JP2009256973A - Side ditch block - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To give functions of suppressing, reducing and controlling degradation and sinkage of a pavement part of a boundary part between a side ditch block body and the pavement part, to the side ditch block body, a tread board and the pavement part by laying the tread board between the side ditch block body and the pavement part. <P>SOLUTION: The side ditch block 1 connected and buried in a road etc. comprises: a side ditch block body 3 and a receiving seat block part 9 having a receiving surface 8 for placing the tread board 7 and arranged on a sidewall outer surface 4 of the side ditch block body 3 in a projecting manner; and the insertion hole 11 of which for inserting a tread board insertion projection 10 is formed in the sidewall 6 from the sidewall outer surface 4. The tread board 7 has a shape of a flat plate, and has the tread board insertion projection 10 on an end part 40 of the tread board 7. The tread board insertion projection 10 is fitted and inserted into the insertion hole 11. The end part 40 of the tread board 7 is placed on the receiving surface 8 of the receiving seat block part 9. The flat plate part 26 of the tread board 7 is arranged substantially parallel to a pavement surface 13. The tread board 7 is placed in a manner of extending from the insertion hole 11, on the receiving surface 8 of the receiving seat block part 9, and then on a placing surface for the tread board 7 of the pavement part 12. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

      The present invention relates to a side groove block for draining rainwater or the like buried in connection with a road or the like, and the degradation / sinking of the pavement portion at the boundary between the side groove block main body and the pavement portion connected to the side groove block, Suppresses / reduces the sinking of the pavement at the boundary with a step perpendicular to the gutter block body, and at the same time, sinks smoothly into the pavement central part of the road, etc. The present invention relates to a gutter block that can be controlled.

      Until now, for example, a side groove block for drainage of rainwater or the like buried in connection with a road or the like has been used, for example, a concrete substantially U-shaped side groove block body covered with a concrete groove cover. Yes.

      That is, in the conventional side groove block, the side wall outer surface of the groove lid portion at the upper part of the side groove block main body and the subsequent side wall outer surface of the drainage channel portion are made smooth and substantially vertical. The pavement connected to the gutter block body is constructed and built in contact with the smooth and vertical surface. For this reason, when an automobile load or the like is loaded on the pavement portion at the boundary portion, the pavement portion is a step where the pavement portion at the boundary portion is perpendicular to the gutter block main body with this smooth and vertical slippery surface as a boundary. It is in a state that is liable to cause subsidence.

      In addition, the gutter block body and the pavement are designed, manufactured and constructed based on their technical standards, etc., so that they both work together and integrally resist mutual sliding caused by external forces such as automobile loads. Such structures are generally not designed, manufactured or constructed.

      Further, the pavement such as a roadway or a sidewalk is usually constructed after the gutter block body is installed at a position / height based on a plan such as a road. The pavement compaction work is usually performed using large heavy machinery such as Macadam rollers and tire rollers, but pavement work near the structure such as the boundary between the side groove block body and the pavement is large. Due to construction restrictions that make it difficult to use heavy machinery, compaction work is being carried out with small machines such as tamper and rammer. For this reason, the pavement compactness of the pavement at the boundary between the gutter block main body and the pavement is relatively low compared to the compaction of the pavement central part such as a road. It is customary.

      In addition, the pavement at the boundary between the gutter block body and the pavement is subject to the wheel load of the vehicle traveling on the roadway, etc. after the start of use on the road, etc., from the lane width regulation, the vehicle width regulation, and the vehicle running characteristics. Since it receives repeatedly, it is in an environment where deterioration and subsidence of the pavement portion is more likely to proceed than the central portion of the pavement such as a road.

      When deterioration and subsidence of the pavement at the boundary between the gutter block main body and the pavement progresses, and rainwater accumulates in the depression generated in the pavement layer, drainage of rainwater etc. to the drainage facility such as the gutter block is delayed. As a result, the penetration of rainwater and the like into the roadbed will be accelerated, and the deterioration of the roadbed will continue. If it becomes so, degradation of the whole pavement part will progress further, a pavement-like crack will generate | occur | produce in a pavement layer, or the subsidence with a level | step difference perpendicular | vertical with respect to a gutter block main body will arise.

      Pavement repair work in the case where the pavement deteriorates and a tortoise-shaped crack generated in the pavement layer or a subsidence with a step perpendicular to the gutter block main body occurs, the pavement layer of the deteriorated and subsidized part is The pavement layer is reconstructed after stripping off and replenishing and repairing a part of the roadbed below it. It suppresses and reduces the subsidence of the pavement again, and controls the subsidence shape as a subsidence that smoothly rubs toward the center of the pavement, such as roads. It is not added to the pavement part, but is simply being performed as a work to restore the conventional pavement function.

Noto 3027407 Issued by Kagoshima Concrete Products Cooperative Association Concrete Products General Catalog Page 3

      As described above, the side wall outer surface of the conventional side groove block main body is smooth and substantially vertical, so the pavement connected to the side groove block main body side wall outer surface and the side groove block main body side wall outer surface are mutually attached by loading such as an automobile load. The situation is slippery. In addition, the side groove block main body and the pavement are not designed, manufactured, and constructed in general in a structure that actively resists mutual sliding at the boundary. Also, in the construction of pavement work at the boundary between the gutter block main body and the pavement part, there are restrictions on the use of large heavy machinery, and the pavement finish density of that part is relative to the pavement center part such as roads Tend to be finished low. In addition, the pavement part of the boundary part has characteristics according to the road structure regulations that repeatedly receive automobile loads after the start of use of roads, etc. It starts earlier than the part, and with the progress of its deterioration and settlement, a tortoise-like crack is generated in the pavement layer, and a settlement with a step difference perpendicular to the gutter block main body also occurs. Also, the pavement repair work for the degraded part of the pavement at the boundary part is simply a work to restore the previous pavement function, so it is expected that the pavement part will deteriorate and sink again, resulting in pavement repair work. This has led to an increase in costs.

      The problem to be solved by the present invention is a structure in which a stepping plate is spanned between the side groove block main body and the pavement, and the side groove block main body, the stepping plate and the pavement cooperate with each other to withstand a vehicle load or the like. By holding each other, the side groove block main body and the pavement share and support the automobile load, etc., loaded on the pavement part at the boundary part between the side groove block main body and the pavement part, and further, The function of the hanging plate is used to suppress and reduce the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body. It is an object of the present invention to provide a gutter block capable of controlling the shape of a settlement as a settlement that smoothly rubs toward a pavement central portion such as a road.

The gutter block according to claim 1 is a gutter block for draining rainwater or the like that is buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A receiving block portion having a receiving surface on which the treadle plate is placed is projected along the longitudinal direction of the side wall, substantially parallel to the top surface of the top wall of the side groove block main body, on the side wall outer surface of the side groove block main body. Ready,
An insertion hole for inserting the stepping plate insertion convex portion is formed on a side wall of the side groove block main body along a line where a receiving surface on which the stepping plate of the receiving block portion is placed and a side wall outer surface of the side groove block main body intersect. One or more holes are drilled from the outer surface to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end portion of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the seat block portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate rests the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the seat block part protruding from the side wall outer surface of the side groove block main body. It is installed across the receiving surface and the installation surface of the stepping plate of the pavement.

      The insertion hole for inserting the side groove block main body, the receiving block portion, and the stepping plate insertion convex portion is made of concrete and is manufactured integrally.

      The receiving block portion is provided so as to project from the side wall outer surface so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block main body.

      The width of the receiving surface of the receiving block is the size of the load loaded on the receiving surface and the characteristics of the side groove block (type of side groove block: U-shaped side groove block, portal-type gradient variable type side groove block, underdrain type side groove Block, side groove block with beam, slit type side groove block, etc.), characteristics of the foot plate (size, shape, material, type of structure), structure where the foot plate is placed on the receiving surface (movable structure, hinge structure, (Fixed structure), pavement construction workability, gutter block manufacturability, and maintenance management of stepping plates, etc.

      The position of the receiving surface of the receiving block portion from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed, but in addition, the characteristics of the side groove block, the characteristics of the stepping plate, It shall be optimal in relation to the structure in which the stepping plate is placed on the receiving surface, the pavement construction workability, the side groove block manufacturability, and the maintenance management of the stepping plate.

      The seat block portion may be provided intermittently along the longitudinal direction of the side groove block body in order to reduce the weight of the side groove block body.

      The pavement on the receiving surface of the receiving block so that the tread plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block main body and the pavement due to loading such as automobile load. It is desirable to round the side edges.

      The insertion hole for inserting the tread plate insertion convex portion is formed at a substantially right angle both vertically and horizontally from the side wall outer surface to the side wall along the receiving surface of the receiving block portion. In some cases, the vertical direction may be formed in the side wall from the side wall outer surface toward the bottom wall of the side groove block main body.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape (planar shape of the plate, installation of through holes in the plate), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber-reinforced) Concrete, etc.), the type of structure (elastic structure, rigid structure), the structure in which the stepping plate is placed on the receiving surface (movable structure, hinge structure, fixed structure), the size of the load loaded on the stepping plate, the side groove Optimum in relation to the characteristics of the block, the characteristics of the receiving surface of the receiving block (shape, dimensions, position from the top of the top wall), pavement workability, gutter block manufacturability, maintenance of the treadle plate, etc. It shall be

The end portion of the stepping plate following the stepping plate insertion convex portion is put on the receiving surface of the receiving block portion through one or a plurality of mounting structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is put on the receiving surface of the receiving block portion as a movable structure, the automobile load or the like through the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement.
After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the receiving block portion as a hinge structure, it is smaller than the fixed structure that the side groove block body is tilted or damaged by being dragged by the displacement of the stepping plate.

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the stepping plate is mounted on the receiving surface of the receiving block part as a fixed structure, the side groove block body tilts or breaks due to the displacement of the stepping plate is a movable structure / hinge structure Will be bigger.

      The side of the tread plate insertion convex portion may be formed in a corrugated shape so that the tread plate insertion convex portion has a friction pulling resistance with the insertion hole.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate is structured to be detachable from the gutter block body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts are made of materials that do not rust or are protected. Rust treatment is desirable. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The tread plate includes an insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, a receiving surface on which the tread plate of the receiving block portion projecting from the side wall outer surface of the side groove block main body, and a pavement portion It is installed over the installation surface of the treadle version. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

The gutter block according to claim 2 is a gutter block for draining rainwater or the like that is buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A receiving block portion having a receiving surface on which the treadle plate is placed is projected along the longitudinal direction of the side wall, substantially parallel to the top surface of the top wall of the side groove block main body, on the side wall outer surface of the side groove block main body. Ready,
The stepping plate has a flat plate shape, and an end of the stepping plate is placed on a receiving surface on which the stepping plate of the receiving block portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across a receiving surface on which the stepping plate of the receiving block portion protruding from the side wall outer surface of the side groove block body is placed and a setting surface of the stepping plate of the pavement portion. It is characterized by that.

      The side groove block main body and the receiving block portion are made of concrete and are integrally manufactured.

      The receiving block portion is provided so as to project from the side wall outer surface so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block main body.

      The width of the receiving surface of the receiving block part is the magnitude of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, the workability of paving work, Optimum in relation to manufacturability of the side groove block and maintenance management of the stepping plate.

      The position of the receiving surface of the receiving block portion from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed, but in addition, the characteristics of the side groove block, the characteristics of the stepping plate, It shall be optimal in relation to the structure in which the stepping plate is placed on the receiving surface, the pavement construction workability, the side groove block manufacturability, and the maintenance management of the stepping plate.

      The seat block portion may be provided intermittently along the longitudinal direction of the side groove block body in order to reduce the weight of the side groove block body.

      The pavement on the receiving surface of the receiving block so that the tread plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block main body and the pavement due to loading such as automobile load. It is desirable to round the side edges.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure in which the stepping plate is placed on the receiving surface, the size of the load loaded on the stepping plate, the characteristics of the side groove block, the characteristics of the receiving surface of the receiving block part It is optimal in relation to the workability of paving work, the productivity of gutter blocks, and the maintenance management of the tread plate.

The side groove block main body side end part of the tread plate is placed on the receiving surface of the receiving block part via one or a plurality of placing structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is put on the receiving surface of the receiving block portion as a movable structure, the automobile load or the like through the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement.
After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the receiving block portion as a hinge structure, it is smaller than the fixed structure that the side groove block body is tilted or damaged by being dragged by the displacement of the stepping plate.

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the stepping plate is mounted on the receiving surface of the receiving block part as a fixed structure, the side groove block body tilts or breaks due to the displacement of the stepping plate is a movable structure / hinge structure Will be bigger.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate is structured to be detachable from the side groove block body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts can be made of rust-resistant materials or rust-proof. It is desirable to perform processing. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate is installed across the receiving surface on which the stepping plate of the receiving block portion protruding from the side wall outer surface of the side groove block main body is placed, and the setting surface of the stepping plate of the pavement portion. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

A gutter block according to a third aspect is a gutter block for draining rainwater or the like buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A side wall outer surface of the side groove block main body is provided with a receiving block having a receiving surface on which a tread plate is placed along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body. ,
An insertion hole for inserting the stepping plate insertion convex portion is formed outside the side wall of the side groove block main body along a line where the receiving surface on which the stepping plate of the seating block is placed and the side wall outer surface of the side groove block main body intersect. Drill one or more holes from the side to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end portion of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the receiving block is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate receives the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the seat block abutted on the side wall outer surface of the side groove block main body. It is installed over the surface and the installation surface of the stepping plate of the pavement.

      The insertion hole for inserting the side groove block main body and the stepping plate insertion convex portion is made of concrete and is manufactured integrally. The receiving block is made of concrete, and is manufactured separately from the side groove block main body. At the construction site where the gutter block body is installed, the receiving block manufactured at the factory may be installed in contact with the gutter block body, or the concrete is placed on the construction site in contact with the gutter block body. May be produced.

      The receiving block is provided in contact with the side wall outer surface so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block main body.

      The width of the receiving surface of the receiving block is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, the workability of paving work, the stepping It shall be optimal in relation to the maintenance and management of plates.

      The position of the receiving surface of the receiving block from the top surface of the side wall of the gutter block body is preferably provided at the boundary between the pavement layer and the roadbed, but besides that, the characteristics of the side groove block, the characteristics of the tread plate, the tread It shall be optimal in relation to the structure on which the plate is placed on the receiving surface, the workability of the paving work, the maintenance of the stepping plate, etc.

      The seat block may be provided intermittently along the longitudinal direction of the gutter block body.

      The pavement side of the receiving surface of the receiving block so that the stepping plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block body and the pavement due to loading such as automobile load It is desirable to round the edges.

      The insertion hole for inserting the tread plate insertion convex portion is formed at a substantially right angle both vertically and horizontally from the side wall outer surface to the side wall along the receiving surface of the receiving block. In some cases, the vertical direction may be formed in the side wall from the side wall outer surface toward the bottom wall of the side groove block main body.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure in which the swash plate is placed on the receiving surface, the size of the load loaded on the swash plate, the characteristics of the side groove block, the characteristics of the receiving surface of the receiving block ( The shape, dimensions, position from the top of the top wall), workability of the paving work, maintenance of the slab, etc.

      The end portion of the stepping plate following the stepping plate insertion convex portion is put on the receiving surface of the receiving block via one or a plurality of mounting structures. After the side groove block main body and the receiving block are manufactured separately, they are installed in contact with each other. Each is a separate block that is separate. Therefore, the influence of deformation, displacement, etc. of the stepping plate accompanying loading such as automobile load becomes indirect through the receiving block, and the difference of the stepping plate mounting structure (movable structure, hinge structure, fixed structure) Therefore, the difference between the side groove block body being inclined or damaged is small.

      The side of the tread plate insertion convex portion may be formed in a corrugated shape so that the tread plate insertion convex portion has a friction pulling resistance with the insertion hole.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate is structured to be detachable from the side groove block body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts can be made of rust-resistant materials or rust-proof. It is desirable to perform processing. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The tread plate includes an insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, a receiving surface on which the tread plate of the receiving block installed in contact with the side wall outer surface of the side groove block main body, It is installed over the installation surface of the foot plate of the department. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

The gutter block according to claim 4 is a gutter block for draining rainwater or the like that is buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A side wall outer surface of the side groove block main body is provided with a receiving block having a receiving surface on which a tread plate is placed along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body. ,
The stepping plate has a flat plate shape, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the seat block is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed over a receiving surface on which the stepping plate of the seat block abutted on the side wall outer surface of the side groove block main body is placed and a setting surface of the stepping plate of the pavement. It is characterized by.

      The gutter block body is made of concrete. The receiving block is made of concrete, and is manufactured as a separate block from the gutter block main body. At the construction site where the gutter block body is installed, the receiving block manufactured at the factory may be installed in contact with the gutter block body, or the concrete is placed on the construction site in contact with the gutter block body. May be produced.

      The receiving block is provided in contact with the side wall outer surface so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block main body.

      The width of the receiving surface of the receiving block is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, the workability of paving work, the stepping It shall be optimal in relation to the maintenance and management of plates.

      The position of the receiving surface of the receiving block from the top surface of the side wall of the gutter block body is preferably provided at the boundary between the pavement layer and the roadbed, but besides that, the characteristics of the side groove block, the characteristics of the tread plate, the tread It shall be optimal in relation to the structure on which the plate is placed on the receiving surface, the workability of the paving work, the maintenance of the stepping plate, etc.

      The seat block may be provided intermittently along the longitudinal direction of the gutter block body.

      The pavement side of the receiving surface of the receiving block so that the stepping plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block body and the pavement due to loading such as automobile load It is desirable to round the edges.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure where the stepping plate is placed on the receiving surface, the magnitude of the load loaded on the stepping plate, the characteristics of the side groove block, the characteristics of the receiving surface of the receiving block, It shall be optimal in relation to the workability of pavement work, maintenance of the stool, etc.

      The end portion of the side plate on the side groove block main body is placed on the receiving surface of the receiving block via one or a plurality of mounting structures. After the side groove block main body and the receiving block are manufactured separately, they are installed in contact with each other. Each is a separate block that is separate. Therefore, the influence of deformation, displacement, etc. of the stepping plate accompanying loading such as automobile load becomes indirect through the receiving block, and the difference of the stepping plate mounting structure (movable structure, hinge structure, fixed structure) Therefore, the difference between the side groove block body being inclined or damaged is small.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate is structured to be detachable from the side groove block body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts can be made of rust-resistant materials or rust-proof. It is desirable to perform processing. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate is installed over a receiving surface on which the stepping plate of the receiving block installed in contact with the side wall outer surface of the side groove block main body is placed, and the setting surface of the stepping plate of the pavement. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

The gutter block according to claim 5 is a gutter block for draining rainwater or the like that is buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A projecting plate portion having a receiving surface on which a tread plate is placed is projected along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body on the outer side surface of the side groove block main body. Prepared,
An insertion hole for inserting the tread plate insertion convex portion is formed outside the side wall of the side groove block main body along a line where a receiving surface on which the tread plate of the protruding plate portion is placed and a side wall outer surface of the side groove block main body intersect. Drill one or more holes from the side to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the protruding plate portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate receives the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the protruding plate portion protruding from the side wall outer surface of the side groove block main body. It is installed over the surface and the installation surface of the stepping plate of the pavement.

      The insertion hole for inserting the side groove block main body and the stepping plate insertion convex portion is made of concrete and is manufactured integrally. Bolt holes for attaching to the side wall outer surface of the side groove block main body are formed in the protruding plate portion. When manufacturing the side groove block main body, insert nuts are embedded in the mounting position of the protruding plate part on the side wall outer surface of the side groove block main body, and after manufacturing the side groove block main body, the protruding plate part is bolted to the insert nut. And attach. The protruding plate portion may be attached to the gutter block main body at the factory, or may be attached at the construction site where the gutter block main body is installed.

      The protruding plate portion is provided so as to protrude from the outer side surface of the side wall such that the receiving surface is substantially perpendicular to the outer side surface of the side wall of the side groove block body. The protruding plate portion is made of metal, synthetic resin, or the like.

      The width of the receiving surface of the protruding plate part is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, the workability of paving work, the stepping It shall be optimal in relation to the maintenance and management of plates.

      The position of the receiving surface of the protruding plate part from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed, but besides that, the characteristics of the side groove block, the characteristics of the stepping plate, It shall be optimal in relation to the structure on which the plate is placed on the receiving surface, the workability of the paving work, the maintenance of the stepping plate, etc.

      The protruding plate portion may be provided intermittently along the longitudinal direction of the gutter block body.

      The pavement side of the receiving surface of the projecting plate part so that the tread plate deforms and displaces smoothly against the settlement of the pavement part at the boundary between the side groove block body and the pavement part due to loading of automobile load etc. It is desirable to round the edges.

      The insertion hole for inserting the tread plate insertion convex portion is formed at a substantially right angle both vertically and horizontally from the side wall outer surface to the side wall along the receiving surface of the protruding plate portion. In some cases, the vertical direction may be formed in the side wall from the side wall outer surface toward the bottom wall of the side groove block main body.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure in which the swash plate is placed on the receiving surface, the magnitude of the load loaded on the swash plate, the characteristics of the side groove block, the characteristics of the receiving surface of the protruding plate part ( The shape, dimensions, position from the top of the top wall), workability of the paving work, maintenance of the slab, etc.

      The end portion of the stepping plate following the stepping plate insertion convex portion is put on the receiving surface of the protruding plate portion via one or a plurality of mounting structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is placed on the receiving surface of the protruding plate portion as a movable structure, the automobile load or the like via the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement. After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the protruding plate portion as a hinge structure, it is smaller than the fixed structure that the side groove block main body is inclined or damaged due to the displacement of the stepping plate.

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the tread plate is placed on the receiving surface of the protruding plate as a fixed structure, the side groove block body can be tilted or damaged by the displacement of the tread plate from the movable structure or hinge structure. Will grow.

      The side of the tread plate insertion convex portion may be formed in a corrugated shape so that the tread plate insertion convex portion has a friction pulling resistance with the insertion hole.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the swash plate has a structure that can be attached to and detached from the gutter block main body, rust-resistant materials are used for members made of metallic materials such as protruding plate parts, stool plates, metal bars, bolts, and insert nuts. It is desirable to apply rust prevention treatment. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate includes an insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, a receiving surface on which the step plate of the protruding plate portion protruding from the side wall outer surface of the side groove block main body, and a pavement portion It is installed over the installation surface of the treadle. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

A gutter block according to a sixth aspect is a gutter block for draining rainwater or the like buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A projecting plate portion having a receiving surface on which a tread plate is placed is projected along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body on the outer side surface of the side groove block main body. Prepared,
The stepping plate has a flat plate shape, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the protruding plate portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across a receiving surface on which the stepping plate of the protruding plate portion protruding from the side wall outer surface of the gutter block main body is placed and a setting surface of the stepping plate of the pavement portion. It is characterized by.

      The gutter block body is made of concrete. Bolt holes for attaching to the side wall outer surface of the side groove block main body are formed in the protruding plate portion. When manufacturing the side groove block main body, insert nuts are embedded in the mounting position of the protruding plate part on the side wall outer surface of the side groove block main body, and after manufacturing the side groove block main body, the protruding plate part is bolted to the insert nut. And attach. The protruding plate portion may be attached to the gutter block main body at the factory, or may be attached at the construction site where the gutter block main body is installed.

      The protruding plate portion is provided so as to protrude from the outer side surface of the side wall such that the receiving surface is substantially perpendicular to the outer side surface of the side wall of the side groove block body. The protruding plate portion is made of metal, synthetic resin, or the like.

      The width of the receiving surface of the protruding plate part is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, the workability of paving work, the stepping It shall be optimal in relation to the maintenance and management of plates.

      The position of the receiving surface of the protruding plate part from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed, but besides that, the characteristics of the side groove block, the characteristics of the stepping plate, It shall be optimal in relation to the structure on which the plate is placed on the receiving surface, the workability of the paving work, the maintenance of the stepping plate, etc.

      The protruding plate portion may be provided intermittently along the longitudinal direction of the gutter block body.

      The pavement side of the receiving surface of the projecting plate part so that the tread plate deforms and displaces smoothly against the settlement of the pavement part at the boundary between the side groove block body and the pavement part due to loading of automobile load etc. It is desirable to round the edges.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure where the stepping plate is placed on the receiving surface, the size of the load loaded on the stepping plate, the characteristics of the side groove block, the characteristics of the receiving surface of the protruding plate part, It shall be optimal in relation to the workability of pavement work, maintenance of the stool, etc.

      The side groove block main body side end part of the tread plate is placed on the receiving surface of the protruding plate part via one or a plurality of placing structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is placed on the receiving surface of the protruding plate portion as a movable structure, the automobile load or the like via the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement. After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the protruding plate portion as a hinge structure, it is smaller than the fixed structure that the side groove block main body is inclined or damaged due to the displacement of the stepping plate.

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the tread plate is placed on the receiving surface of the protruding plate as a fixed structure, the side groove block body can be tilted or damaged by the displacement of the tread plate from the movable structure or hinge structure. Will grow.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate has a structure that can be detached from the gutter block main body, rust-resistant materials are used for members made of metal materials such as protruding plate parts, tread plates, metal bars, bolts, and insert nuts. It is desirable to apply rust prevention treatment. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate is installed across the receiving surface on which the stepping plate of the protruding plate portion protruding from the side wall outer surface of the side groove block main body is placed and the installation surface of the stepping plate of the pavement portion. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

The gutter block according to claim 7 is a gutter block for draining rainwater or the like buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
The receiving surface on which the shoulder portion of the side wall side end portion of the top surface of the side groove block main body is cut out in a rectangular shape along the longitudinal direction of the side groove block main body, and the tread plate is placed on the bottom surface of the cutout A notch seat portion provided with
An insertion hole for inserting the stepping plate insertion convex portion is formed on the side groove block main body along a line intersecting a receiving surface on which the stepping plate of the notch receiving portion is placed and an outer side wall surface of the side groove block main body. One or more holes are drilled from the sidewall outer surface to the sidewall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the notch receiving portion is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate includes the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, a receiving surface on which the stepping plate of the notch receiving portion is placed, and installation of the stepping plate of the pavement portion It is characterized by being installed across the surface.

      The insertion hole for inserting the side groove block main body, the notch receiving portion, and the stepping plate insertion convex portion is made of concrete and is manufactured integrally.

      The notch receiving portion is formed so that the shoulder portion of the side wall side end of the top surface of the side groove block body is in the longitudinal direction of the side groove block body so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block body. And is cut out in a rectangular shape along.

      The width of the receiving surface of the notch receiving part is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, and the workability of the paving work , It shall be optimal in relation to the productivity of the side groove block and the maintenance management of the stepping plate.

      The position of the receiving surface of the notch receiving part from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed. It is optimal in relation to the structure in which the stepping plate is placed on the receiving surface, the pavement construction workability, the side groove block manufacturability, and the maintenance management of the stepping plate.

      Pave the receiving surface of the notch seat so that the tread plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block main body and the pavement due to loading such as automobile load. It is desirable to round the part side end.

      The insertion hole for inserting the tread plate insertion convex portion is formed at substantially right angles both vertically and horizontally from the side wall outer surface to the side wall along the receiving surface of the notch receiving portion. In some cases, the vertical direction may be formed in the side wall from the side wall outer surface toward the bottom wall of the side groove block main body.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, and structure in which the stepping plate is placed on the receiving surface, the size of the load loaded on the stepping plate, the characteristics of the side groove block, the receiving surface of the notch receiving part It shall be optimal in relation to characteristics (shape, dimensions, position from the top of the top wall), pavement workability, gutter block manufacturability, and tread plate maintenance.

The end portion of the stepping plate following the stepping plate insertion convex portion is put on the receiving surface of the notch receiving portion via one or a plurality of mounting structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is put on the receiving surface of the notch receiving portion as a movable structure, an automobile load or the like via the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement.
After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the notch seat as a hinge structure, it is smaller than the fixed structure that the side groove block body tilts or breaks due to the displacement of the stepping plate. .

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the stepping plate is placed on the receiving surface of the notch seat as a fixed structure, the side groove block body can be tilted or damaged by the displacement of the stepping plate. It becomes larger than the structure.

      The side of the tread plate insertion convex portion may be formed in a corrugated shape so that the tread plate insertion convex portion has a friction pulling resistance with the insertion hole.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate has a structure that can be attached to and detached from the side groove block main body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts are made of rust-resistant materials, and are rust-proof. It is desirable to perform processing. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate is installed over the insertion hole formed in the side wall from the side wall outer surface of the notch receiving portion, the receiving surface of the notch receiving portion, and the setting surface of the stepping plate of the pavement portion. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

A gutter block according to an eighth aspect is a gutter block for draining rainwater or the like buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
The receiving surface on which the shoulder portion of the side wall side end portion of the top surface of the side groove block main body is cut out in a rectangular shape along the longitudinal direction of the side groove block main body, and the tread plate is placed on the bottom surface of the cutout A notch seat portion provided with
The stepping plate is plate-shaped, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the notch seat portion is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across a receiving surface on which the stepping plate of the notch receiving portion of the side groove block main body is placed and an installation surface of the stepping plate of the pavement portion.

      The side groove block main body and the notch receiving portion are made of concrete and are integrally manufactured.

      The notch receiving portion is formed so that the shoulder portion of the side wall side end of the top surface of the side groove block body is in the longitudinal direction of the side groove block body so that the receiving surface is substantially perpendicular to the side wall outer surface of the side groove block body. And is cut out in a rectangular shape along.

      The width of the receiving surface of the notch receiving part is the size of the load loaded on the receiving surface, the characteristics of the side groove block, the characteristics of the stepping plate, the structure in which the stepping plate is placed on the receiving surface, and the workability of the paving work , It shall be optimal in relation to the productivity of the side groove block and the maintenance management of the stepping plate.

      The position of the receiving surface of the notch receiving part from the top surface of the side wall of the side groove block body is preferably provided at the boundary between the pavement layer and the roadbed. It is optimal in relation to the structure in which the stepping plate is placed on the receiving surface, the pavement construction workability, the side groove block manufacturability, and the maintenance management of the stepping plate.

      Pave the receiving surface of the notch seat so that the tread plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block main body and the pavement due to loading such as automobile load. It is desirable to round the part side end.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, and structure in which the stepping plate is placed on the receiving surface, the size of the load loaded on the stepping plate, the characteristics of the side groove block, the receiving surface of the notch receiving part It shall be optimal in relation to characteristics, workability of pavement work, manufacturability of gutter blocks, maintenance of footboards, etc.

The side groove block main body side end portion of the stepping plate is placed on the receiving surface of the notch seat portion via one or a plurality of mounting structures. There are a movable structure, a hinge structure, and a fixed structure as types of the mounting structure. When the stepping plate is put on the receiving surface of the notch receiving portion as a movable structure, an automobile load or the like via the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the receiving surface to the pavement.
After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the stepping plate is mounted as a hinge structure, the automobile load or the like via the stepping plate mainly acts as a horizontal load / vertical load on the side groove block body, and no moment acts. Since the stepping plate is placed on the receiving surface of the notch seat as a hinge structure, it is smaller than the fixed structure that the side groove block body tilts or breaks due to the displacement of the stepping plate. .

      When the stepping plate is mounted as a fixed structure, the automobile load or the like via the stepping plate acts on the side groove block main body as a horizontal load, a vertical load, and a moment. Since the stepping plate is placed on the receiving surface of the notch seat as a fixed structure, the side groove block body can be tilted or damaged by the displacement of the stepping plate. It becomes larger than the structure.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side gutter block that is buried in connection with the road, etc. is linked with the longitudinal direction of the road, and the pavement part of the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part of the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate is structured to be detachable from the side groove block body, materials made of metal materials such as tread plates, metal bars, bolts, and insert nuts can be made of rust-resistant materials or rust-proof. It is desirable to perform processing. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The stepping plate is installed across the receiving surface of the notch seat and the setting surface of the stepping plate of the pavement. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

A gutter block according to a ninth aspect is a gutter block for draining rainwater or the like buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
An insertion hole for inserting a tread plate insertion convex portion along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body is formed on the side wall outer surface of the side groove block main body. One or more holes are drilled from the outer surface to the side wall.
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across the insertion hole formed in the side wall from the outer side surface of the side groove block main body and the installation surface of the stepping plate of the pavement.

      The insertion hole for inserting the side groove block main body and the stepping plate insertion convex portion is made of concrete and is manufactured integrally.

      The insertion hole for inserting the tread plate insertion convex portion is formed substantially parallel to the top surface of the top wall of the side groove block main body, substantially vertically at both the top, bottom, left, and right sides from the side wall outer surface along the longitudinal direction of the side wall. In some cases, the vertical direction may be formed in the side wall from the side wall outer surface toward the bottom wall of the side groove block main body.

      The position of the insertion hole for inserting the tread plate insertion convex part from the top surface of the gutter block main body is desirably provided at the boundary between the pavement layer and the roadbed. In addition, the number, size, shape, position, and drilling direction of the insertion holes are the characteristics of the side groove block, the characteristics of the stepping plate, the workability of the paving work, the manufacturability of the side groove block, the maintenance management of the stepping plate, etc. It will be the best in relation.

      Insertion hole for inserting the tread plate insertion protrusion so that the tread plate deforms and displaces smoothly following the settlement of the pavement at the boundary between the side groove block main body and pavement due to loading such as automobile load It is desirable to round the bottom of the entrance.

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. The shape, size, material, and type of structure are the size of the load loaded on the stepping plate, the characteristics of the side groove block, the position of the insertion hole from the top wall, the workability of the paving work, the production of the side groove block It is optimal in relation to the characteristics and maintenance of the treadle version.

      The tread plate insertion convex portion is inserted into an insertion hole into which the tread plate insertion convex portion is inserted as a movable structure. When the stepping plate is inserted into the insertion hole as a movable structure, an automobile load or the like through the stepping plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the amount of horizontal displacement determined from the length of the movable groove, the stepping plate drops from the bottom surface of the insertion hole to the pavement. After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. Due to the side groove block protection function by the movable structure of the stepping plate, the side groove block main body is less likely to be inclined or damaged.

      The side of the tread plate insertion convex portion may be formed in a corrugated shape so that the tread plate insertion convex portion has a friction pulling resistance with the insertion hole.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate has a structure that can be attached to and detached from the side groove block main body, it is necessary to use a material that does not rust on the member made of metal material such as a tread plate and a metal rod, or to apply a rust prevention treatment. desirable. Further, it is desirable to judge the degree of deterioration and update with a new stepping plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The tread plate is installed across the insertion hole drilled in the side wall from the outer side surface of the side wall of the gutter block main body and the installation surface of the tread plate of the pavement. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

The gutter block according to claim 10 is a gutter block for draining rainwater or the like that is buried in connection with a road or the like.
The side groove block is a side groove block body in which a drainage channel is formed,
A stepping plate in which a fixing device for fixing the side wall outer surface and the stepping plate is connected to the side wall outer surface of the side groove block main body substantially in parallel with the top surface of the top wall of the side groove block main body along the longitudinal direction of the side wall. Are fixed to the side wall outer surface of the gutter block body,
The stepping plate has a flat plate shape, and has one or a plurality of the fixing devices at one end of the stepping plate, and the stepping plate connected to the fixing device is fixed to the side wall outer surface of the side groove block main body,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across the side groove block main body fixed via the fixing device and the installation surface of the stepping plate of the pavement.

      The fixing recesses on the side groove block main body and the side wall outer surface are made of concrete and are integrally manufactured. The fixing plate of the fixing device connected to the tread plate is provided with a bolt hole for attaching the fixing device to the fixing recess of the side groove block main body. When manufacturing the side groove block main body, an insert nut for attaching the fixing device is embedded in a predetermined position of the fixing recess, and after the side groove block main body is manufactured, the fixing device is bolted to the insert nut and attached. The fixing device may be attached to the gutter block main body at the factory, or may be attached at a construction site where the gutter block main body is installed.

      The tread plate is fixed at a substantially right angle to a fixing recess on the outer side surface of the side wall of the gutter block main body through a fixing device. The fixing device is made of metal, synthetic resin or the like. Even if the fixing device is attached, the fixing concave portion is formed so as to be recessed to such a depth that the surface of the fixing plate of the fixing device does not protrude from the outer side surface of the side wall, thereby making it difficult to cause breakage or dropping of the fixing device.

      The position from the top surface of the side wall block main body of the side plate of the side plate to which the fixing device is connected is preferably provided at the boundary between the pavement layer and the roadbed, but in addition, the characteristics of the side groove block, the characteristics of the side plate, Optimum in relation to the structure (movable structure, hinge structure, fixed structure) in which the tread plate is fixed to the side wall outer surface, pavement construction workability, side gutter block manufacturing, maintenance management of the tread plate, etc. .

      The tread plate has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Its shape, dimensions, material, type of structure, structure in which the swash plate is fixed to the outer side of the side wall, the size of the load loaded on the swash plate, the characteristics of the side groove block, the workability of paving work, the side groove block It is optimal in relation to the manufacturability of the machine and the maintenance management of the treadle version.

      The tread plate is fixed to the outer surface of the side wall via one or a plurality of fixing devices. There are movable structures, hinge structures, and fixed structures as the types of fixing structures. When the tread plate is fixed as a movable structure on the outer side surface of the side wall via the fixing device, the automobile load or the like via the tread plate mainly acts as a vertical load on the side groove block main body. In the movable structure, when the horizontal displacement of the stepping plate exceeds the horizontal displacement amount determined from the length of the movable groove, the stepping plate falls off from the upper surface of the fixing back plate of the fixing device to the pavement. After falling off, the influence of the horizontal displacement of the stepping plate does not reach the side groove block body. The side groove block main body is tilted or damaged by the side groove block protecting function by the movable structure of the stepping plate is smaller than in the case of the hinge structure or the fixed structure.

      When the tread plate is fixed as a hinge structure on the outer side wall of the side wall via a fixing device, the automobile load, etc., via the tread plate mainly acts as a horizontal load / vertical load on the side groove block body, and the moment Does not work. Since the tread plate is fixed to the side wall outer surface of the side groove block main body as a hinge structure, it is smaller than the fixed structure that the side groove block main body tilts or breaks due to the displacement of the tread plate.

      When the tread plate is fixed as a fixed structure to the outer side wall of the side wall via the fixing device, the automobile load or the like via the tread plate acts as a horizontal load / vertical load / moment on the side groove block body. Become. Since the tread plate is fixed to the side wall outer surface of the side groove block main body as a fixed structure, the side groove block main body tilts or breaks due to the displacement of the tread plate is movable structure / hinge structure It will be bigger.

      When the stepping plate is installed at the boundary between the pavement layer and the roadbed, a sheet for preventing the pavement layer and the stepping plate from sticking to each other is laid on top of the stepping plate, and the sheet It is desirable to distribute sand on top.

      The side plate of the side groove block that is embedded in the road etc. is linked with the longitudinal direction of the road, and the pavement at the boundary part between the side groove block main body and the pavement part deteriorates and sinks, and the pavement part at the boundary part Suppressing / reducing the sinking with a vertical step with respect to the gutter block body, and at the same time, controlling the shape of the sinking as a sinking smoothly toward the pavement central part of the road etc. Or it is desirable to mutually connect via a some connecting tool.

      Since the tread plate and fixing device can be detached from the side groove block body, materials made of metal materials such as tread plate, fixing device, bolts, nuts, insert nuts, etc. should be made of rust-resistant material. It is desirable to use or apply rust prevention treatment. In addition, it is desirable to determine the degree of deterioration and update a new tread plate or the like when repairing the pavement at the boundary between the gutter block main body and the pavement.

      The tread plate is fixed to the side wall outer surface of the side groove block main body through a fixing device, and is installed across the fixed side groove block main body and the setting surface of the pavement plate of the pavement. As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share the vehicle load and the like with each other via the hanging plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      According to the side groove block of the first aspect, the tread plate includes the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, and the receiving block portion protruding from the side wall outer surface of the side groove block main body. It is installed across the receiving surface on which the stepping plate is placed and the installation surface of the stepping plate on the pavement.

      As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement. By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block according to claim 2, the stepping plate is placed on the receiving surface on which the stepping plate of the receiving block portion protruding from the side wall outer surface of the side groove block main body is placed, and on the installation surface of the stepping plate of the pavement portion. Installed over.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the third aspect, the tread plate includes an insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, and a seat block installed in contact with the side wall outer surface of the side groove block main body. It is installed across the receiving surface on which the stool is placed and the installation surface of the stool in the pavement.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block according to claim 4, the stepping plate has a receiving surface on which the stepping plate of the receiving block placed in contact with the side wall outer surface of the side groove block main body is placed, and an installation surface of the stepping plate of the pavement portion. It is installed over.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the fifth aspect of the present invention, the stepping plate has a stepping plate formed by inserting the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the protruding plate portion protruding from the side wall outer surface of the side groove block main body. It is installed over the receiving surface on which the plate is placed and the installation surface of the stepping plate on the pavement.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the sixth aspect, the stepping plate is hung on the receiving surface on which the stepping plate of the protruding plate portion protruding from the side wall outer surface of the side groove block main body is placed and the installation surface of the stepping plate of the pavement portion. Handed over and installed.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block according to claim 7, the stepping plate includes an insertion hole formed in the side wall from the outer side surface of the notch receiving portion, a receiving surface of the notch receiving portion, and a stepping plate of the pavement portion. It is installed over the installation surface.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the eighth aspect, the stepping plate is installed across the receiving surface of the notch receiving portion and the setting surface of the stepping plate of the pavement portion.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the ninth aspect, the stepping plate is installed so as to span the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the setting surface of the stepping plate of the pavement.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      According to the side groove block of the tenth aspect, the tread plate is fixed to the side wall outer surface of the side groove block main body via the fixing device, and is hung on the fixed side groove block main body and the installation surface of the pavement plate of the pavement. Installed.

As a result, the side groove block body and the pavement have a structure that works against each other against the automobile load that is loaded on the pavement at the boundary between the side groove block body and the pavement. The parts share and support the vehicle load and the like via the stepping plate. Moreover, appropriate elasticity and rigidity are given to the tread plate. As a result, the stepping plate follows while deforming and displacing itself while resisting the settlement of the pavement at the boundary portion that occurs with the loading of an automobile load or the like, and suppresses, reduces, or controls the settlement.
By the function of this stepping plate, the deterioration and subsidence of the pavement at the boundary part and the subsidence of the pavement part of the boundary part with a step perpendicular to the gutter block body are suppressed / reduced. The shape can be controlled as subsidence that smoothly rubs toward the pavement center such as roads.

      The function of this stepping plate suppresses the deterioration of the lane markings displayed on the pavement surface of the boundary portion, and rainwater etc. is stored in the recesses of the pavement surface of the boundary portion so that the drainage to the gutter block body The occurrence of defects is reduced.

      In addition, in the depression of the pavement surface of the pavement part of the boundary part and the depression with the step perpendicular to the side groove block main body formed on the pavement part pavement surface of the boundary part of the side groove block main body and the pavement part, It is possible to suppress the occurrence of a serious fall accident that occurs when a motorcycle is picked up by a wheel. Furthermore, it is possible to suppress and reduce the occurrence of water splashing, noise and vibration caused by the vehicle traveling in the above-mentioned depressions, and to ensure safety and smooth driving of the vehicle etc. Can be provided.

      Ensuring the safety of people and vehicles on roads is a top priority. The conventional repair work for the degraded part of the pavement at the boundary between the gutter block main body and the pavement is only to restore the previous pavement function, so it is expected that the pavement will deteriorate and sink again. As a result, this has led to an increase in the burden of pavement repair work.

      By connecting and embedding this gutter block to a road etc., the pavement at the boundary between the gutter block main body and the pavement deteriorates and sinks, and the pavement at the boundary has a step perpendicular to the gutter block main body. In addition, the subsidence can be controlled and reduced, and the shape of the subsidence can be controlled as a subsidence that smoothly rubs toward the pavement central portion of a road or the like. This function adds a new function to the concept of pavement repair with a longer pavement repair cycle period from the concept of pavement repair that simply restores the conventional pavement function. This increases the life cycle of social infrastructure facilities such as gutter blocks and pavements, and reduces costs, and is extremely effective in reducing the burden of pavement repair work and improving construction investment efficiency. Become.

      A gutter block 1 according to a first embodiment for carrying out the present invention will be described with reference to the drawings.

      1 to 4 relate to a first embodiment of the present invention, FIG. 1 is a perspective view showing an example of a side groove block 1, and FIG. 2 shows a stepping plate 7 on a receiving surface 8 of a receiving block portion 9. FIG. 3A is a plan view of an example of a stepping plate 7 provided with a through-hole 25, and FIG. FIG. 3 (C) is a plan view of an example of a stepping plate 7 in which one stepping plate 7 corresponds to one side groove block main body 3, and FIG. FIG. 4A is a longitudinal sectional view showing a main part of an example of the side groove block 1 having a configuration in which the stepping plate 7 is mounted on the receiving surface 8 of the receiving block portion 9 with a hinge structure, and FIG. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block 1 with the form which places it on the receiving surface 8 of the receiving block part 9 with a fixed structure.

      The side groove block 1 is a side groove block 1 made of, for example, a side groove block with a beam, for draining rainwater or the like that is buried in connection with a road or the like. The side groove block 1 includes a side groove block main body 3, a receiving block portion 9 protruding from the side wall outer surface 4 of the side groove block main body 3, an insertion hole 11 formed in the side wall 6, and a stepping plate on the insertion hole 11. A tread plate 7 into which the insertion convex portion 10 is inserted is provided. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block portion 9, and the installation surface of the pavement portion 12, and is a boundary portion between the side groove block main body 3 and the pavement portion 12. The side groove block main body 3 and the pavement portion 12 share and support each other via the tread plate 7 with respect to the automobile load or the like loaded on the pavement portion 12.

      The side groove block main body 3, the receiving block portion 9, and the insertion hole 11 are made of concrete and are manufactured integrally. The illustrated gutter block main body 3 has a drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is an opening, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 3 are closed have a combined length that is almost one half of the total length, and function as a beam in the upper part of the side groove block main body 3.

      A block mounting portion 18 on which a part of the lower surface of the pedestrian boundary block 17 is mounted and fixed is provided at the end of the top wall 14 on the side where the stepping plate 7 of the side groove block body 3 is not installed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

      The receiving block portion 9 is provided so as to protrude from the side wall outer surface 4 so that the receiving surface 8 is substantially perpendicular to the side wall outer surface 4 of the side groove block main body 3. The projecting portion lower end of the illustrated receiving block portion 9 is rubbed to the side wall outer surface 4 of the side groove block main body 3 with a smooth inclined surface 21, and the cross section has a trapezoidal shape. Note that the cross-sectional shape does not necessarily have a trapezoidal shape. For example, when the lower end of the projecting portion is rectangular, the pavement finish density at the boundary between the gutter block main body 3 and the pavement portion 12 in the pavement construction is road. Compared to the pavement center portion such as the above, the finish is relatively low, and the tendency of the deterioration and subsidence of the pavement portion 12 at the boundary portion to progress is intensified. In order to suppress this, the trapezoidal cross section of the receiving block 9 is desirable.

      If the length of the vertical surface 19 of the receiving block portion is the rectangular receiving block portion 9 that extends to the bottom surface of the bottom wall 20 of the side groove block body 3, the pavement portion side of the receiving block portion 9 is used. The side surface is a smooth and vertical surface from the receiving surface 8 to the bottom wall 20, which leads to an increase in pavement workability.

      The width of the receiving surface 8 of the illustrated receiving block portion 9 corresponds to the horizontal displacement of the stepping plate 7 according to the vertical step sinking of the pavement portion 12 with respect to the side groove block body 3 and is formed to have a width of about 10 cm. However, the width is the magnitude of the load loaded on the receiving surface 8 and the characteristics of the side groove block 1 (type of side groove block 1: U-shaped side groove block, portal-type gradient variable type side groove block, culvert type Side groove block, side groove block with beam, slit type side groove block, etc.), characteristics of the foot plate 7 (size, shape, material, type of structure), structure in which the foot plate 7 is placed on the receiving surface 8 (movable structure) Hinge structure, fixed structure), pavement construction workability, gutter block 1 manufacturability, and maintenance management of stepping plates and the like.

      Roundness 22 is attached to the pavement side end of the receiving surface 8 of the receiving block 9. In the illustrated example, the receiving block portion 9 is continuously provided along the longitudinal direction of the side groove block main body 3. However, in order to reduce the weight of the side groove block main body 3, the longitudinal length of the side groove block main body 3 is provided. You may provide intermittently along a direction.

      The position of the receiving surface 8 of the receiving block portion 9 from the top surface 5 of the side groove block main body 3 is provided at the boundary between the pavement layer 23 and the roadbed 24, but becomes the pavement layer 23 or the roadbed 24. It is good also as a position. In addition to the above, the characteristics of the side groove block 1, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, the workability of paving work, the manufacturability of the side groove block 1, the stepping plate 7, etc. It will be optimal in relation to maintenance and management.

      The insertion hole 11 into which the stepping plate insertion convex portion 10 is inserted crosses the stepping plate insertion convex portion 10 along the receiving surface 8 of the receiving block portion 9 from the side wall outer surface 4 to the side wall 6 substantially vertically at both right and left. Drill slightly larger than the surface. In some cases, the vertical direction may be formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 3. The shape of the entrance portion of the insertion hole 11 is the same cross-sectional shape as the stepping plate insertion convex portion 10 to be inserted, and the insertion hole 11 is drilled so as not to hinder the function of the reinforcing bars arranged in the side groove block main body 3. Set up. The insertion position of the stepping plate 7 is automatically determined by the position of the insertion hole 11 formed in the side groove block body 3 because the insertion portion 11 and the stepping plate insertion convex portion 10 to be inserted are fitted to each other. Come.

      In the illustrated example, two insertion holes 11 correspond to one stepping plate, and there are two insertion holes 11 of the same size and shape for the two stepping plates along the longitudinal direction of the side groove block body 3. There are 4 holes. For example, the stepping plate insertion convex portion 10 that is formed by deeply and widely drilling the insertion hole 11 at the location where the top wall 14 at both ends of the side groove block main body 3 is closed deeply and widely is also inserted into the top wall 14. If it is formed in a suitable shape, one insertion hole 11 drilled near the opening 15 of the top wall 14 at the center of the side groove block main body 3 may be made smaller or omitted together with the stepping plate insertion convex portion 10. it can.

      The dimensions of the insertion hole 11 correspond to the stepping plate insertion convex portion 10 to be fitted. In particular, the insertion depth into the side wall 6 is the width of the receiving surface 8 of the receiving block portion 9 and the side groove block main body 3. It is preferable to consider the strength of the side wall 6 and the reinforcing bars arranged in the side groove block main body 3 and to arrange reinforcing reinforcing bars around the insertion hole 11.

      The number, size, shape, position, and drilling direction of the insertion holes 11 are the above, the characteristics of the side groove block 1, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, and the paving work. It is optimal in relation to the workability of the construction, the manufacturability of the side groove block 1 and the maintenance management of the stepping plate 7 and the like.

      The tread plate 7 has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the length of the width (the length from the side groove block 3 side end portion of the stepping plate 7 to the end portion of the flat plate portion 26) is expected to be about 100 cm, but the shape (planar shape of the stepping plate 7 and the stepping plate 7) Installation of through holes 25 in the plate 7), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure), a structure (movable structure, hinge structure, fixed structure) in which the stepping plate 7 is placed on the receiving surface 8 is the size of the load loaded on the stepping plate 7 and the characteristics of the side groove block 1 In relation to the characteristics of the receiving surface 8 of the receiving block part 9 (shape, dimensions, position from the top surface 5 of the top wall), pavement workability, side groove block 1 manufacturability, maintenance management of the tread plate 7, etc. It shall be optimal. The exemplary footplate is made of metal.

      Since the side groove block main body 3 and the pavement 12 have a structure in which an automobile load or the like is shared and supported via the stepping plate 7, appropriate elasticity and rigidity are given to the stepping plate 7. . The illustrated stepping plate 7 that inserts the stepping plate insertion convex portion 10 into the insertion hole 11 of the side groove block main body 3 is made of a metal having a flat plate shape and appropriate elasticity and rigidity. In the case where the insertion hole 11 is formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 3, a synthetic resin stepping plate 7 having excellent flexibility is desirable.

      In the illustrated example, two side plates 7 having the same size and shape correspond to one side groove block main body 3. The number may be one or three or more. Each stepping plate 7 is provided with two stepping plate insertion convex portions 10 at the end portion on the side to be put on the receiving surface 8 of the receiving block portion 9, followed by a substantially rectangular shape having a flat plate portion 26. It has a planar shape. The flat plate portion 26 of the stepping plate 7 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back directions, but the flat plate portion 26 has appropriate elasticity and rigidity for the stepping plate 7. Within a range, a circular plate, an elliptical shape, a square shape, a diamond shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided with the through holes 25.

      In the illustrated side groove block main body 3, a total of four insertion holes 11 having the same dimensions and shape are drilled so that the tread plate insertion convex portions 10 for two tread plates are inserted. Also, the two adjacent foot plates 7 are connected to each other via two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 7 may be installed so as to bridge the side groove block main bodies 3 adjacent to each other.

      It is not necessary for all of the tread plate insertion convex portions 10 to have the same size and shape. For example, the tread plate insertion convex portion 10 to be inserted into a place where the top walls 14 at both ends of the side groove block main body 3 are closed is formed to be wide and large. In addition, if the insertion hole 11 is also formed into a shape corresponding to the insertion hole 11 and fitted to each other, one of the tread plate insertion convex portions 10 formed in the vicinity of the opening 15 of the top wall 14 at the center portion of the side groove block main body 3 is The insertion hole 11 can be made smaller or omitted. In the illustrated example, two stepping plates 7 correspond to one gutter block main body 3, but the number thereof may be one or three or more.

      When the stepping plate 7 is placed on the receiving surface 8 with a movable structure, an elongated movable groove 30 extends from the vicinity of the front end of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so that the stepping plate 7 faces in the front and back direction. It is drilled to penetrate.

      The side plate 28 of the tread plate insertion convex portion 10 may be formed in a wave shape or the like so that the tread plate insertion convex portion 10 has a friction pulling resistance with the insertion hole 11.

      The illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 3, and the end 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is received by the receiving block portion 9 in the illustrated example. It is placed on the surface 8 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 7 is installed at a boundary portion between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11 of the side groove block main body 3, the receiving surface 8 of the receiving block portion 9, and the installation surface of the pavement portion 12.

      Since the illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is spread on the sheet 36.

      Since the foot plate 7 has a structure that can be attached to and detached from the gutter block main body 3, it is a material that does not rust easily on members made of metal materials such as the foot plate 7, the metal rod 31, the bolt 33, and the insert nut 34. It is desirable to use rust prevention treatment. Further, it is desirable to determine the degree of deterioration and to update a new tread plate 7 or the like when repairing the pavement 12 at the boundary between the side groove block body 3 and the pavement 12.

      An example of the movable structure in which the stepping plate 7 is placed on the receiving surface 8 will be described. An elongate movable groove 30 is drilled from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so as to penetrate the stepping plate 7 in the front and back direction. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11, the end 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is placed on the receiving surface 8 of the receiving block portion 9, and the flat plate portion 26 is paved. Further, a metal rod 31 is inserted into the pavement side end of the movable groove 30 in the tread plate 7 installed in the section 12. Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement portion of the receiving block portion 9, and the tread plate 7 is inserted into the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block portion 9, and the pavement portion. Fixing is carried out so as to span three of the 12 installation surfaces. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 7 is guided to the metal rod 31 within the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 3 and the pavement 12, and the bottom surface of the insertion hole 11. 29, The receiving block 8 of the receiving block part 9 and the installation surface of the pavement part 12 are displaced while sliding. When the horizontal displacement of the tackle plate 7 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. If it exceeds, the metal bar 31 will be pushed by the foot plate 7, and will fall to the pavement part 12 side, and the foot plate 7 will fall to the pavement part 12 from the receiving surface 8 of the receiving block part 9. FIG. After falling off, the influence of the horizontal displacement of the stepping plate 7 does not reach the side groove block body 3. The side groove block main body 3 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 7 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the receiving block portion 9 when the gutter block body 3 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed slightly larger than the diameter of the bolt 33 at the end 40 of the pedal plate 7 following the convex plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the receiving block portion 9 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin space is provided between the upper surface of the stepping plate 7 and the bolt head. It is attached to the insert nut 34 by bolting so that it has

      An example of a fixing structure in which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 7 with a fixed structure is embedded in the receiving surface 8 of the receiving block portion 9 when the gutter block body 3 is manufactured. A bolt hole 35 for fixing and attaching the stepping plate 7 is formed in the end portion 40 of the stepping plate 7 subsequent to the stepping plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the receiving block portion 9 is attached to the insert nut 34 by bolting so as to be fixed to the receiving surface 8 of the receiving block portion 9 with bolts 33.

      For example, the construction situation when the gutter block 1 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 of the road and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block body 3 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The gutter block body 3 is installed such that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block body 3 is installed at the position and height based on the road plan, the sidewalk 38 and the pavement 12 of the roadway 39 are constructed. The construction of the pavement 12 at the boundary between the side groove block main body 3 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the receiving block 9 from the top surface 5 of the gutter block main body 3 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the stepping plate insertion convex portion 10 is fitted into the insertion hole 11 of the side groove block main body 3, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is inserted. Next, the flat plate portion 26 of the stepping plate 7 is placed at the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 7, the metal rod 31 is driven vertically into the pavement portion 12 along the side surface of the pavement portion of the receiving block portion 9, and the stepping plate 7 is inserted into the insertion hole 11. Fixing is carried out so as to span the bottom surface 29, the receiving surface 8 of the receiving block 9 and the installation surface of the pavement 12. Since the stepping plate 7 is structured to be detachable from the side groove block main body 3, a material made of a metal material such as the stepping plate 7 and the metal rod 31 is made of a material that does not easily rust or has a rust prevention treatment. Apply. Since the stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 7 or the like is completed, the pavement layer 23 is constructed.

      When the gutter block 1 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 3 and the pavement 12. Become. Since the stepping plate 7 is installed across the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block 9, and the installation surface of the pavement 12, Accordingly, the gutter block main body 3 and the pavement portion 12 share and support each other. Appropriate elasticity and rigidity are given to the tread plate 7. For this reason, the stepping plate 7 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement 12 and the boundary. The subsidence of the pavement 12 of the part is suppressed / reduced from sinking with a step perpendicular to the gutter block main body 3, and the subsidence is smoothly slid toward the pavement central part of the road etc. Can be controlled as.

      The side groove block 1 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of subsidence, deterioration of lane lines, poor drainage of rainwater stored in the pavement layer 23 depression, side groove block main body 3 It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 45 according to a second embodiment of the present invention will be described with reference to the drawings. The side groove block 45 does not have the insertion hole 11 of the side groove block 1 of the first embodiment formed in the side wall 6 of the side groove block main body 46, and the step plate insertion convex portion 10 is provided at one end portion of the step plate 47. This is a side groove block 45 that does not.

      5 to 8 relate to the second embodiment of the present invention, FIG. 5 is a perspective view showing an example of the side groove block 45, and FIG. 6 shows the stepping plate 47 on the receiving surface 8 of the receiving block portion 9. FIG. 7A is a plan view of an example of a stepping plate 47 provided with a through-hole 25, and FIG. 7B is a single piece of a side groove block 45 having a movable structure. FIG. 8A is a plan view of an example of a stepping plate 47 in which a single stepping plate 47 corresponds to the side groove block main body 46, and FIG. 8A shows a form in which the stepping plate 47 is mounted on the receiving surface 8 of the receiving block portion 9 with a hinge structure. FIG. 8 (B) is a longitudinal sectional view showing an example of the main part of one example of the side groove block 45 having the side groove block 45 having a configuration in which the stepping plate 47 is placed on the receiving surface 8 of the receiving block part 9 with a fixed structure. It is a longitudinal cross-sectional view which shows the principal part. 5 to 8, the same components as those in FIGS. 1 to 4 are denoted by the same reference numerals and description thereof is omitted.

      The side groove block 45 is a side groove block 45 made of, for example, a side groove block with a beam, for drainage of rainwater or the like buried in connection with a road or the like. The side groove block 45 includes a side groove block main body 46, a receiving block portion 9 protruding from the side wall outer surface 4 of the side groove block main body 46, and an end portion 40 of the catch plate 47 on the receiving surface 8 of the receiving block portion 9. And a tread plate 47 to be placed thereon. The tread plate 47 is installed across two surfaces of the receiving surface 8 of the receiving block portion 9 and the installation surface of the pavement portion 12, and is loaded on the pavement portion 12 at the boundary between the side groove block main body 46 and the pavement portion 12. The side groove block main body 46 and the pavement portion 12 share and support each other via a tread plate 47.

      On the side wall side end portion of the side groove block main body 46 of the receiving surface 8 of the receiving block portion 9, there is a projection 48 for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the receiving block portion 9. It is provided. The protrusion 48 may be provided by embedding an insert nut at a predetermined position when manufacturing the gutter block main body 46 and attaching a bolt to the insert nut.

      In the illustrated example, two side plates 47 having the same size and shape correspond to one side groove block main body 46. The number may be one or three or more. Each stepping plate 47 has a rectangular planar shape that is long in the longitudinal direction of the side groove block main body 46, and the elongated movable groove 30 extends from the vicinity of the end 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47. It is pierced so as to penetrate the tread plate 47 in the front and back direction. In addition, a groove 49 into which a protrusion 48 for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the receiving block portion 9 is inserted near the central portion of the end portion 40 of the stepping plate 47. It has been drilled.

      The illustrated stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, and the end 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block unit 9 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24 so as to be substantially parallel to the pavement surface 13. The tread plate 47 is installed across two surfaces, the receiving surface 8 of the receiving block portion 9 of the gutter block main body 46 and the installation surface of the pavement portion 12.

      The side groove block 45 does not have the insertion hole 11 of the side groove block 1 of the first embodiment formed in the side wall 6 of the side groove block main body 46, and the step plate insertion convex portion 10 is provided at one end portion of the step plate 47. This is a side groove block 45 that does not. Therefore, it is not necessary to attach and detach the insertion hole forming mold for forming the insertion hole 11 every time the side groove block main body 46 is manufactured, and the structure of the mold can be simplified. Can be improved. Further, since the stepping plate 47 is not inserted into the side groove block main body 46, the stepping plate 47 made of a concrete material having a thick plate thickness and strong rigidity can be used as the stepping plate 47.

      An example of the movable structure in which the stepping plate 47 is placed on the receiving surface 8 will be described. From the vicinity of the end portion 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47, an elongated movable groove 30 is formed so as to penetrate the stepping plate 47 in the front and back direction. The end portion 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block portion 9, and the end portion of the movable groove 30 on the pavement side is further provided on the stepping plate 47 in which the flat plate portion 26 is installed on the pavement portion 12. A metal rod 31 is inserted into Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement of the receiving block 9, and the tread plate 47 is placed on two surfaces of the receiving surface 8 of the receiving block 9 and the installation surface of the pavement 12. Fix it as if it was passed over. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 47 is guided by the metal rod 31 within the range of the length of the movable groove 30 in accordance with the sinking of the pavement 12 at the boundary between the side groove block main body 46 and the pavement 12, and the receiving block 9 The receiving surface 8 and the installation surface of the pavement 12 are displaced while sliding. When the horizontal displacement of the tread plate 47 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. If it exceeds, the metal bar 31 will be pushed by the stepping plate 47 and will fall to the pavement part 12 side, and the stepping plate 47 will fall to the pavement part 12 from the receiving surface 8 of the receiving block part 9. FIG. After falling off, the influence of the horizontal displacement of the stepping plate 47 does not reach the side groove block main body 46. The side groove block main body 46 is inclined or damaged by the side groove block protecting function by the movable structure of the tread plate 47 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the receiving block portion 9 when the gutter block main body 46 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed in the end portion 40 of the tread plate 47 slightly larger than the diameter of the bolt 33. The stepping plate 47 placed on the receiving surface 8 of the receiving block part 9 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin space is provided between the upper surface of the stepping plate 47 and the bolt head. It is attached to the insert nut 34 by bolting so that it has

      An example of a fixing structure in which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 47 with a fixed structure is embedded in the receiving surface 8 of the receiving block portion 9 when the side groove block main body 46 is manufactured. A bolt hole 35 for fixing and mounting the stepping plate 47 is formed in the end portion 40 of the stepping plate 47. The stepping plate 47 placed on the receiving surface 8 of the receiving block portion 9 is attached to the insert nut 34 by bolts so as to be fixed to the receiving surface 8 of the receiving block portion 9 by bolts 33.

      For example, the situation of construction in the case where the gutter block 45 is embedded and connected to the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 46 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The gutter block main body 46 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block main body 46 is installed at the position and height based on the road plan, the sidewalk 38 and the paved portion 12 of the roadway 39 are constructed. The construction of the pavement 12 at the boundary between the side groove block main body 46 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the receiving block portion 9 from the top surface 5 of the gutter block main body 46 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the end portion 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block portion 9, and subsequently, the flat plate portion 26 of the stepping plate 47 is paved. 13 in parallel with the pavement layer 23 and the roadbed 24. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 47, and the metal rod 31 is driven vertically into the pavement portion 12 along the side of the pavement portion of the receiving block portion 9, so that the stepping plate 47 is received by the receiving block portion. 9 is fixed so as to span the two receiving surfaces 8 and the installation surface of the pavement 12. Since the tread plate 47 has a structure that can be attached to and detached from the side groove block main body 46, a member made of a metal material such as the tread plate 47 and the metal rod 31 is made of a material that is not easily rusted or has a rust prevention treatment. Apply. Since the stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 47 from adhering to each other is placed over the stepping plate 47. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 47 and the like is completed, the pavement layer 23 is installed.

      When the gutter block 45 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 46 and the pavement 12. Become. Since the tread plate 47 is installed across two surfaces of the receiving surface 8 of the receiving block portion 9 and the installation surface of the pavement portion 12, the loaded automobile load and the like are connected to the side groove block main body 46 via the tread plate 47. The pavement 12 will share and support each other. Appropriate elasticity and rigidity are imparted to the tread plate 47. For this reason, the tread plate 47 resists the sinking of the pavement portion 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement portion 12 and the boundary. The subsidence of the part of the pavement 12 is suppressed / reduced with a vertical step with respect to the gutter block main body 46, and the subsidence is smoothly rubbed toward the central part of the pavement such as a road. Can be controlled as.

      The side groove block 45 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of the subsidence, thereby causing deterioration of lane lines, poor drainage of rainwater stored in the pavement layer 23 depression, and side groove block body 46. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 55 according to a third embodiment of the present invention will be described with reference to the drawings. The side groove block 55 is a side groove block 55 provided with a seating block 57 in contact with the side wall outer surface 4 of the side groove block main body 56 in place of the seating block portion 9 of the side groove block 1 of the first embodiment.

      9 to 12 relate to a third embodiment of the present invention, FIG. 9 is a perspective view showing an example of the side groove block 55, and FIG. 10 is a plan view in which the stepping plate 7 is movable to the receiving surface 8 of the receiving block 57. FIG. 11A is a plan view of an example of a stepping plate 7 provided with a through-hole 25, and FIG. 11B is a stepped portion having a different size. FIG. 11C is a plan view of an example of the stepping plate 7 in which one stepping plate 7 corresponds to one gutter block main body 56, and FIG. A) is a longitudinal sectional view showing a main part of an example of the side groove block 55 having a form in which the stepping plate 7 is put on the receiving surface 8 of the receiving block 57 by a hinge structure, and FIG. A main part of an example of the side groove block 55 having a configuration in which the seat block 57 is mounted on the receiving surface 8 with a fixed structure. It is to longitudinal section.

      The side groove block 55 is a side groove block 55 made of, for example, a side groove block with a beam, for drainage of rainwater or the like buried in connection with a road or the like. The side groove block 55 includes a side groove block main body 56, a receiving block 57 in contact with the side wall outer surface 4 of the side groove block main body 56, an insertion hole 11 formed in the side wall 6, and a stepping plate inserted into the insertion hole 11. A tread plate 7 into which the convex portion 10 is inserted is provided. The stepping plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block 57, and the installation surface of the pavement 12, and paving the boundary portion between the side groove block main body 56 and the pavement 12. The side groove block main body 56 and the pavement portion 12 share and support each other via the tread plate 7 with respect to an automobile load or the like loaded on the portion 12.

      The insertion hole 11 into which the side groove block main body 56 and the stepping plate insertion convex portion 10 are inserted is made of concrete and is manufactured integrally. The receiving block 57 is made of concrete, and is manufactured separately from the gutter block main body 56 as a separate block. At the construction site where the side groove block main body 56 is installed, a receiving block 57 manufactured at the factory may be installed in contact with the side groove block main body 56, or the concrete is put on the construction site in contact with the side groove block main body 56. You may cast it and make it. The illustrated gutter block main body 56 has the drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is open, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 56 are closed are approximately one-half of the total length, and function as a beam in the upper part of the side groove block main body 56.

      A block mounting portion 18 on which a part of the lower surface of the walking path boundary block 17 is mounted and fixed is provided at the end of the top wall 14 on the side of the side groove block main body 56 where the stepping plate 7 is not installed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

      The receiving block 57 is provided in contact with the side wall outer surface 4 so that the receiving surface 8 is substantially perpendicular to the side wall outer surface 4 of the side groove block main body 56. The bottom surface of the lower end of the illustrated receiving block 57 is flush with the bottom surface of the bottom wall 20 of the side groove block main body 56. However, the bottom surface of the lower end of the receiving block 57 is aligned with the lower end surface of the roadbed 24, etc. May be.

      The width of the receiving surface 8 of the illustrated receiving block 57 is set to a width of about 10 cm in accordance with the horizontal displacement amount of the stepping plate 7 according to the vertical step depression of the pavement 12 with respect to the side groove block main body 56. However, the width is the magnitude of the load loaded on the receiving surface 8 and the characteristics of the side groove block 55 (type of side groove block 55: U-shaped side groove block, portal-type gradient variable side groove block, underdrain type) Side groove block, side groove block with beam, slit type side groove block, etc.), characteristics of the foot plate 7 (size, shape, material, type of structure), structure in which the foot plate 7 is placed on the receiving surface 8 (movable structure) , Hinge structure, fixed structure), workability of paving work, and maintenance and management of stepping plates, etc.

      A roundness 22 is provided at the pavement side end of the receiving surface 8 of the receiving block 57. In the illustrated example, the receiving block 57 is continuously provided along the longitudinal direction of the side groove block main body 56, but may be provided intermittently along the longitudinal direction of the side groove block main body 56.

      The position of the receiving surface 8 of the receiving block 57 from the top surface 5 of the side groove block main body 56 is provided at the boundary between the pavement layer 23 and the roadbed 24, but the position that becomes the pavement layer 23 or the roadbed 24. It is good. In addition to the above, the characteristics of the side groove block 55, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, the workability of the paving work, the maintenance management of the stepping plate 7, etc. To be the best.

      The insertion hole 11 into which the stepping plate insertion convex portion 10 is inserted has a transverse cross section of the stepping plate insertion convex portion 10 along the receiving surface 8 of the receiving block 57 from the side wall outer surface 4 to the side wall 6 substantially vertically at both right and left. Drill a little larger than. In some cases, the vertical direction may be formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 56. The shape of the entrance portion of the insertion hole 11 has the same cross-sectional shape as the stepping plate insertion convex portion 10 to be inserted, and the insertion hole 11 is drilled so as not to interfere with the reinforcing bar function arranged in the side groove block main body 56. Set up. Since the insertion hole 11 and the stepping plate insertion convex portion 10 to be inserted are fitted to each other, the installation position of the stepping plate 7 is automatically determined by the position of the insertion hole 11 formed in the side groove block main body 56. Come.

      In the illustrated example, two insertion holes 11 correspond to one stepping plate, and there are two insertion holes 11 of the same size and shape along the longitudinal direction of the side groove block main body 56. There are 4 holes. For example, the stepping plate insertion convex portion 10 is formed by deeply and widely drilling the insertion hole 11 where the top wall 14 at both ends of the side groove block main body 56 is closed in the top wall 14. If it is formed in a shape suitable for it, the one insertion hole 11 drilled near the opening 15 of the top wall 14 at the center of the side groove block main body 56 may be made smaller or omitted together with the stepping plate insertion convex portion 10. it can.

      The size of the insertion hole 11 corresponds to the stepping plate insertion convex portion 10 to be fitted. In particular, the insertion depth into the side wall 6 is the width of the receiving surface 8 of the receiving block 57 and the side wall of the side groove block main body 56. It is desirable to consider the strength of No. 6 and the reinforcing bars arranged in the side groove block main body 56 and to arrange the reinforcing reinforcing bars around the insertion hole 11.

      In addition to the above, the number, size, shape, position and drilling direction of the insertion holes 11 are the characteristics of the side groove block 55, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, and the paving work. It is optimal in relation to the workability of the construction and the maintenance management of the stepping plate 7 and the like.

      The tread plate 7 has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the width (the length from the end of the side groove block 56 on the side groove block 56 side to the end of the flat plate portion 26) is expected to be about 100 cm, but the shape (the planar shape of the stepping plate 7, the stepping plate 7) Installation of through holes 25 in the plate 7), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure), the structure (movable structure, hinge structure, fixed structure) in which the stepping plate 7 is placed on the receiving surface 8 is the size of the load loaded on the stepping plate 7, the characteristics of the side groove block 55 The receiving surface 8 of the receiving block 57 is optimal in relation to the characteristics (shape, dimensions, position from the top surface 5 of the top wall), the workability of the paving work, the maintenance management of the stepping plate 7, and the like. The exemplary footplate is made of metal.

      The side groove block main body 56 and the pavement 12 have a structure in which an automobile load or the like is shared and supported via the stepping plate 7, so that the stepping plate 7 has appropriate elasticity and rigidity. . The illustrated stepping plate insertion convex portion 10 for inserting the stepping plate insertion convex portion 10 into the insertion hole 11 of the side groove block body 56 is made of a metal having a flat plate shape and appropriate elasticity and rigidity. In addition, when the insertion hole 11 is drilled in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 56, the synthetic resin stepping plate 7 having excellent flexibility is desirable.

      In the illustrated example, two side plates 7 having the same size and shape correspond to one side groove block main body 56. The number may be one or three or more. Each stepping plate 7 is provided with two stepping plate insertion convex portions 10 at the end portion on the side where the receiving block 57 is put on the receiving surface 8, followed by a substantially rectangular plane having a flat plate portion 26. It has a shape. The flat plate portion 26 of the stepping plate 7 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back directions, but the flat plate portion 26 has appropriate elasticity and rigidity for the stepping plate 7. Within a range, a circular plate, an elliptical shape, a square shape, a diamond shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided with the through holes 25.

      A total of four insertion holes 11 having the same size and shape are formed in the illustrated side groove block main body 56 so that the tread plate insertion convex portions 10 for two tread plates are inserted. Also, the two adjacent foot plates 7 are connected to each other via two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 7 may be installed so as to span the adjacent side groove block main bodies 56 to be connected.

      It is not necessary for all of the tread plate insertion convex portions 10 to have the same size and shape. For example, the tread plate insertion convex portion 10 to be inserted into a place where the top wall 14 at both ends of the side groove block main body 56 is closed is formed to be wide and large. In addition, if the insertion hole 11 is also formed in a shape corresponding to the insertion hole 11 and fitted to each other, one of the tread plate insertion convex portions 10 formed in the vicinity of the opening portion 15 of the top wall 14 at the center portion of the side groove block main body 56 is It can be made smaller or omitted together with the insertion hole 11. In the illustrated example, two of the stepping plates 7 correspond to one gutter block main body 56, but the number thereof may be one or three or more.

      When the stepping plate 7 is placed on the receiving surface 8 with a movable structure, an elongated movable groove 30 extends from the vicinity of the front end of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so that the stepping plate 7 faces in the front and back direction. It is drilled to penetrate.

      The side plate 28 of the tread plate insertion convex portion 10 may be formed in a wave shape or the like so that the tread plate insertion convex portion 10 has a friction pulling resistance with the insertion hole 11.

      The illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 56, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is, for example, the receiving surface of the receiving block 57. 8 is mounted as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 7 is installed at a boundary portion between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11 of the side groove block main body 56, the receiving surface 8 of the receiving block 57, and the installation surface of the pavement 12.

      Since the illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is spread on the sheet 36.

      Since the foot plate 7 has a structure that can be attached to and detached from the side groove block main body 56, the material made of a metal material such as the foot plate 7, the metal rod 31, the bolt 33, and the insert nut 34 is not easily rusted. It is desirable to use rust prevention treatment. Further, it is desirable to update the pavement plate 7 and the like by judging the degree of deterioration when repairing the pavement 12 at the boundary between the side groove block main body 56 and the pavement 12.

      An example of the movable structure in which the stepping plate 7 is placed on the receiving surface 8 will be described. An elongate movable groove 30 is drilled from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so as to penetrate the stepping plate 7 in the front and back direction. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11, the end 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is placed on the receiving surface 8 of the receiving block 57, and the flat plate portion 26 is paved. 12 is further inserted into the end of the movable groove 30 on the pavement side. Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement of the receiving block 57, and the tread plate 7 is inserted into the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block 57, and the pavement 12. Fix it so that it covers the three installation surfaces. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 7 is guided by the metal rod 31 within the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 56 and the pavement 12, and the bottom surface of the insertion hole 11. 29, The receiving block 8 of the receiving block 57 and the installation surface of the pavement 12 are displaced while sliding. When the horizontal displacement of the tackle plate 7 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. If it exceeds, the metal rod 31 will be pushed by the foot plate 7, and will fall to the pavement part 12 side, and the foot plate 7 will fall to the pavement part 12 from the receiving surface 8 of the receiving block 57. After falling off, the influence of the horizontal displacement of the stepping plate 7 does not reach the side groove block main body 56. The side groove block main body 56 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 7 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure in which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the receiving block 57 when the receiving block 57 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed slightly larger than the diameter of the bolt 33 at the end 40 of the pedal plate 7 following the convex plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the receiving block 57 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin is provided between the upper surface of the stepping plate 7 and the bolt head. It is attached to the insert nut 34 by bolting so as to have it.

      An example of a fixing structure in which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 7 with a fixed structure is embedded in the receiving surface 8 of the receiving block 57 when the receiving block 57 is manufactured. A bolt hole 35 for fixing and attaching the stepping plate 7 is formed in the end portion 40 of the stepping plate 7 subsequent to the stepping plate insertion convex portion 10. The tread plate 7 placed on the receiving surface 8 of the receiving block 57 is attached to the insert nut 34 by bolting so as to be fixed to the receiving surface 8 of the receiving block 57 by the bolt 33.

      For example, the situation of construction when the gutter block 55 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 56 is typically constructed at the boundary between the sidewalk 38 and the roadway 39 prior to the sidewalk 38 and the roadway 39. The gutter block main body 56 is installed so that the top wall upper surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block main body 56 is installed at a position / height based on the road plan, a receiving block 57 manufactured separately at the factory is installed in contact with the gutter block main body 56, or the gutter block main body 56 is installed. The receiving block 57 is manufactured by placing concrete on the construction site so as to abut against. Thereafter, the pavement 12 of the sidewalk 38 and the roadway 39 is constructed. The construction of the pavement 12 at the boundary between the side groove block main body 56 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the receiving block 57 from the top surface 5 of the side groove block main body 56 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the stepping plate insertion convex portion 10 is fitted into the insertion hole 11 of the side groove block main body 56, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is inserted. Next, the flat plate portion 26 of the stepping plate 7 is placed on the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 7, the metal rod 31 is driven vertically into the pavement portion 12 along the side of the pavement portion of the receiving block 57, and the stepping plate 7 is inserted into the bottom surface of the insertion hole 11. 29. Fixing is carried out so as to span the three surfaces of the receiving surface 8 of the receiving block 57 and the installation surface of the pavement 12. Since the tread plate 7 has a structure that can be attached to and detached from the side groove block main body 56, a member made of a metal material such as the tread plate 7 or the metal rod 31 is made of a material that does not easily rust or has a rust prevention treatment. Apply. Since the stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 7 or the like is completed, the pavement layer 23 is constructed.

      When the gutter block 55 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 56 and the pavement 12. Become. The stepping plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the receiving block 57, and the installation surface of the pavement portion 12. Thus, the side groove block main body 56 and the pavement portion 12 share and support each other. Appropriate elasticity and rigidity are given to the tread plate 7. For this reason, the stepping plate 7 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement 12 The subsidence of the pavement 12 of the part is suppressed / reduced with a vertical step with respect to the gutter block main body 56, and the subsidence is smoothly rubbed toward the central part of the pavement such as a road. Can be controlled as.

      The side groove block 55 has the function of suppressing / reducing deterioration and subsidence of the pavement 12 and the shape control function of the subsidence, thereby causing deterioration of the lane line, poor drainage of rainwater stored in the pavement layer 23 depression, and the side groove block main body 56. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 60 according to a fourth embodiment of the present invention will be described with reference to the drawings. In the side groove block 60, the insertion hole 11 of the side groove block 55 of the third embodiment is not formed in the side wall 6 of the side groove block main body 61, and the tread plate insertion convex portion 10 is provided at one end portion of the tread plate 47. This is a side groove block 60 that does not.

      FIGS. 13 to 16 relate to a fourth embodiment of the present invention, FIG. 13 is a perspective view showing an example of the side groove block 60, and FIG. 14 can move the stepping plate 47 to the receiving surface 8 of the receiving block 57. FIG. 15A is a plan view of an example of a stepping plate 47 provided with a through hole 25, and FIG. 15B is a single side groove. FIG. 16A is a plan view of an example of a stepping plate 47 in which one stepping plate 47 corresponds to the block main body 61. FIG. 16A shows a side groove having a form in which the stepping plate 47 is put on the receiving surface 8 of the receiving block 57 by a hinge structure. FIG. 16B shows a main part of an example of the side groove block 60 having a configuration in which the stepping plate 47 is mounted on the receiving surface 8 of the receiving block 57 with a fixed structure. It is a longitudinal cross-sectional view. 13 to 16, the same components as those in FIGS. 9 to 12 are denoted by the same reference numerals and description thereof is omitted.

      The side groove block 60 is a side groove block 60 made of, for example, a side groove block with a beam, for drainage of rainwater or the like buried in connection with a road or the like. The side groove block 60 includes a side groove block main body 61, a receiving block 57 that is in contact with the side wall outer surface 4 of the side groove block main body 61, and an end portion 40 of the tread plate 47 on the receiving surface 8 of the receiving block 57. And a tread plate 47 to be provided. The tread plate 47 is installed across the two surfaces of the receiving surface 8 of the receiving block 57 and the installation surface of the pavement 12, and is loaded on the pavement 12 at the boundary between the gutter block main body 61 and the pavement 12. The side groove block main body 61 and the pavement portion 12 share and support each other via a tread plate 47 so as to support an automobile load or the like.

      On the side wall side end portion of the side groove block main body 61 of the receiving surface 8 of the receiving block 57, a projection 48 is provided for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the receiving block 57. is there. When the gutter block body 61 is manufactured at the factory or when the concrete is cast on site at a construction site, the protrusion 48 is embedded with an insert nut in a predetermined position, and a bolt is attached to the insert nut. May be provided.

      In the illustrated example, two side plates 47 having the same size and shape correspond to one side groove block main body 61. The number may be one or three or more. Each stepping plate 47 has a rectangular planar shape that is long in the longitudinal direction of the side groove block main body 61, and the elongated movable groove 30 extends from the vicinity of the end 40 of the stepping plate to the flat plate portion 26 of the stepping plate 47. The plate 47 is drilled so as to penetrate in the front and back direction. Further, a groove 49 into which a protrusion 48 is inserted is provided in the vicinity of the central portion of the end portion 40 of the stepping plate 47 to facilitate positioning when the stepping plate 47 is put on the receiving surface 8 of the receiving block 57. It is installed.

      The illustrated stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, and the end 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block 57 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24 so as to be substantially parallel to the pavement surface 13. The tread plate 47 is installed across two surfaces, the receiving surface 8 of the receiving block 57 of the gutter block main body 61 and the installation surface of the pavement 12.

      In the side groove block 60, the insertion hole 11 of the side groove block 55 of the third embodiment is not formed in the side wall 6 of the side groove block main body 61, and the tread plate insertion convex portion 10 is provided at one end portion of the tread plate 47. This is a side groove block 60 that does not. Therefore, it is not necessary to attach and detach the insertion hole forming mold for forming the insertion hole 11 every time the side groove block main body 61 is manufactured, and the structure of the mold can be simplified. Can be improved. Further, since the stepping plate 47 is not inserted into the side groove block main body 61, the stepping plate 47 made of a concrete material having a thick plate thickness and strong rigidity can be used.

      When repairing roads and the like, after excavating the paved portion 12 at the boundary between the existing side groove block embedded in the road and the like and the paved portion 12, a receiving block 57 is provided in contact with the existing side groove block, Thereafter, the tread plate 47 can be installed over two surfaces of the receiving surface 8 of the receiving block 57 and the installation surface of the pavement 12.

      An example of the movable structure in which the stepping plate 47 is placed on the receiving surface 8 will be described. From the vicinity of the end portion 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47, an elongated movable groove 30 is formed so as to penetrate the stepping plate 47 in the front and back direction. The end 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block 57, and the platen plate 47 in which the flat plate portion 26 is installed on the pavement 12 is further connected to the pavement side end of the movable groove 30. A metal rod 31 is inserted. Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement of the receiving block 57, and the tread plate 47 is hung on the two surfaces of the receiving surface 8 of the receiving block 57 and the installation surface of the pavement 12. Fix by passing. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 47 is guided by the metal rod 31 within the range of the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 61 and the pavement 12, while The receiving surface 8 and the installation surface of the pavement 12 are displaced while sliding. When the horizontal displacement of the tread plate 47 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. If it exceeds, the metal bar 31 will be pushed by the tread plate 47 and will fall to the pavement part 12 side, and the tread plate 47 will fall to the pavement part 12 from the receiving surface 8 of the receiving block 57. After dropping off, the influence of the horizontal displacement of the stepping plate 47 does not reach the side groove block main body 61. The side groove block main body 61 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 47 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the receiving block 57 when the receiving block 57 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed in the end portion 40 of the tread plate 47 slightly larger than the diameter of the bolt 33. The stepping plate 47 placed on the receiving surface 8 of the receiving block 57 is passed through the bolt 33 that functions as a hinge through the hinge hole 41, and a slight margin is provided between the upper surface of the stepping plate 47 and the bolt head. It is attached to the insert nut 34 by bolting so as to have it.

      An example of a fixing structure on which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 47 with a fixed structure is embedded in the receiving surface 8 of the receiving block 57 when the receiving block 57 is manufactured. A bolt hole 35 for fixing and mounting the stepping plate 47 is formed in the end portion 40 of the stepping plate 47. The stepping plate 47 placed on the receiving surface 8 of the receiving block 57 is attached to the insert nut 34 by bolting so as to be fixed to the receiving surface 8 of the receiving block 57 by the bolt 33.

      For example, the situation of construction when the gutter block 60 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 of the road and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 61 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The gutter block main body 61 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block main body 61 is installed at a position / height based on the road plan, a receiving block 57 manufactured separately at the factory is installed in contact with the gutter block main body 61 or the gutter block main body 61 is installed. The receiving block 57 is manufactured by placing concrete on the construction site so as to abut against. Thereafter, the pavement 12 of the sidewalk 38 and the roadway 39 is constructed. The construction of the pavement 12 at the boundary between the side groove block main body 61 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. A position of the receiving surface 8 of the receiving block 57 from the top surface 5 of the side groove block main body 61 is provided at a boundary portion between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the end portion 40 of the stepping plate 47 is placed on the receiving surface 8 of the receiving block 57, and subsequently, the flat plate portion 26 of the stepping plate 47 is placed on the pavement surface 13. It is installed in the boundary part of the pavement layer 23 and the roadbed 24 substantially in parallel. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 47, and the metal rod 31 is driven vertically into the pavement portion 12 along the side surface of the pavement portion of the receiving block 57. Fixing is performed so as to span the two surfaces of the receiving surface 8 and the installation surface of the pavement 12. Since the tread plate 47 is structured to be detachable from the side groove block main body 61, a member made of a metal material such as the tread plate 47 and the metal rod 31 is made of a material that does not easily rust or is treated with rust prevention. Apply. Since the stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 47 from adhering to each other is placed over the stepping plate 47. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 47 and the like is completed, the pavement layer 23 is installed.

      When the gutter block 60 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 61 and the pavement 12. Become. Since the stepping plate 47 is installed across the two surfaces of the receiving surface 8 of the receiving block 57 and the installation surface of the pavement 12, the loaded automobile load and the like are paved with the side groove block main body 61 via the stepping plate 47. The parts 12 share and support each other. Appropriate elasticity and rigidity are imparted to the tread plate 47. For this reason, the tread plate 47 resists the sinking of the pavement portion 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement portion 12 The subsidence of the part of the pavement 12 that sinks with a step perpendicular to the gutter block main body 61 is suppressed and reduced, and the subsidence is smoothly slid toward the pavement central part of the road or the like. Can be controlled as.

      The side groove block 60 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of the subsidence, thereby causing deterioration of lane lines, poor drainage of rainwater stored water in the pavement layer 23 depression, and side groove block main body 61. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the residents in the surrounding area. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 65 according to a fifth embodiment of the present invention will be described with reference to the drawings. The side groove block 65 is a side groove block 65 provided with a protruding plate portion 67 protruding from the side wall outer surface 4 of the side groove block main body 66 in place of the receiving block portion 9 of the side groove block 1 of the first embodiment. .

      FIGS. 17 to 20 relate to the fifth embodiment of the present invention, FIG. 17 is a perspective view showing an example of the side groove block 65, and FIG. 18 shows that the tread plate 7 can be moved to the receiving surface 8 of the protruding plate portion 67. FIG. 19A is a plan view of an example of a stepping plate 7 provided with a through-hole 25, and FIG. 19B is a stepped portion having a different size. FIG. 19C is a plan view of an example of the stepping plate 7 having one side groove block main body 66 corresponding to one stepping plate 7, and FIG. FIG. 20A is a longitudinal sectional view showing a main part of an example of a side groove block 65 having a configuration in which the stepping plate 7 is mounted on the receiving surface 8 of the protruding plate portion 67 with a hinge structure, and FIG. The longitudinal section which shows the principal part of an example of the gutter block 65 with the form which mounts on the receiving surface 8 of the part 67 by fixed structure It is.

      The side groove block 65 is a side groove block 65 made of, for example, a side groove block with a beam, for drainage of rainwater or the like embedded in a road or the like. The side groove block 65 includes a side groove block main body 66, a protruding plate portion 67 protruding from the side wall outer surface 4 of the side groove block main body 66, an insertion hole 11 formed in the side wall 6, and a stepping plate inserted into the insertion hole 11. And a tread plate 7 into which the convex portion 10 is inserted. The stepping plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the protruding plate portion 67, and the installation surface of the pavement portion 12, and paved at the boundary portion between the side groove block main body 66 and the pavement portion 12. The side groove block main body 66 and the pavement portion 12 share and support each other via the tread plate 7 with respect to an automobile load or the like loaded on the portion 12.

      The insertion hole 11 for inserting the side groove block main body 66 and the stepping plate insertion convex portion 10 is made of concrete, and is manufactured integrally. The protruding plate portion 67 may be attached to the side groove block main body 66 at a factory, or may be attached at a construction site where the side groove block main body 66 is installed. The illustrated gutter block main body 66 has the drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is open, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 66 are closed are approximately half the total length, and function as a beam in the upper part of the side groove block main body 66.

      A block mounting portion 18 on which a part of the lower surface of the pedestrian road boundary block 17 is mounted and fixed is provided at the end of the top wall 14 on the side of the side groove block main body 66 where the stepping plate 7 is not installed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

    The protruding plate portion 67 is attached to the side wall outer surface 4 so that the receiving surface 8 is substantially perpendicular to the side wall outer surface 4 of the side groove block main body 66. The protruding plate portion 67 is made of metal, synthetic resin, or the like, but so-called angle steel having an L-shaped cross section may be used.

      The protruding plate portion 67 is provided with a bolt hole 70 for attaching to the side wall outer surface 4 of the side groove block main body 66. When the side groove block main body 66 is manufactured, the insert nut 71 is embedded in the mounting position of the protruding plate portion 67 of the side wall outer surface 4 of the side groove block main body 66, and after the side groove block main body 66 is manufactured, The protruding plate portion 67 is attached with bolts 69 fixed.

      The width of the receiving surface 8 of the illustrated protruding plate portion 67 is set to a width of about 10 cm in accordance with the horizontal displacement amount of the stepping plate 7 according to the vertical step depression of the pavement portion 12 with respect to the side groove block main body 66. However, the width is the magnitude of the load loaded on the receiving surface 8 and the characteristics of the side groove block 65 (type of side groove block 65: U-shaped side groove block, portal-type gradient variable side groove block, underdrain type) Side groove block, side groove block with beam, slit type side groove block, etc.), characteristics of the foot plate 7 (size, shape, material, type of structure), structure in which the foot plate 7 is placed on the receiving surface 8 (movable structure) , Hinge structure, fixed structure), workability of paving work, and maintenance and management of stepping plates, etc.

      Roundness 22 is attached to the pavement side end of the receiving surface 8 of the protruding plate 67. In the illustrated example, the protruding plate portion 67 is continuously provided along the longitudinal direction of the side groove block main body 66, but may be provided intermittently along the longitudinal direction of the side groove block main body 66.

      The position of the receiving surface 8 of the projecting plate portion 67 from the top surface 5 of the side groove block main body 66 is provided at the boundary between the pavement layer 23 and the roadbed 24, but the position that becomes the pavement layer 23 or the roadbed 24. It is good. In addition to the above, the characteristics of the side groove block 65, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, the workability of the paving work, the maintenance management of the stepping plate 7, etc. To be the best.

      The insertion hole 11 into which the tread plate insertion convex portion 10 is inserted has a transverse cross section of the tread plate insertion convex portion 10 along the receiving surface 8 of the protruding plate portion 67 from the side wall outer surface 4 to the side wall 6 substantially vertically at both right and left. Drill a little larger than. In some cases, the side wall 6 may be perforated in the vertical direction from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 66. The shape of the entrance portion of the insertion hole 11 has the same cross-sectional shape as the stepping plate insertion convex portion 10 to be inserted, and the insertion hole 11 is drilled so as not to interfere with the reinforcing bar function arranged in the side groove block main body 66. Set up. Since the insertion hole 11 and the stepping plate insertion convex portion 10 to be inserted are fitted to each other, the installation position of the stepping plate 7 is automatically determined by the position of the insertion hole 11 formed in the side groove block main body 66. Come.

      In the illustrated example, two insertion holes 11 correspond to one stepping plate, and there are two insertion holes 11 of the same size and shape along the longitudinal direction of the side groove block main body 66. There are 4 holes. For example, the stepping plate insertion convex portion 10 is formed by deeply and widely drilling the insertion hole 11 where the top wall 14 at both ends of the side groove block main body 66 is closed deeply and widely in the top wall 14. If it is formed in a shape suitable for it, one insertion hole 11 drilled in the vicinity of the opening 15 of the top wall 14 at the center portion of the side groove block main body 66 may be made smaller or omitted together with the stepping plate insertion convex portion 10. it can.

      The size of the insertion hole 11 corresponds to the stepping plate insertion convex portion 10 to be fitted. In particular, the insertion depth into the side wall 6 is the width of the receiving surface 8 of the protruding plate portion 67 and the side wall of the side groove block main body 66. It is desirable to consider the strength of No. 6 and the reinforcing bars arranged in the side groove block main body 66 and to arrange the reinforcing reinforcing bars around the insertion hole 11.

      The number, size, shape, position, and drilling direction of the insertion holes 11 include the characteristics of the side groove block 65, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, and paving work. Therefore, it shall be optimal in relation to the workability of the construction and the maintenance management of the stepping plate 7 and the like.

      The tread plate 7 has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the length of the width (the length of the side plate 7 from the side groove block main body 66 side end to the end of the flat plate portion 26) is expected to be about 100 cm, but the shape (the plane shape of the step plate 7 and the step plate 7) Installation of through holes 25 in the plate 7), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure), the structure (movable structure, hinge structure, fixed structure) in which the stepping plate 7 is placed on the receiving surface 8 is the size of the load loaded on the stepping plate 7, the characteristics of the side groove block 65 In addition, it is optimal in relation to the characteristics (shape, dimensions, position from the top wall top surface 5) of the receiving surface 8 of the protruding plate portion 67, the workability of the paving work, the maintenance management of the stepping plate 7, and the like. The exemplary footplate is made of metal.

      Since the side groove block main body 66 and the pavement 12 have a structure in which an automobile load or the like is shared and supported via the stepping plate 7, appropriate elasticity and rigidity are given to the stepping plate 7. . The illustrated stepping plate insertion convex portion 10 for inserting and inserting the stepping plate insertion convex portion 10 into the insertion hole 11 of the side groove block main body 66 is made of a metal having a flat plate shape and appropriate elasticity and rigidity. In addition, when the insertion hole 11 is drilled in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 66, the synthetic resin stepping plate 7 having excellent flexibility is desirable.

      In the illustrated example, two side plates 7 having the same size and shape correspond to one side groove block main body 66. The number may be one or three or more. Each stepping plate 7 is provided with two stepping plate insertion convex portions 10 at the end portion on the side where the protruding plate portion 67 is put on the receiving surface 8, followed by a substantially rectangular plane having a flat plate portion 26. It has a shape. The flat plate portion 26 of the stepping plate 7 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back directions, but the flat plate portion 26 has appropriate elasticity and rigidity for the stepping plate 7. Within a range, a circular plate, an elliptical shape, a square shape, a diamond shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided with the through holes 25.

      A total of four insertion holes 11 having the same size and shape are formed in the illustrated side groove block main body 66 so that the tread plate insertion convex portions 10 for two tread plates are inserted. Also, the two adjacent foot plates 7 are connected to each other via two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 7 may be installed so as to span the adjacent side groove block main bodies 66 to be coupled.

      It is not necessary for all of the tread plate insertion convex portions 10 to have the same size and shape. For example, the tread plate insertion convex portion 10 to be inserted into a place where the top wall 14 at both ends of the side groove block main body 66 is closed is formed to be wide and large. In addition, if the insertion hole 11 is also formed in a shape corresponding to the insertion hole 11 and fitted to each other, one of the tread plate insertion convex portions 10 formed in the vicinity of the opening 15 of the top wall 14 at the center portion of the side groove block main body 66 is The insertion hole 11 can be made smaller or omitted. In the illustrated example, two of the stepping plates 7 correspond to one gutter block main body 66, but the number thereof may be one or three or more.

      When the stepping plate 7 is placed on the receiving surface 8 with a movable structure, an elongated movable groove 30 extends from the vicinity of the front end of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so that the stepping plate 7 faces in the front and back direction. It is drilled to penetrate.

      The side plate 28 of the tread plate insertion convex portion 10 may be formed in a wave shape or the like so that the tread plate insertion convex portion 10 has a friction pulling resistance with the insertion hole 11.

      The illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 66, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is, in the illustrated example, the receiving surface of the protruding plate portion 67. 8 is mounted as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 7 is installed at a boundary portion between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11 of the side groove block main body 66, the receiving surface 8 of the protruding plate portion 67, and the installation surface of the pavement portion 12.

      Since the illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is spread on the sheet 36.

      Since the protruding plate portion 67 and the stepping plate 7 can be detached from the side groove block main body 66, metal materials such as the protruding plate portion 67, the stepping plate 7, the metal rod 31, the bolt 33, and the insert nut 71 are provided. It is desirable to use a material that does not easily rust or to be subjected to rust prevention treatment for the member that is manufactured in (1). Further, when repairing the pavement 12 at the boundary between the side groove block main body 66 and the pavement 12, it is desirable to judge the degree of deterioration and update the new protruding plate 67, the stepping plate 7, and the like.

      An example of the movable structure in which the stepping plate 7 is placed on the receiving surface 8 will be described. An elongate movable groove 30 is drilled from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so as to penetrate the stepping plate 7 in the front and back direction. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11, the end 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is placed on the receiving surface 8 of the protruding plate portion 67, and the flat plate portion 26 is paved. 12 is further inserted into the end of the movable groove 30 on the pavement side. Thereafter, the metal bar 31 is driven vertically into the pavement 12 from the pavement side end of the protruding plate 67, and the tread plate 7 is inserted into the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the protruding plate 67, and the pavement 12. Fix it so that it covers the three installation surfaces. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 7 is guided by the metal rod 31 within the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 66 and the pavement 12, and the bottom surface of the insertion hole 11. 29, the receiving plate 8 of the protruding plate 67 and the installation surface of the pavement 12 are displaced while sliding. When the horizontal displacement of the tackle plate 7 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. When exceeding, the metal bar 31 is pushed by the stepping plate 7 and falls to the pavement portion 12 side, and the stepping plate 7 falls off from the receiving surface 8 of the protruding plate portion 67 to the pavement portion 12. After dropping off, the influence of the horizontal displacement of the stepping plate 7 does not reach the side groove block main body 66. The side groove block main body 66 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 7 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. A bolt hole 68 for attaching a bolt 33 that functions as a hinge is formed in the receiving surface 8 of the protruding plate portion 67. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed slightly larger than the diameter of the bolt 33 at the end 40 of the pedal plate 7 following the convex plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the protruding plate portion 67 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin is provided between the upper surface of the stepping plate 7 and the bolt head. The bolt hole 68 is attached to the bolt hole 68 by being bolted together with the nut.

      An example of a fixing structure in which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. Bolt holes 68 are formed in the receiving surface 8 of the protruding plate portion 67 for attaching the stepping plate 7 with a fixed structure. A bolt hole 35 for fixing and attaching the stepping plate 7 is formed in the end portion 40 of the stepping plate 7 subsequent to the stepping plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the protruding plate portion 67 is attached by bolting together with a nut so as to be fixed to the bolt hole 68 by the bolt 33.

      For example, the situation of construction when the gutter block 65 is embedded and connected to the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 66 is typically constructed at the boundary between the sidewalk 38 and the roadway 39 prior to the sidewalk 38 and the roadway 39. The side groove block main body 66 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the side groove block main body 66 is installed at a position and height based on the road plan, the protruding plate portion 67 is bolted to a predetermined position of the side groove block main body 66. Note that the protruding plate portion 67 may be attached to the gutter block main body 66 at the factory. Thereafter, the pavement 12 of the sidewalk 38 and the roadway 39 is constructed. The construction of the pavement 12 at the boundary between the side groove block main body 66 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the protruding plate portion 67 from the top surface 5 of the side groove block main body 66 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 66, and then the end portion of the stepping plate 7 following the stepping plate insertion convex portion 10. 40 is placed on the receiving surface 8 of the protruding plate portion 67, and subsequently, the flat plate portion 26 of the tread plate 7 is installed at the boundary portion between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 7, the metal rod 31 is driven into the pavement portion 12 vertically from the pavement side end portion of the protruding plate portion 67, and the stepping plate 7 is inserted into the bottom surface of the insertion hole 11. 29. Fixing is performed so as to span the three surfaces of the receiving surface 8 of the protruding plate portion 67 and the installation surface of the pavement portion 12. Since the projecting plate portion 67 and the stepping plate 7 can be attached to and detached from the side groove block main body 66, members made of a metal material such as the projecting plate portion 67, the stepping plate 7 and the metal rod 31 are used. Use rust-resistant materials or apply rust prevention treatment. Since the stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 7 or the like is completed, the pavement layer 23 is constructed.

      When the gutter block 65 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 66 and the pavement 12. Become. Since the hanging plate 7 is installed across the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the protruding plate portion 67, and the installation surface of the pavement portion 12, the loaded automobile load or the like is passed through the hanging plate 7. Thus, the side groove block main body 66 and the pavement portion 12 share and support each other. Appropriate elasticity and rigidity are given to the tread plate 7. For this reason, the stepping plate 7 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows while deforming and displacing itself, and the deterioration / sinking of the pavement 12 and the boundary The subsidence of the pavement 12 of the part is suppressed / reduced with a vertical step with respect to the gutter block main body 66, and the subsidence is smoothly rubbed toward the pavement central part of the road etc. Can be controlled as.

      The side groove block 65 has a function of suppressing / reducing deterioration and subsidence of the pavement part 12 and a shape control function of the subsidence, thereby causing deterioration of lane lines, poor drainage of rainwater stored in the pavement layer 23 recesses, side groove block main body 66 It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a side groove block 75 according to a sixth embodiment of the present invention will be described with reference to the drawings. The side groove block 75 does not have the insertion hole 11 of the side groove block 65 of the fifth embodiment formed in the side wall 6 of the side groove block main body 76, and the tread plate insertion convex portion 10 is provided at one end portion of the tread plate 47. This is a side groove block 75 that does not.

      FIGS. 21 to 24 relate to a sixth embodiment of the present invention, FIG. 21 is a perspective view showing an example of a side groove block 75, and FIG. 22 shows the stepping plate 47 movable on the receiving surface 8 of the protruding plate portion 67. FIG. 23A is a plan view of an example of a stepping plate 47 provided with a through hole 25, and FIG. 23B is a single side groove. FIG. 24A is a plan view of an example of a stepping plate 47 in which one stepping plate 47 corresponds to the block main body 76, and FIG. 24A shows a side groove having a form in which the stepping plate 47 is mounted on the receiving surface 8 of the protruding plate portion 67 by a hinge structure. FIG. 24B is a longitudinal sectional view showing an example of a main part of the block 75, and FIG. It is a longitudinal cross-sectional view shown. 21 to 24, the same components as those in FIGS. 17 to 20 are denoted by the same reference numerals, and description thereof is omitted.

      The side groove block 75 is a side groove block 75 made of, for example, a side groove block with a beam, for drainage of rainwater or the like buried in connection with a road or the like. The side groove block 75 includes a side groove block main body 76, a protruding plate portion 67 protruding from the side wall outer surface 4 of the side groove block main body 76, and an end portion 40 of the tread plate 47 on the receiving surface 8 of the protruding plate portion 67. And a tread plate 47 to be provided. The tread plate 47 is installed across the two surfaces of the receiving surface 8 of the protruding plate portion 67 and the installation surface of the pavement 12, and is loaded on the pavement 12 at the boundary between the side groove block body 76 and the pavement 12. The side groove block main body 76 and the pavement 12 share a vehicle load and the like with each other via a tread plate 47 to support each other.

      On the side wall side end of the side groove block main body 76 of the receiving surface 8 of the projecting plate portion 67, a projection 48 is provided for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the projecting plate portion 67. is there. The protrusion 48 may be provided by forming a bolt hole in a predetermined position of the protruding plate portion and attaching the bolt to the hole.

      In the illustrated example, two side plates 47 having the same size and shape correspond to one side groove block main body 76. The number may be one or three or more. Each stepping plate 47 has a rectangular planar shape that is long in the longitudinal direction of the side groove block main body 76, and the elongated movable groove 30 extends from the vicinity of the end 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47. The tread plate 47 is drilled so as to penetrate in the front and back direction. Further, a groove 49 into which a protrusion 48 is inserted is provided in the vicinity of the central portion of the end portion 40 of the stepping plate 47 so as to facilitate positioning when the stepping plate 47 is put on the receiving surface 8 of the protruding plate portion 67. It is installed.

      The illustrated foot plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, and the end 40 of the foot plate 47 is placed on the receiving surface 8 of the protruding plate portion 67 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24 so as to be substantially parallel to the pavement surface 13. The tread plate 47 is installed across two surfaces, the receiving surface 8 of the protruding plate portion 67 of the gutter block main body 76 and the installation surface of the pavement portion 12.

      The side groove block 75 does not have the insertion hole 11 of the side groove block 65 of the fifth embodiment formed in the side wall 6 of the side groove block main body 76, and the tread plate insertion convex portion 10 is provided at one end portion of the tread plate 47. This is a side groove block 75 that does not. Therefore, it is not necessary to attach and detach the insertion hole forming mold for forming the insertion hole 11 every time the side groove block main body 76 is manufactured, and the structure of the mold can be simplified. Can be improved. Further, since the stepping plate 47 is not inserted into the side groove block body 76, the stepping plate 47 made of a concrete material having a thick plate thickness and strong rigidity can be used.

      When repairing roads, etc., after excavating the pavement 12 at the boundary between the existing gutter block embedded in the road and the pavement 12, an insert nut is embedded in a predetermined position of the existing gutter block, The protruding plate 67 is attached to the insert nut by bolting. Thereafter, the tread plate 47 can be installed across the two surfaces of the receiving surface 8 of the protruding plate 67 and the installation surface of the pavement 12.

      An example of the movable structure in which the stepping plate 47 is placed on the receiving surface 8 will be described. From the vicinity of the end portion 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47, an elongated movable groove 30 is formed so as to penetrate the stepping plate 47 in the front and back direction. The end portion 40 of the stepping plate 47 is placed on the receiving surface 8 of the protruding plate portion 67, and the stepping plate 47 in which the flat plate portion 26 is installed on the pavement portion 12 is further connected to the pavement side end portion of the movable groove 30. A metal rod 31 is inserted. Thereafter, the metal bar 31 is driven into the pavement portion 12 vertically from the pavement side end of the protruding plate portion 67 and the tread plate 47 is hung on the two surfaces of the receiving surface 8 of the protruding plate portion 67 and the installation surface of the pavement portion 12. Fix by passing. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 47 is guided by the metal rod 31 within the length of the movable groove 30 in accordance with the sinking of the pavement 12 at the boundary between the side groove block main body 76 and the pavement 12, while The receiving surface 8 and the paved portion 12 are displaced while sliding on the installation surface. When the horizontal displacement of the stepping plate 47 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. When exceeding, the metal bar 31 is pushed by the stepping plate 47 and falls to the pavement part 12 side, and the stepping plate 47 falls off from the receiving surface 8 of the protruding plate part 67 to the pavement part 12. After falling off, the influence of the horizontal displacement of the stepping plate 47 does not reach the side groove block main body 76. The side groove block main body 76 is inclined or damaged by the side groove block protecting function by the movable structure of the tread plate 47 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. A bolt hole 68 for attaching a bolt 33 that functions as a hinge is formed in the receiving surface 8 of the protruding plate portion 67. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed in the end portion 40 of the tread plate 47 slightly larger than the diameter of the bolt 33. The stepping plate 47 placed on the receiving surface 8 of the protruding plate portion 67 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin is provided between the upper surface of the stepping plate 47 and the bolt head. It is attached to the bolt hole 68 by bolting with a nut so as to have it.

      An example of a fixing structure in which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. A bolt hole 68 for attaching the tread plate 47 with a fixed structure is formed in the receiving surface 8 of the protruding plate portion 67. A bolt hole 35 for fixing and mounting the stepping plate 47 is formed in the end portion 40 of the stepping plate 47. The tread plate 47 placed on the receiving surface 8 of the protruding plate portion 67 is attached by bolting with a nut so as to be fixed to the bolt hole 68 by the bolt 33.

      For example, the situation of construction when the gutter block 75 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block body 76 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 prior to the construction of the sidewalk 38 and the roadway 39. The gutter block main body 76 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the side groove block main body 76 is installed at the position and height based on the road plan, the protruding plate portion 67 is bolted to a predetermined position of the side groove block main body 76. Note that the protruding plate portion 67 may be attached to the gutter block body 76 at the factory. Thereafter, the pavement 12 of the sidewalk 38 and the roadway 39 is constructed. The construction of the pavement 12 at the boundary between the side groove block main body 76 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the protruding plate portion 67 from the top surface 5 of the side groove block main body 76 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the end portion 40 of the tread plate 47 is placed on the receiving surface 8 of the protruding plate portion 67, and subsequently, the flat plate portion 26 of the tread plate 47 is placed on the pavement surface 13. It is installed in the boundary part of the pavement layer 23 and the roadbed 24 substantially in parallel. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 47, the metal rod 31 is driven into the pavement portion 12 vertically from the pavement side end of the protruding plate portion 67, and the stepping plate 47 is moved to the protruding plate portion 67. Fixing is performed so as to span the two surfaces of the receiving surface 8 and the installation surface of the pavement 12. Since the projecting plate portion 67 and the stepping plate 47 can be attached to and detached from the side groove block main body 76, members made of a metal material such as the projecting plate portion 67, the stepping plate 47, and the metal rod 31 are used. Use rust-resistant materials or apply rust prevention treatment. Since the stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 47 from adhering to each other is placed over the stepping plate 47. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 47 and the like is completed, the pavement layer 23 is installed.

      When the gutter block 75 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 76 and the pavement 12. Become. Since the stepping plate 47 is installed across the two surfaces of the receiving surface 8 of the protruding plate 67 and the installation surface of the pavement 12, the loaded automobile load and the like are paved with the side groove block main body 76 via the stepping plate 47. The parts 12 share and support each other. Appropriate elasticity and rigidity are imparted to the tread plate 47. For this reason, the tread plate 47 resists the sinking of the pavement portion 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement portion 12 The subsidence of the pavement 12 of the part is suppressed / reduced with a vertical step with respect to the gutter block main body 76, and the subsidence is smoothly rubbed toward the central part of the pavement such as a road. Can be controlled as.

      The side groove block 75 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of subsidence, thereby causing deterioration of the lane line, poor drainage of rainwater stored in the pavement layer 23 depression, and the side groove block main body 76. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 80 according to a seventh embodiment of the present invention will be described with reference to the drawings.

      25 to 28 relate to the seventh embodiment of the present invention, FIG. 25 is a perspective view showing an example of the side groove block 80, and FIG. 26 is a notch receiving plate 8 of the seating portion 82 by notching the stepping plate 7. FIG. 27A is a plan view of an example of a stepping plate 7 provided with a through hole 25, and FIG. 27B is different in size. FIG. 27C is a plan view of an example of the stepping plate 7 in which one stepping plate 7 corresponds to one side groove block main body 81, FIG. FIG. 28A is a longitudinal sectional view showing a main part of an example of the side groove block 80 having a form in which the stepping plate 7 is cut out and placed on the receiving surface 8 of the seating portion 82 with a hinge structure, and FIG. An example of a side groove block 80 having a configuration in which 7 is cut and placed on the receiving surface 8 of the seat portion 82 with a fixed structure. It is a longitudinal sectional view showing the main parts.

      The side groove block 80 is a side groove block 80 made of, for example, a side groove block with a beam, for draining rainwater or the like buried in connection with a road or the like. The side groove block 80 includes a side groove block main body 81, a notch receiving portion 82 provided by cutting out the shoulder portion of the side wall side end portion of the top wall of the side groove block main body 81 into a rectangular shape, and the side wall 6. An insertion hole 11 is provided, and a stepping plate 7 into which the stepping plate insertion convex portion 10 is inserted into the insertion hole 11 is provided. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the notch receiving portion 82, and the installation surface of the pavement portion 12, and the boundary portion between the side groove block main body 81 and the pavement portion 12. The side groove block main body 81 and the pavement part 12 share and support each other via the tread plate 7 with respect to the automobile load or the like loaded on the pavement part 12.

      The side groove block main body 81, the notch receiving portion 82, and the insertion hole 11 are made of concrete and are integrally manufactured. The illustrated gutter block main body 81 has the drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is open, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 81 are closed are approximately one-half of the total length, and function as a beam in the upper part of the side groove block main body 81.

      At the end of the top wall 14 on the side of the side groove block main body 81 where the stepping plate 7 is not installed, there is provided a block mounting portion 18 on which a part of the lower surface of the walkway boundary block 17 is mounted and fixed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

      The notch receiving portion 82 has a shoulder portion at the side wall side end portion of the top surface of the top wall of the side groove block main body 81 so that the receiving surface 8 is substantially perpendicular to the side wall outer surface 4 of the side groove block main body 81. The block body 81 is cut out in a rectangular shape along the longitudinal direction.

      The width of the receiving surface 8 of the illustrated notch receiving portion 82 corresponds to the horizontal displacement amount of the stepping plate 7 according to the vertical step depression of the pavement portion 12 with respect to the side groove block main body 81, and is about 10 cm wide. The width is the size of the load loaded on the receiving surface 8 and the characteristics of the side groove block 80 (type of side groove block 80: U-shaped side groove block, portal-type gradient variable side groove block, Culvert type side groove block, side groove block with beam, slit type side groove block, etc.), characteristics (size, shape, material, type of structure) of the plate 7 and structure in which the plate 7 is placed on the receiving surface 8 ( (Moveable structure, hinge structure, fixed structure), pavement construction workability, side groove block 80 manufacturability, and maintenance management of stepping plates and the like.

      A roundness 22 is provided at the pavement side end of the receiving surface 8 of the notch receiving portion 82.

      The position of the receiving surface 8 of the notch receiving portion 82 from the top surface 5 of the side groove block main body 81 is provided at the boundary between the pavement layer 23 and the roadbed 24, but the pavement layer 23 or the roadbed 24 It is good also as a position. In addition to the above, the characteristics of the side groove block 80, the characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, the workability of the paving work, the manufacturability of the side groove block 80, the stepping plate 7, etc. It shall be optimal in relation to maintenance and management.

      The insertion hole 11 into which the stepping plate insertion convex portion 10 is inserted is formed along the receiving surface 8 of the notch receiving portion 82 from the side wall outer surface 4 to the side wall 6 substantially vertically at both right and left sides. Drill slightly larger than the cross section. In some cases, the vertical direction may be formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 81. The shape of the entrance portion of the insertion hole 11 has the same cross-sectional shape as the stepping plate insertion convex portion 10 to be inserted, and the insertion hole 11 is drilled so as not to interfere with the reinforcing bar function arranged in the side groove block main body 81. Set up. Since the insertion hole 11 and the stepping plate insertion convex portion 10 to be inserted are fitted to each other, the installation position of the stepping plate 7 is automatically determined by the position of the insertion hole 11 formed in the side groove block main body 81. Come.

      In the illustrated example, two insertion holes 11 correspond to one stepping plate, and there are two insertion holes 11 of the same size and shape along the longitudinal direction of the side groove block main body 81. There are 4 holes. For example, the stepping plate insertion convex portion 10 is formed by deeply and widely drilling the insertion hole 11 where the top wall 14 is closed at both ends of the side groove block main body 81 into the top wall 14. If it is formed in a shape suitable for it, one insertion hole 11 drilled near the opening 15 of the top wall 14 at the center of the side groove block main body 81 may be made smaller or omitted together with the stepping plate insertion convex portion 10. it can.

      The size of the insertion hole 11 corresponds to the stepping plate insertion convex portion 10 to be fitted. In particular, the insertion depth into the side wall 6 is the width of the receiving surface 8 of the notch receiving portion 82, the side groove block main body 81. It is desirable to consider the strength of the side wall 6 and the reinforcing bars arranged in the side groove block main body 81 and to arrange the reinforcing reinforcing bars around the insertion hole 11.

      The number, size, shape, position, and drilling direction of the insertion holes 11 are the above-described characteristics of the side groove block 80, characteristics of the stepping plate 7, the structure in which the stepping plate 7 is placed on the receiving surface 8, and paving work. It is optimal in relation to the workability of the construction, the manufacturability of the side groove block 80, the maintenance management of the stepping plate 7, etc.

      The tread plate 7 has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the width (the length from the end of the side groove block body 81 to the end of the flat plate portion 26) of the lateral plate 7 is expected to be about 100 cm, but its shape (planar shape of the lateral plate 7, Installation of through holes 25 in the plate 7), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure), the structure (movable structure, hinge structure, fixed structure) in which the stepping plate 7 is placed on the receiving surface 8 is the size of the load loaded on the stepping plate 7, the characteristics of the side groove block 80 The relationship between the characteristics of the receiving surface 8 of the notch receiving portion 82 (shape, dimensions, position from the top wall top surface 5), pavement workability, side groove block 80 manufacturability, maintenance management of the tread plate 7, etc. To be the best. The exemplary footplate is made of metal.

      Since the side groove block main body 81 and the pavement 12 have a structure in which an automobile load and the like are shared and supported via the stepping plate 7, appropriate elasticity and rigidity are given to the stepping plate 7. . The illustrated foot plate 7 that inserts the foot plate insertion convex portion 10 into the insertion hole 11 of the side groove block main body 81 is made of a metal having a flat plate shape and appropriate elasticity and rigidity. When the insertion hole 11 is formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 81, the synthetic resin stepping plate 7 having excellent flexibility is desirable.

      In the illustrated example, two side plates 7 having the same size and shape correspond to one side groove block main body 81. The number may be one or three or more. Each stepping plate 7 is provided with two stepping plate insertion convex portions 10 at the end portion on the side to be put on the receiving surface 8 of the notch receiving portion 82, followed by a substantially rectangular shape having a flat plate portion 26. It has a flat shape. The flat plate portion 26 of the stepping plate 7 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back directions, but the flat plate portion 26 has appropriate elasticity and rigidity for the stepping plate 7. Within a range, a circular plate, an elliptical shape, a square shape, a diamond shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided with the through holes 25.

      In the illustrated side groove block main body 81, a total of four insertion holes 11 having the same size and shape are drilled so that the tread plate insertion convex portions 10 for two tread plates are inserted. Also, the two adjacent foot plates 7 are connected to each other via two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 7 may be installed so as to span the adjacent side groove block main bodies 81 to be connected.

      It is not necessary for all of the tread plate insertion convex portions 10 to have the same size and shape. For example, the tread plate insertion convex portion 10 to be inserted at a location where the top wall 14 at both ends of the side groove block main body 81 is closed is formed to be wide and large. In addition, if the insertion hole 11 is also formed in a shape corresponding to the insertion hole 11 and fitted to each other, one of the tread plate insertion convex portions 10 formed in the vicinity of the opening 15 of the top wall 14 at the center portion of the side groove block main body 81 is It can be made smaller or omitted together with the insertion hole 11. In the illustrated example, two side plates 7 correspond to one gutter block main body 81, but the number thereof may be one or three or more.

      When the stepping plate 7 is placed on the receiving surface 8 with a movable structure, an elongated movable groove 30 extends from the vicinity of the front end of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so that the stepping plate 7 faces in the front and back direction. It is drilled to penetrate.

      The side plate 28 of the tread plate insertion convex portion 10 may be formed in a wave shape or the like so that the tread plate insertion convex portion 10 has a friction pulling resistance with the insertion hole 11.

      The illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 81, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is, in the illustrated example, a notch receiving portion 82. It is placed on the receiving surface 8 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 7 is installed at a boundary portion between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. The tread plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11 of the side groove block main body 81, the receiving surface 8 of the notch receiving portion 82, and the installation surface of the pavement portion 12.

      Since the illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is spread on the sheet 36.

      Since the tread plate 7 has a structure that can be attached to and detached from the side groove block main body 81, the material made of a metal material such as the tread plate 7, the metal rod 31, the bolt 33, and the insert nut 34 is not easily rusted. It is desirable to use rust prevention treatment. In addition, it is desirable to determine the degree of deterioration of the pavement 12 at the boundary between the side groove block main body 81 and the pavement 12 and to update it with a new tread plate 7 or the like.

      An example of the movable structure in which the stepping plate 7 is placed on the receiving surface 8 will be described. An elongate movable groove 30 is drilled from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so as to penetrate the stepping plate 7 in the front and back direction. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is put on the receiving surface 8 of the notch receiving portion 82, and the flat plate portion 26 is placed. Further, a metal rod 31 is inserted into the pavement side end of the movable groove 30 in the tread plate 7 installed in the pavement 12. Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement portion of the notch receiving portion 82, and the stepping plate 7 is inserted into the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the notch receiving portion 82, Fixing is carried out so as to span the three installation surfaces of the pavement 12. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 7 is guided by the metal rod 31 within the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 81 and the pavement 12, and the bottom surface of the insertion hole 11. 29, The receiving surface 8 of the notch receiving part 82 and the installation surface of the pavement part 12 are displaced while sliding. When the horizontal displacement of the hanging plate 7 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. When exceeding, the metal bar 31 is pushed by the stepping plate 7 and falls to the pavement portion 12 side, and the stepping plate 7 falls off from the receiving surface 8 of the notch receiving portion 82 to the pavement portion 12. After falling off, the influence of the horizontal displacement of the stepping plate 7 does not reach the side groove block main body 81. The side groove block main body 81 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 7 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the notch receiving portion 82 when the gutter block body 81 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed slightly larger than the diameter of the bolt 33 at the end 40 of the pedal plate 7 following the convex plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the notch receiving portion 82 is passed through the hinge hole 41 with a bolt 33 that functions as a hinge, and a slight margin is provided between the upper surface of the stepping plate 7 and the bolt head. The insert nut 34 is bolted and attached so as to have a space.

      An example of a fixing structure in which the tread plate 7 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 7 with a fixed structure is embedded in the receiving surface 8 of the notch receiving portion 82 when the gutter block main body 81 is manufactured. A bolt hole 35 for fixing and attaching the stepping plate 7 is formed in the end portion 40 of the stepping plate 7 subsequent to the stepping plate insertion convex portion 10. The stepping plate 7 placed on the receiving surface 8 of the notch receiving portion 82 is attached to the insert nut 34 by bolting so as to be fixed to the receiving surface 8 of the notch receiving portion 82 by the bolt 33.

      For example, the situation of construction when the gutter block 80 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 of the road and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 81 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The gutter block main body 81 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block body 81 is installed at the position and height based on the road plan, the sidewalk 38 and the pavement 12 of the roadway 39 are constructed. The construction of the pavement 12 at the boundary between the side groove block main body 81 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the notch receiving portion 82 from the top surface 5 of the side groove block main body 81 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the stepping plate insertion convex portion 10 is fitted into the insertion hole 11 of the side groove block main body 81, and the end portion 40 of the stepping plate 7 following the stepping plate insertion convex portion 10 is inserted. Next, the flat plate portion 26 of the stepping plate 7 is placed at the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 7, the metal rod 31 is driven vertically into the pavement portion 12 along the side surface of the pavement portion of the notch receiving portion 82, and the stepping plate 7 is inserted into the insertion hole 11. Are fixed so as to span the three surfaces of the bottom surface 29, the receiving surface 8 of the notch receiving portion 82, and the installation surface of the pavement portion 12. Since the foot plate 7 is structured to be detachable from the side groove block main body 81, a material made of a metal material such as the foot plate 7 and the metal rod 31 is made of a material that does not easily rust or has a rust prevention treatment. Apply. Since the stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 7 or the like is completed, the pavement layer 23 is constructed.

      When the gutter block 80 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 81 and the pavement 12. Become. Since the stepping plate 7 is installed across the three surfaces of the bottom surface 29 of the insertion hole 11, the receiving surface 8 of the notch receiving portion 82, and the installation surface of the pavement portion 12, the loaded automobile load or the like is applied to the stepping plate 7. The side groove block main body 81 and the pavement 12 are shared and supported via each other. Appropriate elasticity and rigidity are given to the tread plate 7. For this reason, the stepping plate 7 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement 12 and the boundary. Subsidence that suppresses / reduces the sinking of the part of the pavement part 12 with a step perpendicular to the gutter block body 81, and also smoothly sinks the shape of the subsidence toward the center part of the pavement such as a road. Can be controlled as.

      The side groove block 80 has a function of suppressing / reducing deterioration and subsidence of the pavement part 12 and a shape control function of the subsidence, thereby causing deterioration of the lane line, poor drainage of rainwater stored water in the recessed part of the pavement layer 23, and the side groove block main body 81. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibrations, etc. that occur when a motorcycle running in a depression with a step perpendicular to the While ensuring smooth driving, it is possible to provide safety and security to the residents in the surrounding area. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 85 according to an eighth embodiment of the present invention will be described with reference to the drawings. The side groove block 85 does not have the insertion hole 11 of the side groove block 80 of the seventh embodiment formed in the side wall 6 of the side groove block main body 86, and has the tread plate insertion convex portion 10 at one end portion of the tread plate 47. This is a side groove block 85 that does not.

      FIGS. 29 to 32 relate to the eighth embodiment of the present invention, FIG. 29 is a perspective view showing an example of the side groove block 85, and FIG. 30 shows the receiving surface 8 of the seating portion 82 by notching the stepping plate 47. FIG. 31A is a plan view of an example of a tread plate 47 provided with a through hole 25, and FIG. 31B shows one piece. FIG. 32A is a plan view of an example of the step plate 47 in which one step plate 47 corresponds to the side groove block main body 86 of FIG. 32, and FIG. FIG. 32 (B) is a longitudinal sectional view showing the main part of one example of the side groove block 85 having a configuration, and FIG. It is a longitudinal cross-sectional view which shows the principal part of an example. 29 to 32, the same components as those in FIGS. 25 to 28 are denoted by the same reference numerals and description thereof is omitted.

      The side groove block 85 is a side groove block 85 made of, for example, a side groove block with a beam, for drainage of rainwater or the like buried in connection with a road or the like. The side groove block 85 includes a side groove block main body 86, a notch receiving portion 82 provided by cutting out a shoulder portion of the side wall side end portion of the top surface of the side wall block main body 86 into a rectangular shape, The end 40 is provided with a stepping plate 47 that is placed on the receiving surface 8 of the notch receiving portion 82. The tread plate 47 is installed across two surfaces of the receiving surface 8 of the notch receiving portion 82 and the installation surface of the pavement 12, and is loaded on the pavement 12 at the boundary between the side groove block main body 86 and the pavement 12. The side groove block main body 86 and the pavement portion 12 share and support each other via a tread plate 47.

      Projections for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the notch receiving portion 82 at the side wall side end portion of the side groove block main body 86 of the receiving surface 8 of the notch receiving portion 82. 48 is provided. The protrusion 48 may be provided by embedding an insert nut at a predetermined position when manufacturing the gutter block main body 86 and attaching a bolt to the insert nut.

    In the illustrated example, two side plates 47 having the same size and shape correspond to one gutter block main body 86. The number may be one or three or more. Each of the tread plates 47 has a rectangular planar shape that is long in the longitudinal direction of the side groove block main body 86, and the elongated movable groove 30 extends from the vicinity of the end portion 40 of the tread plate 47 to the flat plate portion 26 of the tread plate 47. It is pierced so as to penetrate the tread plate 47 in the front and back direction. Further, in the vicinity of the center portion of the end portion 40 of the stepping plate 47, a groove 49 into which a projection 48 for facilitating positioning when the stepping plate 47 is placed on the receiving surface 8 of the notch receiving portion 82 is inserted. Is drilled.

      The illustrated stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, and the end 40 of the stepping plate 47 is placed on the receiving surface 8 of the notch receiving portion 82 as a movable structure. Thereafter, the flat plate portion 26 of the tread plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24 so as to be substantially parallel to the pavement surface 13. The tread plate 47 is installed across the two surfaces of the receiving surface 8 of the notch receiving portion 82 of the gutter block main body 86 and the installation surface of the pavement portion 12.

      The side groove block 85 does not have the insertion hole 11 of the side groove block 80 of the seventh embodiment formed in the side wall 6 of the side groove block main body 86, and has the tread plate insertion convex portion 10 at one end portion of the tread plate 47. This is a side groove block 85 that does not. Therefore, it is not necessary to attach / detach the insertion hole forming mold for forming the insertion hole 11 every time the side groove block main body 86 is manufactured, and the structure of the mold can be simplified. Can be improved. Further, since the stepping plate 47 is not inserted into the side groove block main body 86, the stepping plate 47 made of a concrete material having a thick plate thickness and strong rigidity can be used as the stepping plate 47.

      An example of the movable structure in which the stepping plate 47 is placed on the receiving surface 8 will be described. From the vicinity of the end portion 40 of the stepping plate 47 to the flat plate portion 26 of the stepping plate 47, an elongated movable groove 30 is formed so as to penetrate the stepping plate 47 in the front and back direction. The end 40 of the stepping plate 47 is put on the receiving surface 8 of the notch receiving portion 82, and the platen plate 47 in which the flat plate portion 26 is installed on the pavement 12 is further connected to the pavement side end of the movable groove 30. A metal rod 31 is inserted into the part. Thereafter, the metal bar 31 is driven vertically into the pavement 12 along the side of the pavement portion of the notch receiving portion 82, and the stepping plate 47 is cut off to receive the receiving surface 8 of the notch receiving portion 82 and the installation surface of the pavement portion 12. Fix it so that it runs over two sides. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 47 is guided by the metal rod 31 within the range of the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 86 and the pavement 12, and the notch seat The receiving surface 8 of 82 and the installation surface of the pavement 12 are displaced while sliding. When the horizontal displacement of the stepping plate 47 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. When exceeding, the metal bar 31 is pushed by the stepping plate 47 and falls to the pavement part 12 side, and the stepping plate 47 falls off from the receiving surface 8 of the notch receiving part 82 to the pavement part 12. After falling off, the influence of the horizontal displacement of the stepping plate 47 does not reach the side groove block main body 86. The side groove block main body 86 is inclined or damaged by the side groove block protecting function by the movable structure of the stepping plate 47 is smaller than in the case of the hinge structure or the fixed structure.

      An example of a hinge structure on which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching a bolt 33 that functions as a hinge is embedded in the receiving surface 8 of the notch receiving portion 82 when the gutter block main body 86 is manufactured. A hinge hole 41 for inserting a bolt 33 that functions as a hinge is formed in the end portion 40 of the tread plate 47 slightly larger than the diameter of the bolt 33. The stepping plate 47 placed on the receiving surface 8 of the notch receiving portion 82 is passed through the bolt 33 that functions as a hinge through the hinge hole 41, and there is some margin between the upper surface of the stepping plate 47 and the bolt head. The insert nut 34 is bolted and attached so as to have a space.

      An example of a fixing structure in which the tread plate 47 is placed on the receiving surface 8 will be described with reference to FIG. An insert nut 34 for attaching the stepping plate 47 with a fixed structure is embedded in the receiving surface 8 of the notch receiving portion 82 when the gutter block main body 86 is manufactured. A bolt hole 35 for fixing and mounting the stepping plate 47 is formed in the end portion 40 of the stepping plate 47. The stepping plate 47 placed on the receiving surface 8 of the notch receiving portion 82 is bolted to the insert nut 34 so as to be fixed to the receiving surface 8 of the notch receiving portion 82 by the bolt 33.

      For example, the situation of construction when the gutter block 85 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 of the road and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 86 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The gutter block main body 86 is installed so that the top wall upper surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block body 86 is installed at the position and height based on the road plan, the sidewalk 38 and the pavement 12 of the roadway 39 are constructed. The construction of the pavement 12 at the boundary between the side groove block main body 86 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the receiving surface 8 of the notch receiving portion 82 from the top surface 5 of the side groove block main body 86 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the receiving surface 8, the end 40 of the stepping plate 47 is notched and placed on the receiving surface 8 of the seating portion 82, and then the flat plate portion 26 of the stepping plate 47 is paved. It is installed at the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 47, and the metal rod 31 is driven vertically into the pavement portion 12 along the side of the pavement portion of the notch receiving portion 82, so that the stepping plate 47 is cut out. Fixing is performed so as to span the receiving surface 8 of the seat 82 and the installation surface of the pavement 12. Since the tread plate 47 is structured to be detachable from the side groove block main body 86, a material made of a metal material such as the tread plate 47 and the metal rod 31 is made of a material that does not easily rust or has a rust prevention treatment. Apply. Since the stepping plate 47 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 47 from adhering to each other is placed over the stepping plate 47. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 47 and the like is completed, the pavement layer 23 is installed.

      When the gutter block 85 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 86 and the pavement 12. Become. Since the stepping plate 47 is installed across two surfaces, the receiving surface 8 of the notch receiving portion 82 and the installation surface of the pavement portion 12, the loaded automobile load or the like is applied to the side groove block main body 86 via the stepping plate 47. And the pavement 12 share and support each other. Appropriate elasticity and rigidity are imparted to the tread plate 47. For this reason, the tread plate 47 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the boundary. The subsidence of the part of the pavement 12 that sinks with a vertical step with respect to the gutter block main body 86 is suppressed and reduced, and the subsidence is smoothly rubbed toward the pavement central part of the road, etc. Can be controlled as.

      The side groove block 85 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of the subsidence, thereby causing deterioration of lane lines, poor drainage of rainwater stored in the pavement layer 23 depression, and side groove block body 86 It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 90 according to a ninth embodiment of the present invention will be described with reference to the drawings.

      33 to 35 relate to the ninth embodiment of the present invention, FIG. 33 is a perspective view showing an example of the side groove block 90, and FIG. 34 is a structure in which the tread plate insertion convex portion 10 is movable to the insertion hole 11. 35 is a longitudinal sectional view showing an example of the side groove block 90 having a form to be inserted, FIG. 35A is a plan view of an example of the stepping plate 7 provided with the through holes 25, and FIG. 35B is a stepping plate insertion of different sizes. FIG. 35C is a plan view of an example of the stepping plate 7 in which one stepping plate 7 corresponds to one side groove block main body 91.

      The side groove block 90 is a side groove block 90 made of, for example, a side groove block with a beam, for draining rainwater or the like that is buried in connection with a road or the like. The side groove block 90 includes a side groove block main body 91, an insertion hole 11 formed in the side wall 6 from the side wall outer surface 4 of the side groove block main body 91, and a stepping plate 7 into which the stepping plate insertion convex portion 10 is inserted into the insertion hole 11. And. The tread plate 7 is installed across the two surfaces of the bottom surface 29 of the insertion hole 11 and the installation surface of the pavement 12, and an automobile load or the like is loaded on the pavement 12 at the boundary between the side groove block main body 91 and the pavement 12. The gutter block main body 91 and the pavement 12 are configured to share and support each other via the tread plate 7.

      The side groove block main body 91 and the insertion hole 11 are made of concrete and are integrally manufactured. The illustrated gutter block main body 91 has the drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is open, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 91 are closed have a combined length of approximately one half of the total length, and function as a beam in the upper part of the side groove block main body 91.

      At the end of the top wall 14 on the side of the side groove block main body 91 where the stepping plate 7 is not installed, there is provided a block mounting portion 18 on which a part of the lower surface of the walkway boundary block 17 is mounted and fixed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

      The insertion hole 11 into which the tread plate insertion convex portion 10 is inserted is substantially parallel to the top surface 5 of the side groove block main body 91 in the longitudinal direction of the side wall 6 from the side wall outer surface 4 to the side wall 6 both vertically and horizontally. In addition, it is made slightly larger than the cross section of the tread plate insertion convex portion 10. In some cases, the vertical direction may be formed in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 91. The shape of the entrance portion of the insertion hole 11 is the same cross-sectional shape as the stepping plate insertion convex portion 10 to be inserted, and the insertion hole 11 is drilled so as not to hinder the reinforcing bar function arranged in the side groove block main body 91. Set up. Since the insertion hole 11 and the stepping plate insertion convex portion 10 to be inserted are fitted to each other, the installation position of the stepping plate 7 is automatically determined by the position of the insertion hole 11 formed in the side groove block main body 91. Come.

      In the illustrated example, two insertion holes 11 correspond to one stepping plate, and there are two insertion holes 11 of the same size and shape along the longitudinal direction of the side groove block main body 91. There are 4 holes. For example, the stepping plate insertion convex portion 10 is formed by deeply and widely drilling the insertion hole 11 where the top wall 14 at both ends of the side groove block main body 91 is closed deeply and widely in the top wall 14. If it is formed in a shape suitable for it, one insertion hole 11 drilled in the vicinity of the opening 15 of the top wall 14 at the center of the side groove block main body 91 may be made smaller or omitted together with the stepping plate insertion convex portion 10. it can.

      The dimension of the insertion hole 11 corresponds to the stepping plate insertion convex part 10 to be fitted, and in particular, the insertion depth into the side wall 6 corresponds to the vertical stepped depression of the pavement part 12 with respect to the side groove block main body 91. It is appropriate for the horizontal displacement of the tread plate 7 and is optimal in consideration of the strength of the side wall 6 of the side groove block main body 91, the reinforcing bars arranged in the side groove block main body 91, and the like. It is desirable to arrange reinforcing bars around the insertion hole 11. In addition, a roundness 92 is provided at the lower portion of the entrance portion of the insertion hole 11.

      The position of the insertion hole 11 from the top surface 5 of the side groove block main body 91 is provided at the boundary portion between the pavement layer 23 and the roadbed 24, but may be a position to become the pavement layer 23 or the roadbed 24.

      Further, the number, size, shape, position and drilling direction of the insertion holes 11 are the characteristics of the side groove block 90, the characteristics of the stepping plate 7, the workability of the paving work, the manufacturability of the side groove block 90, the stepping plate 7, etc. It shall be optimal in relation to maintenance management.

      The tread plate 7 has a flat plate shape and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the length of the width (the length of the side plate 7 from the side groove block main body 91 side end to the end of the flat plate portion 26) is expected to be about 100 cm. Installation of through holes 25 in the plate 7), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure) are the magnitude of the load loaded on the stepping plate 7, the characteristics of the side groove block 90, the position of the insertion hole 11 from the top surface 5 of the ceiling, the workability of the paving work, the side groove block 90 It shall be optimal in relation to manufacturability and maintenance of the stepping plate 7. The illustrated foot plate 7 is made of metal.

      Since the side groove block main body 91 and the pavement 12 have a structure in which an automobile load and the like are shared and supported via the stepping plate 7, appropriate elasticity and rigidity are given to the stepping plate 7. . The illustrated stepping plate 7 for fitting the stepping plate insertion convex portion 10 into the insertion hole 11 of the side groove block main body 91 is made of a metal having a flat plate shape and appropriate elasticity and rigidity. In addition, when the insertion hole 11 is drilled in the side wall 6 from the side wall outer surface 4 toward the bottom wall 20 of the side groove block main body 91, the synthetic resin stepping plate 7 having excellent flexibility is desirable.

      In the illustrated example, two side plates 7 having the same size and shape correspond to one gutter block main body 91. The number may be one or three or more. Each stepping plate 7 has a two-step stepping plate insertion convex portion 10 at one end portion of the stepping plate 7 and has a substantially rectangular planar shape having a flat plate portion 26 subsequently. The flat plate portion 26 of the stepping plate 7 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back directions, but the flat plate portion 26 has appropriate elasticity and rigidity for the stepping plate 7. Within a range, a circular plate, an elliptical shape, a square shape, a diamond shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided with the through holes 25.

      In the illustrated side groove block main body 91, a total of four insertion holes 11 having the same size and shape are drilled so that the tread plate insertion convex portions 10 for two tread plates are inserted. Also, the two adjacent foot plates 7 are connected to each other via two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 7 may be installed so as to bridge the side groove block main bodies 91 adjacent to each other.

      It is not necessary for all of the tread plate insertion convex portions 10 to have the same size and shape. For example, the tread plate insertion convex portion 10 to be inserted into a place where the top wall 14 at both ends of the side groove block main body 91 is closed is formed wide and large. In addition, if the insertion hole 11 is also formed in a shape corresponding to it and fitted to each other, one of the tread plate insertion protrusions 10 formed in the vicinity of the opening 15 of the top wall 14 at the center portion of the side groove block main body 91 is The insertion hole 11 can be made smaller or omitted. In the illustrated example, two of the stepping plates 7 correspond to one gutter block main body 91, but the number thereof may be one or three or more.

      Since the stepping plate insertion convex portion 10 is inserted into the insertion hole 11 for inserting the stepping plate insertion convex portion 10 as a movable structure, from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7, An elongated movable groove 30 is formed so as to penetrate the tread plate 7 in the front and back direction.

      The side plate 28 of the tread plate insertion convex portion 10 may be formed in a wave shape or the like so that the tread plate insertion convex portion 10 has a friction pulling resistance with the insertion hole 11.

      The illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 91 as a movable structure, and then the flat plate portion 26 of the stepping plate 7 is substantially parallel to the pavement surface 13 so that the pavement layer 23 and the roadbed 24 are connected to each other. Installed at the border. The tread plate 7 is installed across the two surfaces of the bottom surface 29 of the insertion hole 11 of the gutter block main body 91 and the installation surface of the pavement 12.

      Since the illustrated stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is spread on the sheet 36.

      Since the foot plate 7 can be attached to and detached from the side groove block main body 91, a member made of a metal material such as the foot plate 7 and the metal rod 31 is made of a material that does not easily rust, or is rust-proof. It is desirable to perform processing. Further, it is desirable to update the pavement plate 7 and the like by judging the degree of deterioration when repairing the pavement 12 at the boundary between the side groove block main body 91 and the pavement 12.

      An example of a movable structure in which the tread plate insertion convex portion 10 is inserted into the insertion hole 11 as a movable structure will be described. An elongate movable groove 30 is drilled from the vicinity of the tip of the stepping plate insertion convex portion 10 to the flat plate portion 26 of the stepping plate 7 so as to penetrate the stepping plate 7 in the front and back direction. The stepping plate insertion convex portion 10 is inserted into the insertion hole 11, and the subsequent stepping plate 7 in which the flat plate portion 26 is installed in the pavement portion 12 is further provided with a metal rod 31 at the flat plate portion side end of the movable groove 30. Is inserted. Thereafter, the metal rod 31 is driven vertically into the pavement 12 along the side wall outer surface 4 of the gutter block main body 91, and the tread plate 7 is hung over two surfaces of the bottom surface 29 of the insertion hole 11 and the installation surface of the pavement 12. To fix. The upper end of the metal bar 31 has a protruding bar 32 bent at a right angle, and the lower end is needle-shaped.

      The tread plate 7 is guided to the metal rod 31 within the range of the length of the movable groove 30 according to the sinking of the pavement 12 at the boundary between the side groove block main body 91 and the pavement 12, and the bottom surface of the insertion hole 11. 29, It will displace while sliding on the installation surface of the pavement 12. When the horizontal displacement of the tackle plate 7 reaches a horizontal displacement amount determined from the length of the movable groove 30, the metal rod 31 temporarily restrains the horizontal displacement, but the horizontal displacement amount determined from the length of the movable groove 30 is reduced. If it exceeds, the metal bar 31 will be pushed by the foot plate 7, and will fall to the pavement part 12 side, and the foot plate 7 will fall to the pavement part 12 from the bottom face 29 of the insertion hole 11. After dropping off, the influence of the horizontal displacement of the stepping plate 7 does not reach the side groove block main body 91. Due to the side groove block protection function by the movable structure of the stepping plate 7, the side groove block main body 91 is less likely to be inclined or damaged.

      For example, the situation of construction when the gutter block 90 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block main body 91 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 in advance of the sidewalk 38 and the roadway 39. The side groove block main body 91 is installed so that the top wall top surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the gutter block main body 91 is installed at the position and height based on the road plan, the sidewalk 38 and the pavement 12 of the roadway 39 are constructed. The construction of the pavement 12 at the boundary between the side groove block main body 91 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the insertion hole 11 from the top wall upper surface 5 of the side groove block main body 91 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the bottom surface 29 of the insertion hole 11, the stepping plate insertion convex portion 10 is inserted into the insertion hole 11 of the side groove block main body 91, and subsequently, the flat plate portion 26 of the stepping plate 7 is paved. It is installed at the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the surface 13. Thereafter, the metal rod 31 is inserted into the movable groove 30 of the stepping plate 7, the metal rod 31 is driven vertically into the pavement portion 12 along the side wall outer surface 4 of the side groove block main body 91, and the stepping plate 7 is inserted into the insertion hole 11. Fixing is performed so as to span the two surfaces of the bottom surface 29 and the installation surface of the pavement 12. Since the stepping plate 7 has a structure that can be attached to and detached from the side groove block main body 91, a member made of a metal material such as the stepping plate 7 and the metal rod 31 is made of a material that does not easily rust or has a rust prevention treatment. Apply. Since the stepping plate 7 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 7 from adhering to each other is provided on the upper portion of the stepping plate 7. Further, sand 37 is distributed on the sheet 36. After the installation of the stepping plate 7 or the like is completed, the pavement layer 23 is constructed.

      When the gutter block 90 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 91 and the pavement 12. Become. Since the stepping plate 7 is installed across the bottom surface 29 of the insertion hole 11 and the installation surface of the pavement 12, the loaded automobile load and the like are passed through the side plate 7 and the side groove block main body 91 and the pavement 12. Will share and support each other. Appropriate elasticity and rigidity are given to the tread plate 7. For this reason, the stepping plate 7 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows the deformation / displacement of the pavement portion 12 to follow the deterioration / sinking of the pavement 12 and the boundary. The subsidence of the pavement 12 of the part is suppressed / reduced with a vertical step with respect to the gutter block main body 91, and the subsidence is smoothly rubbed toward the central part of the pavement such as a road. Can be controlled as.

      The side groove block 90 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of the subsidence, thereby causing deterioration of lane lines, poor drainage of rainwater stored in the pavement layer 23 depression, and side groove block main body 91. It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      Next, a gutter block 95 according to a tenth embodiment of the present invention will be described with reference to the drawings.

      36 to 39 relate to the tenth embodiment of the present invention, FIG. 36 is a perspective view showing an example of the side groove block 95, and FIG. 37 shows the stepping plate 97 on the side wall outer surface 4 of the side groove block main body 96. FIG. 38A is a longitudinal sectional view showing an example of a side groove block 95 having a form to be fixed as a movable structure in the fixing device 100, FIG. 38A is a plan view of an example of a tread plate 97 provided with a through hole 25, and FIG. FIG. 39A is a plan view of an example of a stepping plate 97 in which one stepping plate 97 corresponds to one side groove block main body 96, and FIG. 39A shows a form in which the stepping plate 97 is fixed to the side wall outer surface 4 with a hinge structure. FIG. 39B is a longitudinal cross-sectional view showing an essential part of an example of the side groove block 95 having a form in which the stepping plate 97 is fixed to the side wall outer surface 4 with a fixing structure. FIG.

      The side groove block 95 is a side groove block 95 made of, for example, a side groove block with a beam, for drainage of rainwater or the like embedded in a road or the like. The side groove block 95 includes a side groove block main body 96 and a stepping plate 97 fixed to the side wall outer surface 4 of the side groove block main body 96 by the fixing device 100. The tread plate 97 is installed across the installation surface of the side groove block main body 96 and the pavement 12 fixed through the fixing device 100, and is loaded on the pavement 12 at the boundary between the side groove block main body 96 and the pavement 12. The side groove block main body 96 and the pavement portion 12 share and support each other via a tread plate 97.

      The side groove block main body 96 and the fixing recess 98 of the side wall outer surface 4 are made of concrete and are integrally manufactured. The fixing device 100 may be attached to the side groove block main body 96 at a factory, or may be attached at a construction site where the side groove block main body 96 is installed. The illustrated gutter block main body 96 has the drainage channel 2 and has a rectangular cross-sectional shape, the central top wall 14 in the longitudinal direction is open, and the top wall 14 is closed at both ends. It has a cross-sectional shape. The opening 15 of the top wall 14 can be fitted with a plurality of concrete or steel groove lids 16 so as to be detachable like a conventional U-shaped groove block. The places where the top walls 14 at both ends of the side groove block main body 96 are closed have a combined length of approximately one half of the total length, and function as a beam on the upper part of the side groove block main body 96.

      A block mounting portion 18 on which a part of the lower surface of the walking path boundary block 17 is mounted and fixed is provided at the end of the top wall 14 on the side where the stepping plate 97 of the side groove block body 96 is not installed. The walking road boundary block 17 is placed and fixed on the placing portion 18.

      On the side wall outer surface 4 of the side groove block main body 96, a fixing recess 98 for attaching the fixing device 100 connected to the tread plate 97 is provided. The fixing recess 98 is formed so as to be depressed to such a depth that the surface of the fixing plate 107 of the fixing device 100 does not protrude from the side wall outer surface 4 even when the fixing device 100 is attached. This can prevent the fixing device 100 from being damaged or dropped off.

      A bolt hole 104 for attaching the fixing device 100 to the fixing recess 98 is formed in the fixing plate 107 of the fixing device 100. When the side groove block main body 96 is manufactured, an insert nut 99 for attaching the fixing device 100 is embedded in a predetermined position of the fixing recess 98, and after the side groove block main body 96 is manufactured, the fixing device 100 is attached to the insert nut 99. Are attached with bolts 103. The fixing device 100 may be attached to the side groove block main body 96 at a factory, or may be attached at a construction site where the side groove block main body 96 is installed.

      The tread plate 97 is fixed to the fixing recess 98 of the side wall outer surface 4 of the side groove block main body 96 through the fixing device 100 at a substantially right angle. The fixing device 100 is made of metal, synthetic resin or the like.

      The tread plate 97 has a flat plate shape, and is made of synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, or the like. Further, the width (the length from the side groove block body 96 side end portion of the stepping plate 97 to the end portion of the flat plate portion 26) is expected to be about 100 cm, but its shape (planar shape of the stepping plate 97, stepping plate) Installation of through-hole 25 in plate 97), dimensions (vertical length, horizontal length, thickness), material (synthetic resin, metal, concrete, reinforced concrete, fiber reinforced concrete, etc.), type of structure (Elastic structure, rigid structure), a structure (movable structure, hinge structure, fixed structure) in which the stepping plate 97 is fixed to the side wall outer surface 4 has a size of the load loaded on the stepping plate 97, and the side groove block 95 has. It shall be optimal in relation to characteristics, workability of paving work, manufacturability of gutter block 95, maintenance management of stepping plate 97, and the like. The illustrated foot plate 97 is made of metal.

      The side groove block main body 96 and the pavement 12 have a structure in which an automobile load and the like are shared and supported via the tread plate 97, so that the tread plate 97 is provided with appropriate elasticity and rigidity. . The illustrated tread plate 97 having the movable structure fixing device 100 is made of a metal having a flat plate shape and appropriate elasticity and rigidity.

      In the illustrated example, two side plates 97 having the same size and shape correspond to one side groove block main body 96, but the number thereof may be one or three or more. Each tread plate 97 has a rectangular planar shape including the flat plate portion 26. Two fixing devices 100 are connected to the end portion 40 of the tread plate 97, but the number thereof may be one or three or more. The flat plate portion 26 of the stepping plate 97 installed in the illustrated pavement portion 12 does not have the through hole 25 opened in the front and back direction, but the flat plate portion 26 can obtain appropriate elasticity and rigidity for the stepping plate 97. Within the range, a circular plate, an elliptical shape, a square shape, a rhombus shape, a triangular shape and the like may be formed in a perforated plate shape in which the flat plate portion 26 is provided in the entire area.

      In the illustrated case, the two tread plates 97 adjacent to each other are connected to each other via the two connecting tools 27. The number of the connecting tools 27 may be one or three or more. The tread plate 97 may be installed so as to hang over the adjacent side groove block main bodies 96 to be connected.

      In the illustrated example, the position of the tread plate 97 from the top wall upper surface 5 of the side groove block main body 96 is provided at the boundary between the pavement layer 23 and the roadbed 24, but becomes the pavement layer 23 or the roadbed 24. It is good also as a position. In addition to the above, the characteristics of the side groove block 95, the characteristics of the tread plate 97, the structure in which the tread plate 97 is fixed to the side wall outer surface 4 (movable structure, hinge structure, fixed structure), workability of pavement work, It is optimal in relation to the production and production of the side groove block 95 and the maintenance management of the stepping plate 97 and the like.

      Since the illustrated stepping plate 97 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 97 from adhering to each other is provided on the upper portion of the stepping plate 97. Further, sand 37 is spread on the sheet 36.

      Since the tread plate 97 and the fixing device 100 are structured to be detachable from the side groove block main body 96, members made of a metal material such as the tread plate 97, the fixing device 100, the bolt, the nut, the insert nut 99, and the like. It is desirable to use a material that does not easily rust, or to apply a rust prevention treatment. Further, when repairing the pavement 12 at the boundary between the side groove block main body 96 and the pavement 12, it is desirable to judge the degree of deterioration and update the new tread plate 97 and the fixing device 100.

      A tacking plate 97 made of a concrete material having a large plate thickness and strong rigidity can be connected to the fixing device 100.

      When repairing roads, etc., when excavating the pavement 12 at the boundary between the existing gutter block and the pavement 12 embedded in the road, insert nuts are embedded at predetermined positions in the existing gutter block, The fixing device 100 is bolted and attached to the insert nut. Thereafter, by connecting the hanging plate 97 and the fixing device 100, the hanging plate 97 can be installed over the existing side groove block and the installation surface of the pavement 12.

      An example in which the stepping plate 97 is fixed as a movable structure to the outer side wall 4 of the side groove block main body 96 by the fixing device 100 will be described. Bolt holes 104 for attaching the fixing device 100 to the fixing recess 98 are formed in the fixing plate 107 of the fixing device 100. Further, the horizontal displacement of the stepping plate 97 is applied to the fixing front plate 108 and the fixing back plate 109. A bolt hole 102 for attaching the leading bolt 101 to the fixing device 100 is formed. Further, an elongated movable groove 105 that guides the horizontal displacement of the stepping plate 97 is formed so as to penetrate the stepping plate 97 in the front and back direction from the end portion 40 of the stepping plate 97 to the flat plate portion 26 of the stepping plate 97. The width of the movable groove 105 is formed to be slightly larger than the diameter of the bolt 101. In the fixing device 100, the bolt 103 is passed through the bolt hole 104 of the fixing plate 107, and the bolt 103 is fixed and fixed to the insert nut 99 of the fixing recess 98. After the end 40 of the stepping plate 97 is inserted between the fixing front plate 108 and the fixing back plate 109 of the fixing device 100, the stepping plate 97 is inserted into the flat plate portion 26 side end of the movable groove 105 and the fixing front plate 108. The bolt 101 is passed through the fixing back plate 109, and the bolt 101 is fixed to the fixing device 100 together with the nut. In this way, the tread plate 97 is installed across the installation surface of the side groove block main body 96 fixed through the fixing device 100 and the pavement 12.

      The tread plate 97 is guided by the movable groove 105 and the bolt 101 in accordance with the sinking of the pavement portion 12 at the boundary between the side groove block main body 96 and the pavement portion 12 and the installation surface of the pavement portion 12. It will be displaced while sliding. When the horizontal displacement of the stepping plate 97 exceeds the horizontal displacement amount determined from the length of the movable groove 105, the stepping plate 97 falls off from the upper surface of the fixed back plate 109 to the pavement 12. After falling off, the influence of the horizontal displacement of the stepping plate 97 does not reach the side groove block main body 96. The side groove block main body 96 is inclined or damaged by the side groove block protecting function by the movable structure of the tread plate 97 is smaller than in the case of the hinge structure or the fixed structure.

      An example in which the tread plate 97 is fixed as a hinge structure to the side wall outer surface 4 of the side groove block main body 96 by the fixing device 100 will be described with reference to FIG. Bolt holes 104 for attaching the fixing device 100 to the fixing recess 98 are formed in the fixing plate 107 of the fixing device 100, and a tread plate 97 is attached to the fixing front plate 108 and the fixing back plate 109. Bolt holes 102 to be attached to are formed. A bolt hole 110 for attaching the plate 97 to the fixing device 100 is formed in the end 40 of the plate 97, and a hinge in the longitudinal direction of the plate 97 near the boundary between the end 40 of the plate 97 and the flat plate portion 26. 106 is provided to connect the end portion 40 of the tread plate 97 and the flat plate portion 26. In the fixing device 100, the bolt 103 is passed through the bolt hole 104 of the fixing plate 107, and the bolt 103 is fixed and fixed to the insert nut 99 of the fixing recess 98. After the end 40 of the stepping plate 97 is inserted between the fixing front plate 108 and the fixing back plate 109 of the fixing device 100, the stepping plate 97 is fixed to each of the fixing front plate 108, the stepping plate 97, and the fixing back plate 109. Bolts 101 are passed through the bolt holes and fixed to the fixing device 100 together with the nuts 101. In this way, the tread plate 97 is installed across the installation surface of the side groove block main body 96 fixed through the fixing device 100 and the pavement 12.

      An example in which the tread plate 97 is fixed to the side wall outer surface 4 of the side groove block main body 96 by the fixing device 100 as a fixing structure will be described with reference to FIG. Bolt holes 104 for attaching the fixing device 100 to the fixing recess 98 are formed in the fixing plate 107 of the fixing device 100, and a tread plate 97 is attached to the fixing front plate 108 and the fixing back plate 109. A bolt hole 102 for attaching the tacking plate 97 to the fixing device 100 is drilled at the end 40 of the tacking plate 97. In the fixing device 100, the bolt 103 is passed through the bolt hole 104 of the fixing plate 107, and the bolt 103 is fixed and fixed to the insert nut 99 of the fixing recess 98. After the end 40 of the stepping plate 97 is inserted between the fixing front plate 108 and the fixing back plate 109 of the fixing device 100, the stepping plate 97 is fixed to each of the fixing front plate 108, the stepping plate 97, and the fixing back plate 109. Bolts 101 are passed through the bolt holes and fixed to the fixing device 100 together with the nuts 101. In this way, the tread plate 97 is installed across the installation surface of the side groove block main body 96 fixed through the fixing device 100 and the pavement 12.

      For example, the situation of construction when the gutter block 95 is buried in connection with the boundary between the sidewalk 38 and the roadway 39 and a continuous drainage channel 2 for draining rainwater or the like is constructed will be described. The gutter block body 96 is usually constructed at the boundary between the sidewalk 38 and the roadway 39 prior to the construction of the sidewalk 38 and the roadway 39. The gutter block main body 96 is installed so that the top wall upper surface 5 is at the same height as the pavement surface 13 of the roadway 39. After the side groove block main body 96 is installed at the position / height based on the road plan, the fixing device 100 is bolted 103 at a predetermined position of the fixing recess 98 of the side groove block main body 96. The fixing device 100 may be attached to the gutter block body 96 at the factory. Thereafter, the pavement 12 of the sidewalk 38 and the roadway 39 is constructed. The construction of the pavement 12 at the boundary between the side groove block main body 96 and the pavement 12 needs to be carefully performed even when there are restrictions on the use of large heavy machinery. The position of the tread plate 97 from the top wall 5 of the gutter block main body 96 is provided at the boundary between the pavement layer 23 and the roadbed 24. After the roadbed 24 is constructed to the same height as the fixing back plate 109 of the fixing device 100, the end portion 40 of the stepping plate 97 is inserted between the fixing front plate 108 and the fixing back plate 109 and bolted to the fixing device 100. . Thereafter, the flat plate portion 26 of the tread plate 97 is installed at the boundary between the pavement layer 23 and the roadbed 24 substantially parallel to the pavement surface 13, and the tread plate 97 is passed over the installation surface of the side groove block main body 96 and the pavement portion 12. . Since the fixing device 100 and the stepping plate 97 can be attached to and detached from the side groove block main body 96, a member made of a metal material such as the fixing device 100 and the stepping plate 97 is made of a material that does not easily rust. Rust prevention treatment. Since the stepping plate 97 is installed at the boundary between the pavement layer 23 and the roadbed 24, a sheet 36 for preventing the pavement layer 23 and the stepping plate 97 from adhering to each other is placed over the stepping plate 97. Further, sand 37 is distributed on the sheet 36. After the installation of the tread plate 97 and the like is completed, the pavement layer 23 is constructed.

      When the gutter block 95 is installed at the boundary between the sidewalk 38 and the roadway 39 of the road and the use of the road is started, an automobile load or the like is loaded on the pavement 12 at the boundary between the gutter block main body 96 and the pavement 12. Become. Since the tread plate 97 is installed over the side groove block main body 96 fixed via the fixing device 100 and the installation surface of the pavement 12, the loaded automobile load or the like is passed through the tread plate 97 to the side groove block main body 96. And the pavement 12 share and support each other. Appropriate elasticity and rigidity are imparted to the tread plate 97. For this reason, the tread plate 97 resists the sinking of the pavement 12 at the boundary portion caused by the loading of an automobile load or the like, and further follows while deforming and displacing itself, thereby degrading and sinking the pavement portion 12 and the boundary. Subsidence that suppresses / reduces the sinking of the part of the pavement 12 with a step perpendicular to the gutter block body 96, and also smoothly sinks the shape of the subsidence toward the center of the pavement such as a road. Can be controlled as.

      The side groove block 95 has a function of suppressing / reducing deterioration and subsidence of the pavement 12 and a shape control function of subsidence, deterioration of lane lines, poor drainage of rainwater stored in the recesses of the pavement layer 23, side groove block main body 96 It is possible to suppress and reduce the occurrence of serious fall accidents, water splashes, noise, vibration, etc. that occur when a two-wheeled vehicle running in a depression with a step perpendicular to the wheel is taken off. While ensuring smooth driving, it is possible to provide safety and security to the local residents. Further, since the pavement portion 12 leads to a longer pavement repair cycle period, it is extremely effective in reducing the burden of pavement repair work costs and improving construction investment efficiency.

      As described above, in the embodiment of the present invention, the side groove block including the side groove block with the beam has been described. However, the side groove block is not limited to the side groove block with the beam. For example, the U-shaped side groove block, the portal-shaped gradient variable Other side groove blocks such as a mold side groove block, a culvert type side groove block, a slit type side groove block, a box culvert type side groove block, and an L type side groove block may be used. In addition, when the gutter block is provided near the center of the road, etc., or when it is provided across the width direction of the road, a pavement is provided on the outer side surfaces of both side walls of the gutter block. The plate is installed across the side wall outer surfaces of both side groove blocks and the installation surfaces of the pavement. It should be noted that the present invention can be applied to any structure such as a basin or a manhole provided in contact with a pavement such as a road, not a side groove block.

It is a perspective view which shows an example of the gutter block which shows the 1st Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block with the form which mounts a stepping plate on the receiving surface of a receiving block part with a movable structure. In the upper groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, (B) is a plan view of an example of a stepping plate having a stepping plate insertion convex portion having a different size, and (C) is 1 FIG. 6 is a plan view of an example of a tread plate in which one tread plate corresponds to each side groove block main body. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a configuration in which a stepping plate is mounted on the receiving surface of the receiving block portion by a hinge structure, and (B) is a portion receiving the stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form put on the receiving surface of a block part by fixed structure. It is a perspective view which shows an example of the gutter block which shows the 2nd Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block with the form which mounts a stepping plate on the receiving surface of a receiving block part with a movable structure. In the upper side groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, and (B) is a plan view of an example of a stepping plate in which one stepping plate corresponds to one side groove block body. is there. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a configuration in which a stepping plate is mounted on the receiving surface of the receiving block portion by a hinge structure, and (B) is a portion receiving the stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form put on the receiving surface of a block part by fixed structure. It is a perspective view which shows an example of the gutter block which shows the 3rd Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block with the form which mounts a stepping plate on the receiving surface of a receiving block with a movable structure. In the upper groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, (B) is a plan view of an example of a stepping plate having a stepping plate insertion convex portion having a different size, and (C) is 1 FIG. 6 is a plan view of an example of a tread plate in which one tread plate corresponds to each side groove block main body. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a configuration in which a stepping plate is mounted on the receiving surface of the receiving block with a hinge structure, and (B) is a receiving block for the stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of this with a fixed structure. It is a perspective view which shows an example of the gutter block which shows the 4th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block with the form which mounts a stepping plate on the receiving surface of a receiving block with a movable structure. In the upper side groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, and (B) is a plan view of an example of a stepping plate in which one stepping plate corresponds to one side groove block body. is there. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a configuration in which a stepping plate is mounted on the receiving surface of the receiving block with a hinge structure, and (B) is a receiving block for the stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of this with a fixed structure. It is a perspective view which shows an example of the gutter block which shows the 5th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block which has a form which mounts a stepping plate on the receiving surface of a protrusion board part with a movable structure. In the upper groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, (B) is a plan view of an example of a stepping plate having a stepping plate insertion convex portion having a different size, and (C) is 1 FIG. 6 is a plan view of an example of a tread plate in which one tread plate corresponds to each side groove block main body. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a form in which the stepping plate is put on the receiving surface of the protruding plate portion by a hinge structure, and (B) is a drawing showing the stepping plate as the protruding plate portion. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of this with a fixed structure. It is a perspective view which shows an example of the gutter block which shows the 6th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block which has a form which mounts a stepping plate on the receiving surface of a protrusion board part with a movable structure. In the upper side groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, and (B) is a plan view of an example of a stepping plate in which one stepping plate corresponds to one side groove block body. is there. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a form in which the stepping plate is put on the receiving surface of the protruding plate portion by a hinge structure, and (B) is a drawing showing the stepping plate as the protruding plate portion. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of this with a fixed structure. It is a perspective view which shows an example of the gutter block which shows the 7th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view showing an example of a side groove block having a form in which a stepping plate is notched and placed on a receiving surface of a seat portion with a movable structure. In the upper groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, (B) is a plan view of an example of a stepping plate having a stepping plate insertion convex portion having a different size, and (C) is 1 FIG. 6 is a plan view of an example of a tread plate in which one tread plate corresponds to each side groove block main body. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a form in which a stepping plate is cut out and placed on a receiving surface of a seating portion with a hinge structure, and (B) is a drawing of a stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of a notch seat part by fixed structure. It is a perspective view which shows an example of the side groove block which shows the 8th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view showing an example of a side groove block having a form in which a stepping plate is notched and placed on a receiving surface of a seat portion with a movable structure. In the upper side groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, and (B) is a plan view of an example of a stepping plate in which one stepping plate corresponds to one side groove block body. is there. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a form in which a stepping plate is cut out and placed on a receiving surface of a seating portion with a hinge structure, and (B) is a drawing of a stepping plate. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form which mounts on the receiving surface of a notch seat part by fixed structure. It is a perspective view which shows an example of the gutter block which shows the 9th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block which has a form which inserts a tread plate insertion convex part in an insertion hole by a movable structure. In the upper groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, (B) is a plan view of an example of a stepping plate having a stepping plate insertion convex portion having a different size, and (C) is 1 FIG. 6 is a plan view of an example of a tread plate in which one tread plate corresponds to each side groove block main body. It is a perspective view which shows an example of the gutter block which shows the 10th Embodiment of this invention. In the same upper side groove block, it is a longitudinal cross-sectional view which shows an example of the side groove block which has a form which adheres a stepping plate to a side wall outer surface of a side groove block main body with a fixing device as a movable structure. In the upper side groove block, (A) is a plan view of an example of a stepping plate provided with a through hole, and (B) is a plan view of an example of a stepping plate in which one stepping plate corresponds to one side groove block body. is there. In the upper side groove block, (A) is a longitudinal sectional view showing a main part of an example of a side groove block having a form in which the tread plate is fixed to the outer side surface of the side wall with a hinge structure, and (B) is a structure in which the tread plate is fixed to the outer side surface of the side wall. It is a longitudinal cross-sectional view which shows the principal part of an example of the side groove block with the form fixed by. It is a longitudinal cross-sectional view which shows the other example of the side groove block which concerns on this invention. (A) is a longitudinal sectional view showing an example of a U-shaped side groove block having a configuration in which a stepping plate is placed on the receiving surface of the receiving block portion with a movable structure, and (B) is a moving movable plate on the receiving surface of the receiving block. The longitudinal cross-sectional view which shows an example of the U-shaped side groove block with the form which mounts on a structure, (C) is a longitudinal section which shows an example of the U-shaped side groove block with the form which mounts a stepping plate on the receiving surface of a protrusion board part by a hinge structure FIG. 4D is a longitudinal sectional view showing an example of a U-shaped side groove block having a form in which a stepping plate is fixed to a side wall outer surface with a movable structure. It is a longitudinal cross-sectional view which shows another example of the gutter block which concerns on this invention. (A) is a longitudinal cross-sectional view showing an example of a culvert type side groove block having a configuration in which the tread plate insertion convex portion is inserted into the insertion hole with a movable structure. The longitudinal cross-sectional view which shows an example of another culvert type | mold side groove block with the form which carries out, (C) is an example of a box culvert type side groove block with the form which mounts a stepping plate on the receiving surface of a notch seat part with a movable structure FIG. 4D is a longitudinal sectional view showing an example of a box culvert-type side groove block having a configuration in which a stepping plate is mounted on a receiving surface of a receiving block portion with a movable structure. It is a longitudinal cross-sectional view which shows an example of the condition where the gutter block which concerns on this invention is functioning. It is a longitudinal cross-sectional view which shows an example of the condition of the level | step difference subsidence which has arisen between the conventional gutter block and the pavement part.

Explanation of symbols

1, 45, 55, 60, 65, 75, 80, 85, 90, 95 Side groove block 2 Drainage channel 3, 46, 56, 61, 66, 76, 81, 86, 91, 96 Side groove block body 4 Side wall outer surface 5 Top wall 6 Side wall 7, 47, 97 Foot plate 8 Receiving surface 9 Receiving block portion 57 Receiving block 67 Projecting plate portion 82 Notch receiving portion 10 Tread plate insertion convex portion 11 Insertion hole 12 Pavement portion 13 Pavement surface 26 Flat plate portion 40 End portion 14 Top wall 20 Bottom wall 22, 92 Round 23 Pavement layer 24 Roadbed 27 Connecting tool 30, 105 Movable groove 31 Metal rod 38 Sidewalk 39 Roadway 98 Fixing recess 100 Fixing device 107 Fixing plate

Claims (10)

In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A receiving block portion having a receiving surface on which the treadle plate is placed is projected along the longitudinal direction of the side wall, substantially parallel to the top surface of the top wall of the side groove block main body, on the side wall outer surface of the side groove block main body. Ready,
An insertion hole for inserting the stepping plate insertion convex portion is formed on a side wall of the side groove block main body along a line where a receiving surface on which the stepping plate of the receiving block portion is placed and a side wall outer surface of the side groove block main body intersect. One or more holes are drilled from the outer surface to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end portion of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the seat block portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate rests the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the seat block part protruding from the side wall outer surface of the side groove block main body. A gutter block that is installed across a receiving surface and a mounting surface of a stepping plate of the pavement. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A receiving block portion having a receiving surface on which the treadle plate is placed is projected along the longitudinal direction of the side wall, substantially parallel to the top surface of the top wall of the side groove block main body, on the side wall outer surface of the side groove block main body. Ready,
The stepping plate has a flat plate shape, and an end of the stepping plate is placed on a receiving surface on which the stepping plate of the receiving block portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across a receiving surface on which the stepping plate of the receiving block portion protruding from the side wall outer surface of the side groove block body is placed and a setting surface of the stepping plate of the pavement portion. A gutter block characterized by that. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A side wall outer surface of the side groove block main body is provided with a receiving block having a receiving surface on which a tread plate is placed along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body. ,
An insertion hole for inserting the stepping plate insertion convex portion is formed outside the side wall of the side groove block main body along a line where the receiving surface on which the stepping plate of the seating block is placed and the side wall outer surface of the side groove block main body intersect. Drill one or more holes from the side to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end portion of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the receiving block is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate receives the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the seat block abutted on the side wall outer surface of the side groove block main body. A gutter block that is installed across a surface and an installation surface of a stepping plate of the pavement. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A side wall outer surface of the side groove block main body is provided with a receiving block having a receiving surface on which a tread plate is placed along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body. ,
The stepping plate has a flat plate shape, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the seat block is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed over a receiving surface on which the stepping plate of the seat block abutted on the side wall outer surface of the side groove block main body is placed and a setting surface of the stepping plate of the pavement. Side groove block characterized by. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A projecting plate portion having a receiving surface on which a tread plate is placed is projected along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body on the outer side surface of the side groove block main body. Prepared,
An insertion hole for inserting the tread plate insertion convex portion is formed outside the side wall of the side groove block main body along a line where a receiving surface on which the tread plate of the protruding plate portion is placed and a side wall outer surface of the side groove block main body intersect. Drill one or more holes from the side to the side wall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the protruding plate portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate receives the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body and the stepping plate of the protruding plate portion protruding from the side wall outer surface of the side groove block main body. A gutter block that is installed across a surface and an installation surface of a stepping plate of the pavement. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A projecting plate portion having a receiving surface on which a tread plate is placed is projected along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body on the outer side surface of the side groove block main body. Prepared,
The stepping plate has a flat plate shape, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the protruding plate portion is put,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate is installed across a receiving surface on which the stepping plate of the protruding plate portion protruding from the side wall outer surface of the gutter block main body is placed and a setting surface of the stepping plate of the pavement portion. Side groove block characterized by. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
The receiving surface on which the shoulder portion of the side wall side end portion of the top surface of the side groove block main body is cut out in a rectangular shape along the longitudinal direction of the side groove block main body, and the tread plate is placed on the bottom surface of the cutout A notch seat portion provided with
An insertion hole for inserting the stepping plate insertion convex portion is formed on the side groove block main body along a line intersecting a receiving surface on which the stepping plate of the notch receiving portion is placed and an outer side wall surface of the side groove block main body. One or more holes are drilled from the sidewall outer surface to the sidewall,
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The end of the stepping plate following the stepping plate insertion convex portion is placed on the receiving surface on which the stepping plate of the notch receiving portion is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The stepping plate includes the insertion hole formed in the side wall from the side wall outer surface of the side groove block main body, a receiving surface on which the stepping plate of the notch receiving portion is placed, and installation of the stepping plate of the pavement portion A gutter block that is installed over a surface. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
The receiving surface on which the shoulder portion of the side wall side end portion of the top surface of the side groove block main body is cut out in a rectangular shape along the longitudinal direction of the side groove block main body, and the tread plate is placed on the bottom surface of the cutout A notch seat portion provided with
The stepping plate is plate-shaped, and an end portion of the stepping plate is placed on a receiving surface on which the stepping plate of the notch seat portion is placed,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The side groove block is characterized in that the side groove block is installed across the receiving surface on which the stepping plate of the notch seat portion of the side groove block main body is placed and the installation surface of the foot plate of the pavement portion. . In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
An insertion hole for inserting a tread plate insertion convex portion along the longitudinal direction of the side wall substantially parallel to the top surface of the top wall of the side groove block main body is formed on the side wall outer surface of the side groove block main body. One or more holes are drilled from the outer surface to the side wall.
The stepping plate has a flat plate shape, and has one or a plurality of the stepping plate insertion protrusions at one end of the stepping plate, and the stepping plate insertion protrusions are formed in the side wall from the outer side surface of the side groove block body. Inserted into the insertion hole for inserting the stepping plate insertion convex portion,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The side groove block is characterized in that the stepping plate is installed across the insertion hole formed in the side wall from the outer side surface of the side groove block main body and the installation surface of the stepping plate of the pavement. In the gutter block for drainage of rainwater etc. buried in the road, etc.
The side groove block is a side groove block body in which a drainage channel is formed,
A stepping plate in which a fixing device for fixing the side wall outer surface and the stepping plate is connected to the side wall outer surface of the side groove block main body substantially in parallel with the top surface of the top wall of the side groove block main body along the longitudinal direction of the side wall. Are fixed to the side wall outer surface of the gutter block body,
The stepping plate has a flat plate shape, and has one or a plurality of the fixing devices at one end of the stepping plate, and the stepping plate connected to the fixing device is fixed to the side wall outer surface of the side groove block main body,
The flat plate portion of the stepping plate installed on the pavement is installed substantially parallel to the pavement surface,
The side groove block is characterized in that the side plate is installed across the side groove block main body fixed through the fixing device and the installation surface of the step plate of the pavement.