JP3771196B2 - Water-impervious sheet at waste disposal site and self-repairable sheet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water shielding sheet for a waste disposal site and its construction method, and in particular, on a water-impermeable single lower-layer water shielding sheet material laid to cover the entire base surface of the waste disposal site. The present invention relates to a water-impervious sheet for a waste disposal site that can be easily constructed in a state where no waste material is generated by appropriately joining the upper-layer impermeable sheet material cut in step 1 and its construction method.
[0002]
[Prior art]
For waste disposal facilities that landfill industrial waste and general waste, it is obliged to implement water shielding work at the bottom of the disposal facility so that the leaked sewage from the disposal facility does not penetrate into the basement and cause environmental pollution. For such water-blocking work, a method of laying a soft synthetic resin-based or rubber-based water-blocking sheet is adopted, but the water-blocking sheet is poorly bonded, waste is being landfilled, or after landfill is completed. There was a possibility that the sewage from the missing part due to the breakage of the generated water shielding sheet would leak out.
[0003]
In order to improve such a situation, a composite impermeable body having a space part is adopted, and even when damage occurs, the damaged part is repaired and impermeable before the contaminated water flows out. A self-healing waste disposal facility has been proposed that can be repaired immediately even if the same section is damaged again. (Application for Japanese Patent Application No. 11-253589)
The proposed self-healing waste disposal facility consists of a waste disposal site excavated in a depression and a management building constructed close to it, and the waste disposal site has a water shielding mechanism. A double-layer water-impervious sheet filled with the liquid restoration material is laid and connected to each facility such as the supply management mechanism of the management building.
[0004]
The water-impervious mechanism is always measured and monitored to maintain sound operation, and at the same time, the supply control mechanism and the like are also separately measured and monitored. Confirm that it is maintained in a normal state.
[0005]
And when breakage occurs in the water shielding sheet, the liquid restoration material leaks and self-repairs, and at the same time, the supply management mechanism etc. confirms the fluctuation of the liquid restoration material filled in the water shielding sheet. Therefore, the supply of liquid restoration material is commanded to support self-repair of damage. In addition, the self-healing of the damage is to restore the sound operation after confirming the completion of the repair by reducing the supply amount in the supply management mechanism etc. that supplies the liquid restorative material and returning to the normal overpressure state. is there.
[0006]
As the material of these water shielding sheets, in addition to water shielding materials made of synthetic rubber, soft synthetic resin and other polymer materials, layered water shielding materials such as asphalt, rubber asphalt, clay lining, etc. or sheet shape used for roofing A water-blocking material is used, and even if the form of the sheet is not a single sheet, it is a general example in which a single layer is formed by joining a plurality of joints vertically and horizontally, and a mechanism for detecting a defective part An example of constructing a water-blocking sheet of a reverse layer by joining a plurality of narrow-layer upper layer sheets on a single lower-layer sheet in a wide range (see Japanese Patent Laid-Open No. 2-136414, Japanese Patent No. 2960821) ) Has also been proposed.
[0007]
However, the damage factors of the water shielding sheet are wide-ranging, such as physical and chemical damage and biological damage, and since it is difficult to prevent them completely, no effective measures have been established yet. For this reason, technology for detecting and repairing sheet breakage has been developed, and various proposals have been made regarding the detection method, and it has come into practical use as an effective technology in terms of accuracy. , (1) Indirect repairing by injecting chemicals around the damaged part and those that excavate the waste and repair the damaged part directly, even if the damaged part of the sheet is detected at an early stage, Since the leachate is restored after it has flowed out of the waste disposal facility, environmental pollution that occurs during that time cannot be prevented. (2) Regarding the repair of a waste disposal facility that employs a sheet with a space, cement Since the leaked part was repaired by grout injection, etc., all of the injected space was solidified, and there was a problem that the detection mechanism would not work if the next leak occurred in the same section.
[0008]
Therefore, in order to eliminate sheet repair work, the use of sheets having a space is increasing. In order to prevent sewage from leaking to the outside due to damage to the water shielding sheet due to external forces during or after landfill work, it is possible to achieve good bonding during construction of the water shielding sheet, After installation, the upper and lower layer sheets are configured so that uneven pressure is not applied. For this purpose, multiple shapes of water shielding sheet material are prepared and bonded together, or a water shielding sheet is manufactured. In many cases, a special member is used, and as a result, there is a fundamental problem that the manufacturing cost increases and the construction period is extended.
[0009]
[Problems to be solved by the invention]
The present invention is proposed in order to solve the problem in view of the above-mentioned problems, on a water-impermeable single lower-layer impermeable sheet material that covers and covers the entire base surface of the waste disposal site. By joining the upper-layer impermeable sheet material cut at the site as appropriate, a plurality of bags are formed on the lower-layer sheet and meanderingly communicated with each other while the desired impermeable sheet is not generated. A water-impervious sheet and a self-repairing type water-impervious sheet for a waste disposal site that can be easily installed and that reduce manufacturing costs and shorten the construction period while ensuring quality by focusing on simple work at the construction site. providing.
[0010]
[Means for Solving the Problems]
The water-impervious sheet of the waste disposal site according to claim 1 is disposed on an impermeable single lower layer sheet and a single lower layer sheet that are laid over the entire base surface of the waste disposal site. A plurality of bags formed of a water-impermeable rectangular upper layer sheet, openings that communicate with each other at alternate diagonal positions, a shape-holding material disposed within the bag, and a bag that communicates with the openings. Consists of return piping installed in the lower layer sheet of the first bag body and the final bag body, forming a plurality of bag bodies on the lower layer sheet and communicating in a meandering manner, on the lower sheet In order to form a plurality of bags, the lower layer sheet and the upper layer sheet cut at the site are appropriately joined, and construction is easily performed in a state where no waste material is generated, and quality is ensured by devoting simple work at the construction site. We are trying to reduce manufacturing costs and shorten the construction period.
[0011]
The water-impervious sheet of the waste disposal site according to claim 2 is the water-impervious sheet of the waste disposal site according to claim 1, in which a plurality of bags communicating at the opening are partitioned in a predetermined direction. In addition to the above functions, the formation of a plurality of divided areas is simplified.
[0012]
The water shielding sheet for a waste disposal site according to claim 3 is a rectangular upper layer sheet disposed on a single lower layer sheet in the water shielding sheet for a waste disposal site according to claim 1 or 2. In addition to the above function, the two sides connected to each other are joined to a single lower layer sheet, and the other two connected sides are joined to an adjacent upper layer sheet. It is easy to form openings that communicate with each other and to dispose the shape-retaining material, thereby forming a plurality of divided areas parallel to a predetermined direction.
[0013]
The water-proof sheet of the waste disposal site according to claim 4 is the rectangular upper-layer sheet disposed on the single lower-layer sheet in the water-proof sheet of the waste disposal site according to claim 1 or 2. In addition to joining one side in the direction of the arrangement to the single lower layer sheet, and forming the bag body by closing both ends while joining the other three connected sides to the adjacent upper layer sheet, In addition to the above functions, it is easy to form an opening that communicates between the bags and to arrange the shape-retaining material, and a plurality of segmented areas parallel to a certain direction are formed by laminating a plurality of upper layer sheets.
[0014]
The water-impervious sheet of the waste disposal site according to claim 5 is the rectangular upper-layer sheet disposed on the single lower-layer sheet in the water-impervious sheet of the waste disposal site according to claim 1 or 2. In addition to joining one side in the direction in which it is arranged to the adjacent upper layer sheet, the bag is formed by closing both ends while joining the other three connected sides to the single lower layer sheet, In addition to the above functions, it facilitates the formation of openings that communicate between the bags and the placement of the shape-retaining material, and forms a plurality of segment areas parallel to a certain direction with a single upper layer sheet having the same width as the lower layer sheet. Yes.
[0015]
The water-impervious sheet of the waste disposal site according to claim 6 is the water-repellent sheet of the waste disposal site according to any one of claims 1 to 5, wherein the return pipe installed on the single lower layer sheet Is arranged at a diagonal position with respect to the opening communicating between the plurality of bags, and in addition to the above function, the formation of the meandering flow path in the divided area is facilitated.
[0016]
The self-healing water-impervious sheet of the waste disposal site according to the seventh aspect of the invention constitutes a division area in the water-impervious sheet of the waste disposal site according to any one of claims 1 to 6. It is characterized by filling a plurality of bag bodies with a replenishable liquid restoration material, and in addition to the above function, self-repair with the liquid restoration material is ensured for the entire area of the water shielding sheet.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
The water-impervious sheet of the waste disposal site according to the present invention is basically a water-impermeable single lower layer sheet laid over the entire base surface of the waste disposal site and a non-permeable sheet disposed on the single lower layer sheet. A plurality of bags formed of a water-permeable rectangular upper layer sheet, openings that communicate with each other at alternate diagonal positions, a shape-holding material disposed within the bag, and the first of the bags that communicate with the opening The water-proof sheet comprising a plurality of bag bodies is combined with a plurality of bag bodies arranged in series. Dividing into arbitrary multiple division areas as the division areas, each bag body is meanderingly communicated by the openings provided at the diagonal positions of the partition portions of the bag bodies constituting and connecting each division area, and the whole area of the division area The filling liquid can be distributed over the entire area.
[0018]
Thus, the water-impervious sheet according to the present invention can be easily constructed in a state in which waste materials are not generated by appropriately joining the lower-layer sheet and the upper-layer sheet cut on site in order to form a plurality of bags on the lower-layer sheet. At the same time, we strive to reduce manufacturing costs and shorten the construction period while ensuring quality by focusing on simple work at the construction site.
Hereinafter, embodiments of a water shielding sheet according to the present invention will be described in detail with reference to the drawings.
[0019]
FIG. 1: shows 1st Embodiment of the water-impervious sheet | seat by this invention, and is sectional drawing (b) which expands and partially shows the top view (a) and plan view (a) which fractured | ruptured partially It is.
[0020]
The water-impervious sheet 1 according to the present embodiment includes a plurality of bag bodies including an impermeable single lower layer sheet 2 and an impermeable rectangular upper layer sheet 3 that are laid to cover the entire base surface of the waste disposal site. 4 is formed, and the shape-retaining material 6 is disposed in the gap 5 of the bag body 4. The plurality of bag bodies 4 are continuously arranged adjacent to each other, and are partitioned in a predetermined direction to form a plurality of divided areas 7, 7 ′, 7 ″.
[0021]
Each bag body 4 forming each section area 7 is provided with openings 8, 8 communicating with each other at diagonal positions between the adjacent bag bodies 4. A series of flow paths covering the entire areas of the respective divided areas 7, 7 ′, 7 ″ are formed in a meandering manner through the openings 8.
[0022]
In addition, a feed pipe 10 is installed in the lower layer sheet 2 of the bag body 9 located at one side end of the plurality of bag bodies constituting each of the divided areas 7, 7 ′, 7 ″. A reflux pipe 12 is provided on the lower layer sheet 2 of the bag body 11 located at the other side end of each divided region 7 facing the bag body 9.
[0023]
Further, the flow pipe 10 and the reflux pipe 12 are arranged at the corner of the bag body facing the opening 8, and a series of meandering states covering the entire area of each of the divided areas 7, 7 ′, 7 ″ together with the opening 8. The flow path is formed.
[0024]
With the above configuration, the liquid restoration material injected from the flow pipe 10 into each section area 7 of the water shielding sheet 1 in order to detect a damaged portion of the water shielding sheet 1 is present at one end of each section area 7. From the bag body 9, all the bag bodies 4 meander in the alternating direction, reach the bag body 11 at the other end of each section area 7, and are sent out from the reflux pipe 12 provided in the bag body 11. Return to the management building of the waste disposal site.
[0025]
In the present embodiment, the base sheet of the waste disposal site is covered with the impermeable lower layer sheet 2 so that it can be laid and rolled out from the rolls that are wound on-site and joined in a single state. The one upper layer sheet 3 is continuously arranged adjacent to each other in a predetermined direction as a plurality of rectangular sheets fed from the same roll, and then joined with the impermeable lower layer sheet 2 and each other. A plurality of bag bodies 4 are formed by joining, and a section area 7 in a predetermined direction is formed by partitioning these bag bodies.
[0026]
Therefore, the formation of the bag 4 by the upper layer sheet 3 is performed by joining the two sides 13 and 14 connected to the upper layer sheet 3 to the lower layer sheet 2 and adjoining the other two sides 13 'and 14' adjacent to each other. The upper layer sheet is formed by joining between the three sheets, and is formed between a part of the upper layer sheet 3 and the lower layer sheet 2 while continuously arranging the plurality of formed bags 4. 3 are provided in the partition wall 16 and are communicated with each other.
[0027]
The opening 8 is provided in the partition wall 16 in the vicinity of the opposite corners of the bag body, so that the bag bodies connected to each other while corresponding to the extending direction of the divided areas 7, 7 ′, 7 ″ as shown in FIG. The plurality of bags 4 are communicated through the opening 8 to form a section 7 having a series of flow paths covering the entire region in a meandering state.
[0028]
Therefore, the extending direction of the divided areas 7, 7 ′, 7 ″ is not limited to the divided areas 7 → 7 as shown in the figure, and can be extended in the direction of the divided areas 7 → 7 ′ → 7 ″. As a result, the formation of the divided areas can be set in any direction of the water shielding sheet 1.
[0029]
In the formed bag body 4, a shape holding material 15 is arranged to prevent the water shielding sheet from being damaged by an external force during the landfilling work of the waste or after completion of the landfilling. The sewage is not leaked to the outside.
[0030]
Moreover, the opening 8 which makes the adjacent bag body 4 communicate in a diagonal position as shown in the drawing is formed in the partition wall 16 by cutting as shown in the partial sectional view of FIG. The shape retaining material 15 is also inserted into the inside 8 to ensure the circulation from the opening 8.
[0031]
In the first embodiment of the impermeable sheet according to the present invention, the impermeable sheet is constructed as follows.
[0032]
That is, in the construction of the water-impervious sheet according to the first embodiment, the impermeable single lower layer sheet 2 is laid to cover the entire base surface of the waste disposal site, and each divided area where the single lower layer sheet is partitioned. In the range corresponding to 7, the return pipes 10 and 12 are installed at the positions of the bags disposed at both ends. Next, the water-impermeable rectangular upper layer sheet 3 constituting the plurality of bags 4 is continuously arranged on the single lower layer sheet 2 in the direction of the divided area 7, while being parallel to the arrangement direction of the upper layer sheet 3. One side 14 in the arrangement direction connected to one side 13 is joined to the single lower layer sheet 2, and the shape holding material 6 is disposed between the joints between the upper layer sheet 3 and the single lower layer sheet 2.
[0033]
Thereafter, an opening 8 that communicates between the bag bodies is formed at diagonal positions while utilizing the margin of the adjacent upper layer sheet 3, and the shape retaining material 15 is disposed in the opening 8, and then the upper layer sheet 3 is opened. The other connecting two sides 13 ′ and 14 ′ are joined to the adjacent upper layer sheet 3, thereby forming each divided region 7 while forming a plurality of communicating bags 4.
[0034]
FIG. 2 shows the above construction form, and shows the process of joining the upper layer sheet to the lower layer sheet and forming the opening in the upper layer sheet.
[0035]
The impervious single lower layer sheet 2 is manufactured at the waste disposal site to be constructed. The sheet material that is wound from the roll carried to the site is fed out, and the base of the waste disposal site. It is cut into a predetermined shape so that it can be laid over the entire surface of the surface, and processed into a single piece by joining together.
[0036]
In the lower layer sheet 2 laid, return pipes 10 and 12 are installed at the positions of the bag bodies arranged at both ends in a range corresponding to each partitioned area 7, and then a plurality of impermeable water The rectangular upper layer sheet 3 is arranged in one direction on the water-impermeable single lower layer sheet 2 in order to connect the plurality of bag bodies 4 and is parallel to the direction in which the upper layer sheets are arranged. One side 13 and one side 14 connected to this side and positioned in the arrangement direction are joined to the lower sheet 2.
[0037]
Next, when the two connected sides of the upper layer sheet are bonded to the lower layer sheet as described above, the shape holding material 6 is disposed between the partition walls 16 formed by bonding the upper layer sheet and the lower layer sheet, and finally Even if a load due to waste is applied to the bag body 4 that is formed, the gap 5 of the bag body 4 is maintained, and after the shape retaining material 6 is disposed, the bag An opening 8 communicating with each other between the bodies 4 is formed in the partition wall 16 formed in the upper sheet.
[0038]
Although the details of the arrangement of the shape retaining member 6 and the formation of the opening 8 in the partition wall 16 will be described later, when the formation of the opening 8 is completed, the other two sides 13 ′ and 14 ′ connected to the upper sheet 3 are adjacent to each other. By joining to the upper layer sheet 3, a plurality of bag bodies 4 each having the shape holding material 6 inserted therein are continuously formed. Therefore, a series of flow paths that meander all the bag bodies 4 in the divided areas are formed in the bag bodies 4 of the divided areas 7, 7, 7.
[0039]
As in the first embodiment described above, the water-impervious sheet of the waste disposal site according to the present invention has two sides where the water-impermeable rectangular upper layer sheet arranged in a predetermined direction on the single lower layer sheet is connected. A single lower layer sheet that is impervious to form a segmented area in an arbitrary direction by joining a single lower layer sheet and joining two other connecting sides between adjacent upper layer sheets to form a bag body A plurality of bag bodies are formed on the lower layer sheet by appropriately joining the upper sheet cut on the site, and all the bag bodies are meandered by the opening provided in the partition wall 16 of the adjacent bag body The desired water-impervious sheet can be easily constructed in a state where no waste material is generated, and the manufacturing cost can be reduced and the construction period can be shortened while ensuring quality by focusing on simple work at the construction site. ing.
[0040]
Next, a second embodiment of the water-impervious sheet according to the present invention will be described. The same parts as those in the above-described embodiment are represented by the same reference numerals.
[0041]
FIG. 3: shows 2nd Embodiment of the water-impervious sheet | seat by this invention, and is sectional drawing (b) which expands and partially shows the top view (a) and plan view (a) which fractured | ruptured a part It is. The water-impervious sheet 21 in the present embodiment includes a plurality of bag bodies including a water-impermeable single lower layer sheet 22 and a water-impermeable rectangular upper layer sheet 23 laid over the entire base surface of the waste disposal site. 24 is formed, and the shape-retaining material 26 is disposed in the gap 25 of the bag body 24.
[0042]
The plurality of bag bodies 24 are continuously arranged adjacent to each other, and are partitioned in a predetermined direction to form a plurality of divided areas 27, 27 ′, 27 ″.
[0043]
Each bag body 24 that forms each section 27 is provided with openings 8 and 8 that communicate with each other at diagonal positions between the adjacent bag bodies 24. By communicating with the meandering state through the opening 8, a series of flow paths covering the entire regions 27, 27 ′, 27 ″ are formed.
[0044]
In addition, the feed pipe 10 is installed in the lower layer sheet 22 of the bag body 28 located at one end of each of the divided areas 27, 27 ', 27 ", and faces the bag body 28 at the one end. The return pipe 12 is installed in the lower layer sheet 2 of the bag body 29 located at the other side end of each divided area 27.
[0045]
With the above configuration, in the case of the present embodiment as well, the liquid that is injected from the flow pipe 10 into the respective divided areas 27, 27 ′, 27 ″ of the water shielding sheet 21 in order to detect a damaged portion of the water shielding sheet 21. The restorative material is used to meander all the bags 24 in alternate directions from the bags 28 at one end of each of the divided areas 27, 27 ', 27 ", in addition to the divided areas 27, 27', 27". It reaches the bag 29 at the side end, is sent out from the reflux pipe 12 provided in the bag 29, and returns to the management building of the waste disposal site.
[0046]
Also in this embodiment, it is drawn out from the roll that is wound in the field and joined in a single state so that it can be laid so as to cover the entire base surface of the waste disposal site with the impermeable lower layer sheet 22. The one upper layer sheet 23 is continuously arranged adjacent to each other in a predetermined direction as a plurality of rectangular sheets fed from the same roll, and then joined with the impermeable lower layer sheet 22 and each other. A plurality of bag bodies 24 are formed by joining, and by dividing these bag bodies, section areas 27, 27 ′, 27 ″ in a predetermined direction are formed.
[0047]
Thus, the formation of the bag body 24 by the upper layer sheet 23 is performed by joining one side 30 in the arrangement direction of the rectangular upper layer sheet 23 arranged on the single lower layer sheet to the single lower layer sheet 22, The three sides 31, 32, 33 connected to each other are joined to the adjacent upper layer sheet 23, and thereafter, the bag body 24 is formed by closing both ends of the upper layer sheet 34 at one end and the upper layer sheet 35 at the other end. ing.
[0048]
An opening 8 is provided in the partition wall 36 formed between a part of the upper layer sheet 23 and the lower layer sheet 22 while the plurality of formed bag bodies 24 are continuously arranged, and communicate with each other.
[0049]
The openings 8 are provided at mutually diagonal positions as shown between the bag bodies 24 connected in correspondence with the extending directions of the section areas 27, 27 ′, 27 ″, so that the bag bodies 24 are continuously connected. Thus, the respective divided areas 27, 27 ′, 27 ″ having a series of flow paths covering the entire area in a meandering state are formed.
[0050]
Therefore, in the present embodiment, the respective divided areas are formed by arranging the bags 24 extended in one direction in parallel. In the formed bag body 24, a shape retaining material 26 is arranged to prevent the water shielding sheet from being damaged by an external force during or after the landfill operation of the waste. The sewage is not leaked to the outside.
[0051]
Moreover, the opening 8 which connects the adjacent bag body 4 in a diagonal position as shown in the drawing is formed by cutting the partition wall 36 as shown in the partial sectional view of FIG. The shape retaining member 37 is also inserted into the inside 8 to ensure the circulation from the opening 8. In the second embodiment of the impermeable sheet according to the present invention, the impermeable sheet is constructed as follows.
[0052]
That is, in the construction of the water-impervious sheet in the second embodiment, an impermeable single lower layer sheet 22 is laid to cover the entire base surface of the waste disposal site, and each section into which the single lower layer sheet 22 is partitioned is divided. The return pipes 10 and 12 are installed at diagonal positions within a range corresponding to the area. Next, the direction in which the upper layer sheet 23 is arranged while arranging the impermeable rectangular upper layer sheet 23 constituting the plurality of bags 24 on the single lower layer sheet 22 so as to be connected in the extending direction of the section area 27. 1 is parallel to the single lower layer sheet 22, and the shape retaining material 26 is disposed between the upper layer sheet 23 and the single lower layer sheet 22.
[0053]
After that, the opening 8 communicating between the bag bodies is formed at a diagonal position while utilizing the margin of the adjacent upper layer sheet 23, and the shape retaining material 37 is disposed in the opening 8, and then the upper layer sheet 23 is opened. The other three sides 31, 32, 33 are joined to the adjacent upper layer sheet 23, and then the both ends of the upper layer sheet 34 at one end and the upper layer sheet 35 at the other end are closed to close the bag body 24. Forming.
[0054]
In the second embodiment of the present invention, the water shielding sheet is constructed as follows.
FIG. 4 shows the above construction mode, and shows the process of joining the upper layer sheet to the lower layer sheet and forming the opening in the upper layer sheet.
[0055]
The impervious single lower layer sheet 22 is manufactured in the waste disposal site where the construction is performed, and the base material of the waste disposal site is delivered while feeding the sheet material wound from the roll carried into the site. It is cut into a predetermined shape so that it can be laid over the entire surface of the surface, and processed into a single piece by joining together.
[0056]
In the lower layer sheet 22 laid, return pipes 10 and 12 are installed at diagonal positions within a range corresponding to each divided section 27, and then a plurality of impermeable rectangular shapes are formed. One side where the upper layer sheet 23 is arranged in one direction on the impermeable single lower layer sheet 22 in order to constitute a plurality of bag bodies 24 connected to each other, and is located in the direction in which the upper layer sheet 23 is arranged 30 is bonded to the lower layer sheet 2.
[0057]
Next, when one side 30 of the upper layer sheet 23 is bonded to the lower layer sheet 22 as described above, the shape maintaining material 26 is disposed between the partition walls 36 formed by bonding the upper layer sheet and the lower layer sheet, Even when a load due to waste is applied to the bag body 24 that is finally formed, the gap 25 of the bag body 24 is maintained, and after the shape maintaining material 26 is disposed, An opening 8 communicating with each other between the bag bodies 4 is formed in the partition wall 36 formed in the upper sheet.
[0058]
Although the arrangement of the shape-retaining material 26 and the formation of the opening 8 in the partition wall 36 will be described later, when the formation of the opening 8 is completed, the three sides 31, 32, 33 connected to the upper layer sheet 23 are joined to the adjacent upper layer sheet 23. Thus, a plurality of bag bodies 24 in which the shape holding material 26 is inserted are formed in a connected state, and each of the divided areas 27, 27 ′ forming a flow path for meandering all the bag bodies 24 in an alternate direction, 27 "will be formed.
[0059]
As in the second embodiment described above, the water-impervious sheet of the waste disposal site according to the present invention has a water-impermeable rectangular upper layer sheet constituting a plurality of bags on a single lower layer sheet in a predetermined direction. Are connected to each other, and one side parallel to the direction in which the upper layer sheet is arranged is joined to the single lower layer sheet, and the shape holding material is arranged between the joined parts, and the mutually connected bag bodies are diagonally positioned. The openings that communicate between the bag bodies are alternately formed, and after the shape-retaining material is disposed in the openings, the other three sides of the upper sheet that are open are joined to the adjacent upper sheet, and both ends are In the state where waste material is not generated while forming a plurality of bags on the lower layer sheet and communicating with the meandering state by forming a bag body by closing and forming each section area Ensure quality by constructing easily and focusing on simple work at the construction site. Gala manufacturing cost reduction and are working to shorten the construction period.
[0060]
Next, a third embodiment of the water-impervious sheet according to the present invention will be described. Since this embodiment is generally the same as the second embodiment, the second embodiment and Only the different parts will be described.
[0061]
That is, the third embodiment of the water shielding sheet of the waste disposal site according to the present invention is adjacent to one side 32 in the direction in which the rectangular single upper layer sheet 23 disposed on the single lower layer sheet 22 is disposed. The bag body 24 is formed by joining the three connecting sides 30, 31 and 33 to the single lower layer sheet 22 and closing both ends 34 and 35. Only the single shape upper layer sheet is different from the second embodiment.
[0062]
In the present embodiment, a plurality of section areas 27, 27 ′, 27 ″ parallel to a certain direction are formed by a single upper layer sheet having the same width as the single lower layer sheet 22 by the above configuration, and the bag body 24. The joining work for forming the is greatly reduced.
[0063]
Therefore, in addition to the functions described in the first and second embodiments, the water shielding sheet of the waste disposal site according to the present invention facilitates the formation of the opening communicating between the bags and the arrangement of the shape holding material. Thus, the work efficiency is improved by forming a plurality of divided areas parallel to a certain direction with a single upper layer sheet having the same width as the lower layer sheet.
[0064]
FIG. 5 shows a construction process after the upper layer sheet is partially joined onto the single lower layer sheet, and will be described based on the first embodiment.
[0065]
In this construction process, as shown in FIG. 5 (a), the shape retaining material 16 is installed between the lower portions of the partition walls 14 joined to the lower layer sheet 2, and the upper layer sheet 3 is opened as indicated by an arrow. The shape-retaining material 16 is inserted from the other sides 13 ′ and 14 ′.
[0066]
As shown in FIG. 5 (b), the bag body 4 is formed by lifting the other side 13 ', 14' of the upper layer sheet 3 and the adjacent upper layer sheet 3 on the side on which the partition wall 14 is formed while lifting it upward. By joining each other at 40, the upper portion 41 of the partition wall 14 is formed, and at the same time, it is processed with a slight margin.
[0067]
In addition, when using the sheet welding machine 40, the sheet | seat 42 for reaction force can be arrange | positioned on the shape holding material 16 installed as needed, and the sheet welding machine 40 can be installed stably.
[0068]
FIG. 6 is a sectional view (a) showing an opening forming process for the upper layer sheet and a sectional view (b) of a process for installing a shape-retaining material in the formed opening in the opening forming process in the present embodiment. Show.
[0069]
FIG. 6A is a cross-sectional view of the lower layer sheet 2, the upper layer sheet 3, and the gap 5 showing the opening portion.
[0070]
The opening is processed by using the upper part 41 of the partition wall 14 and the upper sheet 3 in the section 7 where the shape maintaining material 6 is disposed inside the gap 5. Construction is performed from the two adjacent sides 13 ′ and 14 ′ of the opened upper layer sheet 3.
[0071]
Thus, the opening 8 is cut into a position communicating with the adjacent bag body 4 at the upper end position of the shape retaining member 16 at the upper portion 41 of the partition wall 14 formed by the upper layer sheet 3.
[0072]
FIG. 6B is a cross-sectional view showing a process of inserting and installing the shape holding material into the opening, and the shape holding material 15 is installed in the opening 8.
[0073]
The shape retaining material 15 is inserted through the opening 8 of the partition wall 14 using the shape retaining material 6 disposed inside the bag body 4 as a guide. For this reason, the upper layer sheet 3 in which the opening 8 is formed is configured in a form protruding from the other part, but since the shape maintaining materials 6 and 15 are arranged to overlap with this part, The strength problem is solved.
[0074]
Although not specifically shown, the water-proof sheet according to the present invention formed as described above is self-repairable disposal by filling a plurality of bags constituting the divided area with replenishable liquid repair material. It can be used as a self-repairing water-proof sheet in a waste disposal facility.
[0075]
The self-repairing water-insulating sheet constructed using the water-insulating sheet according to the present invention is measured and monitored at all times to maintain a sound operation, and at the same time, when the water-insulating sheet is damaged, liquid repairing Supply the liquid restoration material to the self-healing water-proof sheet while checking the fluctuation of the liquid restoration material filled in the water-shielding sheet from the supply management mechanism etc. Is helping self-repair for damage.
[0076]
Self-healing of damage is completed by reducing the supply amount in the supply management mechanism that supplies liquid restoration material and returning to the overpressure state at normal time, and restores the self-repairing water-proof sheet to sound operation It is something to be made.
[0077]
As described above, the self-healing water-impervious sheet according to the present invention is laid as a water-impervious mechanism at the waste disposal site, thereby ensuring the self-repair of the liquid restorative material over the entire area of the self-healing water-impervious sheet. This eliminates the possibility of sewage leaking to the outside from the defective part due to poor sealing sheet joining or wastewater shielding sheet breakage occurring during or after landfilling of waste. Avoids the problem of permeating underground and causing environmental pollution.
[0078]
As described above, the water shielding sheet and the self-repairing type water shielding sheet of the waste disposal site according to the present invention have been described in detail based on the above embodiments, but the present invention is not limited to these embodiments. Of course, various modifications can be made without departing from the spirit of the invention.
[0079]
【The invention's effect】
The water-impervious sheet of the waste disposal site according to claim 1 is a water-impermeable single lower layer sheet that is laid to cover the entire base surface of the waste disposal site, and an impermeable water that is disposed on the single lower layer sheet. A plurality of bags formed of a rectangular upper layer sheet, openings that communicate with each other at alternate diagonal positions, a shape-holding material disposed within the bag, and the first bag of the bags that communicate with each other through the opening Since it is composed of return piping installed on the lower sheet of the body and the final bag body, a plurality of bags are formed on the lower sheet while forming a plurality of bag bodies on the lower sheet and communicating in a meandering manner. Properly join the water-blocking sheet material cut at the site to form the body, and easily construct it in a state where no waste material is generated, and at the same time ensure the quality by ensuring simple quality at the construction site This has the effect of reducing the work period and shortening the construction period.
[0080]
The water shielding sheet for the waste disposal site according to claim 2 is the water shielding sheet for the waste disposal site according to claim 1, wherein a plurality of bags communicating at the opening are partitioned in a predetermined direction, Since it is characterized in that it is formed as a segmented area, in addition to the above-described effects, an effect that a plurality of segmented areas can be simply formed is achieved.
[0081]
The water shielding sheet of the waste disposal site according to claim 3 is the water shielding sheet of the waste disposal site according to claim 1 or 2, wherein the rectangular upper layer sheet arranged on the single lower layer sheet is connected. The bag body is formed by joining two sides to a single lower layer sheet and joining the other two connected sides to an adjacent upper layer sheet. In addition to the above effects, the bags communicate with each other. This makes it easy to form openings and dispose the shape-retaining material, thereby forming a plurality of segmented areas parallel to a predetermined direction.
[0082]
The water-impervious sheet of the waste disposal site according to claim 4 is the water-impervious sheet of the waste disposal site according to claim 1 or 2, wherein the rectangular upper-layer sheet disposed on the single lower-layer sheet is arranged. The above-mentioned effect is characterized in that one side in a direction to be bonded is joined to a single lower layer sheet, and the other three connected sides are joined to an adjacent upper layer sheet while both ends are closed to form a bag. In addition, it is easy to form an opening that communicates between the bag bodies and to dispose the shape-retaining material, so that a plurality of divided areas parallel to a certain direction can be formed by laminating a plurality of upper layer sheets.
[0083]
The water-impervious sheet of the waste disposal site according to claim 5 is the rectangular upper-layer sheet disposed on the single lower-layer sheet in the water-impervious sheet of the waste disposal site according to claim 1 or 2. In addition to joining one side in the direction in which it is arranged to the adjacent upper layer sheet, the bag is formed by closing both ends while joining the other three connected sides to the single lower layer sheet, In addition to the above functions, it is easy to form an opening that communicates between the bags and the arrangement of the shape-retaining material, and to form a plurality of divided areas parallel to a certain direction with a single upper layer sheet having the same width as the lower layer sheet It has the effect of improving work efficiency.
[0084]
The water-impervious sheet of the waste disposal site according to claim 6 is the water-impermeable sheet of the waste disposal site according to any one of claims 1 to 5, wherein a plurality of return pipes installed on a single lower layer sheet are provided. Since it is characterized by being arranged at a diagonal position with respect to the opening communicating between the bag bodies, in addition to the above-described effect, an effect of easily forming a meandering flow path in the divided area is achieved.
[0085]
The self-healing water-proof sheet of the waste disposal site according to claim 7 is the water-proof sheet of the waste disposal site according to any one of claims 1 to 6, wherein the plurality of bags constituting the division area Since the body is filled with a liquid restoration material that can be replenished, in addition to the above effects, the self-healing function of the liquid restoration material can be exerted over the entire area of the water shielding sheet.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of a water shielding sheet for a waste disposal site according to the present invention.
FIG. 2 is a construction diagram in the first embodiment relating to a water shielding sheet of a waste disposal site according to the present invention.
FIG. 3 is a diagram showing a second embodiment relating to a water shielding sheet of a waste disposal site according to the present invention.
FIG. 4 is a construction diagram according to the second embodiment of the water shielding sheet of the waste disposal site according to the present invention.
FIG. 5 is a diagram showing an embodiment of a process for installing a shape retaining material on a water shielding sheet.
FIG. 6 is a diagram showing an embodiment of a process for forming an opening in a water shielding sheet.
[Explanation of symbols]
1,21 Water shielding sheet, 2,22 Single lower layer sheet,
3, 23 rectangular upper layer sheet, 4, 24 bag, 5, 25 gap,
6, 26 Shape retaining material, 7, 7 ', 7 "section area, 8 opening,
9, 11 bag body, 10 feed pipe, 12 recirculation pipe,
13, 14, 13 ′, 14 ′ adjacent two sides, 15, 37 shape holding material,
16, 36 Bulkhead, 27, 27 ', 27 "Section, 28, 29 Bag,
30 1 side, 31, 32, 33 other 3 sides,
34, 35 end upper sheet,

Claims (7)

A plurality of bags formed of a water-impermeable single lower layer sheet laid over the entire substrate surface of the waste disposal site and a water-impermeable rectangular upper layer sheet disposed on the single lower layer sheet , The openings communicating with the opposite diagonal positions between the bags, the shape-retaining material disposed in the bags, and the lower sheet of the first and last bags of the bags communicating with the openings. Water-impervious sheet for waste disposal sites composed of return piping. The water-impervious sheet for a waste disposal site according to claim 1, wherein the plurality of bags communicating with each other in the opening are partitioned in a predetermined direction and formed as a plurality of divided areas. The water shielding sheet of the waste disposal site according to claim 1 or 2, wherein the rectangular upper layer sheet disposed on the single lower layer sheet is joined to the single lower layer sheet at the two connecting sides and is connected to the other lower connection sheet. A water shielding sheet for a waste disposal site, wherein a bag body is formed by joining two sides to an adjacent upper layer sheet. The water shielding sheet of the waste disposal site according to claim 1 or 2, wherein the rectangular upper layer sheet disposed on the single lower layer sheet is joined to the single lower layer sheet on one side in the disposed direction. A water-impervious sheet for a waste disposal site, characterized in that a bag body is formed by closing both ends while joining other three connected sides to an adjacent upper layer sheet. The water shielding sheet of the waste disposal site according to claim 1 or 2, wherein the rectangular upper layer sheet disposed on the single lower layer sheet is joined to the adjacent upper layer sheet on one side in the disposed direction. A water-impervious sheet for a waste disposal site, characterized in that a bag body is formed by closing both ends while joining the other three connected sides to a single lower layer sheet. The waste disposal according to any one of claims 1 to 5, wherein the return pipe installed in the single lower layer sheet is disposed at a diagonal position with respect to the opening communicating with the plurality of bags. Water shielding sheet for the field. The water shielding sheet of the waste disposal site according to any one of claims 1 to 6, wherein a plurality of bags constituting the division area are filled with a replenishable liquid restoration material. Self-healing waterproof sheet for waste disposal site.

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