JP2000167506A - Mat applicable to waste treatment site and formation of waste treatment site - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mat applicable to a waste treatment site by making upper and lower cloths, forming flat tube-shaped housing parts parallel to each other by quilting, forming mat bodies by packing a filler in each housing part, and connecting a number of the mat bodies by connection pipes. SOLUTION: A mat to be placed in a waste treatment site, and the like, is formed by connecting a proper number of mat bodies 1A adjacent to each other by connection pipes. The mat body 1A has a mat cover 1A1 formed in a shape in which a flat tube-shaped housing part 1A14 is formed by applying quilting appropriately in parallel on the whole surface by the use of square upper and lower cloths of a water/air-permeable synthetic resin fabric or nonwoven fabric. A filler such as rubber chips, plastic scraps, and wood chips is packed in each housing part 1A14. Connecting cylindrical bodies 1A31-1A34 into the four sides of which connection pipes are inserted are installed in the mat main body 1A.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mat suitable for a waste treatment plant having a novel structure, and a method for forming a waste treatment plant equipped with a wastewater / sewage gas sensing sensor using this mat. It is about.

[0002]

2. Description of the Related Art Heretofore, this type is as follows. The system uses nonwoven fabric, sand, and fine stones.

[0003]

The above-mentioned prior art has the following problems. 1. The disadvantage of the nonwoven fabric is that it has no thickness and therefore has a small protective effect and is not suitable. 2. Sand and fine stones are unstable in laying, and it takes time and effort to achieve the average thickness. 3. If the waste disposal site is large, there are many problems. 4. After laying sand and fine stones, the earth and sand mix and the effect is reduced.

[0004] The present invention has been made in view of such problems of the prior art, and has as its object to provide the following. Simultaneous installation of sewage and sewage gas detection and measurement sensors will be performed simultaneously with the protection of the impermeable sheet and the degassing device.

[0005]

Means for Solving the Problems In order to achieve the above object, the present invention is as follows. The first aspect of the present invention is a mat suitable for a waste disposal site, which is composed of an appropriate number of mat bodies 1A described below and a connecting pipe 1B connecting the mat bodies 1A. A. The mat body 1A includes a mat cover 1A1, a filler 1A2, and a connecting tubular body 1A3, a. The mat cover 1A1 is provided on the bottom and left and right sides of the upper and lower sides of the outer surfaces of the planar upper and lower cloths 1A11 and 1A11 made of a woven or nonwoven fabric having water permeability and air permeability made of synthetic resin. The sutures 1A12 are provided, and the upper and lower cloths 1A11, 1A11 are formed into a flat tube-shaped storage section 1A14, 1A14. . . And b. The filler 1A2 is made of a granular material such as rubber chips, plastic chips, wood chips, and the like.
A14, 1A14. . . Are filled from the opening, and the respective storage sections are sealed. c. The connecting tubular body 1A3 includes a front connecting tubular body 1A31 attached to the front side of the mat cover 1A1 at a predetermined interval, and a rear connecting tubular body attached to the rear side of the mat cover 1A1. 1A32 and mat cover 1A
1 and a left connecting tubular body 1A33 attached at a predetermined interval to the left side of the mat 1 and a right connecting tubular body 1A34 attached to the right side of the mat cover 1A1 at a predetermined interval.
B. The connecting pipe 1B is made of synthetic resin having some elasticity, has an outer diameter capable of penetrating into the connecting tubular body 1A3, and is formed with a pipe 1B1 having a predetermined length, and is provided on the outer peripheral surface. Water absorption hole 1B2 and
Inside the connecting pipe 1B, sewage for detecting leached sewage and generated gas flowing in from the water suction hole 1B2, a sewage gas detection measurement sensor S, and the like are provided. C. The connecting tubular body 1A32 at the rear of the mat body 1A located at the front and the connecting tubular body 1A31 at the front of the mat body 1A located at the rear are arranged in a straight line in the front-rear direction,
The connecting rod 1B is penetrated and connected to both of the connecting tubular bodies, and the right connecting tubular body 1A34 of the mat body 1A located on the left and the mat body 1A located on the right side.
And the connecting cylindrical body 1A33 on the left side are arranged in a straight line in the left-right direction, and the connecting rod 1B is penetrated and connected to both of the connecting cylindrical bodies.

A second aspect of the present invention is a method for forming a waste disposal site comprising the following steps. 1st process-Inverted pyramid truncated trough-shaped recess for processing plant, which is composed of a bottom surface 2A1 on the ground, front and rear wall surfaces 2A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 2A3 connected to the left and right. Form 2A. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 2A. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. After laminating and laying the water-impervious sheet 2B on the upper surface of the mat 1 suitable for the fourth step to the second waste disposal site, the mat suitable for each waste disposal site and the outer peripheral portion of the water-impervious sheet are recesses for the treatment site. On the upper surface of the outer rim.

The second invention can be configured as follows. 1st process-Inverted pyramid truncated trough-shaped recess for processing plant, which is composed of a bottom surface 2A1 on the ground, front and rear wall surfaces 2A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 2A3 connected to the left and right. Form 2A. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 2A. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. The water-blocking sheet 2B is laid on the upper surface of the mat 1 suitable for the fourth to second waste disposal sites. Fifth process-The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water-impervious sheet 2B, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is the second position. After being laid in a state orthogonal to the longitudinal direction A of each storage section 1A14 of the mat 1 suitable for the waste disposal site, the mat suitable for each waste disposal site, and the outer periphery of the water impermeable sheet are recesses for the treatment site. On the outer edge of the upper part.

A third aspect of the present invention is a method for forming a waste disposal site comprising the following steps. 1st process-Inverted truncated pyramid-shaped recess for a processing plant, which is composed of a bottom surface 3A1 on the ground, front and rear wall surfaces 3A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 3A3 connected to the left and right. Form 3A. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 3A. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. The water-blocking sheet 3B is laid on the upper surface of the mat 1 suitable for the fourth to second waste disposal sites. Fifth step-The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water-impervious sheet 3B, and the longitudinal direction a of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is the second disposal position. After being laid in a state perpendicular to the longitudinal direction A of each storage section 1A14 of the mat 1 suitable for the waste disposal site, the mat suitable for each waste disposal site, and the outer peripheral portion of the water impermeable sheet are recessed portions for the disposal site. 3 on the lower part of the waste disposal site
Get 2. Sixth step-The waste 33 to be treated is put into the lower part 32 of the waste treatment plant. In this case, when thrown, the thrown waste 33 is formed to have a substantially truncated pyramid shape. Seventh step-A mat 1 suitable for the fourth waste disposal site is laid on the upper surface of the waste 33. The mat 1 suitable for the fifth waste disposal site is placed on the upper surface of the mat 1 suitable for the eighth to fourth waste disposal sites, and each of the storage portions 1A14 of the mat 1 suitable for the fifth waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the fourth waste disposal site. After laying and laying the impermeable sheet 3C on the upper surface of the mat 1 suitable for the ninth to fifth waste disposal sites, the laying of the mat 1 suitable for the sixth waste disposal site is performed on the upper surface of the impermeable sheet 3C. The outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. Tenth step-The embankment 3D is provided on the upper surface of the waterproof sheet 3C for protecting the waterproof sheet.

The third invention can be configured as follows. 1st process-Inverted truncated pyramid-shaped recess for a processing plant, which is composed of a bottom surface 3A1 on the ground, front and rear wall surfaces 3A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 3A3 connected to the left and right. Form 3A. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 3A. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. Fourth step-The water-impervious sheet 3B is laid on the upper surface of the mat 1 suitable for the waste disposal site laid above. Fifth step-The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water-impervious sheet 3B, and the longitudinal direction a of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is the second disposal position. Lamination is laid in a state orthogonal to the longitudinal direction A of each storage section 1A14 of the mat 1 suitable for the material processing plant. In this way, the lower part 32A of the waste disposal site is obtained. Sixth step-The waste 33 to be treated is put into the lower part 32A of the waste treatment plant. At the time of charging, the charged waste 33 is formed in a substantially truncated pyramid shape. Seventh step-A mat 1 suitable for the fourth waste disposal site is laid on the upper surface of the waste 33. The mat 1 suitable for the fifth waste disposal site is placed on the upper surface of the mat 1 suitable for the eighth to fourth waste disposal sites, and each of the storage portions 1A14 of the mat 1 suitable for the fifth waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the fourth waste disposal site. Ninth step to the fifth waste treatment plant A water-impervious sheet 3C is laid on the upper surface of the mat 1 suitable for the waste treatment plant. Tenth step-The mat 1 suitable for the sixth waste disposal site is placed on the upper surface of the water-impervious sheet 3C, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the sixth waste disposal site is the fifth. After being laid in a state orthogonal to the longitudinal direction A of each storage section 1A14 of the mat 1 suitable for the waste disposal site, the mat suitable for each waste disposal site, and the outer periphery of the water impermeable sheet are recesses for the treatment site. On the outer edge of the upper part. Eleventh Step-Embankment 3D is provided on the upper surface of the impermeable sheet 3C for protection of the impermeable sheet.

The third aspect of the invention can be configured as follows. When forming a waste disposal site, a mat 1 suitable for the fourth waste disposal site, a mat 1 suitable for the fifth waste disposal site, a waterproof sheet 3C, and a suitable for the sixth waste disposal site on the upper surface of the waste. When successively laminating the mats 1, the impermeable sheet 3C, a part of the mat 1 suitable for the sixth waste disposal site and the holes 4A, 3C1 opened in a part of the impermeable sheet 3C,
A vertical pipe 4B penetrated and implanted in these holes 4A and 3C1 provides an air vent pipe 4 configured to communicate the lower surface of the water-impermeable sheet with the outside air.

The first to third inventions can be configured as follows. When forming the waste treatment plant, the connecting pipe 1B of the mat suitable for the waste treatment plant is provided with a sewage and sewage gas sensor S for detecting leached sewage flowing from the water absorption hole 1B2 and generated gas, if necessary. Is decorated.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described based on embodiments with reference to the drawings. Reference numeral 1 denotes a mat suitable for a waste disposal plant as the first invention. Therefore, a mat 1 suitable for a waste disposal site is composed of an appropriate number of mat bodies 1A and connecting pipes 1B connecting these mat bodies 1A. A. The mat body 1A includes a mat cover 1A1, a filler 1A2, and a connecting tubular body 1A3. a. The mat cover 1A1 is a flat rectangular upper and lower cloth 1A1.
1 and 1A11, leaving sutures 1A12 on the bottom and left and right sides of the outer periphery of the upper and lower cloths 1A1
1, 1A11 is a flat tube-shaped storage section 1A1 formed by an appropriate number of quiltings 1A13 provided in parallel with the left and right sides.
4, 1A14. . . Is attached. b. The filler 1A2 is made of a granular material such as rubber chips, plastic chips, wood chips, and the like.
A14, 1A14. . . Are filled from the opening, and the respective storage sections are sealed. c. The connecting tubular body 1A3 includes a front connecting tubular body 1A31 attached to the front side of the mat cover 1A1 at a predetermined interval, and a rear connecting tubular body attached to the rear side of the mat cover 1A1. 1A32 and mat cover 1A
1 and a left connecting tubular body 1A33 attached at a predetermined interval to the left side of the mat 1 and a right connecting tubular body 1A34 attached to the right side of the mat cover 1A1 at a predetermined interval.
It is composed of In this case, the front connecting tubular body 1
When connecting the mat cover 1A1 in the front-back direction, the A31 and the rear connecting tubular body 1A32 are configured so as not to overlap with each other, and the left connecting tubular body 1A33 and the right are connected to each other. The other connecting tubular body 1A34 is
When connecting the mat cover 1A1 in the left-right direction,
It is configured to be located so as not to overlap with each other. d. The material of the upper and lower cloths 1A1, 1A1 is a woven or non-woven cloth having water permeability and air permeability made of synthetic resin.

B. The connecting pipe 1B is a connecting tubular body 1A.
3 has a pipe 1B1 having an outside diameter capable of penetrating into the inside 3 and having a predetermined length, and a water absorption hole 1B2 formed in the outer peripheral surface. a. The material of the connecting pipe 1B is a synthetic resin having some elasticity. b. Inside the connecting pipe 1B, a sewage and sewage gas sensor S for detecting leached sewage and generated gas flowing from the water suction hole 1B2 are provided. c. When the sheet is damaged, the connecting pipe 1B can be repaired by inserting a pressure feed pipe into the pipe and injecting and solidifying water cement into a damaged portion located below the ground and below the ground.

C. The connection state in this case is as follows. The mat body 1A, 1A. . . Will be described in the case of connecting 12 sheets in front, back, left and right. (See FIGS. 4, 5, and 6) a. The connecting tubular body 1A32 at the rear of the mat body 1A located at the front and the connecting tubular body 1A31 at the front of the mat body 1A located at the rear are arranged in a straight line in the front-rear direction,
The connecting rod 1B is penetrated and connected to both of the connecting cylinders. b. The right connecting tubular body 1A34 of the mat body 1A located on the left and the left connecting tubular body 1A33 of the mat body 1A located on the right are arranged in a straight line in the left-right direction,
The connecting rod 1B is penetrated and connected to both of the connecting cylinders. c. The mat bodies 1A, 1A,... Connected by the vertical and horizontal connecting pipes 1B in this manner. . . Thus, a mat 1 suitable for a waste disposal site having a desired area can be obtained. In the drawing, the arrow A indicates the longitudinal direction of each storage section 1A14, but FIG. 4 shows a case where the longitudinal direction A of each storage section is parallel to the front-rear direction, and FIG. This is the case.

Reference numeral 2 denotes a waste treatment plant obtained by the method for forming a waste treatment plant using a mat suitable for a waste treatment plant according to the second invention. (See FIGS. 7 and 8) It is composed of the following steps. 1st process-Inverted pyramidal trough-shaped recess 2A is formed on the ground by a conventional method. That is, it is composed of a bottom surface 2A1, front and rear wall surfaces 2A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 2A3 connected to the left and right. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 2A. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. The water-blocking sheet 2B is laid on the upper surface of the mat 1 suitable for the fourth to second waste disposal sites. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant.

Reference numeral 21 denotes a waste disposal site obtained by a method for forming a waste disposal site using a mat suitable for a waste disposal site according to another embodiment of the second invention. (Refer to FIGS. 9 and 10.) It is composed of the following steps. 1st process-Inverted pyramidal trough-shaped recess 2A is formed on the ground by a conventional method. That is, it is composed of a bottom surface 2A1, front and rear wall surfaces 2A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 2A3 connected to the left and right. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 2A. In this case, the connecting pipe contains leached sewage and sewage that senses generated gas flowing in from the water absorption hole,
A sewage gas sensing measurement sensor S can be installed. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. The water-blocking sheet 2B is laid on the upper surface of the mat 1 suitable for the fourth to second waste disposal sites. Fifth process-The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water-impervious sheet 2B, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is the second position. The mats 1 suitable for a waste disposal site are laid in layers so as to be orthogonal to the longitudinal direction A of each storage section 1A14. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. The impermeable sheet also serves as a gas barrier. That is, at the same time as preventing the diffusion of the organic gas to the ground, the detoxification treatment or effective use is performed at a predetermined location.

Reference numeral 3 denotes a waste disposal site obtained by the method of forming a waste disposal site using a mat suitable for a waste disposal site according to the third invention. (See FIGS. 15, 16, and 17) It comprises the following steps. 1st process-Inverted pyramid-shaped trough recess 3A is formed in the ground by the conventional method. That is, it is composed of a bottom surface 3A1, front and rear wall surfaces 3A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 3A3 connected to the left and right. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 3A. In this case, the connecting pipe contains leached sewage and sewage that senses generated gas flowing in from the water absorption hole,
A sewage gas sensing measurement sensor S can be installed. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. The water-blocking sheet 3B is laid on the upper surface of the mat 1 suitable for the fourth to second waste disposal sites.

Fifth Step: The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water shielding sheet 3B, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is
Each storage section 1A14 of the mat 1 suitable for the second waste disposal site
Is laid in a state orthogonal to the longitudinal direction a. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. In this way, the lower part 32 of the waste disposal site is obtained. Sixth step-The waste 33 to be treated is put into the lower part 32 of the waste treatment plant. At the time of charging, the charged waste 33 is formed in a substantially truncated pyramid shape. Seventh step-A mat 1 suitable for the fourth waste disposal site is laid on the upper surface of the waste 33. The mat 1 suitable for the fifth waste disposal site is placed on the upper surface of the mat 1 suitable for the eighth to fourth waste disposal sites, and each of the storage portions 1A14 of the mat 1 suitable for the fifth waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the fourth waste disposal site. The water-impervious sheet 3C is laid on the upper surface of the mat 1 suitable for the ninth to fifth waste disposal sites, and the mat 1 suitable for the sixth waste-processing site is laid on the upper surface of the waterproof sheet 3C. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. Tenth step-The embankment 3D is provided on the upper surface of the waterproof sheet 3C for protecting the waterproof sheet.

Reference numeral 31 denotes a waste disposal site obtained by a method for forming a waste disposal site using a mat suitable for a waste disposal site according to another embodiment of the third invention. (See FIGS. 18, 19, and 20) It is composed of the following steps. 1st process-Inverted pyramid-shaped trough recess 3A is formed in the ground by the conventional method. That is, it is composed of a bottom surface 3A1, front and rear wall surfaces 3A2 connected to the front and rear of the bottom surface, and left and right wall surfaces 3A3 connected to the left and right. A mat 1 suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the second step to the treatment plant recess 3A. In this case, the connecting pipe contains leached sewage and sewage that senses generated gas flowing in from the water absorption hole,
A sewage gas sensing measurement sensor S can be installed. From the third step to the upper surface of the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site is placed on the upper surface of the mat 1 suitable for the second waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the first waste disposal site. Fourth step-The water-impervious sheet 3B is laid on the upper surface of the mat 1 suitable for the waste disposal site laid above.

Fifth step: The mat 1 suitable for the third waste disposal site is placed on the upper surface of the water-shielding sheet 3B, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the third waste disposal site is
Each storage section 1A14 of the mat 1 suitable for the second waste disposal site
Is laid in a state orthogonal to the longitudinal direction a. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. In this way, the lower part 32A of the waste disposal site is obtained. Sixth step-The waste 33 to be treated is put into the lower part 32A of the waste treatment plant. At the time of charging, the charged waste 33 is formed in a substantially truncated pyramid shape. Seventh step-A mat 1 suitable for the fourth waste disposal site is laid on the upper surface of the waste 33. The mat 1 suitable for the fifth waste disposal site is placed on the upper surface of the mat 1 suitable for the eighth to fourth waste disposal sites, and each of the storage portions 1A14 of the mat 1 suitable for the fifth waste disposal site. Lamination is laid such that the longitudinal direction a is orthogonal to the longitudinal direction a of each storage section 1A14 of the mat 1 suitable for the fourth waste disposal site. Ninth step to the fifth waste treatment plant A water-impervious sheet 3C is laid on the upper surface of the mat 1 suitable for the waste treatment plant. Tenth step-The mat 1 suitable for the sixth waste disposal site is placed on the upper surface of the water-impervious sheet 3C, and the longitudinal direction b of each storage portion 1A14 of the mat 1 suitable for the sixth waste disposal site is the fifth. The mats 1 suitable for a waste disposal site are laid in layers so as to be orthogonal to the longitudinal direction A of each storage section 1A14. In this case, the outer periphery of the mat and the water-impervious sheet suitable for each waste treatment plant is extended on the upper surface of the outer edge of the recess for the treatment plant. Eleventh Step-Embankment 3D is provided on the upper surface of the impermeable sheet 3C for protection of the impermeable sheet. The impermeable sheet also serves as a gas barrier. That is, at the same time as preventing the diffusion of the organic gas to the ground, the detoxification treatment or effective use is performed at a predetermined location.

Referring to FIGS. 11, 12, 13, and 14, the case of the waste disposal site 21 will be described as an example. When forming the waste disposal site 21, as described above, the mat 1 suitable for the first waste disposal site, the mat 1 suitable for the second waste disposal site, and the third disposal The mats 1 suitable for the treatment plant are sequentially laminated in a cross-shaped pattern, but there is a possibility that the four corners of the recess 2A for the treatment plant are exposed. In such a case, a mat 11 suitable for a waste disposal site, which is configured to cover the four corners at the four corners, is provided on a predetermined layer (in the case of the waste disposal site 21, as shown in FIG.
Layers) to be laid. Although not shown, such a process is naturally performed as needed also in the case of the waste disposal sites 2, 3, and 31.

Referring to FIGS. 17, 20, and 21, the air vent pipe 4 will be described by way of an example at the waste disposal site 31. At the time of forming the waste treatment plant 31, as described above, the mat 1 suitable for the fourth waste treatment plant, the mat 1 suitable for the fifth waste treatment plant, the water-blocking sheet 3C, The mats 1 suitable for the sixth waste disposal site are sequentially laminated, and are installed on the waterproof sheet 3C, a part of the mat 1 suitable for the sixth waste disposal site, and a part of the waterproof sheet 3C. The holes 4A and 3C1 and the vertical pipe 4B penetrating and penetrating the holes 4A and 3C1 are configured to communicate the lower surface of the water-impermeable sheet and the outside air. The first holding plate 4 extending outward from the lower part of the peripheral wall of the vertical pipe 4B from below.
B1, a second holding plate 4B2, and a third holding plate 4B3 are provided. The first holding plate and the second holding plate hold the impermeable sheet, and the second holding plate and the third holding plate serve as It is configured to hold the mat 1. Although not shown, such processing is naturally performed in the case of the waste disposal site 3 as well.

[0023]

Since the present invention is configured as described above, the following effects can be obtained. 1. In the conventional pipe degassing method, only a linear discharge operation is performed, but in the case of the present invention, exhaust gas can be collected and discharged in a flat state using a mat suitable for a waste disposal site. In the conventional pipe-type gas collecting method, the gas collecting section is linear, and the gas collecting surface is only in a fixed linear direction, and gas collecting from the entire gas generating section is impossible. In this regard, the present invention has an advantage that gas can be collected in a planar state. 2. When the underground surface falls, the mat suitable for the waste disposal site is quilted to the woven fabric, so it changes evenly with the falling surface, preventing the waste disposal site from being overwhelmed and preventing wear. Can be. 3. Mats suitable for waste disposal sites are filled with a fixed amount of granular material in a bag-shaped storage unit, so there is no sedimentation due to earth pressure from above, mixing with existing soil, and prevention of damage due to protrusions. it can. 4. Since the entire surface is covered with a mat suitable for a waste disposal site,
The generated gas is collected from the lower part, and can be discharged at a predetermined location or the gas can be effectively used. In order to prevent the lower surface of the waste treatment plant from becoming balloon-like due to the generation of gas from under the waste treatment plant, the entire lower part has ventilation, and this gas is guided to the ground more than any other part. be able to. 5. The mat body is resistant to acid and alkali.

6. Excellent water permeability and air permeability. Since the bottom becomes a ventilation water passage with a constant thickness, water permeability and air permeability can be ensured even when earth pressure is generated from above. The present invention utilizes a granular material such as waste plastic (including rubber and tires), and in order to ensure ventilation and water permeability, the granular material is packed in a tubular storage section by quilting and configured in a flat plate shape. 7. By installing a mat suitable for the waste disposal site below the water-impervious sheet, it is possible to prevent the sheet from being damaged by protrusions. 8. Since it is configured to pack granular material such as waste plastic into a cylindrical storage portion by quilting, the shape can be maintained for a long time without decay of a waste treatment plant. 9. By setting the facility in a multi-stage state depending on the surrounding soil, efficiency can be improved in both ventilation and water flow. 10. The filling material in the storage section is lighter than earth and sand, and the inexpensive and polluting substances can be used as recycled products. 11. Since the granular material is packed in the storage portion of the flat tube bag formed by quilting, a certain thickness can be secured, and the average pressure is obtained even in a wide area. 12. Other effects are as follows. A. Waste rubber can be reused, such as final treatment of rubber tires and waste plastic, granular crushing and recycling underground, and there is no decay for a long time. B. Inexpensive, lightweight, rich in workability, and low in construction costs. C. It can be created and installed according to the shape. D. Big and small can be made freely. E. FIG. Many can be used for pollution prevention facilities.

[Brief description of the drawings]

FIG. 1 is a schematic perspective view of a first invention.

FIG. 2 is an enlarged sectional view of a main part taken along line AA.

FIG. 3 is a plan view showing a mat connected to a waste disposal site in a connected state.

FIG. 4 is a plan view of a mat connected to a waste disposal site in a connected state.

FIG. 5 is an enlarged front view of a main part of the above.

FIG. 6 is a perspective view showing a relationship between a mat suitable for a first waste disposal site and a mat suitable for a second waste disposal site.

FIG. 7 is a schematic exploded perspective view of the second invention.

FIG. 8 is a longitudinal sectional view of a waste disposal site obtained by the second invention.

FIG. 9 is a schematic exploded perspective view of another embodiment of the second invention.

FIG. 10 is a longitudinal sectional view of a waste disposal site obtained in another embodiment of the second invention.

FIG. 11 is a partially cutaway perspective view for explaining the processing of the four corners in the recess for the treatment plant.

FIG. 12 is an enlarged cross-sectional view of a main part for explaining processing at four corners in a hollow part for a processing plant.

FIG. 13 is an enlarged vertical cross-sectional view of a main part for describing processing of four corners in the hollow part for a processing plant.

FIG. 14 is an enlarged vertical sectional view of a main part in a waste disposal site obtained in another embodiment of the second invention.

FIG. 15 is a schematic exploded perspective view of the third invention.

FIG. 16 is a schematic exploded perspective view of the third invention.

FIG. 17 is a longitudinal sectional view of a waste disposal site obtained by the third invention.

FIG. 18 is a schematic exploded perspective view of another embodiment of the third invention.

FIG. 19 is a schematic exploded perspective view of another embodiment of the third invention.

FIG. 20 is a longitudinal sectional view of a waste disposal site obtained in another embodiment of the third invention.

FIG. 21 is an enlarged vertical sectional view of a main part of a waste disposal site obtained in another embodiment of the third invention.

FIG. 22 is an enlarged vertical sectional view of a main part of a waste disposal site obtained in another embodiment of the third invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Mat suitable for waste treatment plant 1A Mat body 1B Connecting pipe 2 Waste treatment plant 21 Waste treatment plant 3 Waste treatment plant 31 Waste treatment plant

Claims (7)

[Claims] 1. The following suitable number of mat bodies (1A):
Connecting pipe (1) connecting these mat bodies (1A)
A mat suitable for a waste disposal plant, which is constituted by B). A. Mat body (1A) is mat cover (1A1)
And a filler (1A2) and a connecting tubular body (1A3), a. The mat cover (1A1) has an opening on the upper side of the outer periphery of the flat rectangular upper and lower cloths (1A11, 1A11) made of a woven or nonwoven fabric having water permeability and air permeability made of a synthetic resin, and has a bottom side. And suturing on the left and right sides (1A1
2) and an appropriate number of quiltings (1A1) applied to the upper and lower cloths (1A11, 1A11) in parallel with the left and right sides.
3), the flat tube-shaped storage section (1A14, 1A1)
4. . . ) Is installed, b. The filler (1A2) is composed of a granular material such as a rubber chip, a piece of plastic, a chip of wood, or the like, and is filled into each of the storage portions (1A14, 1A14...) From the opening, and each of the storage portions is Sealed, c. The connecting tubular body (1A3) is provided with a mat cover (1A).
The front connecting tubular body (1A31) attached to the front side of (1) at a predetermined interval, and the rear connecting tubular body (1A32) attached to the rear side of the mat cover (1A1).
A left connecting tubular body (1A33) attached to the left side of the mat cover (1A1) at a predetermined interval; and a left connecting tubular body (1A33) attached to the right side of the mat cover (1A1) at a predetermined interval. B. The right-hand connecting tubular body (1A34). The connecting pipe (1B) is made of a synthetic resin having some elasticity, has an outer diameter capable of penetrating into the connecting tubular body (1A3), and has a predetermined length.
1) and a water absorption hole (1B2) drilled in the outer peripheral surface, and the connecting pipe (1B) has sewage that senses leached sewage and generated gas flowing from the water absorption hole (1B2). B. Sewage gas detection measurement sensor (S) is installed. A connecting tubular body (1A32) behind the mat body (1A) located in front and a mat body (1A) located in the back.
A) and the connecting tubular body (1A31) in front of them are arranged in a straight line in the front-rear direction.
B) and a connecting tubular body (1A34) on the right side of the mat body (1A) located on the left while being connected therewith;
The left connecting tubular body (1A33) of the mat body (1A) located on the right side is arranged in a straight line in the left-right direction, and the connecting rod (1B) is penetrated into these two connecting tubular bodies and connected. I do. 2. A method for forming a waste treatment plant, comprising the following steps. 1st process-Inverted truncated pyramid composed of a bottom surface (2A1) on the ground, front and rear wall surfaces (2A2) continuously provided before and after this bottom surface, and left and right wall surfaces (2A3) provided right and left. (2A) is formed. A mat (1) suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the recesses (2A) for the second step to the treatment plant. A mat (1) suitable for the second waste treatment plant and a mat (1) suitable for the second waste treatment plant on the upper surface of the mat (1) suitable for the third process to the first waste treatment plant. Each storage section (1
Lamination is laid such that the longitudinal direction (A) of A14) is orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the first waste disposal site. After laying a water-impervious sheet (2B) on the upper surface of the mat (1) suitable for the fourth to second waste disposal sites, the mat suitable for each waste disposal site and the outer periphery of the water-impervious sheet are treated. It is spread on the upper surface of the outer edge of the recess. 3. A method for forming a waste treatment plant comprising the following steps. 1st process-Inverted truncated pyramid composed of a bottom surface (2A1) on the ground, front and rear wall surfaces (2A2) continuously provided before and after this bottom surface, and left and right wall surfaces (2A3) provided right and left. (2A) is formed. A mat (1) suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the recesses (2A) for the second step to the treatment plant. A mat (1) suitable for the second waste treatment plant and a mat (1) suitable for the second waste treatment plant on the upper surface of the mat (1) suitable for the third process to the first waste treatment plant. Each storage section (1
Lamination is laid such that the longitudinal direction (A) of A14) is orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the first waste disposal site. The water-impervious sheet (2B) is laid on the upper surface of the mat (1) suitable for the fourth to second waste disposal sites. Fifth step-A mat (1) suitable for the third waste disposal site is provided on the upper surface of the impermeable sheet (2B), and each storage section (1A14) of the mat (1) suitable for the third waste disposal site is provided. Of the mat (1) suitable for the second waste disposal site, and in a state orthogonal to the longitudinal direction (a) of each storage section (1A14) of the mat (1). The outer periphery of a suitable mat or impermeable sheet extends over the upper surface of the outer edge of the treatment plant recess. 4. A method for forming a waste disposal plant, comprising the following steps. 1st process-Inverted truncated pyramid composed of a bottom surface (3A1) on the ground, front and rear wall surfaces (3A2) continuously provided before and after this bottom surface, and left and right wall surfaces (3A3) provided left and right. (3A) is formed. A mat (1) suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the recesses (3A) for the second step to the treatment plant. A mat (1) suitable for the second waste treatment plant and a mat (1) suitable for the second waste treatment plant on the upper surface of the mat (1) suitable for the third process to the first waste treatment plant. Each storage section (1
Lamination is laid such that the longitudinal direction (A) of A14) is orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the first waste disposal site. The water-impervious sheet (3B) is laid on the upper surface of the mat (1) suitable for the fourth to second waste disposal sites. Fifth step-A mat (1) suitable for the third waste disposal site is provided on the upper surface of the water-impervious sheet (3B), and a mat (1A14) of each mat (1) suitable for the third waste disposal site is provided. After laying in a state where the longitudinal direction (a) is orthogonal to the longitudinal direction (a) of each storage section (1A14) of the mat (1) suitable for the second waste disposal site, Suitable mat,
The outer perimeter of the seepage control sheet is extended on the upper surface of the outer edge of the treatment plant recess to obtain the lower part (32) of the waste treatment plant. Step 6-The waste (33) to be treated is put into the lower part (32) of the waste treatment plant. In this case, when thrown, the thrown waste (33) is formed so as to have a substantially truncated pyramid shape. Seventh step-A mat (1) suitable for the fourth waste disposal site is laid on the upper surface of the waste (33). The mat (1) suitable for the fifth waste treatment plant is placed on the upper surface of the mat (1) suitable for the eighth to fourth waste treatment plants, and the mat (1) suitable for the fifth waste treatment plant. Each storage section (1
Lamination is performed with the longitudinal direction (A) of A14) orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the fourth waste disposal site. After laying and laying the impermeable sheet (3C) on the upper surface of the mat (1) suitable for the ninth to fifth waste disposal sites, it is suitable for the sixth waste treatment site on the upper surface of the impermeable sheet (3C). Mats (1) are laid in layers, suitable for each waste disposal site,
The outer periphery of the impermeable sheet is extended on the upper surface of the outer edge of the recess for the treatment plant. Tenth step-Embankment (3D) is performed on the upper surface of the impermeable sheet (3C) to protect the impermeable sheet. 5. A method for forming a waste treatment plant comprising the following steps. 1st process-Inverted truncated pyramid composed of a bottom surface (3A1) on the ground, front and rear wall surfaces (3A2) continuously provided before and after this bottom surface, and left and right wall surfaces (3A3) provided left and right. (3A) is formed. A mat (1) suitable for the first waste treatment plant is laid on the bottom surface, the front and rear wall surfaces, and the upper surface of the left and right wall surfaces in the recesses (3A) for the second step to the treatment plant. A mat (1) suitable for the second waste treatment plant and a mat (1) suitable for the second waste treatment plant on the upper surface of the mat (1) suitable for the third process to the first waste treatment plant. Each storage section (1
Lamination is laid such that the longitudinal direction (A) of A14) is orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the first waste disposal site. Fourth step-A water-impervious sheet (3B) is laid on the upper surface of a mat (1) suitable for a waste disposal site laid above. Fifth step-A mat (1) suitable for the third waste disposal site is provided on the upper surface of the water-impervious sheet (3B), and a mat (1A14) of each mat (1) suitable for the third waste disposal site is provided. The lower part of the waste disposal plant is laid in a state where the longitudinal direction (a) is perpendicular to the longitudinal direction (a) of each storage portion (1A14) of the mat (1) suitable for the second waste disposal plant. (32A) is obtained. Step 6-The waste (33) desired to be treated is put into the lower part (32A) of the waste treatment plant. Seventh step-A mat (1) suitable for the fourth waste disposal site is laid on the upper surface of the waste (33). The mat (1) suitable for the fifth waste treatment plant is placed on the upper surface of the mat (1) suitable for the eighth to fourth waste treatment plants, and the mat (1) suitable for the fifth waste treatment plant. Each storage section (1
Lamination is performed with the longitudinal direction (A) of A14) orthogonal to the longitudinal direction (A) of each storage section (1A14) of the mat (1) suitable for the fourth waste disposal site. The ninth step to the fifth waste disposal plant are laminated with a water-impervious sheet (3C) on the upper surface of the mat (1) suitable for the waste treatment plant. Tenth step-A mat (1) suitable for the sixth waste disposal site is placed on the upper surface of the impermeable sheet (3C), and each storage section (1A14) of the mat (1) suitable for the sixth waste disposal site Of the mats (1) suitable for the fifth waste disposal site, the longitudinal direction (a) of the mats (1) is perpendicular to the longitudinal direction (a) of each storage section (1A14). The outer periphery of the mat and the water-impervious sheet is preferably spread on the upper surface of the outer edge of the recess for the treatment plant. Eleventh step-Embankment (3D) is performed on the upper surface of the impermeable sheet (3C) to protect the impermeable sheet. 6. A mat (1) suitable for the fourth waste disposal site, a mat (1) suitable for the fifth waste disposal site, and a water-impervious sheet (6) on the upper surface of the waste when forming the waste disposal site. 3
C) When the mat (1) suitable for the sixth waste disposal site is sequentially laminated, the water impermeable sheet (3C), a part of the mat (1) suitable for the sixth waste disposal site, and water impermeable. The holes (4A, 3C1) opened in a part of the sheet (3C) and these holes (4C
The air vent pipe (4) configured to communicate outside air with the lower surface of the impermeable sheet by a vertical pipe (4B) penetrated and implanted in (A, 3C1). How to form a waste disposal site. 7. When forming a waste disposal site, if necessary, leachable sewage and generated gas flowing from a water absorption hole (1B2) are detected in a connecting pipe (1B) of a mat suitable for the waste disposal site. The wastewater or wastewater gas sensing and measuring sensor (S) is installed inside the vehicle.
The method for forming a waste disposal site according to any one of the above.