JP2002235389A - Sealed panel, and sealing structure using the sealed panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sealed panel which facilitates lining of a sealed material, reduces leakage from a gap at a joint portion, can be produced at a low cost, and is free from breakage thereof due to hydraulic pressure of underground water, etc., and to provide a sealing structure using the sealed panel. SOLUTION: The sealed panel is laid on an internal wall of a structure in order to seal the same, and formed of an almost rectangular flat panel 1, a stepped panel 7, and sealing members 6, 14. The flat panel 1 includes support portions 2 protruding toward the structure. The stepped panel 7 consists of an external brim portion 12 adjoining to the structure, a flat portion 10, and a step portion 11 extending to both the external brim portion 12 and the flat portion 10, for housing a surface of the flat panel 1, facing to an inner side of the structure in a manner being almost flush with a surface of the flat portion 10, facing to the inner side of the structure. The sealing members 6, 14 are arranged on superposing portions 5, 13 of the flat panel 1 and the stepped panel 7, respectively. The sealing structure employs the sealing panel thus constructed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shield panel and a seal structure using the shield panel, and more particularly, to a shield panel used for magnetic shielding, soundproofing, heat insulation or waterproofing, and a seal structure using the shield panel. About.

[0002]

2. Description of the Related Art Heretofore, magnetic shielding materials have been used in rooms equipped with devices for handling electromagnetic waves, soundproofing materials in studios and karaoke boxes having sound equipment, heat insulating materials in houses and refrigeration equipment, and in tunnels. In order to prevent corrosion, various shielding materials such as lining materials have been proposed from the viewpoints of materials, sealing properties and workability as required.

Conventionally, sound-absorbing sound-insulating tiles and porous sound-insulating plates have been used as soundproofing materials.
Glass cotton, diatomaceous earth, slag wool, etc., having low heat conductivity are used. These soundproofing boards, soundproofing tiles, and heat insulating materials are used by being filled between wallboards or directly attached to wallboards. In addition, in sewer shield tunnels and the like, lining is performed as a secondary lining to prevent the segments from being deteriorated by strong acids such as hydrogen sulfide generated from sewage flowing inside. The lining in this tunnel is performed by lining with an inorganic substance such as glass or enamel, or an organic substance such as rubber or plastic.

In a magnetic shield, for example, Japanese Patent Application Laid-Open
Japanese Patent Application Laid-Open No. 224,582 discloses that each magnetic pole has a root to connect the support legs to each other and a pedestal portion provided on the upper portion of the support legs so that the magnetic shield plates of adjacent magnetic shield panels are in close contact with each other. There is disclosed a magnetic shield floor in which a peripheral portion of a shield panel is placed on a pedestal portion and a root clasp.

The shield means disclosed in Japanese Patent Application Laid-Open No. 6-224852 is arranged in a pedestal portion on a support leg or a root in a gap between magnetic shield materials so that magnetism does not leak directly from the gap between the shield materials. I have to.

However, the means disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 6-224852 has a problem that the magnetism leaking through the gap between the pedestal and the root leaks through the gap between the magnetic shields. In addition, it is necessary to install the roots on the support legs using bolts, etc., and to install the magnetic shield plate on top of it, and further install the magnetic shield panel on it, so that the shielding material needs to be stacked and installed. There was also a problem that it required.

Further, sound, heat, corrosion, etc. can be sufficiently suppressed by using the above-mentioned soundproofing material, heat insulating material, and lining material. There is a problem that it takes time and effort to stack and install various shielding materials in order to improve the quality. Furthermore, when lining existing sewers, it is difficult to line a tunnel that has been corroded once. There were also problems.

[0008]

Therefore, there is a need for a shield material which can be easily wrapped and which does not leak from the connected gap. In addition, especially in the field of construction and civil engineering, it is possible to reduce labor when constructing a lining in a tunnel, and to construct a shield tunnel that is low in cost and that is not damaged by water pressure such as groundwater. Therefore, a shielding material and a sealing structure were required.

[0009]

The above object is achieved by providing a shield panel of the present invention and a seal structure using the shield panel.

According to the first aspect of the present invention, there is provided a shield panel laid on the inner wall of the structure for sealing the structure, wherein the shield panel projects toward the structure. A substantially rectangular flat panel provided with a portion, an outer edge portion adjacent to the structure, a flat portion, provided between the outer edge portion and the flat portion, and continuous with the outer edge portion and the flat portion. A stepped panel provided with a step portion for accommodating a surface of the flat panel facing the inside of the structure substantially flush with a surface of the flat portion facing the inside of the structure; There is provided a shield panel including a panel and a seal member disposed at a portion where the stepped panel overlaps.

According to the invention of claim 2 of the present invention, the sealing member is provided at a portion where the flat panel overlaps with the stepped panel, at a portion where the stepped panel overlaps with the flat panel, or at the flat portion. A shield panel is provided which is disposed at a portion where a panel overlaps the stepped panel and a portion where the step panel overlaps the flat panel.

According to the third aspect of the present invention, a flat portion supporting portion is provided on a side of the flat portion of the stepped panel facing the structure, and the flat panel supporting portion is provided. The flat panel support of the stepped panel provides a shield panel that supports the panels adjacent to the structure.

According to a fourth aspect of the present invention, there is provided a shield panel, wherein the structure is selected from a floor, a wall, a ceiling, or a shield tunnel of the structure.

According to the invention of claim 5 of the present invention, the structure is a shield tunnel, and a shield panel laid on an inner wall of the shield tunnel for use in stopping water in the shield tunnel, The shield panel is
Further, there is provided a shield panel provided with a communication means for protecting the shield panel from the water pressure of groundwater.

According to a sixth aspect of the present invention, there is provided a shield panel, wherein the communication means is an opening or a check valve for discharging groundwater into the shield tunnel.

According to the invention of claim 7 of the present invention, there is provided a seal structure formed by laying a shield panel on an inner wall of a structure, wherein the shield panel has a support portion protruding toward the structure. The provided substantially rectangular flat panel, an outer edge portion adjacent to the structure, a flat portion, provided between the outer edge portion and the flat portion, and continuous with the outer edge portion and the flat portion. A stepped panel provided with a step portion for accommodating a surface of the flat panel facing the inside of the structure substantially flush with a surface of the flat portion facing the inside of the structure, and the flat panel; There is provided a seal structure comprising: the stepped panel; and a seal member disposed in a superimposed portion.

According to the invention of claim 8 of the present invention, the sealing member may be a portion where the flat panel overlaps the stepped panel, or a portion where the stepped panel overlaps the flat panel, or the flat portion. A seal structure is provided that is disposed at a portion where a panel overlaps the stepped panel and a portion where the stepped panel overlaps the flat panel.

According to the ninth aspect of the present invention, a flat portion support portion is provided on a side of the flat portion of the stepped panel facing the structure, and the flat panel support portion is provided. And the flat portion support portion of the stepped panel provides a seal structure for supporting each panel adjacent to the structure.

According to a tenth aspect of the present invention, there is provided a seal structure wherein the structure is selected from a floor, a wall, a ceiling, and a shield tunnel of the structure.

According to the eleventh aspect of the present invention, the structure is a shield tunnel, and a shield panel laid on an inner wall of the shield tunnel for use in stopping water in the shield tunnel, The shield panel is further provided with a seal structure provided with communication means for protecting the shield panel from the pressure of groundwater.

According to a twelfth aspect of the present invention, there is provided a seal structure wherein the communication means is an opening or a check valve for discharging groundwater into the shield tunnel.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION The shield panel of the present invention is used as a magnetic shielding material for structures, a soundproofing material installed on floors, walls and ceilings of studios and karaoke boxes, a heat insulating material for houses and the like, and a lining in a tunnel. It can be used for construction and the like. Further, the seal structure using the shield panel of the present invention includes laying the shield panel of the present invention on a floor, a wall, and a ceiling of a structure, a magnetic shield floor, a magnetic shield wall, a magnetic shield ceiling, a soundproof wall, a soundproof floor, and a soundproofing. Ceilings, insulation walls,
Alternatively, a shield tunnel having a seal structure can be used. The shield panel of the present invention and the seal structure using the shield panel can be used for the above-mentioned ones. Hereinafter, the shield panel for water stoppage used for lining construction of the shield tunnel and the seal structure will be described with reference to the drawings. The present invention will be described in detail with reference to embodiments.

FIG. 1 is a view showing a flat panel 1 of a shield panel according to the present invention. The flat panel 1 shown in FIG.
It is a substantially rectangular panel with corners cut off. Further, the flat panel 1 includes a support portion 2. In the present invention, in the case of joining with a stepped panel shown below to form a seal structure, there is no gap at the joint portion, in order to provide sufficient sealing property,
Preferably, the panel is a substantially rectangular panel whose corners are cut off at equal angles.

FIG. 1A is a view showing the surface of the flat panel 1 facing the wall of the shield tunnel. Hereinafter, the surface facing the wall of the shield tunnel is referred to as an outer surface Y.
In the embodiment shown in FIG.
The support portions 2 are provided so as to intersect with each other on the outer surface Y of the shield tunnel, and are supported adjacent to the wall surface of a shield tunnel (not shown). In addition, a plurality of holes 3 are provided at locations where the support portions 2 at both ends of the flat panel 1 shown in FIG.

In FIG. 1A, a connecting means such as an anchor bolt is provided on the wall surface of a shield tunnel (not shown), and the hole 3 shown in FIG. 1A can be connected to the hole 3 by a nut through a connecting means such as an anchor bolt. It has become. Further, the outer side surface Y shown in FIG.
Has an outer edge portion 4 formed by the support portion 2 over the periphery of the outer side surface Y. The outer edge portion 4 is provided with an overlapping portion 5 that can be combined with the overlapping portion of the stepped panel described below. Further, a seal member 6 is disposed in the overlapping section 5, and can be joined to a stepped panel shown below.
The inner surfaces shown below are substantially flush when joined. In the present invention, any means known so far may be used as long as it can be connected to the wall surface of the shield tunnel other than the anchor bolt. Further, as the seal member 6 used in the present invention, a gasket, a packing, or the like can be used, but any material can be used as long as the stepped panel and the flat panel 1 described below can be joined.

FIG. 1B is a diagram showing a surface of the flat panel 1 facing the inside of the shield tunnel. Hereinafter, the surface facing the inside of the shield tunnel is referred to as an inner surface X. Figure 1
The outer surface Y shown in FIG. 1A is attached to the inner surface X shown in FIG.
Are shown through the hole 3. Also, the inner surface X is
In the case of safety in lining or use, and in the case where a shield tunnel is used as a sewer, the flat surface is used so as to reduce resistance to the flow of sewage in the tunnel. In the embodiment shown in FIG. 1 (b), when a connecting means such as an anchor bolt is passed through the hole 3 and connected using a nut, the nut remains on the inner side surface X. A groove for storing a nut may be provided around the hole 3 so as to be stored. Further, the flat panel 1 of the shield panel of the present invention is preferably made of epoxy resin, resin mortar, polyester resin, polystyrene resin, polyamide resin, polyolefin resin, unsaturated polyester resin, urea resin, phenol resin, melamine, etc. from the viewpoint of corrosion resistance. A synthetic resin material such as a resin, a ceramic material, or the like can be used.

FIG. 2 is a cross-sectional view of the flat panel of the shield panel of the present invention, taken along a cutting line AA shown in FIG. As shown in FIG. 2, an outer edge 4 is formed at both ends by the support portion 2, and the outer edge 4 has an overlapping portion 5 that can be combined with the overlapping portion of the stepped panel described below. In addition, a seal member 6 is disposed around the outer surface Y in the overlapping portion 5 so that the sealing member 6 can be joined to the overlapping portion of the step panel. Further, as shown in FIG. 1A, a plurality of support portions 2 are provided on the outer side surface Y to support the shield tunnel (not shown) adjacent to the wall. Further, as shown in FIG. 1B, the inner side surface X is a flat surface. In the present invention, any number of support portions 2 may be used as long as they can be supported on the wall of a shield tunnel (not shown). In addition, the support portion 2
Any shape may be used as long as the supporting height of the inner surface X can be made equal to the height of the inner surface X from the wall of the shield tunnel (not shown). For example, a rectangular plate is joined to the outer surface Y of the flat panel 1 as the supporting portion 2. It may be.

FIG. 3 is a view showing the stepped panel 7 of the shield panel of the present invention. Similarly to the flat panel 1 described above, the stepped panel 7 shown in FIG. 3 is also a substantially rectangular panel with corners cut off, and the outer surface Y of the flat panel 1 and the inner surface X of the stepped panel 7 are the same size. It is said. FIG. 3 (a)
Is a view showing the outer side surface Y of the stepped panel 7. FIG.
In the embodiment shown in (a), the outer surface Y is formed so that the flat portion support portions 8 intersect with each other, and is located at a position where the flat portion support portions 8 at both ends of the stepped panel 7 intersect with each other. Has a plurality of holes 9. A connecting means such as an anchor bolt is provided on a wall of the shield tunnel (not shown), and the anchor bolt can be connected to the wall by a nut through the hole 9. In the present invention, any means other than the anchor bolt may be used as long as it can be connected to the wall surface of the shield tunnel.

FIG. 3B is a view showing the inner surface X of the stepped panel 7. On the inner side surface X shown in FIG. 3B, a step portion 11 which is continuous with the flat portion 10 is provided.
1 has an outer edge 12 adjacent to the wall of a shield tunnel (not shown). In addition, the outer edge portion 12, the outer edge portion 4 of the flat panel 1, and the step portion 1 continuous with the outer edge portion 12.
The outer edge portion 4 of the flat panel 1 has the same width as the outer edge portion 4 provided on the flat panel 1 so that the outer edge portion 4 of the flat panel 1 can be combined and joined without any gap. Further, as shown in FIG. 3A, a seal member 14 is arranged around the overlapping portion 13. Further, the flat portion 10 shown in FIG.
The flat surface is made flat so that the safety in lining or use and the use of the shield tunnel as a sewer reduce the resistance to the flow of sewage in the tunnel.

The plurality of holes 9 shown in FIG.
It penetrates to the inner surface X shown in (b), so that connection means such as anchor bolts provided on the wall of the shield tunnel (not shown) can pass therethrough. Further, if the nuts are used for connection, the nuts remain on the inner side surface of the tunnel. In the present invention, grooves for storing the nuts may be provided in advance around the holes 9 so as to store the nuts. . As the stepped panel 7 of the shield panel of the present invention, as in the flat panel 1, epoxy resin,
Resin mortar, polyester resin, polystyrene resin,
Plastic materials such as polyamide resins, polyolefin resins, unsaturated polyester resins, urea resins, phenol resins, melamine resins, and urethane resins, and ceramic materials can be used.

When the corners of the flat panel 1 are not cut off at equal angles, the inner surface X of the stepped panel 7 and the outer surface Y of the flat panel 1 have the same size, and By having the same shape, they can be combined and joined without any gap. Furthermore, examples of the seal member 14 used in the present invention include a gasket and a packing. However, anything can be used as long as the stepped panel and the flat panel 1 can be joined. Further, in the present invention, the seal members 6, 14 may not be disposed on both the flat panel 1 and the stepped panel 7, but may be disposed on either one of them.

FIG. 4 is a cross-sectional view of the stepped panel 7 of the shield panel according to the present invention, taken along a cutting line BB shown in FIG. As shown in FIG. 4, a step portion 11 is provided continuously to the flat portion 10, and an outer edge portion 12 is provided at both ends continuously to the step portion 11. The outer edge portion 12 shown in FIG. 4 is supported by a shield tunnel wall (not shown) together with the flat portion support portion 8, and an outer surface Y of the flat portion 10 has a plurality of flat portions for supporting the flat portion 10. A support 8 is provided. In the present invention, the outer edge 12
The flat portion support portion 8 may not be provided as long as the flat portion support portion 8 can be supported. Further, the flat portion support portion 8 may have any shape as long as the support height of the inner side surface X from the wall of the shield tunnel (not shown) can be made the same. For example, as shown in FIG. And outer edge 12
Rather than being separated, the same plate may be used to form a substantially rectangular panel, on which a rectangular flat portion 9 may be joined.

The outer edge 12 shown in FIG. 4 is provided with an overlapping portion 13 so that it can be combined with the overlapping portion 5 of the flat panel 1 described above. In addition, a seal member 14 is arranged around the inner side surface X of the overlapping portion 13 so that the overlapping portions 5 and 13 can be joined to each other. Furthermore, when joined to the flat panel 1 described above, the inner surface X formed by joining is made substantially flush.

FIG. 5 is a diagram showing a process of installing the shield panel of the present invention in a segment for constructing a shield tunnel. FIG. 5 (a) is a view in which the stepped panel 7 is already connected to the segment 15 and the flat panel 1 is about to be joined. In the embodiment shown in FIG. 5A, a segment ring is formed by the segments 15, and the outer edge 12 of the stepped panel 7 is arranged so as to bridge the joint between the segments 15. The stepped panel 7 is connected to the segment 15 by connecting means such as an anchor bolt. FIG.
As a means for forming the segment ring shown in FIG.
5 can be connected to each other, but may be connected using any other means such as a slide lock joint.

FIG. 5B is a view showing that the stepped panel 7 is connected to the segment 15 and the flat panel 1 is also connected to make the inner surface X of the shield tunnel flush. In the embodiment shown in FIG. 5 (b), the overlapping portion 13 of the stepped panel 7 and the overlapping portion 5 of the flat panel 1 are combined, and furthermore, the sealing members 6, 14. By joining in this way, it is possible to stop the water inside the shield tunnel, the groundwater outside the shield tunnel, and the like that have conventionally leaked from the joint. Further, the flat panel 1 can be connected to the segment 15 by passing a connection means such as an anchor bolt from the segment 15 through the hole 3 provided in the flat panel 1 and fastening with a nut.

FIG. 6 is a view showing a process of disposing the shield panel of the present invention in a shield tunnel to form a seal structure. In the embodiment shown in FIG. 6, a suitable number of the segments 15 are provided at appropriate positions with connecting means such as anchor bolts for connecting the shield panel of the present invention. For this reason, it is possible to easily connect the holes 3 and 9 provided in the shield panel of the present invention with the nuts through the anchor bolts.

FIG. 6A is a view in which the stepped panels 7 are arranged in two stages. As shown in FIG. 6 (a), the stepped panel 7 is arranged in two steps at an appropriate position in the tunnel. First, 1
Two stepped panels 7 are arranged, and another stepped panel 7 is arranged in the second step so that the cut-off corner of the stepped panel 7 is aligned with the corner of another stepped panel 7. Set up. Also,
Another stepped panel 7 is disposed on the first stage so as to match the corners of the stepped panel 7 disposed on the second stage.
By repeating the above and disposing the stepped panels 7 in the left-right direction, the stepped panels 7 can be disposed in two steps as shown in FIG. In the embodiment shown in FIG. 6A, since the anchor bolts are already provided at predetermined positions, they can be provided by passing the anchor bolts through the holes 9 of the stepped panel 7. .

In the next step, as shown in FIG.
The flat panel 1 is disposed between the first stepped panels 7 opened so that the flat panel 1 can be disposed. When the stepped panels 7 are arranged as shown in FIG. 6A, the flat panel 1 can be accommodated and arranged between the stepped panels 7. In addition, by joining the flat panel 1 and the stepped panel 7 with the sealing members 6 and 14 disposed, the leakage from the joint between the flat panel 1 and the stepped panel 7 can be eliminated.

In the next step, as shown in FIG. 6C, a stepped panel 7 is provided in the third row. As described above, the third stepped panel 7 is formed by combining the corners of the stepped panel 7 disposed in the second step with the corners of the stepped panel 7 disposed in the third step. It can be arranged.

In the next step, as shown in FIG. 6D, the flat panel 1 is arranged in the second stage so as to be accommodated therein. As described above, by repeating the process of disposing the stepped panel 7 first and then disposing the flat panel 1 so as to accommodate the flat panel 1, the shield panel is disposed in the shield tunnel and the sealing structure is improved. Can be formed. In the step of forming the seal structure according to the present invention, in addition to the above-described steps, the seal structure can be formed in any process as long as the flat panel 1 and the stepped panel 7 can be appropriately arranged to form the seal structure. May be formed.

FIG. 7 is a view showing a shield tunnel 16 in which the shield panel of the present invention is provided to form a seal structure. In the shield tunnel 16 shown in FIG. 7, first, the segment 15 is connected in the circumferential direction inside the excavation pit to form a segment ring 17, and a shield jack (not shown) is formed on the segment ring 17 in the tunnel axial direction. By using another means, another segment is connected, and another segment ring continuous in the axial direction of the tunnel is extended.

As means for connecting the segments shown in FIG. 7 can be performed using bolts and nuts, they may be connected by any means such as a slide lock joint. A permeable layer 18 is provided on the inner surface of the constructed segment ring 17, and a shield panel 19 of the present invention is provided on the inner surface. The arrangement of the shield panel 19 of the present invention can be performed according to the above-described steps, and a connecting means such as an anchor bolt can be used as a means for arranging them. In the present invention, the segment 15
Although the shield panel 19 of the present invention may be directly disposed on the segment 15, it is preferable to provide a water-permeable layer 18 so that water flows in the circumferential direction of the tunnel or in the axial direction of the tunnel to reduce the water pressure applied to the segment 15. Further, by using the segment 15 provided with the shield panel 19 of the present invention,
The lining work can be omitted, and the work period for constructing the shield tunnel 16 can be shortened.

FIG. 8 shows the shield tunnel 1 shown in FIG.
FIG. 6 is a view showing in detail the arrangement of the shield panel 19 of the present invention in the segment 15 of FIG. In the embodiment shown in FIG. 8, a water permeable layer 18 is provided on the segment 15, and the shield panel 19 of the present invention is provided on the inner surface of the water permeable layer 18. Examples of the water-permeable layer 18 that can be used in the present invention include a porous sand layer, a gravel layer, and a nonwoven fabric, and any other water-permeable material can be used.

In FIG. 8, the water permeable layer 18 and the shield panel 19 of the present invention can be arranged by the anchor bolts 20 provided on the segments 13. The water permeable layer 18 and the shield panel 19 of the present invention are provided with holes 21 for passing anchor bolts 20 at appropriate positions. In addition, the shield panel 19 of the present invention has a communication for discharging groundwater outside the shield tunnel 16 into the shield tunnel 16 so that the shield panel 19 provided by the water pressure of the groundwater that has permeated outside the shield tunnel is not damaged. Means are provided. In the embodiment shown in FIG. 8, a check valve 22 is provided as a communication means, and the check valve 22 is opened by water pressure from outside the shield tunnel 16, so that groundwater can be discharged into the shield tunnel 16. It has become. The communication means used in the shield panel 19 of the present invention may be an opening other than the check valve 22 described above, and may be configured to always discharge groundwater into the shield tunnel 16, or a check valve may be connected to the opening. When a predetermined water pressure is applied, the water may be discharged into the shield tunnel 16.

As described above, the shield panel of the present invention and the seal structure using the shield panel have been described as being limited to the shield panel of the shield tunnel and the seal structure using the shield panel. It can be used as a shielding material, a soundproofing material, a heat insulating material, etc.
Panel size can be changed.

When used as a magnetic shield panel or a magnetic shield structure, the shield panel can be manufactured using a magnetic material. Examples of the magnetic material include pure iron, iron-nickel alloy, stainless steel, aluminum, titanium, copper, silver, and gold.
Further, the metal may be plated with the above metal.
Panels for soundproofing or heat insulation include lead sheet, glass, cork, ceramic, cellulose, the above-mentioned epoxy resin, resin mortar, polyester resin, polystyrene resin, polyamide resin, polyolefin resin, unsaturated polyester resin, urea resin, phenol Resin, melamine resin, plastic materials such as urethane resin can be used, and furthermore, the shield panel of the present invention using a material such as rock wool, glass wool sandwiched between the above plastic or ceramic plates It may be produced.

When the shield panel of the present invention is provided as a magnetic shield wall, a magnetic shield floor, a magnetic shield ceiling, a soundproof wall, a soundproof floor, a soundproof ceiling, a heat insulating wall, a heat insulating floor, a heat insulating ceiling, The means can be connected using nails or an adhesive as a means, and the above-mentioned magnetic sealing material, soundproofing material, heat insulation, and By installing a material, the sealing property can be improved.

[0048]

Therefore, the shield panel of the present invention,
By providing a sealing structure using the shield panel, lining is easy, and magnetic,
It is possible to provide a shield material from which liquid such as sound, heat, and water does not leak. In addition, particularly in a tunnel where water flows inside such as a sewer, a shield panel can be reduced in labor required for constructing a shield material, and is low in cost and is not damaged by water pressure of groundwater or the like. Can be provided.

[Brief description of the drawings]

FIG. 1 is a diagram showing a flat panel of a shield panel according to the present invention.

FIG. 2 is a cross-sectional view of the flat panel of the shield panel of the present invention, taken along a cutting line AA.

FIG. 3 is a diagram showing a stepped panel of the shield panel of the present invention.

FIG. 4 is a sectional view of the stepped panel of the shield panel of the present invention, taken along a cutting line BB.

FIG. 5 is a view showing a process of installing a shield panel of the present invention in a segment for constructing a shield tunnel.

FIG. 6 is a view showing a step of disposing the shield panel of the present invention in a shield tunnel to form a seal structure.

FIG. 7 is a view showing a shield tunnel in which the shield panel of the present invention is provided to form a seal structure.

FIG. 8 is a diagram showing in detail the arrangement of the shield panel of the present invention in a shield tunnel segment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Flat panel 2 ... Support part 3 ... Hole 4 ... Outer edge part 5 ... Overlap part 6 ... Sealing member 7 ... Stepped panel 8 ... Flat part support part 9 ... Hole 10 ... Flat part 11 ... Step part 12 ... Outer edge 13 ... overlapping portion 14 ... seal member 15 ... segment 16 ... shield tunnel 17 ... segment ring 18 ... permeable layer 19 ... shield panel 20 ... anchor bolt 21 ... hole 22 ... check valve X ... inner surface Y ... outer surface

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hiroo Iso 1-20-10 Toranomon, Minato-ku, Tokyo Nishimatsu Construction Corporation (72) Inventor Noriyuki Arai 1-20-10 Toranomon, Minato-ku, Tokyo Nishimatsu F-term in KK (reference) GH07

Claims (12)

[Claims] 1. A shield panel laid on an inner wall of a structure for sealing a structure, wherein the shield panel is a substantially rectangular flat panel provided with a support portion protruding toward the structure. An outer edge portion adjacent to the structure, a flat portion, provided between the outer edge portion and the flat portion, continuous with the outer edge portion and the flat portion, and inside the structure of the flat panel. A stepped panel provided with a step portion for accommodating a surface facing the inside of the flat portion substantially flush with a surface of the flat portion facing the inside of the structure, and an overlapping portion of the flat panel and the stepped panel And a sealing member disposed on the shield panel. 2. The overlapping part of the flat panel with the stepped panel, the overlapping part of the stepped panel with the flat panel, or the overlapping part of the flat panel with the stepped panel. 2. The shield panel according to claim 1, wherein the shield panel is disposed at a portion where the stepped panel overlaps the flat panel. 3. 3. A flat portion support portion is provided on a side of the flat portion of the stepped panel facing the structure, and a flat portion support portion and a flat portion support of the stepped panel are provided. The shield panel according to claim 1, wherein the portion supports the panels adjacent to the structure. 4. The structure according to claim 1, wherein the structure comprises a floor, a wall, a ceiling,
Or selected from a shield tunnel.
The shield panel according to any one of the above. 5. The shield structure is a shield tunnel, and a shield panel laid on an inner wall of the shield tunnel to be used for stopping water in the shield tunnel. The shield panel according to any one of claims 1 to 3, further comprising a communication unit for protecting the shield panel from the communication panel. 6. The communication means is an opening or a check valve for discharging groundwater into the shield tunnel.
A shield panel according to claim 5. 7. A seal structure formed by laying a shield panel on an inner wall of a structure, wherein the shield panel includes a substantially rectangular flat panel provided with a support portion protruding toward the structure. An outer edge portion adjacent to the structure, a flat portion, and a portion provided between the outer edge portion and the flat portion, continuous with the outer edge portion and the flat portion, and facing the inside of the flat panel into the structure. A stepped panel provided with a stepped portion for accommodating a flat surface with the surface of the flat portion facing the inside of the structure substantially flush with the flat portion, and a stepped panel disposed at a portion where the flat panel and the stepped panel overlap each other. And a sealing member. 8. The sealing member may be a portion where the flat panel overlaps with the stepped panel, a portion where the stepped panel overlaps with the flat panel, or a portion where the flat panel overlaps with the stepped panel. The seal structure according to claim 7, wherein the seal structure is arranged at a portion where the stepped panel overlaps the flat panel. 9. A flat portion support portion is provided on a side of the flat portion of the stepped panel facing the structure, and a flat portion support portion and a flat portion support of the stepped panel are provided. The seal structure according to claim 7, wherein the portion supports the panels adjacent to the structure. 10. The structure according to claim 7, wherein the structure is selected from a floor, a wall, a ceiling, or a shield tunnel of the structure.
The seal structure according to any one of claims 9 to 9. 11. The shield structure is a shield tunnel, and a shield panel laid on an inner wall of the shield tunnel to be used for stopping water in the shield tunnel. The seal structure according to any one of claims 7 to 9, further comprising a communicating means for protecting the shield panel from the shield panel. 12. The seal structure according to claim 11, wherein the communication means is an opening or a check valve for discharging groundwater into the shield tunnel.