JP2004003249A - Grating, drainage structure therewith, and gutter block - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a grating with a simple structure, which drains not only rainwater flowing down the surface of a road, but also rainwater collecting in depressions formed between the road and gutter blocks. <P>SOLUTION: The grating 3 includes a grating body 10, and a mating part 11 that fits into a mating recess 7 provided in a sidewall 1a of the gutter block 1 and opened upwards and toward both sides. The grating 3 has a drainage channel 12 extending from the tip of the mating part 11 into the gutter block 1. The drainage channel 12 comprises: at least a gap formed between adjacent extension frame parts 17 and 17; and another gap formed between adjacent first frames 16 and 16 from which the extension frame parts 17 and 17 extend, and communicating with the former gap between the extension frame parts 17 and 17. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a grating, a drainage structure including the grating, and a drainage structure provided with the grating, which is disposed in an opening portion of the gutter block installed along the road so as to cover a water channel in the gutter block. It is about.
[0002]
2. Description of the Related Art
Conventional gratings are provided so as to be placed on lid-covered steps provided at the upper portions of both side walls at the opening of a U-shaped side groove block as a side groove block arranged along a road. . The upper surface of the grating is flush with the upper surfaces of both side walls of the U-shaped gutter block, and the upper surface of one side wall of the U-shaped gutter block is flush with the pavement surface of the road. Had become. As a result, rainwater or the like flowing on the road surface passes through the upper surface of the one side wall of the U-shaped gutter block, flows into the grating, and further from the grating, enters the U-shaped gutter block. Was to be drained.
[0003]
However, the pavement surface of the road partially overlaps with the U-shaped gutter block when the U-shaped gutter block is used because the rolling pressure cannot be sufficiently performed around the U-shaped gutter block. May be lower than the upper surface of the side wall. In this way, when the pavement surface of the road goes down, rainwater and the like flowing on the road surface are stopped at one side wall, and the rainwater and the like accumulate at the lowered portion, but with the conventional grating, The accumulated rainwater and the like cannot be drained into the U-shaped gutter block.
[0004]
However, as an invention capable of draining rainwater collected at the time of forming the gutter block into the gutter block, there is, for example, a water guide member disclosed in JP-A-11-269969. This water guide member is mounted on a hole or notch formed in the side wall or upper wall of the side groove block and communicating from the outer surface to the inner surface, and has a plate-shaped base wall. Between the front and back surfaces of the plate-shaped base wall, there are provided water-contacting water introduction holes for guiding groundwater or surface water in contact with the side wall of the gutter block into the gutter block. A surface water introduction hole for guiding surface water into the gutter block was provided on the extension wall extending from the upper portion of the wall or on the upper surface of the plate-shaped base wall. Then, rainwater or the like accumulated in a depression such as a step portion which comes into contact with the gutter block caused by a depression of a road or the like is guided into the gutter block from the water contact hole.
[0005]
However, in this water guide member, the surface water inlet and the water inlet are respectively opened in different directions, that is, the surface water inlet is opened upward, and the water inlet is opened laterally. Therefore, it is necessary to configure the water guiding member so that the surface water introducing hole and the water contacting water guiding hole open in different directions, and the structure becomes complicated.
[0006]
The present invention has been made in order to solve the above-mentioned conventional problems, and has an object of not only a simple structure, but also a rain gutter or the like that flows on a road surface, and a gutter block. It is an object of the present invention to provide a grating capable of draining rainwater or the like that accumulates in the recess formed in the gutter into the gutter block, a drainage structure provided with the grating, and a gutter block.
[0007]
[Means for Solving the Problems]
The grating according to the present invention has the following configuration to achieve the above object. That is,
The grating according to the first aspect of the present invention is a grating that is provided in an opening that opens upward of a gutter block installed along a road so as to cover a water channel in the gutter block. . The grating is provided with a plurality of drain holes which are formed so as to penetrate up and down for draining rainwater or the like, and are placed on a stepped portion provided with a lid provided in the opening. A main body, a fitting portion extending from the grating main body to a fitting recess provided on at least one side wall of the side groove block and opening upward and to both sides, and fitted in the fitting recess; And a drainage channel communicating with the inside of the side groove block from the front end of the joint. The grating main body includes a plurality of first frames arranged side by side at intervals, and includes a mounting portion. The first grating main body, the mounting portion, and the lid hanging step portion are hung on the mounting portion. A second grating main body detachably mounted on the first grating main body and the lid hooking step so as to be passed, and the fitting portion is at least two of the plurality of first frame bodies. It comprises a plurality of extending frame portions, each extending from one of the first frames. Further, the drainage channel is formed at least between the adjacent first frame members, a gap formed between the adjacent extension frame portions, and the extension frame member portion extending. A gap communicating with the gap between the extension frame portions.
[0008]
According to this, the first grating body has a simple configuration in which a plurality of first frames extending from the extension frame portion are arranged side by side at intervals, and is opened laterally and upward and downward. An open drainage channel is formed. Then, the fitting portion of the grating is fitted into the fitting concave portion provided on at least one side wall of the side groove block, and the opening of the side groove block is covered with the water passage in the side groove block, so that the grating is formed. By disposing the drainage passage, the drainage channel communicates with the inside of the side groove block from the distal end of the fitting portion. Thus, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage port and drainage channel of the grating. In addition, since the drainage channel is continuously opened from the upper end to the lower end at the front end of the fitting portion, even if the pavement surface of the road is lowered and depressed near the gutter block, If it is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, regardless of the depth of the depression, rainwater or the like accumulated in the depression is drained to the adjacent extension. It is possible to drain water into the gutter block through a gap formed between the frame portions and a gap formed between the adjacent first frame portions where the extension frame portion extends. When the road is a water-permeable road having a water-permeable layer, rainwater or the like soaked in the water-permeable layer is drained into the gutter block through the drainage channel. Further, it is also possible to leave the first grating main body from which the fitting portion extends in the side groove block and remove only the second grating main body from the side groove block.
[0009]
Further, like the grating according to the second aspect of the present invention, it is desirable to provide a fixing means for detachably fixing the second grating main body to the placing portion. According to this, for example, when the first grating main body including the mounting portion is fixed to the gutter block, the second grating main body is mounted on the mounting portion of the first grating main body using the fixing means. By being detachably fixed, the second grating body does not come off the gutter block.
[0010]
According to the grating according to the third aspect of the invention, the fitting portion is provided on one side of the grating main body, and the first grating main body becomes the lid-hanging step portion. A first base is mounted on the first step portion of the side wall on which the concave portion is provided, and the plurality of first frames are arranged side by side so as to be mounted on the first base. Has been established. A second base mounted on the second step on the side wall opposite to the side where the fitting recess is provided, the second base being the lid-hanging step; A second frame on which one end rests and the other end rests on the second base.
[0011]
The first base of the first grating main body is placed on the first step portion of the side wall on which the fitting concave portion is provided, so that the fitting portion is fitted into the fitting recess, and thereafter, the first grating main body On the mounting portion of the second grating body, one end of the second frame body is mounted, and the second step portion of the side wall on the side opposite to the side where the fitting recess is provided is provided with the second Place the second base of the grating body. Thereby, the first frame of the first grating main body and the second frame of the second grating main body are arranged in the opening of the side groove block. Then, rainwater or the like that has accumulated in the pit formed at the time of the gutter block, or rainwater or the like that has permeated the permeable layer of the permeable road is drained into the gutter block through the drainage channel.
[0012]
Further, as in the grating according to the fourth aspect of the present invention, it is preferable that the mounting portion be formed of the upper surface of the first base. This simplifies the configuration of the mounting section.
[0013]
Further, the grating according to the invention of claim 5 is provided in such a manner that the gutter is provided in an opening of a gutter block installed along a road so as to cover a water channel in the gutter block. It is. The grating is provided with a plurality of drain holes which are formed so as to penetrate up and down for draining rainwater or the like, and are placed on a stepped portion provided with a lid provided in the opening. A main body, a fitting portion extending from the grating main body to a fitting recess provided on at least one side wall of the side groove block and opening upward and to both sides, and fitted in the fitting recess; And a drainage channel communicating with the inside of the side groove block from the front end of the joint. Further, the grating body includes a plurality of frames arranged side by side at intervals. The fitting portion includes a plurality of extending frame portions extending from at least two of the plurality of frame members, and the drainage channel is adjacent to the extending frame portion. And a gap formed between the adjacent frame bodies and extending between the adjacent frame bodies and communicating with the gap between the extension frame body parts.
[0014]
According to this, with a simple configuration in which a plurality of frames of the grating main body, in which the extending frame portions extend, are arranged side by side at intervals, the drainage is opened laterally and opened upward and downward. A path is formed. Then, the fitting portion of the grating is fitted into the fitting concave portion provided on at least one side wall of the side groove block, and the opening of the side groove block is covered with the water passage in the side groove block, so that the grating is formed. By disposing the drainage passage, the drainage channel communicates with the inside of the side groove block from the distal end of the fitting portion. Thus, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage port and drainage channel of the grating. In addition, since the drainage channel is continuously opened from the upper end to the lower end at the front end of the fitting portion, even if the pavement surface of the road is lowered and depressed near the gutter block, If it is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, regardless of the depth of the depression, rainwater or the like accumulated in the depression is drained to the adjacent extension. It is possible to drain water into the gutter block through a gap formed between the frame portions and a gap formed between the adjacent first frame portions where the extension frame portion extends. When the road is a water-permeable road having a water-permeable layer, rainwater or the like soaked in the water-permeable layer is drained into the gutter block through the drainage channel.
[0015]
Further, as in the grating according to the invention described in claim 6, the grating main body includes a base mounted on the lid-hanging step, and the plurality of frames are mounted on the base. It is desirable that they are arranged side by side at intervals. According to this, by mounting the base of the grating body on the lid hooking step on the side wall so as to fit the fitting portion into the fitting recess, the plurality of frames of the grating body are formed of the side groove block. The openings are arranged in parallel at intervals. Then, rainwater or the like that has accumulated in the pit formed at the time of the gutter block, or rainwater or the like that has permeated the permeable layer of the permeable road is drained into the gutter block through the drainage channel.
[0016]
Further, the grating according to the invention of claim 7 is provided in such a manner that the gutter is provided in an opening of a gutter block installed along a road so as to cover a water channel in the gutter block. It is. The grating is provided with a plurality of drain holes which are formed so as to penetrate up and down for draining rainwater or the like, and are placed on a stepped portion provided with a lid provided in the opening. A main body and a fitting portion extending from the grating main body to a fitting recess provided on at least one side wall of the side groove block and opening upward and to both sides, and fitted in the fitting recess. I have. The fitting portion is formed to be narrower than the fitting recess so that a water collecting gap is formed between the fitting portion and a side surface of the fitting recess, which communicates with the inside of the side groove block. Have been.
[0017]
According to this, the fitting portion of the grating is fitted into the fitting concave portion provided on at least one side wall of the gutter block, so that the opening of the gutter block covers the water passage in the gutter block. Thus, by providing the grating, a water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and the side surface of the fitting concave portion. Thus, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage of the grating. Also, rainwater or the like that has accumulated in the pit formed at the time of the gutter block, or rainwater or the like that has permeated the permeable layer of the water-permeable road passes through the water collecting gap between the fitting portion and the side surface of the fitting recess. And drained into the gutter block.
[0018]
The invention according to claim 8 is a drainage structure including the grating according to claims 1 to 6 and the side groove block. The side groove block is buried along the road such that the side wall provided with the fitting concave portion is arranged on the road side, and the grating is formed by fitting the fitting portion with the fitting portion. The grating body is fitted in the recess, and is disposed in the opening of the side groove block. Thus, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage port and drainage channel of the grating. In addition, even if the pavement surface of the road is lowered near the gutter block, if it is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, the depth of the depression Irrespective of this, rainwater or the like accumulated in the pit is drained, a gap formed between adjacent extending frame portions, and between adjacent first frame portions where the extending frame portions extend. It is possible to drain water into the gutter block through the gap formed in the groove. Also, rainwater or the like that has permeated the permeable layer of the permeable road is drained into the gutter block through a drainage channel.
[0019]
Further, like the drainage structure provided with the grating according to the invention of claim 9, the side wall of the side groove block provided with the fitting recess is recessed from the bottom surface of the fitting recess, and the fitting is performed. It is preferable that a first concave portion is provided which opens to both sides of the side wall provided with the combined concave portion, and that the upper portion of the first concave portion is covered by the fitting portion. According to this, since the first concave portion is provided so as to be located below the fitting portion fitted in the fitting concave portion of the side groove block, when the road is a water-permeable road, the first concave portion is provided. Rainwater or the like that has also permeated downward is drained into the gutter block through the first recess.
[0020]
Further, like the drainage structure provided with grating according to the invention according to claim 10, the side groove block of the side groove block is provided with the lid so as to communicate with the first concave portion. It is preferable that a second recess is provided, which is recessed from the hanging step and opens to a water channel in the side groove block. Thereby, rainwater or the like that has passed through the first recess is drained to the water channel in the side groove block through the second recess communicating with the first recess.
[0021]
A drainage gap is formed between the fitting portion and the side surface of the fitting concave portion, which communicates with the inside of the side groove block, as in the drainage structure having grating according to the invention of claim 11. Is desirable. Thereby, rainwater or the like is drained into the gutter block through the water collecting gap between the fitting portion and the side surface of the fitting recess.
[0022]
Further, as in the drainage structure provided with the grating according to the invention of claim 12, a water-collecting opening in which a suction-preventing material for preventing passage of solids such as pebbles is opened at a tip of the drainage channel. It is desirable to provide the cover so as to cover the portion and the side of the first concave portion. Thereby, the water collecting opening of the drainage channel and the side of the first concave portion of the gutter block are covered with the suction preventing material, so that solids such as pebbles do not enter the gutter block.
[0023]
The invention according to claim 13 is a drainage structure including the grating according to claim 7 and the side groove block. The side groove block is buried along the road such that the side wall provided with the fitting concave portion is arranged on the road side, and the grating is formed by fitting the fitting portion with the fitting portion. The grating body is fitted in the recess, and is disposed in the opening of the side groove block. Then, a water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and a side surface of the fitting concave portion. Thereby, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage port of the grating. In addition, it becomes possible to drain rainwater or the like accumulated in a dent formed near the side groove block into the side groove block via a water collecting gap between the fitting portion and the side surface of the fitting concave portion. .
[0024]
An invention according to claim 14 is a drainage structure including the grating according to any one of claims 1 to 6 and the gutter block. The side groove block is buried along the road such that the side wall provided with the fitting concave portion is arranged on the road side, and the grating is formed by fitting the fitting portion with the fitting portion. The grating body is fitted in the recess, and is disposed in the opening of the side groove block. And, on the side wall provided with the fitting concave portion of the side groove block, the fitting concave portion is erected so as to cover an outer side, separating the road and the fitting concave portion, A plurality of separation plates are provided, and between the separation plates, a first communication portion communicating with the grating drainage channel is formed, and the first communication portion is opened upward. It is formed and continuously formed up to the bottom surface of the fitting recess.
[0025]
As a result, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage port and drainage channel of the grating. In addition, even if the pavement surface of the road is lowered near the gutter block, if it is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, the depth of the depression Irrespective of the above, the rainwater or the like accumulated in the depression is drained into the gutter block through the first communication portion formed between the separation plates and the drainage passage communicating with the first communication portion. Then, rainwater or the like that has permeated the permeable layer of the permeable road is also drained into the gutter block through the first communication portion and the drainage channel. In addition, since the tip of the fitting portion fitted in the fitting recess is covered with a separating plate, when pavement of a road, for example, asphalt constituting a road, and the tip of the fitting portion. Is cut off. Therefore, the grating can be easily removed from the side groove block. Further, even if the grating is removed, the partition plate covers the outer side of the fitting recess, so that a part of the road does not fall into the fitting recess.
[0026]
According to the invention of claim 15, as in the drainage structure including grating, the plurality of separating plates are formed of a plurality of plate members, and the first communication portion is formed between the plate members. Preferably, it consists of a gap.
[0027]
Further, as in the drainage structure with grating according to the invention of claim 16, a water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and the side surface of the fitting concave portion. It is preferable that a second communicating portion including a gap, which communicates with the water collecting gap, is formed between the separating plate and a side end portion of the fitting concave portion. Thereby, rainwater or the like passes through the second communication portion between the separating plate and the side end portion of the fitting recess, and the water collecting gap between the fitting portion and the side surface of the fitting recess, Drained into gutter block.
[0028]
Further, as in the drainage structure with grating according to the invention according to claim 17, the suction prevention member for preventing passage of solids such as pebbles includes the first communication portion and the second communication portion. It is desirable to provide it so as to cover the communication part. Thus, the first communication portion and the second communication portion are covered with the suction prevention material, so that solids such as pebbles do not enter the gutter block.
[0029]
The invention according to claim 18 is a drainage structure including the grating according to claim 7 and the side groove block. The side groove block is buried along the road such that the side wall provided with the fitting concave portion is arranged on the road side, and the grating is formed by fitting the fitting portion with the fitting portion. The grating body is fitted in the recess, and is disposed in the opening of the side groove block. A water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and a side surface of the fitting concave portion, and the fitting concave portion of the side groove block is provided. A partition plate is provided on the side wall and stands upright so as to cover the outer side of the fitting concave portion, and separates the road from the fitting concave portion. A communication portion formed of a gap is formed between the water collecting gap and the side end of the joint recess.
[0030]
As a result, rainwater or the like flowing on the road surface is drained into the gutter block through the drainage of the grating. In addition, rainwater or the like accumulated in the depression formed near the side groove block passes through a communication portion between the separation plate and the side end portion of the fitting concave portion and a water collecting gap communicating with the communication portion. Then, the water is drained into the gutter block. Then, rainwater or the like that has permeated into the permeable layer of the permeable road is also drained into the gutter block through the communication portion and the water collecting gap. In addition, since the tip of the fitting portion fitted in the fitting recess is covered with a separating plate, when pavement of a road, for example, asphalt constituting a road, and the tip of the fitting portion. Is cut off. Therefore, the grating can be easily removed from the side groove block. Further, even if the grating is removed, the partition plate covers the outer side of the fitting recess, so that a part of the road does not fall into the fitting recess.
[0031]
Further, like the drainage structure provided with grating according to the invention of claim 19, the side groove block of the side groove block is recessed from the lid hooking step on the side wall where the fitting concave portion is provided. It is desirable to provide a concave portion that opens to the inner waterway. Thus, when rainwater or the like flows to the step with the lid through the drainage channel of the grating, the drainage port or the water collecting gap, the rainwater or the like on the step with the lid passes through the concave portion, and flows in the gutter block. Drained into waterways.
[0032]
A gutter block according to a twentieth aspect of the present invention is a gutter block in which grating is provided in an opening that opens upward so as to cover an inner waterway. A fitting recess into which the fitting portion of the grating is fitted is formed on at least one of the side walls so as to open upward and to both sides. , A plurality of separating plates are provided upright so as to cover the outer side. And, between the separation plates, a first communication portion is formed, which communicates with a drainage channel communicating from the distal end portion of the fitting portion into the side groove block, and the first communication portion is formed upward. It is formed so as to open, and is formed continuously up to the bottom surface of the fitting recess.
[0033]
According to this, since the tip of the fitting part of the grating fitted in the fitting recess is covered with the separating plate, when pavement of the road, for example, asphalt or the like constituting the road, the fitting is performed. The edge of the joint is cut off. Therefore, the grating can be easily removed from the side groove block. Further, even if the grating is removed, the partition plate covers the outer side of the fitting recess, so that a part of the road does not fall into the fitting recess.
[0034]
Further, like the side groove block according to the invention of claim 21, the plurality of separating plates are formed of a plurality of plate members, and the first communication portion is formed of a gap formed between the plate members. desirable.
[0035]
Further, as in the side groove block according to the invention of claim 22, a second communication portion including a gap is formed between the separation plate and a side end portion of the fitting concave portion, and It is preferable that the two-column passage portion communicates with a water collecting gap formed between the fitting portion and a side surface of the fitting recess and communicating with the inside of the side groove block. Thereby, rainwater and the like, the second communication portion formed between the separating plate and the side surface end of the fitting concave portion, and a water collecting gap between the fitting portion and the side surface of the fitting concave portion. And drains into the gutter block.
[0036]
A gutter block according to a twenty-third aspect of the present invention is a gutter block in which grating is provided in an opening that opens upward so as to cover an inner waterway. A fitting recess into which the fitting portion of the grating is fitted is formed on at least one of the side walls so as to open upward and to both sides. , Is provided so as to cover the outer side. Further, a communication portion including a gap is formed between the separation plate and a side end portion of the fitting recess, and the communication portion is formed between the fitting portion and a side surface of the fitting recess. It communicates with a catchment gap formed between the gutter blocks, which is formed therebetween.
[0037]
According to this, since the tip of the fitting part of the grating fitted in the fitting recess is covered with the separating plate, when pavement of the road, for example, asphalt or the like constituting the road, the fitting is performed. The edge of the joint is cut off. Therefore, the grating can be easily removed from the side groove block. Further, even if the grating is removed, the partition plate covers the outer side of the fitting recess, so that a part of the road does not fall into the fitting recess.
[0038]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a grating according to the present invention, a drainage structure including the grating, and a gutter block will be described below with reference to the drawings.
[0039]
1 to 7 show a first embodiment of a grating, a drainage structure provided with the grating, and a gutter block according to the present invention. In the figure, reference numeral 1 denotes a gutter block such as a U-shaped gutter block installed along a water-permeable road 2 having a water-permeable layer 2a and an impermeable layer 2b located thereunder. (In the illustrated embodiment, the longitudinal dimension of the gutter block is 2 meters). Reference numeral 3 denotes a grating which is provided in an opening 4 of the gutter block 1 that opens upward so as to cover the water passage S in the gutter block 1.
[0040]
The side groove block 1 is provided with a first step portion 5 serving as a lid hooking step portion R for mounting the grating 3 or a side groove cover (not shown) on the upper inside of one of the side walls 1a. Also, a second step 6 is provided inside the upper portion of the other side wall 1b, which serves as a step R for holding the grating 3 or the gutter. In the upper part of one side wall 1a, there is provided a fitting recess 7 which opens upward and to both sides (in the illustrated embodiment, the fitting recess 7 has a longitudinal dimension of about 50 cm). Is).
[0041]
The side wall of the side groove block 1 on which the fitting recess 7 is provided, that is, one side wall 1a is recessed from the bottom surface 7a of the fitting recess 7 and opens to both sides of the one side wall 1a. , The first recess 8 is provided, and the bottom surface of the first recess 8 and the bottom surface of the first step portion 5 are flush with each other. Further, one side wall 1a of the side groove block 1 communicates with the first concave portion 8 and is recessed from the first step portion 5, which is the step portion R that is a lid, and opens to the water passage S in the side groove block 1. A second concave portion 9 is provided (in the illustrated embodiment, the second concave portion 9 is inclined so as to descend toward the inside of the one side wall 1a).
[0042]
The grating 3 is placed on the first step portion 5 and the second step portion 6 which are lid-covered step portions R provided on the one side wall 1a and the other side wall 1b at the opening 4 of the side groove block 1. The grating body 10 is provided with a plurality of drain holes H, H for draining rainwater or the like, which are opened so as to penetrate vertically. The grating 3 extends from the grating body 10 to the fitting recess 7 and fits into the fitting recess 7. The fitting portion 11 (the fitting portion 11 in the illustrated embodiment is provided only on one side of the grating body 10). Provided). Further, the grating 3 is provided with a drainage channel 12 which communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11.
[0043]
The grating main body 10 includes a first grating main body 13 having a mounting portion 13a and the fitting portion 11 extending, and a second step portion which is a mounting portion 13a of the first grating main body 13 and a lid hooking step portion R. 6 and a second grating body 14 which is detachably mounted on the first grating body 13 and the second step portion 6. The upper surface 11a of the fitting portion 11, the upper surface 13b of the first grating body 13, and the upper surface 14a of the second grating body 14 have substantially the same height. Similarly to the first grating main body 13 and the second grating main body 14, a plurality of drain holes H, H are formed so as to penetrate vertically so as to drain rainwater and the like.
[0044]
The first grating main body 13 is placed on the side wall on the side where the fitting concave portion 7 is provided, that is, the lid stepped portion R, that is, the first stepped portion 5 of one side wall 1a, for example, a square pipe shape, A first base 15 is provided. A part of the upper surface of the first base 15 serves as the mounting portion 13a. Also, on the upper inner side surface (the surface corresponding to the lower surface of the mounting portion 13a) on both sides of the first base 15, the second grating main body 14 is detachably fixed to the mounting portion 13a. A nut N1 is attached as a fixing means N by welding or the like. Further, the first grating main body 13 includes a plurality of first frame bodies 16 provided with the drain holes H, which are arranged side by side on the first base 15 at intervals (four rows in the illustrated embodiment), 16 is provided. The first frame 16 is a part of a rectangular lattice W in plan view (FIG. 6) in which a plurality of drain holes H, H are formed by dividing the inside of the outer frame into a plurality by the partitioning material. , The portion excluding the portion indicated by the symbol L, that is, the portion located on the fitting concave portion 7). The remaining portion of the lattice body W (in FIG. 6, a region indicated by reference numeral L1, that is, a portion located on the fitting concave portion 7) is at least two of the first frames 16 among the plurality of first frames 16. The fitting portion 11 includes an extended frame portion 17 that extends from the frame 16 (all the first frames 16 in the illustrated embodiment). The lattice members W, W arranged in parallel at intervals are fixed to the first base 15 by welding or the like.
[0045]
The second grating main body 14 is placed on the side wall on the side opposite to the side where the fitting concave portion 7 is provided, that is, the second step portion 6 of the other side wall 1b, which serves as the lid-covered step portion R, for example. The interval is set such that one end is placed on the second base 18 and the mounting portion 13a described above, and the other end is placed on the second base 18. And a plurality of second frames 19, 19 having the drain holes H arranged side by side (four rows in the illustrated embodiment). The second frame 19 is formed of a lattice W1 having a rectangular shape in a plan view, and a plurality of drain holes H, H are formed by partitioning the inside of the outer frame into a plurality of sections. A bolt passing space for passing a bolt N2 as a fixing means N is provided at one end of the second frames 19 located on both left and right sides of the plurality of second frames 19 arranged in parallel. T is formed, and through holes 19a, 19a are provided in the mounting portion 13a of the first base 15 so as to correspond to the bolt passing space T. Accordingly, the bolt N2 as the fixing means N is inserted into the bolt passing space T, and is also passed through the through hole 19a and screwed into the nut N1, so that the second grating body 14 is placed as described above. It is detachably fixed to the portion 13a. Each of the lattice members W1 and W1 arranged in parallel at intervals has one end side fixed to a fixing member Q made of an angle material by welding or the like, and the other end side corresponds to the second base member. It is fixed to the table 18 by welding or the like.
[0046]
The drainage channel 12 includes a first drainage channel 20 provided in the fitting portion 11, a second drainage channel 21 provided in the first grating main body 13, and a third drainage channel 22 provided in the second grating main body 14. And The first drainage channel 20 is formed of a gap formed between the adjacent extension frame portions 17, 17 (accordingly, the water collecting port portion 12a opened at the tip of the drainage channel 12 is fitted with the fitting portion). The second drainage channel 21 is provided between the adjacent first frames 16, 16 in which the extending frame portions 17, 17 extend. The third drainage channel 22 is formed between the adjacent second frames 19, 19, and is formed of a gap communicating with the gap of the extension frame portions 17, 17. A gap communicates with the gap between the frame members 16, 16. Since the second drainage channel 21 and the third drainage channel 22 also serve as the drainage port H, the drainage channel 12 has the drainage port H on the side communicating with the side groove block 1. However, the third drainage channel 22 also functions as the drainage channel 12, but mainly functions as the drainage port H.
[0047]
In the illustrated embodiment, one end of the second grating body 14 is placed on the mounting portion 13a of the first grating body 13 so that the first frame 16 and the second frame 19 However, they are slightly adjacent to each other (in the illustrated embodiment, a gap K is formed between the first frame 16 and the second frame 19, which forms the drain hole H and the drain channel 12). As a result, the second drainage channel 21 and the third drainage channel 22 are slightly adjacent to each other and communicate with each other. However, the first frame 16 and the second frame 19 may be in contact with and adjacent to each other. Further, in the illustrated embodiment, an example has been described in which the first grating main body 13 is not fixed to the one side wall 1a of the side groove block 1, but the first grating main body 13 is fixed to the one side by bolting or embedding. May be fixed to the side wall 1a.
[0048]
Next, a method of attaching the grating 3 shown in the first embodiment will be described. First, the fitting portion 11 of the grating 3 is fitted into the fitting recess 7 of the side groove block 1, so that the side wall on which the fitting recess 7 is provided, that is, the first step portion 5 of one side wall 1a. Then, the first base 15 of the first grating main body 13 is placed thereon, and then one end of the second frame 19 of the second grating main body 14 is placed on the mounting portion 13a of the first grating main body 13. Then, the second base 18 of the second grating body 14 is placed on the side wall opposite to the side where the fitting recess 7 is provided, that is, on the second step 6 of the other side wall 1b. Thereby, the plurality of first frames 16, 16 of the first grating body 13 and the plurality of second frames 19, 19 of the second grating body 14 are spaced apart from each other at the opening 4 of the side groove block 1. They are arranged in parallel. Next, the bolts N2 as fixing means N are inserted into the bolt passing spaces T, T of the second grating main body 14, and screwed into the nuts N1 as the fixing means N of the first grating main body 13, whereby the second grating is formed. The main body 14 is detachably fixed to the mounting portion 13a of the first grating main body 13.
[0049]
In this manner, the fitting portion 11 of the grating 3 is fitted into the fitting concave portion 7 of the side groove block 1 so that the opening 4 of the side groove block 1 covers the water passage S in the side groove block 1. By disposing the grating 3, the drainage channel 12 communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11. In addition, the first concave portion 8 is covered with the fitting portion 11 to form a water channel, and the first concave portion 8 and the second concave portion 9 correspond to the first base 15 of the first grating body 13, The side groove block 1 communicates with a rising wall 5a of the first step portion 5 through a gap K1 formed between the side wall block 1 and the rising wall 5a. In addition, on one side wall 1a of the gutter block 1, a suction-preventing material P for preventing the passage of solids such as pebbles is provided on the water collecting port 12a of the drainage channel 12 of the grating 3 and the first side. It is provided so as to cover the side of the recess 8. The suction prevention material P is attached to one of the side walls 1a with a double-sided tape or the like.
[0050]
In the vicinity of the gutter block 1, for example, the rolling pressure of the pavement surface 2c of the permeable road 2 cannot be sufficiently performed. The rainwater or the like soaked in the permeable layer 2a passes through the drainage channel 12, that is, the first drainage channel 20, which is a gap formed between the adjacent extension frame portions 17, 17, and extends from the extension frame portion. The water flows into the second drainage channel 21 formed between the adjacent first frames 16, 16 extending from the first frame 16, and is drained into the gutter block 1. From 21, the water further flows into the third drainage channel 22 formed between the adjacent second frame bodies 19 and 19 and is drained into the gutter block 1. Also, rainwater or the like that has permeated below the fitting portion 11 passes through the first concave portion 8, passes through the second concave portion 9 communicating with the first concave portion 8, and passes through the water passage S in the side groove block 1. Drained to
[0051]
According to the grating 3 and the drainage structure including the grating 3 and the side groove block 1 shown in the first embodiment, the plurality of first frames of the first grating main body 13 to which the extension frame 17 extends. With a simple configuration in which 16 and 16 are arranged side by side at intervals, a drainage channel 12 that opens laterally and opens upward and downward is formed. In addition, the number of drainage channels 12 can be easily adjusted by changing the number of the plurality of first frames 16 extending from the extending frame portions 17. Further, by changing the distance between the adjacent extension frame portions 17, 17, the width of the water collecting port portion 12 a of the drainage channel 12 can be easily changed.
[0052]
Then, rainwater or the like flowing on the surface of the water-permeable road 2 as a road is drained into the gutter block 1 through the drain hole H of the grating 3 and the drain channel 12. Then, rainwater or the like that accumulates in the depression M formed at the time of the formation of the gutter block 1 can be drained from the drainage channel 12 into the gutter block 1. Also, rainwater or the like that has permeated into the permeable layer 2 a of the permeable road 2 can be drained from the drainage channel 12 into the gutter block 1. Further, since the second drainage channel 21 of the first frame 16 and the third drainage channel 22 of the second frame 19 are adjacent to each other, drainage of rainwater or the like can be performed smoothly.
[0053]
In addition, if the depth of the depression M that the pavement surface 2c of the water-permeable road 2 is lowered and depressed is a depression due to a fall within a range from the upper end to the lower end of the front end of the fitting portion 11, the depression M Irrespective of the depth, rainwater or the like collected in the depression M is collected from the water collecting port 12a of the drainage channel 12 opened at the tip of the fitting portion 11, and is constantly drained into the gutter block 1. Can be. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression M. In addition, since the drain channel 12 has a drain port H on the side communicating with the side groove block 1, the configuration of the drain channel 12 can be simplified. Further, since the first concave portion 8 is provided so as to be located below the fitting portion 11 fitted in the fitting concave portion 7 of the side groove block 1, the rainwater soaked below the fitting portion 11 is provided. Can be surely drained from the first recess 8 to the water passage S in the side groove block 1 by passing through the second recess 9 communicating with the first recess 8 via the gap K1.
[0054]
Also, since the grating body 10 is composed of the first grating body 13 extending the fitting portion 11 and the second grating body 14, the first grating body 13 extending the fitting portion 11 is left in the side groove block 1. Since only the second grating body 14 can be removed from the gutter block 1, maintenance of the gutter block 1 such as cleaning of the water channel S is easy. Further, since the second grating body 14 is detachably fixed to the mounting portion 13a of the first grating body 13 by the fixing means N, for example, the first grating body 13 is fixed to the side groove block 1. In this case, the second grating body 14 does not come off the gutter block 1. Moreover, since the mounting portion 13a is formed of the upper surface of the first base 15 of the first grating main body 13, the configuration of the mounting portion 13a can be simplified.
[0055]
In addition, since the water collecting port 12a of the drainage channel 12 and the side of the first concave portion 8 are covered with the suction prevention material P, solids such as pebbles do not enter the gutter block 1. .
[0056]
8 to 14 show a second embodiment of the grating, the drainage structure provided with the grating, and the gutter block 1 according to the present invention. In the figure, reference numeral 1 denotes a gutter block such as a U-shaped gutter block installed along a water-permeable road 2 having a water-permeable layer 2a and an impermeable layer 2b located thereunder. (In the illustrated embodiment, the longitudinal dimension of the gutter block is 1 meter). Reference numeral 3 denotes a grating which is provided in an opening 4 of the gutter block 1 that opens upward so as to cover the water passage S in the gutter block 1.
[0057]
The side groove block 1 is provided with a first step portion 5 serving as a lid hooking step portion R for mounting the grating 3 or a side groove cover (not shown) on the upper inside of one of the side walls 1a. Also, a second step 6 is provided inside the upper portion of the other side wall 1b, which serves as a step R for holding the grating 3 or the gutter. In the upper part of one side wall 1a, there is provided a fitting recess 7 which opens upward and to both sides (in the illustrated embodiment, the fitting recess 7 has a longitudinal dimension of about 26 cm). Is).
[0058]
The side wall of the side groove block 1 on which the fitting recess 7 is provided, that is, one side wall 1a is recessed from the bottom surface 7a of the fitting recess 7 and opens to both sides of the one side wall 1a. , The first recess 8 is provided, and the bottom surface of the first recess 8 and the bottom surface of the first step portion 5 are flush with each other. Further, one side wall 1a of the side groove block 1 communicates with the first concave portion 8 and is recessed from the first step portion 5, which is the step portion R that is a lid, and opens to the water passage S in the side groove block 1. A second concave portion 9 is provided (in the illustrated embodiment, the second concave portion 9 is inclined so as to descend toward the inside of the one side wall 1a).
[0059]
The grating 3 is placed on the first step portion 5 and the second step portion 6 which are lid-covered step portions R provided on the one side wall 1a and the other side wall 1b at the opening 4 of the side groove block 1. The grating body 10 is provided with a plurality of drain holes H, H for draining rainwater or the like, which are opened so as to penetrate vertically. The grating 3 extends from the grating body 10 to the fitting recess 7 and fits into the fitting recess 7. The fitting portion 11 (in the illustrated embodiment, the fitting portion 11 is attached to one side of the grating body 10). Only provided). Similar to the grating body 10, the fitting portion 11 is also provided with a plurality of drain holes H, H for draining rainwater and the like, which are opened so as to penetrate vertically. Further, the grating 3 is provided with a drainage channel 12 which communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11.
[0060]
The grating main body 10 is placed on the first step 5 which is the lid-hanging step R, for example, a square pipe-shaped first base 25 and is placed on the second step 6 which is the lid-hanging step R. For example, a second base 26 having a square pipe shape is provided. The grating main body 10 is bridged between the first base 25 and the second base 26, and is juxtaposed at intervals so as to rest on the first base 25 and the second base 26 ( In the illustrated embodiment, there are provided a plurality of frames 27 having the drainage holes H (four rows in the illustrated embodiment). The frame 27 is composed of a lattice member W2 having a rectangular shape in a plan view, in which a plurality of drain holes H, H are formed by dividing the inside of the outer frame into a plurality by the partitioning material. Then, from at least two of the plurality of frame members 27, 27 (in the illustrated embodiment, two center frame members 27, 27 in the illustrated embodiment) are extended from the frame members 27, 27. Fitting portions 11 (in FIG. 12, a portion indicated by reference numeral L1, that is, a portion located on the fitting concave portion 7) each including the fitting portions 17 extend. The fitting portion 11 is formed so that a water collecting gap K2 communicating with the inside of the side groove block 1 is formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting recess 7. (In the illustrated embodiment, the length of the fitting portion 11 in the longitudinal direction is about 24.7 centimeters). It is continuous from the upper end to the lower end of the part. The upper surface 11a of the fitting portion 11 and the upper surface 10a of the grating main body 10 have the same height. The lattice members W2, W2 arranged in parallel at intervals are fixed to both bases 25, 26 by welding or the like.
[0061]
The drainage channel 12 is formed of a first drainage channel K3 (which is a gap formed between the adjacent extension frame portions 17 and 17 (thus, the water collection port 12a that opens at the tip of the drainage channel 12 is And extending from the upper end to the lower end of the front end of the fitting portion 11.) and the extending portion formed between the adjacent frame members 27, 27 from which the extending frame portions 17, 17 extend. A second drainage channel K4 is formed by a gap communicating with the gap between the frame members 17, 17. Further, since the second drainage channel K4 also serves as the drainage port H, the drainage channel 12 has the drainage port H on the side communicating with the inside of the side groove block 1. In the illustrated embodiment, the second drainage channel K4 does not function as the drainage channel 12 as the distance from the distal end of the fitting portion 11 increases, and mainly functions as the drainage port H.
[0062]
Next, a method of attaching the grating 3 shown in the second embodiment will be described. First, the fitting portion 11 of the grating 3 is fitted into the fitting recess 7 of the side groove block 1, so that the side wall on which the fitting recess 7 is provided, that is, the first step portion 5 of one side wall 1a. The first base 25 of the grating main body 10 is placed on the other side, and the side wall opposite to the side where the fitting recess 7 is provided, that is, the second step portion 6 of the other side wall 1b is attached to the grating main body 10. The second base 26 is placed. Thereby, the frame body 27 of the grating main body 10 is arranged in parallel with the opening 4 of the side groove block 1 at intervals. Then, a water collecting gap K2 is formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting concave portion 7.
[0063]
In this manner, the fitting portion 11 of the grating 3 is fitted into the fitting concave portion 7 of the side groove block 1 so that the opening 4 of the side groove block 1 covers the water passage S in the side groove block 1. By disposing the grating 3, the drainage channel 12 communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11. The first concave portion 8 is covered with the fitting portion 11 to form a water channel. The first concave portion 8 and the second concave portion 9 correspond to the first base 25 of the grating body 10 and the side groove block. 1 and communicate with each other via a gap K1 formed between the first step portion 5 and the rising wall 5a. In addition, on one side wall 1a of the gutter block 1, a suction-preventing material P for preventing the passage of solids such as pebbles is provided on the water collecting port 12a of the drainage channel 12 of the grating 3 and the first side. It is provided so as to cover the side of the concave portion 8, the side surface of the fitting portion 11, and the side of the water collecting gap K2 formed between the side surface 7b of the fitting concave portion 7. The suction prevention material P is attached to one of the side walls 1a with a double-sided tape or the like.
[0064]
In the vicinity of the gutter block 1, for example, the rolling pressure of the pavement surface 2c of the permeable road 2 cannot be sufficiently performed. The rainwater or the like soaked in the water permeable layer 2a passes through the drainage channel 12, that is, the first drainage channel K3 formed between the adjacent extension frame portions 17, 17 and formed by a gap. Flowing into the second drainage channel K4 formed between the adjacent frame bodies 27, 27 extending from the gaps 17, the drainage channel K4 is drained into the side groove block 1 or fitted to the side surface of the fitting portion 11. The water flows into the water collecting gap K2 formed between the side wall 7b of the joint recess 7 and is drained into the side groove block 1. Also, rainwater or the like that has permeated below the fitting portion 11 passes through the first concave portion 8, passes through the second concave portion 9 communicating with the first concave portion 8, and passes through the water passage S in the side groove block 1. Drained to
[0065]
According to the grating 3, the grating 3, and the drainage structure including the gutter block 1 shown in the second embodiment, the plurality of frames 27 of the grating main body 10 in which the extending frame portions 17, 17 extend. 27 are arranged side by side at intervals, and the drainage channel 12 is formed which opens sideways and opens upward and downward. Moreover, the number of drainage channels 12 can be easily adjusted by changing the number of the plurality of frames 27, 27 from which the extension frame portion 17 extends. Further, by changing the distance between the adjacent extension frame portions 17, 17, the width of the water collecting port portion 12 a of the drainage channel 12 can be easily changed.
[0066]
Then, rainwater or the like flowing on the surface of the water-permeable road 2 as a road is drained into the gutter block 1 through the drain hole H of the grating 3 and the drain channel 12. As for rainwater or the like that accumulates in the dent M formed at the time of the side groove block 1, a water collecting gap formed between the drainage channel 12, the side surface of the fitting portion 11, and the side surface 7 b of the fitting concave portion 7. From K2, the water can be drained into the gutter block 1. Also, rainwater or the like that has permeated into the permeable layer 2a of the permeable road 2 can be drained into the gutter block 1 from the drainage channel 12 and the water collecting gap K2.
[0067]
In addition, if the depth of the depression M that the pavement surface 2c of the water-permeable road 2 is lowered and lowered is within the range from the upper end to the lower end of the front end of the fitting portion 11, the depth of the depression M is Irrespective of the depth, rainwater or the like collected in the depression M is collected from the water collecting port 12a of the drainage channel 12 opening at the tip of the fitting portion 11 and the opening of the water collecting gap K2. Water can be drained into the gutter block 1 at all times. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression M. In addition, since the drain channel 12 has a drain port H on the side communicating with the side groove block 1, the configuration of the drain channel 12 can be simplified. Further, since the first concave portion 8 is provided so as to be located below the fitting portion 11 fitted in the fitting concave portion 7 of the side groove block 1, the rainwater soaked below the fitting portion 11 is provided. Can be surely drained from the first recess 8 to the water passage S in the side groove block 1 by passing through the second recess 9 communicating with the first recess 8 via the gap K1.
[0068]
In addition, since the water collecting opening 12a of the drainage channel 12, the side of the first concave portion 8, and the opening of the water collecting gap K2 are covered with the suction prevention material P, solid matter such as pebbles is removed from the gutter block. You will not be in 1.
[0069]
15 to 19 show a third embodiment of the grating, the drainage structure provided with the grating, and the gutter block 1 according to the present invention. In the figure, reference numeral 1 denotes a gutter block such as a U-shaped gutter block installed along a water-permeable road 2 having a water-permeable layer 2a and an impermeable layer 2b located thereunder. is there. Reference numeral 3 denotes a grating which is provided in an opening 4 of the gutter block 1 that opens upward so as to cover the water passage S in the gutter block 1.
[0070]
The side groove block 1 is provided with a first step portion 5 serving as a lid hooking step portion R for mounting the grating 3 or a side groove cover (not shown) on the upper inside of one of the side walls 1a. Also, a second step 6 is provided inside the upper portion of the other side wall 1b, which serves as a step R for holding the grating 3 or the gutter. A fitting recess 7 that opens upward and to both sides is provided in the upper part of one side wall 1a. Also, on one side wall 1a, a plurality of standing walls are provided so as to cover the outer side of the fitting recess 7 and separate the water permeable road 2 and the fitting recess 7 (the illustrated embodiment). , Two plates are provided. Each of the plurality of separation plates 28, 28 is made of, for example, plate members 28a, 28a having an L-shaped vertical cross section, and the lower part thereof is embedded in one side wall 1a. A first communication portion 29 communicating with the drainage channel 12 of the grating 3 is formed between the separation plates 28. In the illustrated embodiment, the first communication portion 29 is formed by a gap formed between the plate members 28a. Therefore, the first communication portion 29 is formed so as to open upward and also to open sideways. Further, a second communication portion 30 including a gap is formed between a side portion of each separation plate 28 and an end portion of the side surface 7 b of the fitting recess 7, and the second communication portion 30 is formed of the grating 3. It communicates with the water collecting gap K2 formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting concave portion 7.
[0071]
Further, the side wall of the side groove block 1 on which the fitting recess 7 is provided, that is, the one side wall 1a is recessed from the first step portion 5, which is the step portion R which is a lid, and is formed in the side groove block 1. A concave portion 31 that opens to the water channel S is provided (in the illustrated embodiment, it is inclined so as to descend toward the inside of one of the side walls 1a).
[0072]
The grating 3 has substantially the same configuration as the grating 3 of the second embodiment, and includes a grating body 10 that is mounted on the first step 5 and the second step 6. A plurality of drain holes H, H for draining water and the like are formed. The grating 3 extends from the grating body 10 to the fitting recess 7 and fits into the fitting recess 7. In the illustrated embodiment, the fitting portion 11 is connected to one side of the grating body 10. Is provided only in.). The fitting portion 11 also has a plurality of drain holes H, H. The grating 3 has a drainage channel 12 that communicates with the inside of the side groove block 1 from the tip of the fitting portion 11.
[0073]
The drainage channel 12 is formed of a first drainage channel K3 (which is a gap formed between the adjacent extension frame portions 17 and 17 (thus, the water collection port 12a that opens at the tip of the drainage channel 12 is And extending from the upper end to the lower end of the front end of the fitting portion 11.) and the extending portion formed between the adjacent frame members 27, 27 from which the extending frame portions 17, 17 extend. A second drainage channel K4 is formed by a gap communicating with the gap between the frame members 17, 17. Further, since the second drainage channel K4 also serves as the drainage port H, the drainage channel 12 has the drainage port H on the side communicating with the inside of the side groove block 1. In the illustrated embodiment, the second drainage channel K4 does not function as the drainage channel 12 as the distance from the distal end of the fitting portion 11 increases, and mainly functions as the drainage port H.
[0074]
Next, a method of attaching the grating 3 according to the third embodiment will be described. First, the fitting portion 11 of the grating 3 is fitted into the fitting recess 7 of the side groove block 1, so that the side wall on which the fitting recess 7 is provided, that is, the first step portion 5 of one side wall 1a. The first base 25 of the grating main body 10 is placed on the other side, and the side wall opposite to the side where the fitting recess 7 is provided, that is, the second step portion 6 of the other side wall 1b is attached to the grating main body 10. The second base 26 is placed. Thereby, the frame body 27 of the grating main body 10 is arranged in parallel with the opening 4 of the side groove block 1 at an interval, and the distal end of the fitting portion 11 abuts on the plurality of separation plates 28, 28 or In close proximity, they are covered by the separating plates 28,28. Therefore, when paving the water-permeable road 2 as a road, for example, asphalt or porous concrete of the water-permeable layer 2 a constituting the water-permeable road 2 and the tip of the fitting portion 11 are cut off. Further, a water collecting gap K2 is formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting concave portion 7, and the water collecting gap K2 is formed between the side portions of the separation plates 28, 28 and the fitting concave portion. 7 and a second communication portion 30 formed between the side surface 7b and the end portion and formed of a gap.
[0075]
In this manner, the fitting portion 11 of the grating 3 is fitted into the fitting concave portion 7 of the side groove block 1 so that the opening 4 of the side groove block 1 covers the water passage S in the side groove block 1. By disposing the grating 3, the drainage channel 12 communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11. Moreover, the drainage channel 12 communicates with the first communication part 29. In addition, the drainage channel 12 and the concave portion 31 communicate with each other via a gap K1 formed between the first base 25 of the grating main body 10 and the rising wall 5a of the first step portion 5 of the side groove block 1. Become. In addition, on one side wall 1a of the side groove block 1, a suction prevention member P for preventing the passage of solids such as pebbles covers the first communication portion 29 and the second communication portion 30. It is provided for The suction prevention material P is attached to one of the side walls 1a with a double-sided tape or the like.
[0076]
In the vicinity of the gutter block 1, for example, the rolling pressure of the pavement surface 2c of the permeable road 2 cannot be sufficiently performed. The rainwater and the like soaked in the permeable layer 2a pass through the first communication part 29 and the drainage channel 12, that is, the first drainage formed by the gap formed between the adjacent extension frame portions 17, 17 From the path K3, flows into the second drainage path K4, which is formed between the adjacent frames 27, 27 in which the extending frame portions 17, 17 extend, and is drained into the gutter block 1. , Through the second communication portion 30, the water flows into the water collecting gap K2 formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting concave portion 7, and is drained into the side groove block 1. Further, when rainwater or the like flows through the drainage channel 12 to the step R with the lid, the drainage water is drained to the water channel S in the side groove block 1 through the concave portion 31.
[0077]
According to the grating 3, the grating 3, and the drainage structure including the side groove block 1 shown in the third embodiment, the plurality of frames 27, 27 of the grating main body 10 in which the extending frame portions 17 extend are formed. The drainage channel 12 is formed with a simple configuration in which the drainage channels 12 are opened laterally and open upward and downward. Moreover, the number of drainage channels 12 can be easily adjusted by changing the number of the plurality of frames 27, 27 from which the extension frame portion 17 extends. Further, by changing the distance between the adjacent extension frame portions 17, 17, the width of the water collecting port portion 12 a of the drainage channel 12 can be easily changed.
[0078]
Then, rainwater or the like flowing on the surface of the water-permeable road 2 as a road is drained into the gutter block 1 through the drain hole H of the grating 3 and the drain channel 12. As for rainwater or the like that accumulates in the dent M formed at the time of the side groove block 1, a water collecting gap formed between the drainage channel 12, the side surface of the fitting portion 11, and the side surface 7 b of the fitting concave portion 7. From K2, the water can be drained into the gutter block 1. Also, rainwater or the like that has permeated into the permeable layer 2a of the permeable road 2 can be drained into the gutter block 1 from the drainage channel 12 and the water collecting gap K2.
[0079]
Further, the depth of the depression M, which is formed by the depression of the pavement surface 2 c of the water-permeable road 2, falls within the range from the upper end to the lower end of the front end of the fitting portion 11, that is, the vertical direction of the first communication portion 29 If it is a depression due to a fall in the range, rainwater or the like accumulated in the depression M is passed through the first communication part 29 and the second communication part 30 irrespective of the depth of the depression M. The water can be collected from the water collecting port 12a of the drainage channel 12 and the opening of the water collecting gap K2, which is open at the tip of the drainage channel 12, and can always be drained into the gutter block 1. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression M formed in the side groove block 1. In addition, since the drain channel 12 has a drain port H on the side communicating with the side groove block 1, the configuration of the drain channel 12 can be simplified. In addition, when rainwater or the like flows into the step R with the lid through the drainage channel 12, the rainwater or the like on the step R with the lid is surely drained from the recess 31 to the channel S in the side groove block 1. can do.
[0080]
Further, since the fitting portion 11 is covered by the separation plates 28, 28, for example, asphalt or porous concrete of the water-permeable layer 2a constituting the water-permeable road 2 and the tip of the fitting portion 11 are cut off. The grating 3 can be easily removed from the side groove block 1. In addition, even if the grating 3 is removed, since the separation plates 28 cover the outer side of the fitting recess 7, the water-permeable layer 2a constituting the water-permeable road 2 is provided in the fitting recess 7. Some can be prevented from falling off. In addition, since the first communication part 29 communicating with the water collecting port part 12a of the drainage channel 12 and the second communication part 30 communicating with the water collecting gap K2 are covered with the suction prevention material P, the solid material such as pebbles is solid. An object does not enter the gutter block 1.
[0081]
Note that the grating 3 according to the present invention is not limited to the above-described embodiment, and various other modifications are possible. For example, in the grating 3 of the first embodiment, the drainage structure including the grating 3, and the gutter block 1, the grating main body 10 includes a first grating main body 13 and a second grating main body 14; The two grating main bodies 14 are detachably fixed to the mounting portion 13a of the first grating main body 13 by the fixing means N, but the grating 3 without the fixing means N may be used. Further, the fitting portion 11 including the extension frame portion 17 does not need to extend from all of the plurality of first frames 16, 16 of the first grating body 13. What is necessary is just to extend from one frame body 16.
[0082]
In the grating 3 of the first embodiment, the drainage structure including the grating 3, and the side groove block 1, the fitting portion 11 is fitted in the fitting recess 7 exactly. The fitting portion 11 may be formed narrower than the fitting concave portion 7 so that a gap communicating with the side surface block 7 is formed in the side groove block 1. Thereby, rainwater and the like are drained from the gap into the gutter block.
[0083]
Further, in the grating 3 of the first embodiment, the drainage structure including the grating 3, and the side groove block 1, the second grating main body 14 includes a plurality of second frame bodies 19 arranged in parallel at intervals. Although the second grating body 14 has been described as having the first frame 19, the second grating body 14 may have only one second frame 19. That is, the second frame 19 is formed of one lattice (for example, one large lattice having a size corresponding to the entire four lattices W1 arranged side by side in FIG. 7). The second grating body 14 may not have a gap that forms the third drainage channel 22. Therefore, the second grating main body 14 in this case does not need to include the fixing member Q, and the second base 18 does not need to be formed separately from the second frame (lattice). A part of the second frame (lattice) may function as the second base 18.
[0084]
Further, in the grating 3 of the first and second embodiments, the drainage structure provided with the grating 3, and in the gutter block 1, rainwater or the like accumulated in the depression M, or permeates the permeable layer 2 a of the permeable road 2. In order to enhance the function of draining rainwater or the like, a plurality of drain holes formed of through holes may be provided on the distal end surface of the extension frame portion 17 constituting the distal end portion of the fitting portion 11.
[0085]
Further, the grating 3 of the second and third embodiments, the drainage structure provided with the grating 3, and the gutter block 1 are provided at the center of the frames 27, 27 arranged side by side at intervals. The fitting portion 11 including the extending frame portions 17 extends from the two frame members 27, but may extend from three or more of the frame members 27, or may extend from all the frame members. It may extend from body 27.
[0086]
Further, the grating 3 of the second and third embodiments, the drainage structure provided with the grating 3, and the side groove block 1 are provided between the side surface 7 b of the fitting recess 7 and the inside of the side groove block 1. The fitting portion 11 is formed to be narrower than the fitting recess 7 so as to form the gap K2, but the fitting portion 11 is fitted to the fitting recess 7 exactly, that is, the water collecting portion. The gap K2 may be formed so as not to be formed. In this case, in the third embodiment, it is needless to say that the second communication portion 30 communicating with the water collecting gap K2 need not be provided.
[0087]
Further, in the grating 3 of the second and third embodiments, the drainage structure including the grating 3, and the gutter block 1, the grating main body 10 of the grating 3 is similar to the first embodiment. It may be composed of a divided body of one grating main body and a second grating main body.
[0088]
Further, according to the grating 3 shown in the first and second embodiments, the drainage structure including the grating 3, and the side groove block 1, the side wall of the side groove block 1 on which the fitting recess 7 is provided; In other words, the second recess 9 communicating with the first recess 8 is provided on one of the side walls 1a. However, the second recess 9 may not be provided, and the first recess 8 and the second recess 9 may be provided. It is not necessary to provide both.
[0089]
Further, according to the grating 3, the drainage structure including the grating 3, and the gutter block 1 shown in the third embodiment, the plurality of separating plates 28, 28 of the gutter block 1 are two plate members 28a, However, as in the fourth embodiment shown in FIG. 20, the plurality of separating plates 28 may be formed of a single plate member 28a. In this case, the first communication part 29 communicating with the drainage channel 12 of the grating 3 is formed to open upward, and is formed by a notch formed continuously up to the bottom surface 7a of the fitting recess 7. There may be. In the side groove block 1 shown in the first and second embodiments, a plurality of separating plates 28, 28 are provided on one side wall 1a on which the fitting recess 7 is provided. It may be erected so as to cover the sides. Also in the third embodiment, the side wall on which the fitting recess 7 is provided, that is, the one side wall 1a is recessed from the bottom surface 7a of the fitting recess 7 so as to extend to both sides of the one side wall 1a. May be provided so as to communicate with the recess 31. As a result, rainwater or the like that has permeated below the fitting portion 11 passes from the first concave portion 8 to the concave portion 31 communicating with the first concave portion 8, and is surely drained to the water passage S in the side groove block 1. Will be able to do it.
[0090]
Further, in the grating 3 shown in the third embodiment, the drainage structure including the grating 3, and the gutter block 1, the grating 3 is a drainage that leads into the gutter block 1 from the tip end of the fitting portion 11. Although the channel 12 is provided, as in the fifth embodiment shown in FIGS. 21 and 22, the grating 3 forms a drainage channel 12 that communicates with the inside of the side groove block 1 from the distal end of the fitting portion 11. It may not be provided. That is, the fitting portion 11 of the grating 3 is provided with one frame 27 (shown in the drawing) of a plurality of frames 27 arranged side by side on the first base 25 and the second base 26 at intervals. In the embodiment, the extended frame portion 17 extends from the central frame 27, 27). The fitting portion 11 is formed narrower than the fitting recess 7 so that a water collecting gap K2 communicating with the inside of the side groove block 1 is formed between the side surface and the side surface 7b of the fitting recess 7. Have been.
[0091]
In addition, one side wall 1a of the side groove block 1 is provided with one sheet that is provided upright so as to cover the outer side of the fitting recess 7 and separates the water-permeable road 2 from the fitting recess 7. A separating plate 28 is provided. The separating plate 28 is made of, for example, a plate member 28a having an L-shaped vertical cross section. A communicating portion 32 formed by a gap is formed between the side portion of the separating plate 28 and the end of the side surface 7b of the fitting concave portion 7. Have been. The communication portion 32 communicates with a water collecting gap K2 formed between the side surface of the fitting portion 11 of the grating 3 and the side surface 7b of the fitting concave portion 7.
[0092]
According to the fifth embodiment, a partial depression occurs at the vicinity of the gutter block 1 because, for example, the rolling pressure of the pavement surface 2c of the water-permeable road 2 cannot be sufficiently performed. The rainwater or the like accumulated in the depression M or the rainwater or the like soaked in the water permeable layer 2a is formed between the side surface of the fitting portion 11 and the side surface 7b of the fitting concave portion 7 through the communication portion 32. In addition, the water flows into the water collecting gap K2 and is drained into the gutter block 1 (in the illustrated embodiment, rainwater or the like that has passed through the water collecting gap K2 further flows between the frames 27, 27). Is drained into the gutter block 1). Further, since the fitting portion 11 is covered with the separating plate 28, for example, asphalt or porous concrete or the like of the water-permeable layer 2a constituting the water-permeable road 2 and the tip end of the fitting portion 11 are cut off and grating. 3 can be easily removed from the side groove block 1. Moreover, even if the grating 3 is removed, since the separating plate 28 covers the outer side of the fitting recess 7, a part of the water-permeable layer 2a constituting the water-permeable road 2 is provided in the fitting recess 7. However, it can be prevented from falling off. In the fifth embodiment, similarly to the first and second embodiments, the first recessed portion is formed from the bottom surface 7a of the fitting recess 7 and opens to both sides of one side wall 1a. A recess 8 may be provided, and a second recess 9 communicating with the first recess 8 and recessed from the first step portion 5 and opening to the water passage S in the side groove block 1 may be provided. Also in the fifth embodiment, the grating main body 10 of the grating 3 may be configured by a divided body of the first grating main body and the second grating main body, as in the first embodiment. Good. Further, the grating main body 10 does not necessarily need to include the plurality of frames 27, and may be configured by a single frame 27. Further, in the fifth embodiment, one separating plate 28 is provided to separate the water-permeable road 2 and the fitting concave portion 7, but it is not always necessary to provide the separating plate 28.
[0093]
Further, the gutter block 1 shown in the first to fifth embodiments is a U-shaped gutter block, but if it has an opening that opens upward, other gutter blocks, for example, a culvert-type gutter. It may be a block or a variable gradient side groove block with an open bottom, and is not particularly limited. The road may not be the water-permeable road 2 including the water-permeable layer 2a and the water-impermeable layer 2b, but may be a road having no water permeability.
[0094]
Further, according to the grating 3 shown in the first to fifth embodiments, the drainage structure including the grating 3, and the gutter block 1, the fitting recess 7 (and the fitting recess 7 (and only) is formed in only one side wall 1a of the gutter block 1). Although the separating plate 28) is provided, the fitting recess 7 (and the separating plate 28) may be provided also on the other side wall 1b of the side groove block 1. In this case, the fitting portion 11 of the grating 3 It is provided on one side and the other side of the grating body 10. Alternatively, two or more fitting recesses 7 may be provided on one side wall 1a of the side groove block 1 so that two or more gratings 3 are arranged in one side groove block 1.
[0095]
Further, in the grating 3 shown in the first to fifth embodiments, the drainage structure including the grating 3, and the gutter block 1, the bases (first bases 15, 25, second bases 18, 26) Is not necessarily required to have a square pipe shape, and may be, for example, an angle shape or a channel shape, and the shape is not particularly limited. In addition, the first frames 16, the second frames 19, and the frames 27 do not require the bases (the first bases 15, 25 and the second bases 18, 26) and the fixing member Q. it can. In addition, the fitting portion 11 does not necessarily need to be formed with the drain port H.
[0096]
In addition, the grating 3 according to the present invention and the drainage structure including the grating 3 are not limited to the gutter block 1 in which the fitting concave portion 7 is formed in advance at the time of factory production, and after the factory production, for example, After being installed on the road, it is needless to say that the present invention can be applied to the side groove block in which the fitting concave portion 7 is formed.
[0097]
【The invention's effect】
According to the grating described in claim 1, the first grating main body has a simple configuration in which a plurality of first frames extending from the extension frame portion are arranged side by side at an interval, and are opened laterally. In addition, by forming drainage channels that open upward and downward, rainwater that flows on the road surface is drained from the drain outlets and drainage channels, and rainwater that accumulates in the pits formed with the gutter blocks And the like can be drained from the drainage channel into the gutter block. Moreover, if the depth of the depression is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, rainwater or the like collected in the depression is drained regardless of the depth of the depression. Can be drained into the block. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression. Further, when the road is a water-permeable road having a water-permeable layer, rainwater or the like soaked in the water-permeable layer can be drained from the drainage channel into the gutter block. Furthermore, since the first grating main body from which the fitting portion extends can be left in the side groove block and only the second grating main body can be removed from the side groove block, it is excellent in maintainability such as cleaning of a channel of the side groove block.
[0098]
In addition, according to the grating described in claim 2, in addition, for example, when the first grating main body is fixed to the side groove block, by using the fixing means, the second grating main body is connected to the side groove block. You can keep it from falling out of the block.
[0099]
According to the grating described in claim 3, in addition, the first base of the first grating main body is placed on the first step portion of the side wall on which the fitting recess is provided, and thereafter, On the mounting portion of one grating main body, one end of the second frame body is placed on the mounting portion of the second grating main body, and on the second step portion of the side wall opposite to the side where the fitting recess is provided. By placing the second base of the second grating body, the first frame body of the first grating body and the second frame body of the second grating body are securely arranged in the opening of the side groove block. Can be.
[0100]
In addition, according to the grating described in claim 4, the configuration of the mounting portion can be simplified.
[0101]
According to the grating described in claim 5, the first grating main body has a simple configuration in which a plurality of frames extending from the extending frame portion are juxtaposed at an interval, and are opened laterally. In addition, by forming drainage channels that open upward and downward, rainwater that flows on the road surface is drained from the drain outlets and drainage channels, and rainwater that accumulates in the pits formed with the gutter blocks And the like can be drained from the drainage channel into the gutter block. Moreover, if the depth of the depression is a depression due to a fall within the range from the upper end to the lower end of the front end of the fitting portion, rainwater or the like collected in the depression is drained regardless of the depth of the depression. Can be drained into the block. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression. Further, when the road is a water-permeable road having a water-permeable layer, rainwater or the like soaked in the water-permeable layer can be drained from the drainage channel into the gutter block.
[0102]
According to the grating described in claim 6, in addition to the fitting recess, the fitting portion is fitted into the fitting recess, and the base of the grating body is placed on the stepped portion with the lid on the side wall. The plurality of frames of the main body can be reliably arranged in parallel in the openings of the side groove blocks.
[0103]
According to the grating described in claim 7, rainwater or the like flowing on the road surface can be drained from the drain port, and furthermore, rainwater or the like that accumulates in a depression formed when the gutter block is formed, or Alternatively, rainwater or the like that has permeated the water-permeable layer of the water-permeable road can be drained into the gutter block from the water-collecting gap between the fitting portion and the side surface of the fitting recess.
[0104]
According to the drainage structure provided with the grating according to claim 8, the rainwater flowing on the road surface is drained from the drainage port and the drainage channel, and the rainwater collected in the depression formed when the drainage channel and the gutter block are formed. And the like can be drained from the drainage channel into the gutter block. Then, if the depth of the depression is a depression due to a fall within the range from the upper end to the lower end of the front end portion of the fitting portion, regardless of the depth of the depression, rainwater or the like accumulated in the depression is formed into a gutter. Can be drained into the block. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression.
[0105]
In addition, according to the drainage structure including the grating according to the ninth aspect, in addition, the first recess is provided so as to be located below the fitting portion fitted in the fitting recess of the side groove block. Therefore, when the road is a water-permeable road, rainwater or the like that has permeated below the fitting portion can be drained from the first recess into the gutter block.
[0106]
According to the drainage structure provided with the grating according to claim 10, in addition, rainwater or the like passing through the first concave portion is passed through the second concave portion communicating with the first concave portion, so that the water channel in the side groove block. In addition, drainage can be reliably performed.
[0107]
In addition, according to the drainage structure including the grating described in claim 11, rainwater or the like is additionally drained into the side groove block from the water collecting gap between the fitting portion and the side surface of the fitting recess. be able to.
[0108]
Further, according to the drainage structure provided with the grating according to the twelfth aspect, it is possible to prevent solid matter such as pebbles from entering the gutter block.
[0109]
In addition, according to the drainage structure including the grating described in claim 13, while draining rainwater or the like flowing on the road surface from the drain port, rainwater or the like that accumulates in a depression formed when the gutter block is formed, Water can also be drained into the side groove block from the water collecting gap between the fitting portion and the side surface of the fitting recess.
[0110]
In addition, according to the drainage structure provided with the grating according to claim 14, rainwater or the like flowing on the road surface can be drained from the drainage port and the drainage channel, and can be formed in the case of the gutter block. Rainwater or the like that has accumulated in the depressions, or rainwater or the like that has permeated the permeable layer of a permeable road can be drained from the drainage channel into the gutter block. If the depth of the depression is a depression due to a fall within the range from the upper end to the lower end of the front end portion of the fitting portion, regardless of the depth of the depression, rainwater or the like accumulated in the depression is drained into the gutter. Can be drained into the block. Therefore, it is excellent in drainage of rainwater or the like that accumulates in the depression. Further, the grating can be easily removed from the side groove block. Moreover, even if the fitting portion is removed from the fitting recess, a part of the road can be prevented from falling into the fitting recess.
[0111]
In addition, according to the drainage structure provided with the grating according to claim 15, in addition, rainwater or the like is drained from the drainage channel through the gap formed between the plate members as the first communication portion, and the gutter block. Can be drained into.
[0112]
In addition, according to the drainage structure including the grating described in claim 16, in addition, it is possible to drain the water into the gutter block from the water collecting gap between the fitting portion and the side surface of the fitting recess.
[0113]
Further, according to the drainage structure provided with the grating according to the seventeenth aspect, it is possible to prevent solid matter such as pebbles from entering the gutter block.
[0114]
In addition, according to the drainage structure provided with the grating according to claim 18, rainwater or the like flowing on the road surface can be drained from the drain port, and furthermore, the rainwater or the like accumulates in the depression formed at the time of the gutter block. Rainwater or the like that has permeated the permeable layer of a water-permeable road can be drained into the gutter block from the water collection gap between the fitting portion and the side surface of the fitting recess. Further, the grating can be easily removed from the side groove block. Moreover, even if the fitting portion is removed from the fitting recess, a part of the road can be prevented from falling into the fitting recess.
[0115]
In addition, according to the drainage structure provided with the grating according to claim 19, in addition, when rainwater or the like flows to the step with the lid through the drainage channel, the drainage port or the water collecting gap of the grating, the lid is provided. Rainwater or the like on the hanging step can be reliably drained from the recess into the water channel in the side groove block.
[0116]
According to the gutter block described in claim 20, the grating can be easily removed from the gutter block. Moreover, even if the grating is removed, a part of the road can be prevented from falling into the fitting recess.
[0117]
According to the gutter block described in claim 21, rainwater and the like are additionally drained from the drainage channel into the gutter block through the gap formed between the plates as the first communication part. can do.
[0118]
In addition, according to the gutter block described in claim 22, drainage can also be performed into the gutter block from the water collecting gap between the fitting portion and the side surface of the fitting recess.
[0119]
According to the gutter block described in claim 23, the grating can be easily removed from the gutter block. Moreover, even if the grating is removed, a part of the road can be prevented from falling into the fitting recess.
[Brief description of the drawings]
FIG. 1 is a plan view of a first embodiment of a grating according to the present invention, a drainage structure using the grating, and a gutter block.
FIG. 2 is also an enlarged view of a main part.
FIG. 3 is also a side view.
FIG. 4 is a sectional view taken along line AA in FIG. 3;
FIG. 5 is a sectional view taken along line BB in FIG. 3;
FIG. 6 is a sectional view taken along line CC in FIG. 3;
FIG. 7 is also an exploded perspective view.
FIG. 8 is a plan view of a second embodiment of the grating according to the present invention, a drainage structure using the grating, and a gutter block.
FIG. 9 is also an enlarged view of a main part.
FIG. 10 is also a side view.
FIG. 11 is a sectional view taken along line DD in FIG. 10;
FIG. 12 is a sectional view taken along line EE in FIG. 10;
FIG. 13 is a sectional view taken along line FF in FIG. 10;
FIG. 14 is also an exploded perspective view.
FIG. 15 is a plan view of a third embodiment of the grating according to the present invention, a drainage structure using the grating, and a gutter block.
FIG. 16 is also a side view.
17 is a sectional view taken along line GG in FIG.
18 is a sectional view taken along line II in FIG.
FIG. 19 is also an exploded perspective view.
FIG. 20 is a diagram corresponding to FIG. 16 of a fourth embodiment of the grating, the drainage structure using the grating, and the gutter block according to the present invention.
FIG. 21 is a view corresponding to FIG. 16 of a fifth embodiment of the grating, the drainage structure using the grating, and the gutter block according to the present invention.
FIG. 22 is also an exploded perspective view.
[Explanation of symbols]
1 Gutter block
1a One side wall (side wall)
1b The other side wall (side wall)
2 permeable roads (roads)
3 grating
4 opening
5 First stage
6 Second stage
7 Fitting recess
7a Bottom of fitting recess
7b Side of fitting recess
8 First recess
9 Second recess
10 Grating body
11 Fitting part
12 drainage canal
12a Water inlet
13 First grating body
13a Receiver
14 Second grating body
15 First base
16 First frame
17 Extension frame
18 Second base
19 Second frame
20 First drainage channel (gap)
21 Second drainage channel (gap)
22 Third drainage channel (gap)
25 1st base (base)
26 2nd base (base)
27 Frame
28 Separation plate
28a board
29 First Communication Section
30 Second communication section
31 recess
32 communication part
H drain
K2 catchment gap
K3 First drainage channel (gap)
K4 Second drainage channel (gap)
N fixing means
P Suction prevention material
R Step with lid
S waterway

Claims (23)

Grating, which is provided so as to cover a water passage in the gutter block, in an opening opening upward of a gutter block installed along a road,
For draining rainwater or the like, a plurality of drain ports that are opened so as to penetrate up and down are formed, and are mounted on a lid hanging step provided in the opening, a grating body,
A fitting portion extending from the grating main body to a fitting recess provided on at least one side wall of the side groove block and opening upward and on both sides, and fitted into the fitting recess,
A drainage channel, which communicates with the inside of the side groove block from the distal end portion of the fitting portion,
The grating body is
With a plurality of first frames that are arranged side by side at intervals, and with a mounting portion, a first grating body,
The second grating body, which is detachably mounted on the first grating body and the lid hanging step, so as to be bridged between the mounting section and the lid hanging step,
The fitting portion extends from at least two first frames of the plurality of first frames, and includes a plurality of extending frame portions,
The drainage channel is at least
A gap formed between adjacent extending frame portions,
A grating, comprising: a gap formed between the adjacent first frames, extending from the first frame body, and communicating with the gap between the extension frame parts. 2. The grating according to claim 1, further comprising fixing means for detachably fixing the second grating main body to the mounting portion. 3. The fitting portion is provided on one side of the grating main body, and the first grating main body is placed on the first step portion of the side wall on which the fitting recess is provided, which serves as the lid-hanging step portion. , A first base, the plurality of first frames are arranged side by side so as to be placed on the first base,
The second grating main body, which is the lid-hanging step, is placed on the second step on the side wall opposite to the side where the fitting recess is provided, the second base, 3. The grating according to claim 1, further comprising: a second frame on which one end is mounted and the other end is mounted on the second base. 4. 4. The grating according to claim 3, wherein the mounting portion includes an upper surface of the first base. 5. Grating, which is provided so as to cover a water passage in the gutter block, in an opening opening upward of a gutter block installed along a road,
For draining rainwater or the like, a plurality of drain ports that are opened so as to penetrate up and down are formed, and are mounted on a lid hanging step provided in the opening, a grating body,
A fitting portion extending from the grating main body to a fitting recess provided on at least one side wall of the side groove block and opening upward and on both sides, and fitted into the fitting recess,
A drainage channel, which communicates with the inside of the side groove block from the distal end portion of the fitting portion,
The grating body includes a plurality of frames arranged side by side at intervals.
The fitting portion includes a plurality of extending frame portions extending from at least two of the plurality of frame members.
The drainage channel,
A gap formed between adjacent extending frame portions,
A grating, comprising: a gap formed between the adjacent frames, the extension extending from the frame, and a gap communicating with the gap between the extension frames. The said grating main body is provided with the base mounted on the said cover hanging step part, The said several frame bodies are juxtaposed at intervals so that they may be mounted on the said base. Item 6. Grating according to item 5. Grating, which is provided so as to cover a water passage in the gutter block, in an opening opening upward of a gutter block installed along a road,
For draining rainwater or the like, a plurality of drain ports that are opened so as to penetrate up and down are formed, and are mounted on a lid hanging step provided in the opening, a grating body,
A fitting portion extending from the grating main body to a fitting concave portion provided on at least one side wall of the side groove block and opening upward and to both sides, and fitted into the fitting concave portion;
The fitting portion is formed to be narrower than the fitting recess so that a water collecting gap is formed between the fitting portion and a side surface of the fitting recess, leading to the inside of the side groove block. Grating. It is a drainage structure provided with the grating according to any one of claims 1 to 6, and the side groove block,
The side groove block is embedded along the road so that the side wall provided with the fitting concave portion is disposed on the road side,
The draining structure is characterized in that the fitting portion is fitted in the fitting recess, and the grating body is provided in the opening of the side groove block. A side wall provided with the fitting recess of the side groove block is provided with a first recess which is recessed from a bottom surface of the fitting recess and opens to both sides of the side wall provided with the fitting recess. And
9. The drainage structure according to claim 8, wherein the first recess is covered at its upper part by the fitting portion. On the side wall provided with the fitting concave portion of the side groove block, a second concave portion which is recessed from the lid hooking step portion and is opened to a water channel in the side groove block so as to communicate with the first concave portion. The drainage structure according to claim 9, wherein the drainage structure is provided. The water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and a side surface of the fitting concave portion, according to any one of claims 8 to 10, wherein the water collecting gap is formed. Drainage structure. In order to prevent the passage of solids such as pebbles, a suction prevention material is provided so as to cover a water collecting port opening at the tip of the drainage channel and a side of the first concave portion. The drainage structure according to claim 9 or 10, wherein: A drainage structure comprising the grating according to claim 7 and the gutter block,
The side groove block is embedded along the road so that the side wall provided with the fitting concave portion is disposed on the road side,
In the grating, the fitting portion is fitted in the fitting recess, and the grating body is provided in the opening of the side groove block.
A drainage structure, wherein a water collecting gap communicating with the inside of the side groove block is formed between the fitting portion and a side surface of the fitting concave portion. It is a drainage structure provided with the grating according to any one of claims 1 to 6, and the side groove block,
The side groove block is embedded along the road so that the side wall provided with the fitting concave portion is disposed on the road side,
In the grating, the fitting portion is fitted in the fitting recess, and the grating body is provided in the opening of the side groove block.
The side groove block has a plurality of side walls on which the fitting recesses are provided. A separating plate is provided,
A first communication portion communicating with the grating drainage channel is formed between the separation plates, and the first communication portion is formed so as to open upward, and the fitting concave portion A drainage structure characterized by being formed continuously up to the bottom surface of the drain. The plurality of separating plates are made of a plurality of plate members,
The drainage structure according to claim 14, wherein the first communication portion includes a gap formed between the plate members. Between the fitting portion and a side surface of the fitting recess, a water collecting gap communicating with the inside of the side groove block is formed,
The second communication portion formed of a gap, which communicates with the water collecting gap, is formed between the separation plate and a side end portion of the fitting recess. Drainage structure. 17. The suction prevention member for preventing the passage of solids such as pebbles is provided so as to cover the first communication portion and the second communication portion. Drainage structure. A drainage structure comprising the grating according to claim 7 and the gutter block,
The side groove block is embedded along the road so that the side wall provided with the fitting concave portion is disposed on the road side,
In the grating, the fitting portion is fitted in the fitting recess, and the grating body is provided in the opening of the side groove block.
Between the fitting portion and a side surface of the fitting recess, a water collecting gap communicating with the inside of the side groove block is formed,
On the side wall of the side groove block where the fitting recess is provided, a partition plate that stands upright so as to cover an outer side of the fitting recess and separates the road from the fitting recess. The drainage structure, characterized in that a communication part comprising a gap is formed between the separation plate and a side end of the fitting concave part, the communication part comprising a gap. The side wall provided with the fitting concave portion of the side groove block is provided with a concave portion which is recessed from the lid catching step portion and opens to a water channel in the side groove block. 19. The drainage structure according to any one of claims 18 to 18. A gutter block in which a grating is provided so as to cover an inner water passage in an opening opening upward,
On at least one side wall, a fitting recess in which the fitting portion of the grating is fitted is formed so as to open upward and on both sides, and on the side wall, an outside of the fitting recess is provided. There are provided a plurality of separating plates that are erected to cover the sides of the
Between the separation plates, a first communication portion is formed, which communicates with a drainage passage communicating from the distal end portion of the fitting portion into the side groove block, and the first communication portion opens upward. The side groove block is formed so as to extend to the bottom surface of the fitting recess. The plurality of separating plates are made of a plurality of plate members,
21. The side groove block according to claim 20, wherein the first communication portion comprises a gap formed between the plate members. A second communication portion including a gap is formed between the separation plate and a side end of the fitting recess, and the second communication portion includes the fitting portion and a side surface of the fitting recess. 22. The gutter block according to claim 20, wherein the gutter block communicates with a water collecting gap formed into the gutter block, which is formed between the gutter block and the gutter block. A gutter block in which a grating is provided so as to cover an inner water passage in an opening opening upward,
On at least one side wall, a fitting recess in which the fitting portion of the grating is fitted is formed so as to open upward and on both sides, and on the side wall, an outside of the fitting recess is provided. A stand-off plate is provided so as to cover the sides of the fitting recess, and a communication part formed by a gap is formed between the stand-off plate and a side end of the fitting recess. The side groove block, wherein the communication portion communicates with a water collecting gap formed between the fitting portion and a side surface of the fitting recess and communicating with the inside of the side groove block.

Images