JP4657522B2 - Water shielding sheet in waste disposal facility and its construction method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water shielding sheet and its construction method in a waste disposal facility, and in particular, a circulating liquid sealing tank forming a water shielding sheet is attached to a partition pipe and a partition pipe connecting a circulating liquid supply / discharge pipe. The present invention relates to a water shielding sheet and a construction method thereof in a waste disposal facility that is configured simply and quickly by upper and lower layer sheets.
[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. It has been.
[0003]
For such water shielding work, a method of laying a soft synthetic resin-based or rubber-based water-proof sheet is adopted, but the water-blocking sheet is poorly bonded or generated during or after landfill work. There was a risk that sewage from the missing part due to the damage of the sheet would leak out.
[0004]
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 countermeasures have been established yet.
[0005]
For this reason, the development of a technology for detecting and repairing the breakage of the sheet has been performed, and various proposals have been made regarding the detection method, and it has come to practical use as an effective technology in terms of accuracy. Indirect repair of injecting chemical solution around the damaged part or excavating the waste to repair the damaged part directly. Even if the damaged part of the sheet is detected early, the leachate from the waste is not detected. Regarding the repair of seats in waste disposal facilities that have been unable to prevent environmental pollution occurring during the period after they have flowed out of the waste disposal facility and have been unable to prevent environmental pollution during that time. Since the leaked part was repaired by grout injection of cement, etc., all of the injected space part solidified, and if the next leak occurs in the solidified section, the above Intellectual mechanism had become the situation that does not work.
[0006]
In order to improve such a situation, the applicant of the present application repairs the damaged portion before the contaminated water flows outside even if the composite impermeable body is damaged, and blocks the same section again. It proposes a self-healing waste disposal facility that can be repaired immediately. (Application for Japanese Patent Application No. 11-253589)
The present proposal provides a self-healing waste disposal facility 40 as shown in FIG. 11 and is constructed close to a waste disposal site 41 excavated into a depression and a waste disposal site 41. The management building 42 is configured.
[0007]
In the waste disposal site 41, a water shielding sheet 43 constituting a water shielding mechanism is laid, and in the management building 42, a supply equipment 44, a water supply equipment 45 and a drainage equipment 46 constituting a supply management mechanism. Is deployed. The management building 42 is also provided with a control facility 47 that constitutes a control mechanism connected to each facility of the water shielding member and the supply management mechanism.
[0008]
And as for the relationship of each mechanism, as shown in FIG. 12, the water-impervious mechanism 50 is always measured and monitored by the control mechanism 51, and its sound operation is maintained. The control mechanism 51 simultaneously measures and monitors the supply management mechanism 52 to check whether the quality of the liquid restoration material filled in the water shielding sheet is maintained in a normal state. When the water impervious sheet 43 of the water impervious mechanism 50 is damaged, the control mechanism 51 confirms this as a change in the liquid restoration material filled in the water impervious sheet 43, and issues a command to the supply management mechanism 52. To help supply self-repair of damage by ordering liquid supply.
[0009]
The completion of the restoration can be known by a decrease in the supply amount in the supply management mechanism 52 that supplies the liquid restoration material and the return to the overpressure state at the normal time, and the sound operation is restored.
[0010]
The control mechanism 51 performs data measurement of the supply management mechanism 52 during this period to check the progress of breakage repair in real time and manage the whole, and damage and self-repair of the water shielding sheet 43 are externally performed. However, it is not necessary to confirm the damaged part. However, by attaching the detection mechanism 53 as shown in the figure, the damaged part of the water shielding sheet is identified and displayed. Can contribute to the situation judgment.
[0011]
In many waste disposal facilities including the above self-healing waste disposal facilities, as a material for the water shielding sheet, in addition to water shielding materials made of synthetic rubber, soft synthetic resin and other polymer materials, asphalt A sheet-like water shielding material used for roofing, or a layered water shielding material such as rubber asphalt or clay lining is used, and the water shielding sheet is not a single sheet, but a single layer that is joined vertically and horizontally by multiple joints An example of constructing a water-blocking sheet for a re-layer by joining a plurality of narrow-layer upper-layer sheets onto a lower-layer sheet of a wide range including a general example configured in the form and a mechanism for detecting a defect portion ( Japanese Patent Laid-Open No. 2-136414) has been reported.
[0012]
However, in the conventional reports, sewage from the defective part leaks to the outside due to poor bonding of the water shielding sheet during processing, damage to the water shielding sheet caused by external force during landfilling work or after completion of landfilling. In order to prevent this, it is a customary practice to detect and repair damage after it has occurred. The water shielding sheet and its construction are designed to ensure good bonding at the time of construction of the sheet and to prevent uneven pressure from being applied to the upper and lower layer sheets after laying the water shielding sheet. There wasn't.
[0013]
[Problems to be solved by the invention]
  The present invention is proposed in view of the above situation,Circulating liquid as a liquid restoration materialofSupply pipe and drain pipeForming a water shielding sheetCirculating liquid enclosureTheSupply pipe or drain pipeA water-impervious sheet in a waste disposal facility constructed simply and quickly by a partition pipe connecting one of the above and an upper and lower layer sheet attached to the partition pipe, and its construction method are provided.
[0014]
[Means for Solving the Problems]
  The water shielding sheet in the waste disposal facility according to the present invention is basically:It is provided with a strip-shaped upper surface material and lower surface material and a partition pipe positioned therebetween,Vertically and horizontally at predetermined intervals on the basic ground of the waste disposal sitePartition pipe to lay,In order to form a circulating liquid enclosure with the partition tube as the skeleton,Between lower surface materials of partition pipeAnd between top and bottom materials respectivelyPastingCirculated liquid enclosureLower surface ofAnd upper surfaceLower layer sheetAnd upper sheet,In the circulating liquid enclosureConnectionAnd is a liquid restoration material to the circulating liquid enclosureCirculating liquidA liquid supply pipe for supplying the liquid, a drainage pipe for discharging the circulation liquid from the circulation liquid enclosure, and a liquid supply pipe and a drainage pipe for supplying and discharging the circulation liquid An opening that is formed in a connection pipe or partition pipe that connects one of the partition pipe and the partition pipe, and that circulates the circulating liquid between the circulating liquid enclosure tank.Specifically, it consists ofEither the liquid supply pipe or drainage pipe connected to the partition pipe via the connection pipe and communicating with the opening and the other of the liquid supply pipe or drainage pipe circulate throughout the circulating liquid enclosure. In order to infiltrate the liquid, the circulating liquid enclosure is opened to symmetrical positions separated from each other, and the connection between the supply and drain pipes and the circulating liquid enclosure is connected to the partition pipe. Formed on the bottom materialAndCirculating liquid enclosureIt features a built-in permeable block.
[0015]
  Thereby, the water-impervious sheet according to the present invention is merely pasting each upper and lower layer sheet on the upper and lower surface materials using the partition pipe as a reference skeleton,Completed pipingImpermeable sheet is formed quickly and firmly.The supply pipe and the drain pipe in the circulating liquid enclosure are omitted. In short, because the partition pipe is pre-processed and placed in the partition pipe, the piping work at the site is omitted and the work amount of the pipe is greatly reduced, which reduces the construction cost. This greatly contributes to shortening the construction period.
[0016]
  Moreover, the construction method of the water shielding sheet in the waste disposal facility according to the present invention is the construction method of the above-described water shielding sheet, and basically, at a predetermined interval on the foundation ground of the waste disposal site.Vertically and horizontallyCreating a laying boardAnd laying boardBuriedThe supply and drain pipesPlumbing,It becomes the skeleton of the circulating liquid enclosurePartition pipeOn the laying boardLayingSupply pipe and drain pipe on the bottom surface of the partition pipeConnectionWhile connecting either the liquid supply pipe or the drain pipe to the partition pipe of the partition pipe with the connection pipe,After a whilePlace the lower layer sheet between the lower surface materials of the partition tubePasted and thenAn upper sheet is placed between the upper surface materials of the partition tube.PasteIt is designed to form a circulating liquid enclosure.In particular,The supply pipe and drain pipe are the partition pipes to serve as a mark when laying the partition pipes.Where to connectIn the state that those ends protrude from the upper surface of the laying boardPiping andBoth the supply pipe and drain pipe are located on the bottom surface of the partition pipe.Connect withBe doneIt is characterized by that.
[0017]
  Thereby, the construction method of the water shielding sheet according to the present invention is as follows.Buried liquid supply pipe or drainage pipeBy connecting the partition pipes to each other and identifying and determining the arrangement position, the upper and lower layer sheets are pasted on the upper and lower surface materials to enable simple and quick construction of the water shielding sheet and improve the construction efficiency. Together withCirculating liquid enclosureWhile omitting the piping in the lower layer sheetSupply pipe and drain pipeEasy installation without applying unnecessary pressure betweenAnd low costI have to.In short, since the partition pipe is pre-processed and placed in the partition pipe, the work of arranging the piping in the field is omitted, and the work amount of the laying panel, the supply pipe and the drain pipe is greatly reduced. This greatly contributes to reducing the construction cost and shortening the construction period.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
  The water shielding sheet in the waste disposal facility according to the present invention is basically:It is provided with a strip-shaped upper surface material and lower surface material and a partition pipe positioned therebetween,Vertically and horizontally at predetermined intervals on the basic ground of the waste disposal sitePartition pipe to lay,In order to form a circulating liquid enclosure with the partition tube as the skeleton,Between lower surface materials of partition pipeAnd between top and bottom materials respectivelyPastingCirculated liquid enclosureLower surface ofAnd upper surfaceLower layer sheetAnd upper sheet,In the circulating liquid enclosureConnectionAnd is a liquid restoration material to the circulating liquid enclosureCirculating liquidA liquid supply pipe for supplying the liquid, a drainage pipe for discharging the circulation liquid from the circulation liquid enclosure, and a liquid supply pipe and a drainage pipe for supplying and discharging the circulation liquid An opening that is formed in a connection pipe or partition pipe that connects one of the partition pipe and the partition pipe, and that circulates the circulating liquid between the circulating liquid enclosure tank.Specifically, it consists ofEither the liquid supply pipe or drainage pipe connected to the partition pipe via the connection pipe and communicating with the opening and the other of the liquid supply pipe or drainage pipe circulate throughout the circulating liquid enclosure. In order to infiltrate the liquid, the circulating liquid enclosure is opened to symmetrical positions separated from each other, and the connection between the supply and drain pipes and the circulating liquid enclosure is connected to the partition pipe. Formed on the bottom materialAndCirculating liquid enclosureIt features a built-in permeable block.
[0019]
Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a schematic embodiment in which the present invention is applied to a self-healing waste disposal facility, and is symbolized by a cross section. Is displayed.
[0020]
In the figure, a waste disposal facility 1 is composed of a waste disposal site 2 excavated in a depression shape, and a management building 3 composed of a colloid liquid tank or the like constructed in the vicinity of the waste disposal site 2.
[0021]
  In the waste disposal site 2, a water shielding sheet 5 is laid on the bottom 4 of the excavated depression, and the water shielding sheet 5 includes a liquid supply pipe 7 and a liquid discharge pipe 8 from the colloid liquid tank 6 of the management building 3. ThroughColloidal liquid as a liquid restoration materialIs filled and circulated.
[0022]
  As shown in the plan view of FIG.Circulating liquid enclosure tank (hereinafter also referred to as “circulating liquid enclosure tank”) 9In addition to the bottom 4 of the depression, it is also partially laid on the slope 10, and the circulating liquid enclosure 9 is laid vertically and horizontally on the bottom 4 of the waste disposal site 2 at predetermined intervals. The lower pipes 12 and 11-1 and the partition members 11 ′ and 11 ″ pasted on the partition pipes 11 and 11-1 and the partition members 11 ′ and 11 ″ as basic structural members. It is composed of an upper layer sheet 13.
[0023]
About the structure of the circulating fluid enclosure 9 in the water-impervious sheet 5, FIGS. 3 and 5 showing cross sections taken along arrows AA and CC in FIG. This will be described in detail with reference to FIG.
[0024]
FIG. 3 shows the partition tube 11 and the partition tube 11 with a focus on the connection state between the partition tube 11 constituting the skeleton of the circulating fluid sealing tank 9 and the liquid supply tube 7 constituting the supply / discharge tube and the drain tube 8. Are connected to each other, and the relationship between the lower layer sheet 12 and the upper layer sheet 13 that are pasted between the partition members 11 ′ that are partitioned and shielded by the circulating fluid sealing tank 9 is expressed.
[0025]
The partition pipe 11 and the partition member 11 ′ that joins the partition pipes 11 in a shielding manner are disposed on the laying board 37 ′ in which the liquid supply pipe 7 and the drain pipe 8 are embedded, The liquid supply pipe 7 and the drainage pipe 8 are attached while being connected.
[0026]
The details of the partition tube 11 in the present embodiment will be described later with reference to FIG. 5, but the partition member 11 ′ that joins the partition tubes 11 to each other uses a material that is stronger than the upper and lower layer sheets. As shown in the figure, the lower surface materials 14 and 14 and the upper surface materials 15 and 15 which are the same length as or slightly shorter than the lower surface materials 14 and 14 and the lower surface materials 14 and 14 and the upper surface material. 15 and 15, and a partition plate 16 that is joined to the partition tube 11 in a shielding manner to form a tank wall.
[0027]
And the lower surface sheet | seat 12 which comprises the lower layer surface of the circulating fluid enclosure tank 9 is affixed on the lower surface materials 14 and 14, and the upper layer surface of the circulating fluid enclosure tank 9 is comprised in the upper surface materials 15 and 15. The upper layer sheet 13 is pasted to form the circulating fluid enclosure 9.
[0028]
In the circulating fluid sealing tank 9 laid on the slope 10, a partition member 11 ″ on which the lower layer sheet 12 and the upper layer sheet 13 are pasted is used as described later, but the shape is half that of the die. This is a U-shaped form.
[0029]
In addition, although the expression is omitted, in the present embodiment, the water permeability is maintained so that the shape of the circulating fluid enclosing tank 9 is maintained and an uneven external pressure is applied to the upper and lower layer sheets and the sheets are not damaged. A sex block or the like is provided in the inside thereof, and the state is displayed in another embodiment shown in FIG. Further, the water permeable block not only copes with uneven external pressure on the upper and lower layer sheets, but also ensures the smooth circulation of the colloidal liquid by maintaining the shape of the circulating liquid enclosure 9.
[0030]
FIG. 4 is a partial cross-sectional perspective view taken along the line B-B in FIG. 2, and represents a perspective view of a connection state between the partition pipe 11 and the liquid supply pipe 7 or the drainage pipe 8 in the circulating fluid enclosure 9. is doing.
[0031]
  The water-impervious sheet 5 according to the present invention is affixed on a laying board 35 disposed vertically and horizontally at the bottom 4 of the excavated depression. A liquid supply pipe 7 or a liquid discharge pipe 8 is embedded in the laying board 35 constructed of concrete,Only the connection with the circulating fluid enclosure 9 is placed on the laying board 35 '(see FIG. 4).It is protruding.
[0032]
The partition tube 11 in the present embodiment is made of a material that is equivalent to or stronger than the upper and lower layer sheets, and is made of a material that is also equivalent to or stronger than the upper and lower layer sheets on both upper and lower sides. The belt-shaped lower surface materials 14 and 14 and the upper surface materials 15 and 15 are equipped.
[0033]
As shown in the figure, the connection portion 19 of the liquid supply pipe 7 or the drainage pipe 8 is formed on the lower surface members 14 and 14 of the partition pipe 11 so that the liquid supply pipe 7 or the drainage pipe 8 is connected to the lower layer sheet 12. Therefore, unnecessary stress generation that may occur when the lower layer sheet 12 is connected to the liquid supply pipe 7 or the drainage pipe 8 is avoided.
[0034]
Therefore, the water-impervious sheet 5 according to the present invention eliminates the fear of breakage by eliminating excessive stress due to connection with the liquid supply pipe 7 or the drainage pipe 8, and strengthens the establishment of quality. Yes.
[0035]
Further, it is important that the connection between the liquid supply pipe 7 and the drainage pipe 8 in the circulating fluid sealing tank 9 is made in principle at a symmetrical position of the circulating fluid sealing tank 9. A uniform monitoring function is exhibited over the entire liquid tank 9.
[0036]
In the present embodiment, the liquid supply pipe 7 or the drainage pipe 8 is placed and connected to one connection portion 19.
[0037]
One of the liquid supply pipe 7 or the liquid discharge pipe 8 is placed in the circulating liquid storage tank 9 and connected to the partition pipe 17 of the partition pipe 11 extended to a position diagonal to the connection portion 19 to supply and discharge. The colloid liquid is configured to penetrate the entire circulating liquid storage tank 9.
[0038]
In the present embodiment, the connecting portion 19 is configured by inserting and attaching the liquid supply pipe 7 and the drainage pipe 8 that are arranged in parallel to the ground board 35 ′ to the penetrating member 20 made of synthetic rubber or the like. The drain pipe 8 is connected to the pipe 21 from the partition pipe 17 by the merge nut 22 while the liquid supply pipe 7 is released in one of the circulating liquid storage tanks 9, thereby opening the partition pipe 17. It arrange | positions in the position isolate | separated diagonally with the liquid supply pipe | tube 7, and the symmetrical positional relationship in the circulating liquid enclosure tank 9 is established.
[0039]
The opening state of the partition pipe 17 and its positional relationship are shown in FIG. 5, which is a cross-sectional view taken along the line CC in FIG.
[0040]
The partition pipe 17 constituting the partition pipe 11 is connected to the drainage pipe 8 via the pipe 21 as described above, and communicates with the through hole 18 provided in the center of the partition pipe 17. By releasing the opening 23, the drainage pipe 8 is released to the circulating fluid sealing tank 9 at a position symmetrical to the liquid supply pipe 7.
[0041]
With the above configuration, one of the liquid supply pipe 7 or the drainage pipe 8 is connected to the partition pipe 17 of the partition pipe 11 that extends to a diagonal position in the circulating liquid storage tank 9. The colloid liquid to be supplied / discharged can be permeated throughout the circulating liquid storage tank 9.
[0042]
Therefore, in the connection state of the supply / discharge pipe in the present invention, the connection part in the circulating liquid storage tank is reduced to half of the normal case by providing the connection part only at one place, and at the same time, The construction of the laying board for burying the liquid pipe is halved, and the construction of other laying boards as a simple concrete block is sufficient.
[0043]
In addition, since the partition pipes are pre-processed and placed in the partition pipes, the piping placement work in the field is omitted, and the amount of work for the laying panel and the supply / discharge pipe is greatly reduced. This greatly contributes to the reduction of construction costs and the construction period.
[0044]
FIG. 6 shows another embodiment of the partition pipe of the water shielding sheet according to the present invention.
[0045]
The partition pipe 24 in the present embodiment is configured around the partition pipe 25. The partition pipe 24 forms lower layer joint surfaces 27 and 27 on both sides of the partition pipe by disposing a lower layer sheet member 26 below the partition pipe 25. Further, an upper layer sheet member 28 is disposed so as to surround the partition pipe 25 and is integrally formed with the partition pipe 25 by joining, and one upper layer joining surface 29 is formed on the outer side of the upper layer sheet member 28. On the other side, the other upper layer sheet member 30 is pasted from the integral joint point 32 of the upper layer sheet member 28 across the partition pipe 25, so that the other upper layer joint surface 31 is outward from the pasting range on the partition pipe 25. It is formed in the part.
[0046]
A lower layer sheet is bonded to the lower layer bonding surfaces 27 and 27 as in the other embodiments, and an upper layer sheet is bonded to the upper layer bonding surface 29 and the upper layer bonding surface 31 to constitute a circulating liquid storage tank.
[0047]
Also in the present embodiment, the connection state of the supply / discharge pipe with respect to the partition pipe 24 is the same as that of the above-described embodiment, and the partition pipe 24 is a form of the lower layer joint surfaces 27 and 27 and the upper layer joint surfaces 29 and 31. However, unlike the above-described embodiment, it is easy to form without being processed in a factory or the like.
[0048]
In addition, about the lower layer sheet member 26, since it arrange | positions under the partition piping 25 and joins a lower layer sheet to the lower layer joining surfaces 27 and 27, when the construction form of a water shielding sheet is considered, the lower layer sheet member 26 It is also a construction form that can be selected according to the situation to deploy as a single unit with the lower layer sheet to be attached.
[0049]
This embodiment is an example in which the water-impervious sheet according to the present invention is applied to a self-healing waste disposal facility, and the partition pipe has been described as a component of a circulating liquid storage tank that supplies and discharges colloidal liquid.
[0050]
Therefore, the water-impervious sheet according to the present invention can also detect water-imperviousness by connecting a vacuum pump or the like to the supply / discharge pipe in order to confirm the quality of the circulating liquid storage tank when construction is completed. Therefore, by utilizing these functions, when using a water-proof sheet as a general double water-proof sheet in a waste disposal facility, it can be used for water leakage tests and leakage detection due to breakage of the water-proof sheet. It is possible to apply.
[0051]
As is clear from the above detailed description, the water-impervious sheet in the waste disposal facility according to the present invention has the upper and lower layer sheets pasted on the upper and lower surface materials while using the partition pipe as a reference skeleton with the above-described configuration. By forming the circulating liquid storage tank alone, and at the same time, the arrangement of the supply and discharge pipes connected to the circulating liquid storage tank can be achieved in one place, so that the piping in the circulating liquid storage tank can be omitted and the water shielding sheet can be quickly and firmly formed. Is formed.
[0052]
  Next, the construction method of the water shielding sheet according to the present invention will be described. The construction method of the water shielding sheet in the waste disposal facility of the present invention is a construction method of the water shielding sheet in the waste disposal facility, and is provided at predetermined intervals on the foundation ground of the waste disposal site.Vertically and horizontallyCreating a laying boardAnd laying boardBuriedThe supply and drain pipesPlumbing,It becomes the skeleton of the circulating liquid enclosurePartition pipeOn the laying boardLayingSupply pipe and drain pipe on the bottom surface of the partition pipeConnectionWhile connecting either the liquid supply pipe or the drain pipe to the partition pipe of the partition pipe with the connection pipe,After a whilePlace the lower layer sheet between the lower surface materials of the partition tubePasted and thenAn upper sheet is placed between the upper surface materials of the partition tube.PasteA circulating liquid enclosing tank is formed, and the liquid supply pipe and the liquid discharge pipe are the partition pipes in order to serve as marks when the partition pipes are laid.Where to connectIn the state that those ends protrude from the upper surface of the laying boardPiping andBoth the supply pipe and drain pipe are located on the bottom surface of the partition pipe.Connect withBe doneIt is characterized by that.
[0053]
Below, embodiment of the construction method by this invention is described in detail based on drawing according to the enforcement process.
[0054]
FIG. 7 is a plan view showing a process of creating a laying board in order to paste the partition pipe.
[0055]
In order to install the water shielding sheet on the foundation ground of the waste disposal site, the laying board for attaching the partition pipe is formed with the vertical laying part 33 in accordance with the arrangement of the circulating liquid enclosing tank. The horizontal laying portions 34, 35, 35 'to 37, 37' and 38 that are formed at a predetermined interval in an orthogonal form are arranged, and these are connected by the half-width vertical laying portions 39, 39. It is configured.
[0056]
In this embodiment, the construction of the laying board is installed in a rectangular shape according to the arrangement of the circulating fluid enclosure, but depending on the shape of the waste disposal site, it is partially formed in a polygonal shape such as a triangle. There is also a case.
[0057]
In addition, the construction of the laying board is carried out vertically and horizontally over the entire length of the circulating fluid enclosing tank, thereby eliminating the displacement of the partition pipe and partition member to be attached later, and improving the attaching accuracy. As another embodiment, the laying board is a laying board formed in a block shape only at its intersection, and in the middle of this period, the laying board is omitted and a partition pipe or the like is placed on the foundation ground of the waste disposal site. It is also possible to arrange a partition member.
[0058]
In the laying board, a supply / discharge pipe for supplying the circulating liquid to the circulating liquid sealing tank is embedded, but in the present embodiment, in order to correspond to the water shielding sheet 5 described in FIG. So that it is buried.
[0059]
That is, the liquid supply pipe 7 is in the lateral direction in contact with the vicinity of the longitudinal laying portion 33 on the left side and below the outer end of the lateral laying portions 34 to 37 in contact with the vicinity of the longitudinal laying portion 39 and on the right side. It is embed | buried under the inner end of direction laying part 34-37 '. Similarly, the drainage pipe 8 is in contact with the vicinity of the longitudinal laying portion 33 on the lower side and on the right side of the lateral laying portions 34 to 37 that are in contact with the vicinity of the longitudinal laying portion 39 on the left side. It is embed | buried under the inner end of horizontal direction installation part 35'-38.
[0060]
Therefore, it is not necessary to bury the supply and discharge pipes in the right lateral laying portions 35 ′ to 38 except for the range in contact with the vicinity of the vertical laying portion 33. To improve efficiency and efficiency.
[0061]
And the edge part of the liquid supply pipe | tube 7 and the drainage pipe | tube 8 is installed in the state protruded on the upper surface of the laying board, The state arrange | positioned in the diagonal state isolate | separated mutually in the circulating fluid enclosure tank which comprises Thus, each partition pipe to be affixed to the laying board is used as a mark.
[0062]
FIG. 8 is a plan view showing a process of attaching a partition pipe on the laying board.
The partition tube 11 is arranged on the lateral laying portions 35, 35 'to 37, 37' as shown in the figure, and the partition tube 11-1 is irregularly formed by biasing the partition tube 11. In addition, the outer side of the water-impervious sheet 5 is configured and disposed on the lateral laying portion 38.
[0063]
Further, the partition member 11 ′ is disposed in the longitudinal laying portion 33 formed in the center portion, and the partition member 11 ″ is irregularly formed by biasing the partition member 11 ′ in half and is water-impervious. It constitutes the outside of the seat 5 and is disposed in the lateral laying portion 34 and the vertical laying portions 39, 39.
[0064]
The partition pipes 11 and 11-1 and the partition members 11 ′ and 11 ″ are pasted after being arranged with the supply / discharge pipe as a mark, and the partition pipes 11 and 11-1 supply liquid to the lower surface material 14 thereof. An end portion of the pipe 7 or the drainage pipe 8 is connected and joined to a necessary partition pipe 17 to form a tank wall and a predetermined pipe of the circulating liquid enclosure tank.
[0065]
FIG. 9 is a plan view showing a process of attaching the lower layer sheet to the partition pipe on the laying board, and the partition pipes 11 and 11-1 and the partition members 11 ′ and 11 ″ pasted on the laying board are shown in FIG. The lower layer sheet 12 is affixed between the lower surface materials 14 to constitute the lower layer surface of the circulating fluid enclosure tank.
[0066]
Similarly, FIG. 10 is a plan view showing a process of attaching an upper layer sheet to a partition pipe on a laying board, in which water is permeable to the inside of a circulating fluid sealing tank composed of a partition pipe having a lower layer sheet 12 attached. After deploying the sex block, the desired circulating fluid enclosure 9 is completed by pasting the upper layer sheet 13 between the upper surface materials 15 of the partition pipes 11 and 11-1 and the partition members 11 ′ and 11 ″. .
[0067]
As described above, the construction method of the water shielding sheet in the waste disposal facility according to the present invention is, as is clear from the explanation of each process described above, on the half laying board created on the foundation ground of the waste disposal site. A supply / discharge pipe is buried, a partition pipe is affixed with this supply / discharge pipe as a mark, and the tank wall of the circulating fluid enclosure tank and a predetermined pipe are formed while joining the supply / discharge pipe to the necessary partition pipe. After that, each layer sheet is affixed on the upper and lower surfaces of the partition pipe and the partition member, thereby eliminating the need for separate piping work in the circulating fluid enclosure and simplifying the water shielding sheet. In addition, construction is being carried out at a reduced cost.
[0068]
As described above, the present invention has been described in detail based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the invention. It is natural.
[0069]
【The invention's effect】
  The water shielding sheet in the waste disposal facility according to claim 1,It is provided with a strip-shaped upper surface material and lower surface material and a partition pipe positioned therebetween,Vertically and horizontally at predetermined intervals on the basic ground of the waste disposal sitePartition pipe to layWhenIn order to form a circulating liquid enclosure with the partition pipe as a skeleton,Between lower surface materials of partition pipeAnd between top and bottom materials respectivelyPastingCirculated liquid enclosureLower surface ofAnd upper surfaceLower layer sheetAnd upper sheet,In the circulating liquid enclosureConnectionAnd is a liquid restoration material to the circulating liquid enclosureCirculating liquidA liquid supply pipe for supplying the circulating liquid, a drainage pipe for discharging the circulating liquid from the circulating liquid enclosure, and for supplying and discharging the circulating liquid, A connection pipe that connects one of the liquid pipes to the partition pipe of the partition pipe, and an opening formed in the partition pipe for circulating the circulating liquid between the circulating liquid enclosure tankSince the partition tube is used as a reference skeleton,Each upper and lower layer sheetThe effect of forming the water-impervious sheet that has completed the piping quickly and firmly is achieved simply by pasting.There is an effect that the supply pipe and the drain pipe in the circulating liquid enclosure can be omitted. In short, since the partition pipe is pre-processed and placed in the partition pipe, the piping work at the site is omitted and the work amount of the pipe is greatly reduced, which reduces the construction cost. It can greatly contribute to shortening the construction period.
[0070]
  The waterproof sheet in the waste disposal facility according to claim 2 is the waterproof sheet according to claim 1,Either the supply pipe or drain pipe connected to the partition pipe with the connection pipe and communicating with the opening, and the other of the supply pipe or drain pipe circulate throughout the circulating liquid enclosure. In order to infiltrate the liquid, it is released to symmetrical positions separated from each other in the circulating liquid enclosureIn addition to the above effects,In principle, it is important that the connection between the supply pipe and the drain pipe in the circulating liquid enclosure is performed in a symmetrical position in the circulating liquid enclosure. On the other hand, it is possible to demonstrate a universal monitoring function. The water shielding sheet in the waste disposal facility according to claim 3 is the water shielding sheet according to claim 1 or 2, wherein the connection portion between the liquid supply pipe and the drain pipe and the circulating liquid enclosure is a partition pipe. Since it is characterized by being formed on the lower surface material, in addition to the above effects, the lower layer sheet is not formed with an opening for connecting a liquid supply pipe or a drain pipe, It is possible to avoid unnecessary stress generation that may occur when connecting to the supply pipe or drain pipe, and breakage by eliminating excessive stress caused by connection with the supply pipe or drain pipe It is possible to strengthen the establishment of quality.
[0071]
  Claim 4Water shielding sheets at waste disposal facilities in4. The method according to claim 1.In the water shielding sheet ofCirculating liquid enclosureIn addition to the above effects,Circulating liquid enclosureTo stabilize the shape in order to deal with uneven external pressure on the upper and lower layer sheets,Circulating liquidIt has the effect of ensuring a smooth circulation.
[0072]
  Claim 5The construction method of the water shielding sheet in the waste disposal facility inThe construction method of the water-proof sheet | seat in the waste disposal facility in any one of Claims 1 thru | or 4And at regular intervals on the foundation ground of the waste disposal site.Vertically and horizontallyCreating a laying boardAnd laying boardBuriedThe supply and drain pipesPlumbing,It becomes the skeleton of the circulating liquid enclosurePartition pipeOn the laying boardLayingSupply pipe and drain pipe on the bottom surface of the partition pipeConnectionWhile connecting either the liquid supply pipe or the drain pipe to the partition pipe of the partition pipe with the connection pipe,After a whileA lower layer sheet is attached between the lower surface materials of the partition tube, and then an upper layer sheet is disposed between the upper surface materials of the partition tube.PasteTo form a circulating liquid enclosureSo buriedSupply pipe or drain pipeConnect the partition pipe to theIdentifyAnd decide on the top and bottom surfacesEach upper and lower layer sheetEstablishing a simple and quick construction of the water shielding sheet by pastingImprove construction efficiencyTogetherCirculating liquid enclosureWhile omitting the piping inside,Supply pipe and drain pipeThere is an effect that can be easily constructed at low cost without applying unnecessary pressure.In short, since the partition pipe is pre-processed and placed in the partition pipe, the work of arranging the pipe in the field is omitted, and the work amount of the laying panel, the supply pipe and the drain pipe is greatly reduced. As a result, it can greatly contribute to the reduction of construction cost and the construction period.
[0073]
  Claim 6The construction method of the water shielding sheet in the waste disposal facility inClaim 5In the construction method ofThe supply pipe and drain pipe are the partition pipes to serve as a mark when laying the partition pipes.Where to connectIn the state that those ends protrude from the upper surface of the laying boardSince it is characterized by piping, in addition to the above effects, the arrangement position of the partition pipe can be easily determined.
[0074]
  Claim 7The construction method of the water shielding sheet in the waste disposal facility inClaim 5 or 6In the construction method ofBoth the supply pipe and drain pipe are located on the bottom surface of the partition pipe.Connect withBe doneIn addition to the above effects,At the same time as the number of connections in the circulating liquid enclosure is reduced to half that of normal cases, the construction of the laying panel that embeds the supply and drainage pipes is halved.Circulating liquidSupply pipe and drain pipeThis has the effect of reducing the burial position and reducing the cost and construction period.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of a water shielding sheet in a waste disposal facility according to the present invention.
FIG. 2 is a plan view showing an embodiment of a water shielding sheet in a waste disposal facility according to the present invention.
3 is a cross-sectional view taken along the line AA in FIG.
4 is a cross-sectional perspective view taken along line BB in FIG.
FIG. 5 is a cross-sectional view taken along the line CC in FIG.
FIG. 6 is a diagram showing another embodiment of the partition pipe employed in the present invention.
FIG. 7 is a diagram showing an embodiment of a partition pipe laying board.
[Fig. 8] An embodiment of attaching a partition pipe to a laying board
[Figure 9] Attaching the lower layer sheet to the partition pipe
[Figure 10] Affixing of upper sheet to partition tube
[Figure 11] Overview of self-healing waste disposal facility
[Figure 12] Impervious mechanism of self-healing waste disposal facility
[Explanation of symbols]
1 waste disposal facility, 2 waste disposal site, 3 management building, 4 bottom,
5 Water shielding sheet, 6 Colloid liquid tank, 7 Supply pipe, 8 Waste liquid pipe,
9 Circulating fluid enclosure tank, 10 Slope, 11, 11-1 Partition pipe,
11 ', 11 "partition member, 12 lower layer sheet, 13 upper layer sheet,
14 lower surface material, 15 upper surface material, 16 partition plate, 17 partition piping,
18 through holes, 19 connection parts, 20 penetrating members, 21 piping,
22 merging nut, 23 opening, 24 partition pipe, 25 partition pipe,
26 Lower layer sheet member, 27 Lower layer joint surface, 28 Upper layer sheet member,
29 upper layer bonding surface, 30 upper layer sheet member, 31 upper layer bonding surface,
32 joint points, 33 longitudinal laying section, 34 lateral laying section,
35, 35'-37, 37 'lateral laying portion, 38 lateral laying portion,
39 Longitudinal laying section, 40 Self-healing waste disposal facility,
41 Waste disposal site, 42 Management building, 43 Water shielding sheet,
44 supply equipment, 45 water supply equipment, 46 drainage equipment, 47 control equipment,
50 water shielding mechanism, 51 control mechanism, 52 supply management mechanism,
53 detection mechanism,

Claims (7)

A partition pipe having a strip-shaped upper surface material and lower surface material and a partition pipe positioned therebetween, and laid vertically and horizontally at a predetermined interval on the foundation ground of the waste disposal site,
The the partition tube in order to form a circulating fluid-filled vessel as a scaffold, respectively is affixed between between the lower surface material of the partition tube and the top member, the lower layer constituting the lower surface and upper surface of the circulating liquid-filled tank Sheet and upper sheet ,
A liquid supply pipe connected to the circulating liquid enclosing tank and supplying the circulating liquid as a liquid restoration material to the circulating liquid enclosing tank ;
A drainage pipe connected to the circulating liquid enclosure and for discharging the circulating liquid from the circulating liquid enclosure;
A connecting pipe for connecting one of the liquid supply pipe and the drain pipe to the partition pipe of the partition pipe for supply and discharge of the circulating liquid;
A water shielding sheet in a waste disposal facility, wherein the water shielding sheet is formed in the partition pipe and includes an opening through which the circulating liquid is circulated with the circulating liquid enclosure . One of the liquid supply pipe and the drain pipe connected to the partition pipe by the connection pipe and communicating with the opening, and the other of the liquid supply pipe and the drain pipe are the circulating liquid. The waste disposal facility according to claim 1 , wherein the circulating liquid enclosure is opened at symmetrical positions separated from each other in order to infiltrate the circulating liquid throughout the enclosure tank . Water shielding sheet. 3. The waste disposal facility according to claim 1 , wherein a connection portion between the liquid supply pipe and the drainage pipe and the circulating liquid enclosure is formed on the lower surface material of the partition pipe . Water shielding sheet. The water-impervious sheet in a waste disposal facility according to any one of claims 1 to 3, wherein the circulating liquid enclosing tank contains a water-permeable block. A method for constructing a water shielding sheet in the waste disposal facility according to any one of claims 1 to 4,
To construct a laid panel vertically and horizontally at predetermined intervals on the foundation bed of the waste disposal site,
Embedded in the laying board, piping the supply pipe and drain pipe,
Laying the partition pipe that becomes the skeleton of the circulating liquid enclosure tank on the laying board ,
While connecting the liquid supply pipe and the drainage pipe to the lower surface material of the partition pipe, connect either the liquid supply pipe or the drainage pipe with the connection pipe to the partition pipe of the partition pipe,
After that, the lower layer sheet is pasted between the lower surface materials of the partition tube ,
Next, the construction method of the water shielding sheet in the waste disposal facility , wherein the upper layer sheet is stuck between the upper surface members of the partition pipe to form the circulating liquid enclosure . The liquid supply pipe and the drain pipe are piped at positions where they are connected to the partition pipe with their ends protruding from the upper surface of the laying board in order to serve as a mark when the partition pipe is laid. The construction method of the water-proof sheet | seat in the waste disposal facility of Claim 5 characterized by the above-mentioned . The method for constructing a water shielding sheet in a waste disposal facility according to claim 5 or 6, wherein both the liquid supply pipe and the drain pipe are connected to the lower surface material of the partition pipe at one place .

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