WO2009128117A1 - Treatment equipment for rainwater, etc. - Google Patents

Treatment equipment for rainwater, etc. Download PDF

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Publication number
WO2009128117A1
WO2009128117A1 PCT/JP2008/000992 JP2008000992W WO2009128117A1 WO 2009128117 A1 WO2009128117 A1 WO 2009128117A1 JP 2008000992 W JP2008000992 W JP 2008000992W WO 2009128117 A1 WO2009128117 A1 WO 2009128117A1
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Prior art keywords
side plate
rainwater
plate member
layer
members
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PCT/JP2008/000992
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French (fr)
Japanese (ja)
Inventor
竹内英夫
Original Assignee
エバタ株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by エバタ株式会社 filed Critical エバタ株式会社
Priority to CN200880000088XA priority Critical patent/CN101711299B/en
Priority to JP2008528693A priority patent/JP5138593B2/en
Priority to PCT/JP2008/000992 priority patent/WO2009128117A1/en
Publication of WO2009128117A1 publication Critical patent/WO2009128117A1/en
Priority to HK10109001.6A priority patent/HK1142645A1/en

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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F1/00Methods, systems, or installations for draining-off sewage or storm water
    • E03F1/002Methods, systems, or installations for draining-off sewage or storm water with disposal into the ground, e.g. via dry wells
    • E03F1/005Methods, systems, or installations for draining-off sewage or storm water with disposal into the ground, e.g. via dry wells via box-shaped elements

Definitions

  • the present invention relates to a rainwater treatment apparatus.
  • the rainwater treatment apparatus according to the present invention includes both a rainwater storage facility and a seepage facility.
  • This type of rainwater treatment device is used to store rainwater and other facilities that are buried in the ground as a storage space for collected rainwater, etc., and temporarily collects the collected rainwater and then slowly penetrates into the ground. And infiltration facilities that discharge.
  • rainwater treatment device For the purpose of effective use of rainwater, etc., for the purpose of preventing urban inundation disasters caused by sudden inflow of rainwater into rivers, or for the purpose of recharging groundwater and suppressing land subsidence, etc.
  • a variety of types have been proposed and put into practical use.
  • Patent Document 1 discloses a rainwater treatment apparatus that combines a face plate member and an L-shaped side plate member. Since this rainwater treatment apparatus is configured by combining side plate members facing each other in a square shape so as to form a housing, a gap surrounded by two sets of side end faces facing each other is formed. Therefore, there is a problem that the mechanical strength is somewhat insufficient in consideration of the pressure received from the surrounding earth and sand when buried in the ground.
  • An object of the present invention is to provide a treatment apparatus for rainwater, etc., which is easy to assemble and construct and has excellent mechanical strength.
  • a rainwater treatment apparatus includes a top plate, a bottom plate, a plurality of side plate members, and a plurality of bar members.
  • the top plate and the bottom plate are arranged to face each other with the plurality of side plate members sandwiched from above and below.
  • the plurality of side plate members are L-shaped integrally molded products having two rectangular surfaces, and a space between the top plate member and the bottom plate is partitioned into a grid pattern by the two rectangular surfaces. Are arranged in combination vertically and horizontally.
  • the characteristic part of the present invention is that a bar member described below is provided. That is, the plurality of rod members are inserted into gaps surrounded by two sets of facing side end surfaces among the side end surfaces of the plurality of side plate members.
  • a bottom plate is first installed inside a hole provided in the ground, and a side plate member is disposed thereon, and side end surfaces of the four side plate members are arranged.
  • a bar member is inserted into a gap surrounded by two sets of side end faces facing each other.
  • a top plate is installed on the side plate member.
  • the rainwater treatment apparatus has excellent mechanical strength.
  • the bar member can be inserted into the gap after the side plate member has been arranged, it is highly convenient in consideration of, for example, correcting the arrangement mistake of the side plate member. Furthermore, the assembly work is not affected by variations during manufacturing because the rod member is simply inserted into the gap. Therefore, the rainwater treatment apparatus according to the present invention is easy to assemble and install.
  • top plate when configuring a multi-layer stacked rainwater treatment device, use the top plate as an intermediate plate, install a side plate member on it, and place another top plate on the side plate member. Repeat the assembly work. Further, a water-permeable protective layer such as a non-woven fabric is provided around the rainwater treatment apparatus in accordance with a well-known technique to prevent the inflow of earth and sand.
  • positioning of a side-plate member is shown.
  • positioning of a side-plate member is shown.
  • a half type side plate member is shown.
  • the processing apparatus, such as rain water, using a half-type side plate member is shown.
  • An example in which a pressure-enhanced side plate member 3B is applied to the rainwater treatment apparatus shown in FIG. It is sectional drawing of the perpendicular direction which shows the state which embed
  • FIGS. 1 to 3 are exploded perspective views showing an assembly process of a rainwater treatment apparatus according to the present invention
  • FIG. 4 is a top view of the state shown in FIG.
  • the rainwater treatment apparatus includes a top plate 300, a bottom plate 100, a plurality of side plate members 3, and a plurality of bar members 4. Furthermore, the rainwater treatment apparatus includes an intermediate plate 200 and an angle member 5.
  • the rainwater treatment apparatus of the present embodiment has a two-layer structure in which a first layer and a second layer, which are rectangular parallelepiped spaces, are stacked, and the space of each layer is divided into 2 ⁇ 2 cells by six side plate members 3. It is partitioned.
  • the intermediate plate 200 and the bottom plate 100 are arranged so as to face each other with the side plate member 3 of the first layer and the top plate 300 and the intermediate plate 200 sandwiching the side plate member 3 of the second layer from above and below, respectively.
  • the side plate member 3 is an L-shaped integrally formed product having two rectangular surfaces P, the first layer space sandwiched between the intermediate plate 200 and the bottom plate 100, and the top plate 300.
  • the space of the second layer sandwiched between the intermediate plate 200 and the intermediate plate 200 is arranged in combination vertically and horizontally so as to be partitioned in a grid pattern by the two rectangular surfaces P, respectively.
  • the casings 101 and 102 formed by combining a pair of side plate members 3 facing each other in a square shape are arranged adjacent to each other in an oblique direction so that the layer space is a rectangular parallelepiped.
  • the two side plate members 3 are arranged with the casings 101 and 102 and the side end surfaces 32 in contact with each other. This configuration is the same in the first layer and the second layer.
  • FIG. 5 is an exploded perspective view of the casings 101 and 102
  • FIG. 6 is a perspective view showing a completed state of the casings 101 and 102.
  • the casings 101 and 102 include the face plate members 1 and 2 and the side plate member 3. One set of the side plate members 3 is combined in a square shape facing each other, and the face plate members 1 and 2 are combined vertically. It becomes.
  • the casings 101 and 102 can be configured as a molded product using an appropriate plastic material or a composite material in which a plastic material and an inorganic powder are mixed.
  • FIG. 7 is a plan view of the face plate member 1 constituting the top plate 300 or the bottom plate 100 in the rainwater treatment apparatus.
  • the face plate member 1 has an opening 11 in the plane. Sixteen openings 11 are provided substantially uniformly in the plane of the face plate member 1. The number of the openings 11 is appropriately determined according to the design.
  • the face plate member 1 has at least two pairs of opposing sides. In each of the opposing side groups, the two opposing sides have a concave portion 13 and a convex portion 14 at positions corresponding to each other.
  • the face plate member 1 has a substantially square shape, and has a concave portion 13 at each intermediate portion of two adjacent sides, and has a convex portion 14 at each intermediate portion of the other two adjacent sides.
  • Convex portions 14 are provided on both sides of the concave portion 13, and concave portions 13 are provided on both sides of the convex portion 14.
  • the concave portion 13 and the convex portion 14 have a shape that can constitute a so-called “Hatoo joint”.
  • Two adjacent face plate members 1 can be connected to one concave portion 13 by fitting the other convex portion 14, and by repeating this vertically and horizontally, they are integrated as a whole and flattened rainwater treatment, etc.
  • the top plate 300 or the bottom plate 100 of the apparatus can be configured.
  • a pair of protrusions 15 and 16 are provided on one or both surfaces of the face plate member 1 along each side. The protrusions 15 and 16 sandwich the side plate member 3.
  • FIG. 8 is a plan view of the face plate member 2 constituting the intermediate plate 200 in the rainwater treatment apparatus according to the present invention.
  • the face plate member 2 has the same basic structure as that of the face plate member 1 shown in FIG. 3, but the same material can also be used.
  • the face plate member 2 is the same as the face plate member 1 except for the size and number of the openings 21 and the face plate member 1.
  • the face plate member 2 has a substantially square shape, and has a concave portion 23 in each intermediate portion of two adjacent sides, and has a convex portion 24 in each intermediate portion of the other two adjacent sides. Convex portions 24 are provided on both sides of the concave portion 23, and concave portions 23 are provided on both sides of the convex portion 24.
  • the concave portion 23 and the convex portion 24 also have a shape that can constitute a “Hatoo joint”.
  • the face plate member 2 can constitute a flattened intermediate plate 200 for a rainwater treatment apparatus by connecting a plurality of pieces.
  • a pair of projections 25 and 26 are provided along one side on one or both sides of the face plate member 2 in order to sandwich the side plate member 3.
  • the shape of the face plate members 1 and 2 is not limited to a substantially square shape as in the present embodiment, but may be other square shapes such as a hexagonal shape and an octagonal shape. Further, the formation positions of the concave portions and the convex portions are selected in accordance with the outer shape of the face plate members 1 and 2.
  • the two rectangular surfaces P of the side plate member 3 are the same and are substantially perpendicular to each other.
  • the two rectangular surfaces P include a partition plate 36 that is waved in the lateral direction and an outer frame portion 33 that surrounds the outer periphery of the partition plate 36, and side end surfaces 32 are formed on both side ends of the outer frame portion 33. .
  • a large number of openings 31 are provided in the peaks and valleys of the partition plate 36.
  • the partition plate 36 is provided with ribs 34 in the lateral direction at a predetermined interval in order to increase the strength.
  • the lower end portion of the side plate member 3 is inserted between the two protrusions 15 and 16 provided on the face plate member 1 and is coupled to the face plate member 1.
  • the upper end portion of the side plate member 3 is inserted between the two protrusions 25 and 26 provided on the face plate member 2 and coupled to the face plate member 2, similarly to the lower end portion.
  • the other side plate members 3 that do not constitute the casings 101 and 102.
  • the characteristic part of the present invention is that a rod member 4 described below is provided. That is, the plurality of bar members 4 are inserted into gaps surrounded by two sets of facing side end surfaces 32 among the side end surfaces 32 of the plurality of side plate members 3.
  • the two casings 101 and 102 are arranged adjacent to each other in the oblique direction, one side end face 32 faces the other side end face 32, and as shown in FIG. Is formed.
  • the bar member 4 is formed of a plastic material or the like, and has a quadrangular prism shape in accordance with the gap S as shown in FIGS.
  • the shape of the bar member 4 is not limited to the present embodiment, and may be another shape such as a column as long as it can be firmly fitted in the gap S.
  • the bottom plate 100 is first installed inside the hole provided in the ground, and the first-layer side plate member 3 is arranged on the bottom plate 100.
  • the bar member 4 is inserted into the gap S surrounded by the two sets of side end surfaces 3 facing each other (see FIG. 1).
  • the intermediate plate 200 is installed on the first-layer side plate member 3, and the second-layer side plate member 3 is further disposed on the intermediate plate 200.
  • the member 4 is inserted (see FIG. 2), and finally the top plate 300 is installed on the side plate member 3 of the second layer (see FIG. 3).
  • the rainwater treatment apparatus has excellent mechanical strength.
  • the gap S is not formed, and a pair of side end faces 32 adjacent to each other at the end are coupled to each other.
  • the side members 32 are joined to each other at the corner portions C of the first layer and the second layer by the angle member 5 disclosed in Patent Document 2. This further increases the mechanical strength of the treatment device such as rainwater.
  • the bar member 4 can be inserted into the gap S after the arrangement of the side plate member 3 is completed, for example, the case of correcting the arrangement error of the side plate member 3 is highly convenient. Furthermore, the assembly work is not affected by variations during manufacture because the bar member 4 is simply inserted into the gap S. Therefore, the rainwater treatment apparatus according to the present invention is easy to assemble and install.
  • the coupling between the face plate members 1 and 2 and the coupling between the face plate members 1 and 2 and the side plate member 3 are due to the uneven fitting. It has improved dramatically.
  • the rainwater treatment apparatus since the rainwater treatment apparatus is divided into the face plate members 1 and 2, the side plate member 3, and the bar member 4, it can be transported in a manner that is not bulky. For this reason, transportation cost is reduced and transportation is facilitated.
  • the flat area and volume of the rainwater treatment apparatus can be arbitrarily changed by selecting the number of flat surface plates 1 and 2 and the number of stacked side plate members 3. Therefore, it is possible to easily realize a treatment apparatus such as rainwater having an optimal plane area and volume according to the conditions of the installation location.
  • FIG. 9 shows another arrangement example of the side plate member 3.
  • the side plate member 3 is arranged so as to partition the layer space into 10 ⁇ 10 cells.
  • the group G1 and the group G2 of the side plate members 3 that are adjacent to each other with the orientation being aligned with the arrangement diagonal line D of the layer plane as a boundary. , They are arranged to face each other. Therefore, the bar member 4 is inserted into the gap S along the arrangement diagonal line D. Further, at both ends of the arrangement diagonal line D, the side end faces 32 are joined by the angle member 5 as in the previous embodiment.
  • FIG. 10 shows still another arrangement example of the side plate member 3.
  • the side plate member 3 is arranged so as to partition the layer space into 5 ⁇ 9 cells.
  • the I-shaped side plate member 6 having a single rectangular surface in some places.
  • positioning of the bar member 4 and the angle member 5 is the same as that of the example of arrangement
  • the side plate members 3 need only be arranged regularly, so that the arrangement and assembly can be performed quickly.
  • FIG. 11 shows a half-type side plate member 3A
  • FIG. 12 shows a pressure-proof side plate member 3B.
  • the half-type side plate member 3A is suitable for adjusting the height of a rainwater treatment apparatus.
  • This half-type side plate member 3A is characterized in that the height is half that of the normal side plate member 3.
  • FIG. 13 shows a rainwater treatment apparatus using the half-type side plate member 3A.
  • the first layer is constituted by a half-type side plate member 3 ⁇ / b> A
  • the second layer and the third layer are constituted by normal side plate members 3. According to this configuration, the height of 2.5 sheets of the side plate member 3 that cannot be achieved by the configuration of only the normal side plate member 3 is realized.
  • corner portion of the first layer is fixed using a half-type angle material 5A having a half length in place of the normal angle material 5. Further, a half-type member having a half length is used for the gap portion of the first layer in place of the normal bar member 4.
  • the pressure-enhanced side plate member 3B is suitable when a rainwater treatment apparatus is buried deeper than usual.
  • a feature of the pressure-enhanced side plate member 3B is that the pressure performance is enhanced by increasing the number of ribs 34B compared to the normal side plate member 3.
  • FIG. 14 shows an example in which the pressure-enhanced side plate member 3B is applied to the rainwater treatment apparatus shown in FIG.
  • This rainwater treatment apparatus has a configuration in which all the side plate members 3 facing the outside are replaced with pressure-proof side plate members 3B.
  • the allowable embedding depth of the rainwater treatment apparatus shown in FIG. 10 was about 3 (m), whereas the allowable embedding depth of the rainwater treatment apparatus shown in FIG. The length was about 4 (m). Therefore, the allowable embedding depth of the rainwater treatment apparatus can be increased by the pressure-proof side plate member 3B.
  • the allowable embedding depth is not limited to the example shown in FIG. Is possible.
  • the height of the treatment apparatus such as rainwater and the allowable buried depth can be flexibly changed. Can be changed.
  • FIG. 15 is a vertical sectional view showing a state in which a rainwater infiltration facility according to the present invention is buried in the ground.
  • the rainwater infiltration facility F is disposed inside a hole H formed in the underground G, and the upper surface side is covered with a layer 7 of soil, gravel, concrete, asphalt or the like.
  • the perimeter of the rainwater infiltration facility F is covered with a water-permeable protective layer 9 such as a nonwoven fabric in accordance with a well-known technique to prevent the inflow of earth and sand into the rainwater permeation facility F.
  • the face plate members 1 and 2 and the side plate member 3 have the openings 11, 21 and 31, respectively. Therefore, the infiltration facility F such as rainwater can temporarily store rainwater flowing in from the inflow pipe 8 and efficiently and slowly infiltrate the underground G through the water-permeable protective layer 9. According to this rainwater infiltration facility F, it is possible to prevent rainwater from rapidly penetrating into the ground and suddenly flowing into rivers, so that flood disasters can be effectively prevented.
  • the infiltration facility F such as rainwater can temporarily store rainwater flowing in from the inflow pipe 8 and efficiently and slowly infiltrate the underground G through the water-permeable protective layer 9. According to this rainwater infiltration facility F, it is possible to prevent rainwater from rapidly penetrating into the ground and suddenly flowing into rivers, so that flood disasters can be effectively prevented.
  • a rainwater storage facility can be constructed by covering the periphery of the rainwater infiltration facility F with a water shielding layer instead of the water permeable protective layer 9.
  • Rainwater storage facilities are also effective for effective use of rainwater.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Sewage (AREA)

Abstract

Treatment equipment for rainwater, etc. which can be easily assembled and constructed and has excellent mechanical strength. The treatment equipment for rainwater, etc. has a two-layer structure wherein a first layer and a second layer which are rectangular parallelepiped spaces are laid on top each other. A space of each layer is partitioned into 2 x 2 square spaces by six side plate members (3). In each layer, a pair of side plate members (3) are placed facing each other to be assembled into a square body, and the thus fabricated two square bodies are disposed adjacently to each other in an oblique direction. To make the layer spaces rectangular parallelepiped, the other two side plate members (3) are disposed in such a manner that end faces on both sides of each side plate member (3) may abut against the two adjacent square bodies. Two side end faces of one of the two square bodies face two side end faces of the other square body, forming a space between the two square bodies. A plurality of bar members (4) are inserted into the space surrounded by the two pairs of facing side end faces out of the plurality side end faces of the side plate members (3).

Description

雨水等処理装置Rainwater treatment equipment
 本発明は、雨水等処理装置に関する。本発明に係る雨水等処理装置は、雨水等の貯留施設及び浸透施設の両者を含む。 The present invention relates to a rainwater treatment apparatus. The rainwater treatment apparatus according to the present invention includes both a rainwater storage facility and a seepage facility.
 この種の雨水等処理装置は、集水した雨水等の貯留空間として地中に埋設される雨水等貯留施設と、集水した雨水等を一時的に貯留してのち、地中に緩やかに浸透させて排出する浸透施設とを含む。雨水等処理装置は、雨水等の有効利用の目的、雨水等が河川へ急激に流入することにより発生する都市型浸水災害を防止する目的、又は、地下水を涵養し地盤沈下を抑止する目的で、地中に埋設されるものであって、従来より、種々のタイプのものが提案され、実用に供されている。 This type of rainwater treatment device is used to store rainwater and other facilities that are buried in the ground as a storage space for collected rainwater, etc., and temporarily collects the collected rainwater and then slowly penetrates into the ground. And infiltration facilities that discharge. For the purpose of effective use of rainwater, etc., for the purpose of preventing urban inundation disasters caused by sudden inflow of rainwater into rivers, or for the purpose of recharging groundwater and suppressing land subsidence, etc. A variety of types have been proposed and put into practical use.
 例えば、特許文献1は、面板部材と、L字形状の側板部材とを組み合わせた雨水等処理装置を開示している。この雨水等処理装置は、桝体を形成するように側板部材を対向してロ字状に組み合わせて構成されるから、対面する2組の側端面により囲まれた隙間が生ずる。したがって、地中に埋設された際の周囲の土砂等から受ける圧力を考慮すると、機械的強度がやや不十分であるという問題があった。 For example, Patent Document 1 discloses a rainwater treatment apparatus that combines a face plate member and an L-shaped side plate member. Since this rainwater treatment apparatus is configured by combining side plate members facing each other in a square shape so as to form a housing, a gap surrounded by two sets of side end faces facing each other is formed. Therefore, there is a problem that the mechanical strength is somewhat insufficient in consideration of the pressure received from the surrounding earth and sand when buried in the ground.
 この問題は、特許文献2に開示された桝体のように、組み合わせる側板部材の側端面同士をアングル材又は凹凸嵌合部により結合することによって解決されている。 This problem is solved by connecting the side end surfaces of the side plate members to be combined together with an angle member or an uneven fitting portion as in the case disclosed in Patent Document 2.
 しかしながら、この桝体を使用する場合、予め側板部材を結合した状態で施工する必要があるから、利便性が悪く、作業が容易ではなかった。また、アングル材の螺子穴の位置、又は、凹凸嵌合部の位置が、製造時の誤差によりばらつくため、側板部材を結合する組立作業も容易ではなかった。
特許第3400439号公報 特開2006-214103号公報
However, when this casing is used, it is necessary to perform the construction in a state in which the side plate members are joined in advance, so that the convenience is poor and the operation is not easy. In addition, since the position of the screw hole of the angle member or the position of the concave-convex fitting portion varies due to an error in manufacturing, the assembling work for connecting the side plate members is not easy.
Japanese Patent No. 34004339 JP 2006-214103 A
 本発明の課題は、組立作業及び施工作業が容易であって、優れた機械的強度を有する雨水等処理装置を提供することである。 An object of the present invention is to provide a treatment apparatus for rainwater, etc., which is easy to assemble and construct and has excellent mechanical strength.
 上述した課題を解決するため、本発明に係る雨水等処理装置は、天板と、底板と、複数の側板部材と、複数の棒部材とを含む。前記天板及び底板は、前記複数の側板部材を、それぞれ上下から挟み込んだ状態で対面して配置されている。 In order to solve the above-described problem, a rainwater treatment apparatus according to the present invention includes a top plate, a bottom plate, a plurality of side plate members, and a plurality of bar members. The top plate and the bottom plate are arranged to face each other with the plurality of side plate members sandwiched from above and below.
 前記複数の側板部材は、2つの矩形面を有するL字形状の一体成形物であり、前記天板部材と前記底板とで挟まれた空間を、前記2つの矩形面により碁盤目状に仕切るように縦横に組み合わせて配置されている。 The plurality of side plate members are L-shaped integrally molded products having two rectangular surfaces, and a space between the top plate member and the bottom plate is partitioned into a grid pattern by the two rectangular surfaces. Are arranged in combination vertically and horizontally.
 これまで述べた構成は従来技術に見られるが、本発明の特徴部分は次に述べる棒部材を設けた点にある。すなわち、前記複数の棒部材は、前記複数の側板部材の側端面うち、対面する2組の側端面によって囲まれた隙間に挿入されている。 The configuration described so far can be found in the prior art, but the characteristic part of the present invention is that a bar member described below is provided. That is, the plurality of rod members are inserted into gaps surrounded by two sets of facing side end surfaces among the side end surfaces of the plurality of side plate members.
 本発明に係る雨水等処理装置を構成するには、地中に設けた穴の内部で、まず底板を設置しておき、その上に側板部材を配置して、4つの側板部材の側端面が一点に集まった部分において、対面する2組の側端面によって囲まれた隙間に棒部材を挿入する。そして、側板部材の上に天板を設置する。 In order to configure the rainwater treatment apparatus according to the present invention, a bottom plate is first installed inside a hole provided in the ground, and a side plate member is disposed thereon, and side end surfaces of the four side plate members are arranged. In a portion gathered at one point, a bar member is inserted into a gap surrounded by two sets of side end faces facing each other. And a top plate is installed on the side plate member.
 このように、棒部材によって余分な隙間をなくすことができるから、周囲の土砂等から圧力を受けても容易に側板部材の位置がずれることはない。このとき、圧力を考慮して側板部材の配置を工夫すれば、さらに効果的である。したがって、本発明に係る雨水等処理装置は優れた機械的強度を有する。 As described above, since the extra gap can be eliminated by the rod member, the position of the side plate member does not easily shift even when pressure is applied from the surrounding earth and sand. At this time, it is more effective if the arrangement of the side plate members is devised in consideration of the pressure. Therefore, the rainwater treatment apparatus according to the present invention has excellent mechanical strength.
 また、棒部材は、側板部材の配置を終了した後で隙間に挿入することができるから、例えば、側板部材の配置ミスを修正する場合を考慮すると利便性が高い。さらに、組立作業は、棒部材を隙間に挿入するだけなので、製造時のばらつきに影響されない。したがって、本発明に係る雨水等処理装置は組立作業及び施工作業が容易である。 Also, since the bar member can be inserted into the gap after the side plate member has been arranged, it is highly convenient in consideration of, for example, correcting the arrangement mistake of the side plate member. Furthermore, the assembly work is not affected by variations during manufacturing because the rod member is simply inserted into the gap. Therefore, the rainwater treatment apparatus according to the present invention is easy to assemble and install.
 さらに、天板や底板として、特許文献1及び2に開示されたような面板部材を用いれば、本発明に係る雨水等処理装置の機械的強度と、組立作業及び施工作業の容易性は格段に向上する。 Furthermore, if a face plate member as disclosed in Patent Documents 1 and 2 is used as the top plate or the bottom plate, the mechanical strength of the rainwater treatment apparatus according to the present invention and the ease of assembly and construction work are remarkably increased. improves.
 なお、複数層の積み重ね構造の雨水等処理装置を構成する場合、天板を中間板として利用し、その上に側板部材を設置して、更に、その側板部材の上に別の天板を配置する組立作業を繰り返す。また、雨水等処理装置のまわりには、周知の技術に従って、不織布等の透水性保護層を設け、内部への土砂の流入を阻止する。 In addition, when configuring a multi-layer stacked rainwater treatment device, use the top plate as an intermediate plate, install a side plate member on it, and place another top plate on the side plate member. Repeat the assembly work. Further, a water-permeable protective layer such as a non-woven fabric is provided around the rainwater treatment apparatus in accordance with a well-known technique to prevent the inflow of earth and sand.
 以上述べたように、本発明によれば、組立作業及び施工作業が容易であって、優れた機械的強度を有する雨水等処理装置を提供することができる。 As described above, according to the present invention, it is possible to provide a treatment apparatus for rainwater or the like that is easy to assemble and construct and has excellent mechanical strength.
本発明に係る雨水等処理装置の組み立て工程を示す分解斜視図である。It is a disassembled perspective view which shows the assembly process of processing apparatuses, such as rainwater, concerning this invention. 本発明に係る雨水等処理装置の組み立て工程を示す分解斜視図である。It is a disassembled perspective view which shows the assembly process of processing apparatuses, such as rainwater, concerning this invention. 本発明に係る雨水等処理装置の組み立て工程を示す分解斜視図である。It is a disassembled perspective view which shows the assembly process of processing apparatuses, such as rainwater, concerning this invention. 図1に示す状態の上面図である。It is a top view of the state shown in FIG. 桝体の分解斜視図である。It is a disassembled perspective view of a housing. 桝体の完成状態を示す斜視図である。It is a perspective view which shows the completion state of a housing. 天板又は底板を構成する面板部材の平面図である。It is a top view of the face plate member which constitutes a top plate or a bottom plate. 中間板を構成する面板部材の平面図である。It is a top view of the faceplate member which constitutes an intermediate board. 側板部材の第2の配置例を示す。The 2nd example of arrangement | positioning of a side-plate member is shown. 側板部材の第3の配置例を示す。The 3rd example of arrangement | positioning of a side-plate member is shown. ハーフタイプの側板部材を示す。A half type side plate member is shown. 耐圧強化型の側板部材を示すShows pressure-proof side plate members ハーフタイプの側板部材を用いた雨水等処理装置を示す。The processing apparatus, such as rain water, using a half-type side plate member is shown. 図10に示した雨水等処理装置に耐圧強化型の側板部材3Bを適用した例を示す。An example in which a pressure-enhanced side plate member 3B is applied to the rainwater treatment apparatus shown in FIG. 本発明に係る雨水等浸透施設を地中に埋設した状態を示す鉛直方向の断面図である。It is sectional drawing of the perpendicular direction which shows the state which embed | buried rainwater etc. penetration facilities which concern on this invention in the ground.
符号の説明Explanation of symbols
 1,2        面板部材
 3          側板部材
 32         側端面
 4          棒部材
 5          アングル材
 100        底板
 101,102    桝体
 200        中間板
 300        天板
 F          雨水等浸透施設
 P          矩形面
 S          隙間
DESCRIPTION OF SYMBOLS 1, 2 Face plate member 3 Side plate member 32 Side end surface 4 Bar member 5 Angle material 100 Bottom plate 101,102 Housing 200 Intermediate plate 300 Top plate F Rain water penetration facility P Rectangular surface S Gap
 図1~図3は、本発明に係る雨水等処理装置の組み立て工程を示す分解斜視図、また、図4は図1に示す状態の上面図である。雨水等処理装置は、天板300と、底板100と、複数の側板部材3と、複数の棒部材4とを含む。さらに、雨水等処理装置は、中間板200と、アングル材5とを含む。本実施形態の雨水等処理装置は、直方体の空間である第1層と第2層を積み重ねた2層構造であって、各層の空間は、6枚の側板部材3により2×2の桝目に仕切られている。 FIGS. 1 to 3 are exploded perspective views showing an assembly process of a rainwater treatment apparatus according to the present invention, and FIG. 4 is a top view of the state shown in FIG. The rainwater treatment apparatus includes a top plate 300, a bottom plate 100, a plurality of side plate members 3, and a plurality of bar members 4. Furthermore, the rainwater treatment apparatus includes an intermediate plate 200 and an angle member 5. The rainwater treatment apparatus of the present embodiment has a two-layer structure in which a first layer and a second layer, which are rectangular parallelepiped spaces, are stacked, and the space of each layer is divided into 2 × 2 cells by six side plate members 3. It is partitioned.
 中間板200と底板100は、第1層の側板部材3を、並びに、天板300と中間板200は、第2層の側板部材3を、それぞれ上下から挟み込んだ状態で対面して配置されている。図4のように、側板部材3は、2つの矩形面Pを有するL字形状の一体成形物であり、中間板200と底板100とで挟まれた第1層の空間、並びに、天板300と中間板200とで挟まれた第2層の空間を、それぞれ、2つの矩形面Pにより碁盤目状に仕切るように縦横に組み合わせて配置されている。具体的には、1組の側板部材3を互いに対向してロ字状に組み合わせてなる桝体101,102を、斜め方向に隣り合わせて配置し、層空間が直方体となるように、他の2つの側板部材3を、各々、桝体101,102と両側端面32をそれぞれ当接させて配置する。なお、この構成は、第1層と第2層において同一である。 The intermediate plate 200 and the bottom plate 100 are arranged so as to face each other with the side plate member 3 of the first layer and the top plate 300 and the intermediate plate 200 sandwiching the side plate member 3 of the second layer from above and below, respectively. Yes. As shown in FIG. 4, the side plate member 3 is an L-shaped integrally formed product having two rectangular surfaces P, the first layer space sandwiched between the intermediate plate 200 and the bottom plate 100, and the top plate 300. The space of the second layer sandwiched between the intermediate plate 200 and the intermediate plate 200 is arranged in combination vertically and horizontally so as to be partitioned in a grid pattern by the two rectangular surfaces P, respectively. Specifically, the casings 101 and 102 formed by combining a pair of side plate members 3 facing each other in a square shape are arranged adjacent to each other in an oblique direction so that the layer space is a rectangular parallelepiped. The two side plate members 3 are arranged with the casings 101 and 102 and the side end surfaces 32 in contact with each other. This configuration is the same in the first layer and the second layer.
 図5は桝体101,102の分解斜視図であり、図6は桝体101,102の完成状態を示す斜視図である。桝体101,102は、面板部材1、2と、側板部材3とを含み、側板部材3の1組を、互いに対向してロ字状に組み合わせ、さらに、上下に面板部材1、2を組み合わせてなる。桝体101,102は、適当なプラスチック材料、または、プラスチック材料と無機粉体とを混合した複合材料を用いた成型品として構成することができる。 FIG. 5 is an exploded perspective view of the casings 101 and 102, and FIG. 6 is a perspective view showing a completed state of the casings 101 and 102. FIG. The casings 101 and 102 include the face plate members 1 and 2 and the side plate member 3. One set of the side plate members 3 is combined in a square shape facing each other, and the face plate members 1 and 2 are combined vertically. It becomes. The casings 101 and 102 can be configured as a molded product using an appropriate plastic material or a composite material in which a plastic material and an inorganic powder are mixed.
 図7は、雨水等処理装置において、天板300又は底板100を構成する面板部材1の平面図である。面板部材1は、面内に開口部11を有する。開口部11は、面板部材1の面内に略均等に16個設けてある。この開口部11の個数は、設計に応じて、適宜、決定するものである。 FIG. 7 is a plan view of the face plate member 1 constituting the top plate 300 or the bottom plate 100 in the rainwater treatment apparatus. The face plate member 1 has an opening 11 in the plane. Sixteen openings 11 are provided substantially uniformly in the plane of the face plate member 1. The number of the openings 11 is appropriately determined according to the design.
 面板部材1は、少なくとも2組の対向辺組を有する。対向辺組のそれぞれにおいて、相対向する2辺は互いに対応する位置に凹部13及び凸部14を有する。面板部材1は、略正方形状であり、隣接する2辺の各中間部には凹部13を有し、他の隣接する2辺の各中間部には凸部14を有する。凹部13の両側には、凸部14が設けられており、凸部14の両側には凹部13が設けられている。凹部13及び凸部14は、いわゆる「鳩尾継」を構成し得る形状を持つ。隣接する2つの面板部材1は、一方の凹部13に、他方の凸部14を嵌め込んで連結することができ、これを縦横に繰り返すことによって全体として一体化され、平面化された雨水等処理装置の天板300又は底板100を構成できる。また、面板部材1の一面または両面には、各辺に沿って、2つ1組の突起15,16が設けられている。この突起15,16は、側板部材3を挟持する。 The face plate member 1 has at least two pairs of opposing sides. In each of the opposing side groups, the two opposing sides have a concave portion 13 and a convex portion 14 at positions corresponding to each other. The face plate member 1 has a substantially square shape, and has a concave portion 13 at each intermediate portion of two adjacent sides, and has a convex portion 14 at each intermediate portion of the other two adjacent sides. Convex portions 14 are provided on both sides of the concave portion 13, and concave portions 13 are provided on both sides of the convex portion 14. The concave portion 13 and the convex portion 14 have a shape that can constitute a so-called “Hatoo joint”. Two adjacent face plate members 1 can be connected to one concave portion 13 by fitting the other convex portion 14, and by repeating this vertically and horizontally, they are integrated as a whole and flattened rainwater treatment, etc. The top plate 300 or the bottom plate 100 of the apparatus can be configured. Further, a pair of protrusions 15 and 16 are provided on one or both surfaces of the face plate member 1 along each side. The protrusions 15 and 16 sandwich the side plate member 3.
 図8は本発明に係る雨水等処理装置において、中間板200を構成する面板部材2の平面図である。この面板部材2は、図3に示した面板部材1と基本的構造を同じくするものであるが、全く同じものを用いることもできる。面板部材2は、開口部21の大きさ、個数等が面板部材1と異なるだけで、他の基本的構成は面板部材1と同じである。 FIG. 8 is a plan view of the face plate member 2 constituting the intermediate plate 200 in the rainwater treatment apparatus according to the present invention. The face plate member 2 has the same basic structure as that of the face plate member 1 shown in FIG. 3, but the same material can also be used. The face plate member 2 is the same as the face plate member 1 except for the size and number of the openings 21 and the face plate member 1.
 面板部材2は、略正方形状であり、隣接する2辺の各中間部に凹部23を有し、他の隣接する2辺の各中間部に凸部24を有する。凹部23の両側には、凸部24が設けられており、凸部24の両側には凹部23が設けられている。凹部23及び凸部24も、「鳩尾継」を構成し得る形状を持つ。面板部材2は、面板部材1と同様に、複数枚を連結させることによって、平面化された雨水等処理装置の中間板200を構成できる。また、面板部材2の一面または両面には、面板部材1と同様に、側板部材3を挟持するために、各辺に沿って2つ1組の突起25,26が設けられている。 The face plate member 2 has a substantially square shape, and has a concave portion 23 in each intermediate portion of two adjacent sides, and has a convex portion 24 in each intermediate portion of the other two adjacent sides. Convex portions 24 are provided on both sides of the concave portion 23, and concave portions 23 are provided on both sides of the convex portion 24. The concave portion 23 and the convex portion 24 also have a shape that can constitute a “Hatoo joint”. Similarly to the face plate member 1, the face plate member 2 can constitute a flattened intermediate plate 200 for a rainwater treatment apparatus by connecting a plurality of pieces. Similarly to the face plate member 1, a pair of projections 25 and 26 are provided along one side on one or both sides of the face plate member 2 in order to sandwich the side plate member 3.
 面板部材1,2の形状は、本実施形態のような略正方形状に限られず、他の角形状、例えば、6角形状、8角形状等であってもよい。また、凹部及び凸部は面板部材1,2の外形形状に合わせて、その形成位置が選定される。 The shape of the face plate members 1 and 2 is not limited to a substantially square shape as in the present embodiment, but may be other square shapes such as a hexagonal shape and an octagonal shape. Further, the formation positions of the concave portions and the convex portions are selected in accordance with the outer shape of the face plate members 1 and 2.
 側板部材3の2つの矩形面Pは、同一であって、互いに略直角をなしている。2つの矩形面Pは、横方向に波形に連続する仕切板36と、仕切板36の外周を囲む外枠部33を含み、外枠部33の両側端には側端面32が形成されている。仕切板36の山及び谷の部分には、多数の開口部31が設けられている。また、仕切板36には、強度を上げるために、所定間隔をおいて横方向にリブ34が設けられている。 The two rectangular surfaces P of the side plate member 3 are the same and are substantially perpendicular to each other. The two rectangular surfaces P include a partition plate 36 that is waved in the lateral direction and an outer frame portion 33 that surrounds the outer periphery of the partition plate 36, and side end surfaces 32 are formed on both side ends of the outer frame portion 33. . A large number of openings 31 are provided in the peaks and valleys of the partition plate 36. Further, the partition plate 36 is provided with ribs 34 in the lateral direction at a predetermined interval in order to increase the strength.
 側板部材3の下端部は、図4に示すように、面板部材1に備えられた2つの突起15,16の間に挿入され、面板部材1に結合される。一方、側板部材3の上端部は、下端部と同様に、面板部材2に備えられた2つの突起25,26の間に挿入され、面板部材2に結合される。これは、桝体101,102を構成しない他の側板部材3についても同様である。 As shown in FIG. 4, the lower end portion of the side plate member 3 is inserted between the two protrusions 15 and 16 provided on the face plate member 1 and is coupled to the face plate member 1. On the other hand, the upper end portion of the side plate member 3 is inserted between the two protrusions 25 and 26 provided on the face plate member 2 and coupled to the face plate member 2, similarly to the lower end portion. The same applies to the other side plate members 3 that do not constitute the casings 101 and 102.
 これまで述べた構成は従来技術に見られるが、本発明の特徴部分は次に述べる棒部材4を設けた点にある。すなわち、複数の棒部材4は、複数の側板部材3の側端面32うち、対面する2組の側端面32によって囲まれた隙間に挿入されている。本実施形態では、2つ桝体101,102が、斜め方向に隣り合って配置されるから、一方の側端面32が他方の側端面32と対面して、図4に示すように、隙間Sが形成されている。棒部材4は、プラスチック材などで成型されており、また、図1と図2に示すように、隙間Sに合わせて四角柱の形状を有している。棒部材4の形状は、本実施形態に限定されるものではなく、隙間Sにしっかりと嵌め込むことができるのであれば、円柱などの他の形状でもよい。 Although the configuration described so far can be found in the prior art, the characteristic part of the present invention is that a rod member 4 described below is provided. That is, the plurality of bar members 4 are inserted into gaps surrounded by two sets of facing side end surfaces 32 among the side end surfaces 32 of the plurality of side plate members 3. In the present embodiment, since the two casings 101 and 102 are arranged adjacent to each other in the oblique direction, one side end face 32 faces the other side end face 32, and as shown in FIG. Is formed. The bar member 4 is formed of a plastic material or the like, and has a quadrangular prism shape in accordance with the gap S as shown in FIGS. The shape of the bar member 4 is not limited to the present embodiment, and may be another shape such as a column as long as it can be firmly fitted in the gap S.
 本発明に係る雨水等処理装置を構成するには、地中に設けた穴の内部で、まず底板100を設置しておき、その上に第1層の側板部材3を配置して、4つの側板部材3の側端面32が一点に集まった部分において、対面する2組の側端面3によって囲まれた隙間Sに棒部材4を挿入する(図1を参照)。そして、第1層の側板部材3の上に中間板200を設置し、さらに、中間板200の上に第2層の側板部材3を配置して、第1層と同様に、隙間Sに棒部材4を挿入し(図2を参照)、最後に、第2層の側板部材3の上に天板300を設置する(図3を参照)。 In order to construct the rainwater treatment apparatus according to the present invention, the bottom plate 100 is first installed inside the hole provided in the ground, and the first-layer side plate member 3 is arranged on the bottom plate 100. In the portion where the side end surfaces 32 of the side plate members 3 are gathered at one point, the bar member 4 is inserted into the gap S surrounded by the two sets of side end surfaces 3 facing each other (see FIG. 1). Then, the intermediate plate 200 is installed on the first-layer side plate member 3, and the second-layer side plate member 3 is further disposed on the intermediate plate 200. The member 4 is inserted (see FIG. 2), and finally the top plate 300 is installed on the side plate member 3 of the second layer (see FIG. 3).
 このように、棒部材4によって余分な隙間をなくすことができるから、周囲の土砂等から圧力を受けても容易に側板部材3の位置がずれることはない。このとき、圧力を考慮して側板部材3の配置を工夫すれば、さらに効果的である。したがって、本発明に係る雨水等処理装置は優れた機械的強度を有する。 As described above, since the extra gap can be eliminated by the rod member 4, the position of the side plate member 3 is not easily shifted even when pressure is applied from surrounding earth and sand. At this time, it is more effective if the arrangement of the side plate members 3 is devised in consideration of the pressure. Therefore, the rainwater treatment apparatus according to the present invention has excellent mechanical strength.
 さらに本実施形態では、上述した桝体101,102に含まれる側端面3のうち、隙間Sを形成せず、端部において隣り合う1組の側端面32が互いに結合されている。具体的には、特許文献2に開示されたアングル材5によって、図4に示すように、第1層及び第2層の各コーナー部分Cにおいて側端面32同士を結合している。これにより、雨水等処理装置の機械的強度は、さらに増している。 Further, in the present embodiment, among the side end faces 3 included in the above-described casings 101 and 102, the gap S is not formed, and a pair of side end faces 32 adjacent to each other at the end are coupled to each other. Specifically, as shown in FIG. 4, the side members 32 are joined to each other at the corner portions C of the first layer and the second layer by the angle member 5 disclosed in Patent Document 2. This further increases the mechanical strength of the treatment device such as rainwater.
 また、棒部材4は、側板部材3の配置を終了した後で隙間Sに挿入することができるから、例えば、側板部材3の配置ミスを修正する場合を考慮すると利便性が高い。さらに、組立作業は、棒部材4を隙間Sに挿入するだけなので、製造時のばらつきに影響されない。したがって、本発明に係る雨水等処理装置は組立作業及び施工作業が容易である。 Further, since the bar member 4 can be inserted into the gap S after the arrangement of the side plate member 3 is completed, for example, the case of correcting the arrangement error of the side plate member 3 is highly convenient. Furthermore, the assembly work is not affected by variations during manufacture because the bar member 4 is simply inserted into the gap S. Therefore, the rainwater treatment apparatus according to the present invention is easy to assemble and install.
 さらに本実施形態では、上述したように、面板部材1,2同士の結合、並びに、面板部材1,2と側板部材3の結合が、凹凸嵌合によるので、組立作業及び施工作業の容易性は格段に向上している。 Further, in the present embodiment, as described above, the coupling between the face plate members 1 and 2 and the coupling between the face plate members 1 and 2 and the side plate member 3 are due to the uneven fitting. It has improved dramatically.
 また、雨水等処理装置は、面板部材1,2と、側板部材3と、棒部材4とに分かれているので、嵩張ることのない態様で輸送することができる。このため、輸送コストが低減されると共に、輸送が容易になる。 Moreover, since the rainwater treatment apparatus is divided into the face plate members 1 and 2, the side plate member 3, and the bar member 4, it can be transported in a manner that is not bulky. For this reason, transportation cost is reduced and transportation is facilitated.
 雨水等処理装置の平面積及び容積は、面板部材1,2の平面敷設枚数及び側板部材3との積み重ね数の選択により、任意に変更できる。従って、設置場所の条件に応じて、最適な平面積及び容積を有する雨水等処理装置を容易に実現し得る。 The flat area and volume of the rainwater treatment apparatus can be arbitrarily changed by selecting the number of flat surface plates 1 and 2 and the number of stacked side plate members 3. Therefore, it is possible to easily realize a treatment apparatus such as rainwater having an optimal plane area and volume according to the conditions of the installation location.
 図9は、側板部材3の他の配置例を示す。この配置例では、層空間を10×10の桝目に仕切るように、側板部材3を配置している。先の実施形態でも同様であるが、桝目の行数と列数が同じ場合には、層平面の配置対角線Dを境界として、向きを揃えて隣接させた側板部材3の群G1と群G2を、互いに対向させた配置になる。したがって、棒部材4は、配置対角線Dに沿って隙間Sに挿入されている。また、配置対角線Dの両端部では、先の実施形態と同様に、アングル材5によって側端面32同士を結合している。 FIG. 9 shows another arrangement example of the side plate member 3. In this arrangement example, the side plate member 3 is arranged so as to partition the layer space into 10 × 10 cells. As in the previous embodiment, if the number of rows and the number of columns of the cells are the same, the group G1 and the group G2 of the side plate members 3 that are adjacent to each other with the orientation being aligned with the arrangement diagonal line D of the layer plane as a boundary. , They are arranged to face each other. Therefore, the bar member 4 is inserted into the gap S along the arrangement diagonal line D. Further, at both ends of the arrangement diagonal line D, the side end faces 32 are joined by the angle member 5 as in the previous embodiment.
 図10は、側板部材3の、さらに他の配置例を示す。この配置例では、層空間を5×9の桝目に仕切るように、側板部材3を配置している。このように桝目の行数と列数が異なる場合には、一部の箇所において、単一の矩形面を有するI字状の側板部材6を用いる必要がある。また、さらに一部の箇所において(符号X及びYを参照)、側板部材3の向きを変更して設置する必要もある。桝目の行数と列数の差が大きくなるにつれ、このような箇所は増加する。なお、棒部材4とアングル材5の配置は、上述した配置例と同様である。 FIG. 10 shows still another arrangement example of the side plate member 3. In this arrangement example, the side plate member 3 is arranged so as to partition the layer space into 5 × 9 cells. Thus, when the number of rows and the number of columns of the cells are different, it is necessary to use the I-shaped side plate member 6 having a single rectangular surface in some places. Furthermore, it is necessary to change the direction of the side plate member 3 in some parts (see reference numerals X and Y). As the difference between the number of rows and the number of columns in the grid increases, such points increase. In addition, arrangement | positioning of the bar member 4 and the angle member 5 is the same as that of the example of arrangement | positioning mentioned above.
 このように、雨水等処理装置の平面積及び容積が変化しても、側板部材3を規則的に配置してゆけばよいので、その配置及び組立を、迅速に実行することができる。 Thus, even if the plane area and the volume of the treatment device such as rainwater change, the side plate members 3 need only be arranged regularly, so that the arrangement and assembly can be performed quickly.
 次に、側板部材3の他の形態について説明する。図11に、ハーフタイプの側板部材3Aを、図12に、耐圧強化型の側板部材3Bを示す。まず、ハーフタイプの側板部材3Aは、雨水等処理装置の高さの調整に好適である。このハーフタイプの側板部材3Aの特徴は、高さを通常の側板部材3の半分にしたところにある。 Next, another form of the side plate member 3 will be described. FIG. 11 shows a half-type side plate member 3A, and FIG. 12 shows a pressure-proof side plate member 3B. First, the half-type side plate member 3A is suitable for adjusting the height of a rainwater treatment apparatus. This half-type side plate member 3A is characterized in that the height is half that of the normal side plate member 3.
 図13に、このハーフタイプの側板部材3Aを用いた雨水等処理装置を示す。この雨水等処理装置は、第1層をハーフタイプの側板部材3Aで構成し、第2層及び第3層を通常の側板部材3で構成している。この構成によると、通常の側板部材3のみの構成ではなしえなかった、側板部材3の2.5枚分の高さを実現している。 FIG. 13 shows a rainwater treatment apparatus using the half-type side plate member 3A. In this rainwater treatment apparatus, the first layer is constituted by a half-type side plate member 3 </ b> A, and the second layer and the third layer are constituted by normal side plate members 3. According to this configuration, the height of 2.5 sheets of the side plate member 3 that cannot be achieved by the configuration of only the normal side plate member 3 is realized.
 また、第1層のコーナー部分には、通常のアングル材5に代えて、長さが半分のハーフタイプのアングル材5Aを用いてコーナー部分を固定している。さらに、第1層の隙間部分には、通常の棒部材4に代えて、長さが半分のハーフタイプのものを用いる。 Also, the corner portion of the first layer is fixed using a half-type angle material 5A having a half length in place of the normal angle material 5. Further, a half-type member having a half length is used for the gap portion of the first layer in place of the normal bar member 4.
 一方、耐圧強化型の側板部材3Bは、雨水等処理装置を通常より深いところに埋設する場合に好適である。この耐圧強化型の側板部材3Bの特徴は、通常の側板部材3よりリブ34Bの数を増やすことによって耐圧性能を強化したことにある。 On the other hand, the pressure-enhanced side plate member 3B is suitable when a rainwater treatment apparatus is buried deeper than usual. A feature of the pressure-enhanced side plate member 3B is that the pressure performance is enhanced by increasing the number of ribs 34B compared to the normal side plate member 3.
 図14は、図10に示した雨水等処理装置に耐圧強化型の側板部材3Bを適用した例を示す。この雨水等処理装置は、外部に面する全ての側板部材3を耐圧強化型の側板部材3Bに置き換えた構成を有する。発明者の検証に依れば、図10に示した雨水等処理装置の許容埋設深さは約3(m)であったのに対して、図14に示した雨水等処理装置の許容埋設深さは約4(m)であった。したがって、耐圧強化型の側板部材3Bによって雨水等処理装置の許容埋設深さを増すことができる。なお、耐圧強化型の側板部材3Bを雨水等処理装置の外周部分に配置する限り、図14に示した例に限られず、他の配置を採用することによって、さらに許容埋設深さを増すことは可能である。 FIG. 14 shows an example in which the pressure-enhanced side plate member 3B is applied to the rainwater treatment apparatus shown in FIG. This rainwater treatment apparatus has a configuration in which all the side plate members 3 facing the outside are replaced with pressure-proof side plate members 3B. According to the inventor's verification, the allowable embedding depth of the rainwater treatment apparatus shown in FIG. 10 was about 3 (m), whereas the allowable embedding depth of the rainwater treatment apparatus shown in FIG. The length was about 4 (m). Therefore, the allowable embedding depth of the rainwater treatment apparatus can be increased by the pressure-proof side plate member 3B. As long as the pressure-enhanced side plate member 3B is arranged on the outer peripheral portion of the treatment apparatus such as rainwater, the allowable embedding depth is not limited to the example shown in FIG. Is possible.
 このように、通常の側板部材3、ハーフタイプの側板部材3A、耐圧強化型の側板部材3Bを設置条件に応じて適宜使用することによって、雨水等処理装置の高さや許容埋設深さまでも柔軟に変更することができる。 As described above, by appropriately using the normal side plate member 3, the half-type side plate member 3A, and the pressure-proof side plate member 3B according to the installation conditions, the height of the treatment apparatus such as rainwater and the allowable buried depth can be flexibly changed. Can be changed.
 図15は本発明に係る雨水等浸透施設を地中に埋設した状態を示す鉛直方向の断面図である。雨水等浸透施設Fは、地中Gに形成された穴Hの内部に配置され、上面側が土、砂利、コンクリートまたはアスファルト等の層7によって覆われている。雨水等浸透施設Fの周囲は、周知の技術に従って、不織布等の透水性保護層9によって覆い、雨水等浸透施設Fの内部への土砂の流入を阻止する。 FIG. 15 is a vertical sectional view showing a state in which a rainwater infiltration facility according to the present invention is buried in the ground. The rainwater infiltration facility F is disposed inside a hole H formed in the underground G, and the upper surface side is covered with a layer 7 of soil, gravel, concrete, asphalt or the like. The perimeter of the rainwater infiltration facility F is covered with a water-permeable protective layer 9 such as a nonwoven fabric in accordance with a well-known technique to prevent the inflow of earth and sand into the rainwater permeation facility F.
 上述したように、面板部材1、2及び側板部材3は、開口部11,21,31をそれぞれ有する。したがって、雨水等浸透施設Fは、流入管8から流入した雨水を一時的に貯留し、透水性保護層9を通して効率よく緩やかに地中Gに浸透させることができる。この雨水等浸透施設Fによれば、雨水の急激な地中への浸透と、河川への急激な流れ込みを妨げることができるから、浸水災害を効果的に防止することができる。 As described above, the face plate members 1 and 2 and the side plate member 3 have the openings 11, 21 and 31, respectively. Therefore, the infiltration facility F such as rainwater can temporarily store rainwater flowing in from the inflow pipe 8 and efficiently and slowly infiltrate the underground G through the water-permeable protective layer 9. According to this rainwater infiltration facility F, it is possible to prevent rainwater from rapidly penetrating into the ground and suddenly flowing into rivers, so that flood disasters can be effectively prevented.
 また、図15において、透水性保護層9に替え、遮水層によって雨水等浸透施設Fの周囲を覆えば、雨水等貯留施設を構成できる。雨水等貯留施設は、雨水の有効利用にも効果的である。 Further, in FIG. 15, a rainwater storage facility can be constructed by covering the periphery of the rainwater infiltration facility F with a water shielding layer instead of the water permeable protective layer 9. Rainwater storage facilities are also effective for effective use of rainwater.
 以上、好ましい実施例を参照して本発明の内容を具体的に説明したが、本発明の基本的技術思想及び教示に基づいて、当業者であれば、種々の変形態様を採り得ることは自明である。 Although the contents of the present invention have been specifically described above with reference to the preferred embodiments, it is obvious that those skilled in the art can take various modifications based on the basic technical idea and teachings of the present invention. It is.

Claims (3)

  1. 天板と、底板と、複数の側板部材と、複数の棒部材とを含む雨水等処理装置であって、
     前記天板及び底板は、前記複数の側板部材を、それぞれ上下から挟み込んだ状態で対面
    して配置されており、 
     前記複数の側板部材は、2つの矩形面を有するL字形状の一体成形物であり、前記天板部材と前記底板とで挟まれた空間を、前記2つの矩形面により碁盤目状に仕切るように縦横に組み合わせて配置され、
     前記複数の棒部材は、前記複数の側板部材の側端面うち、対面する2組の側端面によって囲まれた隙間に挿入されている、
    雨水等処理装置。
    A rainwater treatment apparatus including a top plate, a bottom plate, a plurality of side plate members, and a plurality of bar members,
    The top plate and the bottom plate are arranged facing each other with the plurality of side plate members sandwiched from above and below,
    The plurality of side plate members are L-shaped integrally molded products having two rectangular surfaces, and a space between the top plate member and the bottom plate is partitioned into a grid pattern by the two rectangular surfaces. Are arranged in combination vertically and horizontally,
    The plurality of rod members are inserted into a gap surrounded by two sets of facing side end surfaces among the side end surfaces of the plurality of side plate members,
    Rainwater treatment equipment.
  2.  請求項1記載の雨水等処理装置であって、
     前記複数の側板部材のうちの1組を、互いに対向してロ字状に組み合わせてなる桝体を複数備え、
     前記複数の桝体は、一方の前記側端面が他方の前記側端面と対面して前記隙間を形成するように、斜め方向に隣り合って配置されている、
    雨水等処理装置。
    The treatment apparatus for rainwater according to claim 1,
    A plurality of housings formed by combining one set of the plurality of side plate members in a square shape facing each other,
    The plurality of housings are arranged adjacent to each other in an oblique direction so that one of the side end faces faces the other side end face to form the gap.
    Rainwater treatment equipment.
  3.  請求項2記載の雨水等処理装置であって、
     前記複数の桝体に含まれる前記側端面のうち、前記隙間を形成せず、端部において隣り合う1組の前記側端面が、互いに結合されている、
    雨水等処理装置。
    A treatment device for rainwater or the like according to claim 2,
    Of the side end surfaces included in the plurality of housings, the pair of side end surfaces adjacent to each other without forming the gap are joined to each other.
    Rainwater treatment equipment.
PCT/JP2008/000992 2008-04-15 2008-04-15 Treatment equipment for rainwater, etc. WO2009128117A1 (en)

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CN200880000088XA CN101711299B (en) 2008-04-15 2008-04-15 Treatment equipment for rainwater
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PCT/JP2008/000992 WO2009128117A1 (en) 2008-04-15 2008-04-15 Treatment equipment for rainwater, etc.
HK10109001.6A HK1142645A1 (en) 2008-04-15 2010-09-21 Reservoir facility for rainwater

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JP2011144579A (en) * 2010-01-15 2011-07-28 Ebata Kk Lid member, assembly, and underground water storage facility using the assembly
JP2012057388A (en) * 2010-09-10 2012-03-22 Ebata Kk Assembly for rainwater storage permeation facility and rainwater storage permeation facility using the same
AT511212A4 (en) * 2011-07-13 2012-10-15 Peneder Christian PLANTABLE GRID BODY
US20160312427A1 (en) * 2013-12-10 2016-10-27 Hisses Blocks (Pty) Ltd Embankment Support
JP2017218830A (en) * 2016-06-09 2017-12-14 エバタ株式会社 Assembly body for rainwater storage and infiltration facility
CN108625452A (en) * 2018-04-25 2018-10-09 河南省海绵城市建设有限公司 A kind of sponge city sectional polyurethane water landscape ecology self-circulation system
WO2023130095A1 (en) * 2021-12-30 2023-07-06 Advanced Drainage Systems, Inc. Stormwater box with trusses

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JP2005016084A (en) * 2003-06-24 2005-01-20 Ebata Kk Rainwater storage/storage-infiltration tank
JP2006214103A (en) * 2005-02-01 2006-08-17 Ebata Kk Basin body, and facility for storing and infiltrating rainwater and the like by using it

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011144579A (en) * 2010-01-15 2011-07-28 Ebata Kk Lid member, assembly, and underground water storage facility using the assembly
JP2012057388A (en) * 2010-09-10 2012-03-22 Ebata Kk Assembly for rainwater storage permeation facility and rainwater storage permeation facility using the same
AT511212A4 (en) * 2011-07-13 2012-10-15 Peneder Christian PLANTABLE GRID BODY
AT511212B1 (en) * 2011-07-13 2012-10-15 Peneder Christian PLANTABLE GRID BODY
US20160312427A1 (en) * 2013-12-10 2016-10-27 Hisses Blocks (Pty) Ltd Embankment Support
JP2017218830A (en) * 2016-06-09 2017-12-14 エバタ株式会社 Assembly body for rainwater storage and infiltration facility
CN108625452A (en) * 2018-04-25 2018-10-09 河南省海绵城市建设有限公司 A kind of sponge city sectional polyurethane water landscape ecology self-circulation system
WO2023130095A1 (en) * 2021-12-30 2023-07-06 Advanced Drainage Systems, Inc. Stormwater box with trusses

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HK1142645A1 (en) 2010-12-10
CN101711299A (en) 2010-05-19

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