JP4888716B2 - Laying a clay-based impermeable layer - Google Patents

Description

  The present invention relates to a spread leveling machine that spreads and spreads a clay-based material, and a method for laying a clay-based impermeable layer in which the spread clay-based material is compacted.

  A low-level radioactive waste disposal facility is planned. The buried disposal facility is constructed of reinforced concrete after laying a bottom floor base and a bottom impermeable layer inside an excavated underground tunnel. The upper part of the concrete frame is open so that radioactive waste can be accommodated inside. And after accommodating radioactive waste in the inside of a frame concrete, a frame concrete is sealed by closing an opening with a cover (frame concrete). After that, the surroundings of the frame concrete are surrounded by a frame cover layer, and the clay-based impermeable material is compacted between the frame cover layer and the separately constructed side wall body portion. Layers are laid to ensure safety (for example, see Patent Document 1).

JP 2004-12356 A

  By the way, since this clay-based impermeable layer is laid by compacting the clay-based material squeezed out from the brewing machine with a compactor, it is uneven when the clay-based material is not uniformly squeezed out. And a defect remains in the laid clay-based impermeable layer.

The present invention was made in view of the above, and an object thereof is to provide a laying method more tighten uniform density enables laying of compacted clay-based water blocking layer and the clay-based water-impervious layer .

In order to solve the above-described problems and achieve the object, the clay-based impermeable layer laying method according to the present invention is constructed by surrounding the surrounding concrete containing the waste storage enclosure, and has a cross section. The clay-based material is squeezed out between the rectangular casing-shaped casing covering layer and the side wall section constructed so as to face the side face of the casing covering layer with a predetermined interval. In a method for laying a clay-based impermeable layer, in which a clay-based impermeable layer is laid between the enclosure covering layer and the side wall portion by compacting a clay-based material, the upper surface of the enclosure covering layer is run. The spreader is arranged so that the spreader and the rolling machine are arranged so as to run between the frame cover layer and the side wall body, and the spreader And preceding the compactor, the casing covering layer and the side wall body While the clay-based material is sprinkled from above on the narrow part defined between, the clay leveling machine advances following the brewing machine, and the clay-based material squeezed into the narrow part is spread. It is characterized in that the clay-based material that has been leveled and compacted is further compacted by smoothing and lightly compacting, and the rolling machine running following the leveling machine.

Moreover, the laying method of the clay-based impermeable layer according to the present invention is the method of laying the clay-based impermeable layer, wherein the brewing machine rolls out the narrow portion after the clay material has a uniform thickness. It is characterized by.

Further, the clay-based impermeable layer laying method according to the present invention is the clay-based impermeable layer laying method, wherein the spreader is a vibrating plate that spreads the clay-based material that has been sprinkled, and the vibration A vibration vibrator mounted on the plate and vibrating the vibration plate, and provided in a mode protruding to the side of the vibration plate, and a guide wheel rotatable in the traveling direction, and by vibrating the vibration vibrator, It is made to run along the side wall of the said casing covering tank and the said side wall part.

Further, the clay-based impermeable layer laying method according to the present invention is the clay-based impermeable layer laying method, wherein the compactor comprises a plurality of compaction units for compacting the clay-based material by feeding downward, The plurality of rolling units are characterized by compacting the clay-based material at different timings.

In the method of laying a clay-based impermeable layer according to the present invention, the brewing machine is arranged so as to run on the upper surface of the housing covering layer, while the clay is installed so as to run between the housing covering layer and the side wall body portion. By arranging a leveling machine and a compacting machine, and the brewing machine runs ahead of the floor leveling machine and the compacting machine, the narrow part defined between the body covering layer and the side wall body part is formed. While the clay material is crushed from above, the spreader follows the brewing machine and spreads the clay material squeezed out in the narrow space, lightly compacted, and the compaction machine By running following the spreader, the clay material that has been spread and compacted is further compacted. The finished density of the clay-based impermeable layer can be made uniform.

  Below, the laying method of the clay type impermeable layer which is an embodiment of the present invention, and the laying apparatus used for this laying method are explained in detail based on a drawing. Note that the present invention is not limited to the embodiments.

  FIG. 1 is a cross-sectional view showing a low-level radioactive waste embedding disposal facility to which a clay-based impermeable layer laying method according to an embodiment of the present invention is applied.

  The low-level radioactive waste burying / disposal facility 1 is constructed by laying a bottom floor base 12 and a bottom impermeable layer 13 inside an excavated underground tunnel 11 and then building a concrete frame 14. The bottom floor board 12 is laid with a backfill material such as concrete or mortar, and the bottom impermeable layer 13 is a compacted clay-based material (for example, bentonite-based clay material). The upper part of the concrete frame 14 is open, and the radioactive waste 15 can be accommodated therein. And after accommodating the radioactive waste 15 in the inside of the frame concrete 14, the frame concrete 14 is sealed by closing an opening with the cover body 14a. Thereafter, the surrounding area of the frame concrete 14 is surrounded by a frame cover layer 17. The casing covering layer 17 is constructed of unreinforced cement-based mortar or the like, and has a rectangular cross section. A side wall body portion 18 is separately constructed along the side wall of the underground mine shaft 11. The side wall body portion 18 is constructed so as to face the side surface of the housing covering layer 17 with a predetermined interval, and is narrow between the housing covering layer 17 and the side wall body portion 18. A narrow portion 19 that is a space is defined.

  The clay-based impermeable layer laying method according to the embodiment of the present invention is the side impermeable layer laid on the narrow portion 19 defined between the above-described casing covering layer 17 and the side wall portion 18. Is related to the laying method. As shown in FIG. 1, the upper side of the housing covering layer 17 can be used as a relatively large space, and the side surface and the upper surface of the housing covering layer 17 are flat surfaces. On the other hand, the side wall body portion 18 is constructed of a backfill material such as concrete and mortar, like the bottom floor base portion 12, and the side surface thereof is a flat surface.

  As shown in FIGS. 2 to 4, the brewing machine 2 is arranged so as to run on the upper surface of the housing covering layer 17, while the laying machine 2 is run so as to run between the housing covering layer 17 and the side wall body portion 18. A leveling machine 3 and a compactor 4 are provided. Accordingly, the brewing machine 2 can travel so as to be lined up side by side with a leveling machine 3 and a compactor 4.

  The brewing machine 2 is for brewing a clay-based material (for example, bentonite-based clay material) between the casket covering layer 17 and the side wall body 18 from above, and has a brewing machine body 20. ing. A wheel-type traveling device 21 is attached to the brewing machine main body 20, and the brewing machine 2 can autonomously travel at a constant speed. In addition, a hopper 22 and a feeder 23 are mounted on the unwinding machine body 20. The hopper 22 is a portion to which the clay-based material to be sprinkled is supplied, and a certain amount of clay-based material per hour can be sequentially sent to the feeder 23. The feeder 23 is constituted by, for example, a vibration feeder that sends out a clay-based material by vibration, and after the clay-based material supplied from the hopper 22 has a uniform thickness, the clay-based material is squeezed out obliquely from the front. It has become.

  The spreader 3 is for spreading and leveling the clay-based material squeezed between the casing covering layer 17 and the side wall 18 and has a vibration plate 31. The front part 31a which becomes the forward direction end of the vibration plate 31 is inclined so as to gradually become higher in the forward direction, and the vibration plate 31 is provided even when the clay-based material squeezed out has irregularities. It is possible to get over clay-based materials. Similarly, the rear portion 31b which is the end portion in the backward direction of the vibration plate 31 is inclined so as to gradually become higher in the backward direction.

  A pair of guide wheels 32 are provided on the left side and the right side that are lateral to the traveling direction of the vibration plate 31. Each guide wheel 32 is attached so as to protrude to the side of the vibration plate 31 and is rotatable in the traveling direction of the spreader 3. Therefore, the spreader 3 is guided by the guide wheels 32 and can travel in the front-rear direction without performing an operation.

  A vibration vibrator 33 is mounted on the vibration plate 31. The vibration vibrator 33 is for vibrating the vibration plate 31, and when the vibration plate 31 vibrates, the clay-based material under the vibration plate 31 is spread and lightly compacted (preliminary rolling).

  For example, as shown in FIG. 5 or FIG. 6, the vibration vibrator 33 is a rotary vibrator in which the center of gravity of the disk 34 is moved from the rotation axis, and a large centrifugal force due to unbalanced rotation of the disk 34. Is used as a vibration force. The vibration vibrator 33 of the spreader 3 shown in FIG. 5 can vibrate in such a manner that the vibration plate 31 travels, and when the disk 34 rotates in one direction (counterclockwise in FIG. 5), the vibration plate 31. Moves forward (moves to the left in FIG. 5), and when the disk 34 rotates in the other direction (clockwise in FIG. 5), the vibration plate 31 moves backward (moves to the right in FIG. 5). . The vibration vibrator 33 of the spreader 3 shown in FIG. 6 can be vibrated in a manner of advancing the vibration, similarly to the vibration vibrator 33 shown in FIG. 5, and one (left in FIG. 6) vibration vibrator. When the 33 disk is rotated in one direction (counterclockwise in FIG. 6), the vibration plate 31 moves forward (moves to the left in FIG. 6) and the other (right in FIG. 6) the vibration vibrator 33 disk. When 34 is rotated in the other direction (clockwise in FIG. 6), the vibration plate 31 moves backward (moves to the right in FIG. 6).

  The above-described spread leveling machine 3 can advance at an arbitrary speed in the front-rear direction by operating a remote controller (not shown), and can spread and level clay material.

  As shown in FIGS. 2 to 4, the compactor 4 is for compacting the clay-based material spread between the casing covering layer 17 and the side wall portions 18. Have. A wheel-type travel device 41 is attached to the compactor main body 40, and the compactor 4 can autonomously travel at a constant speed.

  In addition, a pair of guide wheels 42 are provided on the left side and the right side which are the side in the traveling direction of the compactor body 40. Each guide wheel 42 is attached in such a manner as to protrude to the side of the compactor body 40 and the compactor 45 to be described later, and is rotatable in the traveling direction of the compactor 4. Therefore, the compactor 4 is guided by the guide wheels 42 and can travel in the front-rear direction without performing a steering operation.

  Further, the pressure roller main body 40 is equipped with an elevating device 43, a shift device 44 and a pressure rolling device 45. The elevating device 43 elevates and lowers the shift device 44 and the rolling device 45 in the vertical direction, and can travel with the rolling device 45 maintained at an arbitrary height. The shift device 44 is provided between the elevating device 43 and the rolling device 45, and can shift the rolling device 45 in a direction orthogonal to the traveling direction of the rolling machine body 40. The rolling device 45 has a plurality of rolling units 45a. The plurality of rolling compaction units 45 a are arranged in a direction orthogonal to the traveling direction of the compacting press main body 40, and can roll over the width of the compacting press main body 40. Each rolling pressure unit 45a can roll the clay-based material by drawing it downward, and the plurality of rolling pressure units 45a can roll the clay-based material at different timings.

  The above-described rolling compactor 4 can travel at an arbitrary speed in the front-rear direction and roll the clay-based material by operating a remote controller (not shown).

  The clay-based impermeable layer laying method according to the above-described embodiment of the present invention deploys the brewing machine 2 so as to run on the upper surface of the casing covering layer 17, while the spreader 3 and the compactor 4 are provided. It arrange | positions so that it may drive | work between the housing cover layer 17 and the side wall part 18. FIG. Then, the brewing machine 2 travels in advance of the spreader 3 and the compactor 4, so that the narrow portion 19 defined between the housing covering layer 17 and the side wall body portion 18 is formed from above. A clay-based material (for example, bentonite-based clay material) is sprinkled out. On the other hand, when the spreader 3 follows the brewing machine 2, the clay-based material squeezed out into the narrow part 19 defined between the skeleton covering layer 17 and the side wall part 18. Is spread and lightly compacted (preliminary compaction). On the other hand, when the rolling mill 4 travels following the spreader 3, the clay-based material that has been spread and compacted is further compacted (main rolling).

  Since the spreader 3 according to the above-described embodiment of the present invention includes the guide wheel 32 that is rotatable in the traveling direction in a mode of protruding to the side of the vibration plate 31, the vibration plate 31 includes the casing covering layer 17 and It proceeds in a state of being separated from the side wall of the side wall portion 18 via the guide wheel 32. Therefore, the spreader 3 does not damage the casing covering layer 17 and the side wall portion 18.

  Further, since the spreader 3 and the compactor 4 can be operated by a remote controller (not shown), there is no need for an operator to work in the narrow portion 19. The spreader 3 and the compactor 4 can be operated.

  According to the above-described method for laying a clay-based impermeable layer according to the embodiment of the present invention, the step of scraping clay-based material between the casing covering layer 17 and the side wall section 18, and the casing covering layer 17 Since the step of laying and leveling the clay-based material squeezed out between the step of compacting the clay-based material squeezed between the side wall body portion 18 and the side wall body portion 18 is carried out. The material is laid flat and then compacted, so that the finished density of the squeezed clay-based impermeable layer can be made uniform.

  Although the vibration vibrator 33 of the spreader 3 according to the above-described embodiment is configured to vibrate in such a manner that the vibration plate 31 travels, the vibrator 33 is suspended from the brewing machine 2 as indicated by a two-dot chain line in FIG. If it is lowered, the vibration vibrator 33 may not advance the vibration plate 31.

It is a cross-sectional view which shows the burial disposal facility of the low level radioactive waste to which the laying method of the clay-type impermeable layer according to the embodiment of the present invention is applied. It is a front view explaining the laying method of the clay-type impermeable layer concerning an embodiment of the invention. It is a top view explaining the laying method of the clay-type impermeable layer concerning an embodiment of the invention. It is a vertical side view explaining the laying method of the clay-type impermeable layer concerning an embodiment of the invention. It is a conceptual diagram which shows the spreader which concerns on embodiment of this invention. It is a conceptual diagram which shows the spreader which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Burial disposal facility 11 Underground tunnel 12 Bottom floor base part 13 Bottom water-impervious layer 14 Body concrete 15 Radioactive waste 16 Mortar 17 Body covering layer 18 Side wall part 19 Narrow part 2 Unloading machine 20 Unloading machine body 21 Running Device 22 Hopper 23 Feeder 3 Spreading machine 31 Vibration plate 32 Guide wheel 33 Vibration vibrator 34 Disc 4 Compactor 40 Compactor body 41 Traveling device 42 Guide wheel 43 Lifting device 44 Shift device 45 Compactor 45

Claims (4)

It is constructed by surrounding the surrounding concrete containing the waste storage casing, and the casing covering layer having a rectangular cross section is opposed to the side face of the casing covering layer with a predetermined interval. Clay-based water shielding between the casing covering layer and the side wall body by crushing the clay-based material after the clay-based material is sprinkled between the constructed side wall bodies. In the method of laying a clay-based impermeable layer that lays a layer,
While deploying the brewing machine to run on the upper surface of the housing covering layer, deploy the spreader and the compactor to run between the housing covering layer and the side wall body,
When the brewing machine travels ahead of the spreader and the compactor, the clay-based material is formed from above into a narrow portion defined between the housing covering layer and the side wall body portion. Whilst whispering
As the spreader advances following the brewing machine, it spreads and smoothes the clay-based material squeezed out into the narrow part, and is compacted lightly,
A method for laying a clay-based impermeable layer, characterized in that the clay-based material that has been leveled and compacted is further compacted by running the rolling machine following the leveling machine. 2. The method for laying a clay-based impermeable layer according to claim 1, wherein the brewing machine spreads the clay-based material to a uniform thickness after the clay-based material has a uniform thickness. The spreader is provided with a vibration plate that spreads and spreads the clay-based material, a vibration vibrator that is mounted on the vibration plate and vibrates the vibration plate, and protrudes to the side of the vibration plate. And a guide wheel that is rotatable in a traveling direction, and is caused to travel along the side walls of the casing coating tank and the side wall body portion by vibrating the vibration vibrator. Or the laying method of the clay-type impermeable layer of 2. The said compaction machine is provided with two or more rolling compaction units which compact a clay-type material by drawing out below, These several compaction units compact a clay-type material at a different timing, The characterized by the above-mentioned. The laying method of the clay-type impermeable layer as described in any one.

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