layer is damaged. SOLUTION: The surface of a storage hole formed by excavating the ground surface is covered with a hydrous swellable impervious sheet 11 and a waterproof sheet consisting of rubber or synthetic resin laminated on this impervious sheet 11. The impervious sheet 11 is formed by arranging a highly water absorptive high-polymer material 13 between a sheet-like base material 12 and a cover sheet 14 at a ratio of 200 to 3000 g/m<2> and bonding the cover sheet 14 and the sheet-like base material 12 to each other, thereby depositing the highly water absorptive high-polymer material 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste disposal site capable of preventing water from leaking from a damaged portion into the ground even if a waterproof layer laid on the surface of a storage hole is damaged.

[0002]

2. Description of the Related Art Conventionally, in a final waste disposal site, a huge storage hole is dug in the surface of the ground, and the surface thereof is covered with a waterproof layer. It is done not to soak. A case where the waterproof layer is made of a rubber or synthetic resin waterproof sheet 1 will be described with reference to FIGS.

In general, the storage hole 2 is formed by excavating the opening area to a scale of, for example, several hectares. The bottom surface 3 is formed flat, and the dam surface 4 of the peripheral wall is stepped with a step height h of about 5 m. It is formed as follows. As the waterproof sheet 1, a long sheet having a constant width W is generally cut into a predetermined length for use.

In order to lay the waterproof sheet 1 in the storage hole 2, first, the side end a of the waterproof sheet 1 arranged in parallel with the bottom surface 3.
Are laid on top of each other. The lower end b of the waterproof sheet 1 laid on the lower dam surface 4 is overlapped with the waterproof sheet 1 laid on the bottom surface 3, and the upper end c is buried in the soil of step 5. Further, the waterproof sheet 1 to be laid on the upper dam surface 4 has the lower end portion b superimposed on the lower waterproof sheet 1 and the upper end portion c protruding to the ground surface is embedded in the ground 6 in the same manner as described above. The mating portion is bonded or fused. In FIG. 11, the step 5 of the dam surface 4 is set to one step. However, when the number of steps is larger, a waterproof sheet may be laid similarly.

[0005]

By the way, in the waterproof sheet laid as described above, when tree roots and stones protrude, they penetrate and open a hole, from which sewage leaks into the ground. And cause environmental pollution.

Therefore, conventionally, a nonwoven fabric having a thickness of about 1 cm, for example, has been laid as a cushioning material as a base material of the waterproof sheet so that the waterproof sheet is not damaged by hard protrusions. However, in this method, it is necessary to increase the thickness of the cushion material in order to surely prevent the damage to the waterproof sheet, so that the cost is high, and when the cushion material is made thin, it is necessary to provide a means for early detection of water leakage. There is a problem that the maintenance is troublesome.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a waste disposal site in which, when a waterproof layer is damaged, water is automatically stopped using water leaked from the damaged portion so that maintenance is unnecessary. It is in.

[0008]

In order to achieve the above object, a waste disposal site according to the present invention is characterized in that a surface of a storage hole formed by excavating the surface of a surface is formed by a water-swellable water-impervious sheet and a water-impervious sheet. The water-impervious sheet is covered with a waterproof sheet made of rubber or synthetic resin laminated on the sheet, and the water-impervious sheet is interposed between the sheet-like base material and the cover sheet by a powdery or granular high water-absorbing polymer substance of 200 to 3 times.
000 g / m ² , and the cover sheet and the sheet-shaped substrate are bonded to each other to carry the superabsorbent polymer. .

When laying the water-impervious sheet, a water-impermeable sheet is laid between the water-impervious sheet and the surface of the storage hole,
The impermeable sheet can be laid thereon. Further, the water-impermeable sheet and the waterproof sheet may be formed so as to protrude from a peripheral edge of the water-impervious sheet, and the protruding portions may be bonded to each other to form the water-impervious sheet in a block shape. . In this way, even if the waterproof layer is damaged and water infiltrates into the impermeable sheet, it can be prevented from spreading to the whole. The width and length of the block are not particularly limited, but are 5 to 10 m in width and 10 to 200 in length.
m or the like.

The superabsorbent polymer material is not particularly limited as long as it does not deteriorate in a swollen state and does not adversely affect the environment. Examples thereof include a cellulose-acrylonitrile polymer and a starch-acrylonitrile polymer. Such as natural type, acrylic acid / vinyl alcohol copolymer, sodium acrylate polymer, sodium acrylate / acrylamide copolymer, modified polyethylene oxide, isobutylene / maleic anhydride copolymer, etc. However, a synthetic type is preferable because it is hardly decomposed in soil, particularly in wet soil. Further, as the superabsorbent polymer substance, a substance which does not deteriorate the harmful components contained in the ordinary sewage discharged from the final waste disposal site is used.

The sheet-like substrate is not particularly limited as long as it is a flexible sheet, has strength enough to withstand transportation, laying, and the like, and is hardly deteriorated in soil. Preferred sheet-like base materials are nonwoven fabrics or fibers woven or knitted, and porous porous materials such as sheet-like sponges and synthetic resin nets, which are stable when the superabsorbent polymer material enters the pores. Is preferred. The fibers that can be used are not particularly limited, but preferred are polyethylene terephthalate fibers, polypropylene fibers, cotton, and coconut fibers.

The cover sheet may be made of the same material as the sheet-shaped base material, or may be made of another synthetic resin film or sheet.

When both the sheet-like base material and the cover sheet use a non-woven fabric, and when they are connected to each other by entanglement of fibers with each other by a needle punch, use of a long-fiber material is advantageous in terms of strength and the like. preferable. As another means for mechanically connecting the sheet-like base material and the cover sheet, for example, a means for sewing the both together like quilting can be used as appropriate. Further, when both the sheet-shaped base material and the cover sheet are made of a thermoplastic resin or fiber, the high water-absorbing polymer substance is sprayed on the sheet-shaped base material, and the top is covered with a cover sheet. The base material and the cover sheet can be connected by thermocompression bonding (thermal fusion).

When the superabsorbent polymer material is treated as a solid, it is in the form of powder. In this case, the powdery state means fine particles, and there is no particular limitation on the particle diameter. It is sufficient that the particles swell easily when touched, and the particle diameters do not have to be uniform.

The amount of the superabsorbent polymer varies depending on the water absorption capacity, the water swelling speed, etc. of the superabsorbent polymer.
200 to 3000 between the sheet-like substrate and the cover sheet
g / m ² , and the sheet-like base material and the cover sheet must be supported on the sheet-like base material so as to be bonded to each other. The amount of the superabsorbent polymer used is more preferably 200 to 1500 g / m ² . The amount of the superabsorbent polymer used is 200 g / m ²
In the following, it is not possible to exhibit a water shielding effect that can withstand the water pressure applied to the lowest portion having a depth of several tens of meters. Also, 30
If it exceeds 00 g / m ² , the swelling pressure of the sheet becomes unnecessarily high, which is uneconomical.

In the water-shielding sheet used in the present invention, the superabsorbent polymer is restrained from expanding in the thickness direction by the interconnection between the sheet-like base material and the cover sheet. Since it expands in the plane direction and the superabsorbent polymer substances are firmly adhered to each other, they exhibit an extremely large water blocking ability. Therefore, like a large waste disposal site, a storage hole is dug down several tens of meters from the surface of the ground, and a very high water pressure (for example, a water pressure of 3 kg / cm ² at a depth of 30 m) is applied to the impermeable sheet. Can be dealt with without any problem.

The waterproof sheet made of the rubber or the synthetic resin is not particularly limited, but is generally a conventionally used waterproof sheet such as a natural or synthetic rubber sheet, a flexible synthetic resin such as a vinyl chloride sheet or a polyethylene sheet. And a waterproof sheet such as an asphalt-based sheet and an unsaturated polyester-based sheet. After forming a waterproof layer with these sheets, a protective layer such as mortar can be further provided.

The water-impermeable sheet prevents the superabsorbent polymer from swelling with water contained in the ground or water collected on the ground through the sheet-like base material, and can be used for a long period of time unless water leakage occurs. This is for keeping the superabsorbent polymer substance in a dry state.

[0019]

The superabsorbent polymer can absorb water and expand its volume by 600 to 1000 times.
However, the superabsorbent polymer material supported on the sheet-like substrate is not in a free volume state due to the pressure of the waterproof layer and the waste. Therefore, in a state in which free expansion cannot be performed, the superabsorbent polymer substances adhere to each other and there is no gap at all, so that a strong water shielding layer can be formed.
Further, when the sheet-like base material and the cover sheet are bonded to each other, the closed state at the time of the swelling is further increased, so that the water shielding effect is further improved.

Therefore, in the waste disposal site of the present invention in which the waterproof sheet is laid below the waterproof layer, if water leakage starts due to a hole or a crack formed in the waterproof layer for some reason, the water will be disposed under the waterproof layer. The laid super absorbent polymer swells,
By forming a water-impermeable layer by gelation, a strong water-blocking effect can be exhibited, and a water-blocking layer requiring no maintenance can be formed.

When a porous material such as a nonwoven fabric is used for the sheet-like substrate, cushioning properties are obtained, and an effect of protecting a waterproof layer such as a waterproof sheet is obtained.

[0022]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The configuration of the present invention will be specifically described below with reference to the accompanying drawings.

The method of manufacturing the water-impervious sheet 11 will be described with reference to FIGS. That is, a superabsorbent polymer substance (powder) 13 is sprayed on a sheet-like base material 12 made of a non-woven fabric, and the resultant is covered with a cover sheet 14 made of a non-woven fabric to form a laminate shown in FIG. In addition, the sheet-like base material 12 and the cover sheet 14
As shown in FIG. 2, the fibers 16 and 17 (the fibers 16 are shown thickly for easy identification) are tangled with each other to form a felt shape. Further, the needle 15 has a shape in which a plurality of projections 18 project downward from the tip.

When the laminate in the state shown in FIG. 2 is pierced with a needle 15 as shown in FIG. 2, the projections 18 hook the fibers 16 and 17 in the sheet-like base material 12 and the cover sheet 14 and downward. Pull out and then pull out the needle 15,
The hooked fibers 16 separate from the projections 18 and become entangled with each other. Then, the projections 18 projecting downward return to their original positions without catching the fibers 16 and 17 this time, and the sheet-like base material 12 and the cover sheet 14 are sewn. This operation is performed by using a large number of needles 15 and forming a plurality of connecting portions at intervals from each other on the entire surface of the impermeable sheet 11, so that the sheet-like base material 12 and the cover sheet 14 can be easily pulled. Highly water-absorbing polymer substance that adheres tightly so that it cannot be peeled off
It can carry 13 powders.

When water is poured into the thus formed water-blocking sheet 11, the swollen superabsorbent polymer substance 13 makes the particles adhere to each other without being swollen bulky, without being pressed from both sides by external force. By forming a water-blocking layer, the water-blocking performance described in the section of the function can be exhibited. Impermeable sheet 11
Has a width of, for example, 1 to 2 m and a length of 10 to 200 m, and can be stored in a roll form.

Next, the construction method of the first embodiment will be described with reference to FIGS. FIG. 3 shows a case where the storage hole 2 is laid from the dam surface 4 to the bottom surface 3, and a wide water-impermeable sheet 19 is laid on the ground 6, and a water-impervious sheet 11 ( For example, a width of 1 m is laid, and a water-impermeable sheet 19 (for example, width A is 5 to 10 m and length B is 1) is further laid thereon.
A waterproof sheet 1 having the same size as that of the waterproof sheet 1 is laid, and the ears d around the waterproof sheet 1 protruding from the waterproof sheet 11 are bonded to the water-impermeable sheet 19 or the waterproof sheet 1 of another block. It was done. FIGS. 4 to 6 show a method of laying the impermeable sheet 11 and the bonding method. As the water-impermeable sheet 19 used in the embodiment, a cloth in which soft synthetic resin is coated on both sides of a cloth is used, but a normal waterproof sheet 1 can also be used.

In FIG. 4, a water impermeable sheet 11 is provided on a water impervious sheet 19 with a predetermined width A (generally about 5 to 10 m) and a length B (generally about 10 to 200 m). The layer of the sheet 11 is referred to as a block), and the waterproof sheet 1 is laid thereon to cover the waterproof sheet 11, and the end protruding outside the waterproof sheet 11 is formed on the water-impermeable sheet 19. Overlap so that they directly overlap (overlap width W ¹ :
This portion is usually sealed by adhesion or fusion. Next, the water-blocking sheet 11 of the next block is stacked so that the end of the block of the water-blocking sheet 11 overlaps with the lower layer of the water-blocking sheet 11. The overlap width W2 of the ^two blocks is usually 50 mm or more. Then, the water-blocking sheet 11 of the second block that has been superimposed is covered with the waterproof sheet 1 in the same manner as described above, and the protruding portion is superimposed on the lower layer, and sealed by bonding or fusion. In this case, the lower layer includes the case of the waterproof sheet 1 and the case of the water-impermeable sheet 19, and an appropriate bonding method is adopted for each. In this way, the waterproof sheet 1 and the water-impermeable sheet
Blocked by 19 and waterproofed sheets of each other's blocks
11 always form a superimposed water barrier layer. The above operation is repeated to form the impermeable layer over the entire storage hole 2.

When the water-impervious sheet 11 is not supplied sufficiently wide, as shown in FIG. 5, the two water-impervious sheets 11 are brought into direct contact with each other and overlap (overlap width W ² ), What is necessary is just to generate a layer. Also, water-impermeable sheet, when connecting the way, as shown in FIG. 6, the overlapping width W ³ is continuously as usually about 50 to 200 mm, so that water does not seep through this part predetermined bonding method In close contact.
When connecting the waterproof sheets 1 in the middle, the waterproof sheets 1 are connected according to the above.

The operation of the water impermeable layer formed as described above will be described below. Now, it is assumed that a hole is opened in the impermeable layer of the through hole P in FIG. 3 for some reason, and water leakage starts from this. As described in the section of the operation, the waterproof sheet 1 and the impermeable sheet 11 are used.
Even when a through hole is opened in both the water-impermeable sheet 19 and the water-impermeable sheet 19, the superabsorbent polymer substance 13 in the water impermeable sheet 11 blocks water, and thereafter the superabsorbent polymer substance 13 keeps a swelling state Therefore, water leakage can be prevented semipermanently. Moreover,
The leaked water does not enter blocks other than the block in which the through hole P is opened, so that a dry state can be maintained.

As described above, the means for forming the water-impervious layer for each block has the effect of preventing the water-impervious sheet 11 from being wetted by rain or the like during construction, simultaneously with the above-mentioned effect. For example, a water-impermeable sheet 19 may be used in place of the waterproof sheet 1 laid on the water-impervious sheet 11 and the waterproof sheet 1 may be overlaid thereon. can do.

The water-blocking method of the first embodiment forms a triple-structured water-blocking block at the construction site. The water-blocking method of the second embodiment shown in FIGS. This uses the formed impermeable sheet 11. That is, as shown in FIG. 7, a width that can be carried by a vehicle, for example, a width of 5 to 1
As shown in FIG. 8, ears around the waterproof sheet 1 and the water impervious sheet 19 at a portion protruding from the water impermeable sheet 11 are formed at a distance of 0 m and a transportable size, for example, 10 to 200 m. d is bonded or fused to form a futon-shaped water-blocking sheet assembly 20.

As shown in FIG. 10, the method of applying the futon-shaped water-blocking sheet assembly 20 is such that the other end is overlapped on one end and the overlapped portion is bonded. A water barrier layer can be formed on the surface. The water-blocking method according to the second embodiment does not cause the water-blocking sheet 11 to get wet with rain even when rain falls during the construction, and facilitates construction management. As can be understood from FIGS. 7 and 8, the impermeable sheet assembly 20 of the second embodiment is formed so that the water-impermeable sheet 19 side is flat, but this is not essential to the present invention. Alternatively, the waterproof sheet 1 and the water-impermeable sheet 19 can be assembled by other means such as joining them so as to be close to each other. The overlapping width of each sheet is shown in FIGS.
As a guide, the same as described in FIG.

It should be noted that the present invention can be carried out without being constructed in a block shape as described above, can be constructed without using the water-impermeable sheet 19, and can be used by placing a concrete block on the waterproof sheet 1, The present invention can be carried out by appropriately modifying, for example, providing a protective layer such as mortar.

[0034]

EXAMPLES The results of actual measurements of the performance of the seepage control sheet used in the present invention are shown below. Water shield sheet specifications: sheet-like substrate: polyester spun bond nonwoven fabric thickness 5mm, 160g / m ² superabsorbent: ST-500D 570g / m ² Cover Sheet: Polyester spunbonded nonwoven thickness 3 mm, of 300 g / m ² Two sheets were used. Connection method: The sheet-like base material and the cover sheet were connected by a needle. Hydraulic pressure test : Test method: A water leakage test was performed by sandwiching the impermeable sheet between eyeglasses and applying water pressure from one side. The same water leakage test was performed when a through-hole was made in the impermeable sheet using a wire having a diameter of 1 mm or a driver having a diameter of 6 mm as a hole making tool.

As a result, when no hole was formed in the impermeable sheet, there was no water leakage after a lapse of 24 hours at a water pressure of 3.0 kg / cm ² . Also, when a through hole is made in the impermeable sheet and the tool is left pierced, the water pressure of both the wire and driver is 3.0 kg / c.
When there was no water leakage at m ² and the tool was pulled out after penetration, both the wire and the driver did not leak at 0.5 kg / cm ² .
From this result, it can be seen that the water blocking ability of the water blocking sheet is extremely high.

[0036]

The waste disposal site of the present invention described above is
The water-absorbing polymer material is supported on the sheet-like base material, and the waterproof layer is formed thereon, so that the waterproof layer is damaged,
Even when water leakage occurs, the superabsorbent polymer substance swells and gels with the leaked water or the like, forms a strong water-blocking layer, and can prevent water leakage. In addition, since the maintenance of the impermeable sheet is unnecessary, it is extremely effective as a means for preventing water leakage at a final disposal site for waste which is difficult to maintain.

When the waterproof sheet is divided into blocks, and a waterproof layer and a water-impermeable sheet are formed so as to be wrapped with the waterproof sheet and the water-impermeable sheet, it is possible to minimize the possibility that the waterproof sheet is wet by rain during the waterproof work. Can be held down. Further, in the case of using a triple structure in which the waterproof sheet is wrapped by the waterproof sheet and the water-impermeable sheet, it is possible to completely prevent the waterproof sheet from being wet by rain during construction.

When a material having a cushioning property such as a nonwoven fabric is used for the sheet-like base material, a waterproof layer thereon may be used.
In particular, an effect of protecting the waterproof sheet from damage can be obtained.

[Brief description of the drawings]

FIG. 1 is a cutaway perspective view of a water impermeable sheet used in an embodiment of the present invention.

FIG. 2 is a diagram illustrating a process of forming the water-impermeable sheet of FIG.

FIG. 3 is a perspective view showing a waste disposal site according to the first embodiment of the present invention.

FIG. 4 is a sectional view taken along line IV-IV of FIG. 3;

FIG. 5 is a sectional view taken along line VV of FIG. 3;

FIG. 6 is a sectional view taken along line VI-VI of FIG. 3;

FIG. 7 is a perspective view of a seepage control sheet assembly used in Embodiment 2 of the present invention.

8 is a sectional view taken along line VIII-VIII in FIG.

FIG. 9 is a sectional view taken along line IX-IX of FIG. 7;

10 is a partial cross-sectional view in a case where the impermeable sheet assembly of FIG. 7 is constructed.

FIG. 11 is a partial cross-sectional view for explaining an outline of a conventional waste final disposal site.

FIG. 12 is a partial plan view of FIG. 11;

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Waterproof sheet 2 Storage hole 6 Ground 11 Waterproof sheet 12 Sheet base material 13 Highly water-absorbing polymer substance 14 Cover sheet 15 Needle 16 Fiber 17 Fiber

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Akio Nakao 2-2-1 Nihombashi Muromachi, Chuo-ku, Tokyo Toray Industries, Inc. Tokyo Works (72) Inventor Shuichi Matsumoto 1993 No. 18 of 1993, Ofuna 1993, Ofuna, Kamakura City, Kanagawa Prefecture Inventor Mamoru Shintoku 3-7 Hoshikawa, Hodogaya-ku, Yokohama, Kanagawa

Claims (5)

[Claims] 1. The surface of a storage hole formed by excavating the ground surface is covered with a water-swellable water-impervious sheet and a waterproof sheet made of rubber or synthetic resin laminated on the water-impervious sheet, and The sheet is provided with a powdery and highly water-absorbing polymer substance between the sheet-like substrate and the cover sheet in an amount of 200 to 3000 g / m.
A waste disposal site that is arranged at a ratio of ² and that is configured to support the superabsorbent polymer substance by bonding the cover sheet and the sheet-like substrate to each other. 2. The waste disposal site according to claim 1, wherein a water-impermeable sheet is laid between the water-impervious sheet and the surface of the storage hole. 3. The water-impermeable sheet and the waterproof sheet are formed so as to protrude from a peripheral edge of the water-impervious sheet,
3. The waste disposal site according to claim 2, wherein the protruding portions are adhered to each other to form the waterproof sheet into a block shape. 4. The sheet-like base material and the cover sheet are formed of a non-woven fabric, and the fibers of the sheet-like base material and the fibers of the cover sheet are entangled with each other by a needle punch. 3. The waste disposal site according to any one of 3. 5. The sheet-like base material and the cover sheet are formed from a thermoplastic resin or a fiber, and the sheet-like base material and the cover sheet are connected to each other by heat fusion. 3. The waste disposal site according to any one of 3.