CN111395088A - Light-emitting floor tile burying structure and method adapting to concrete pavement deformation - Google Patents

Abstract

The invention discloses a luminous floor tile embedding structure and a method suitable for deformation of a concrete pavement, wherein a groove is embedded above a concrete slab, a reinforcement cage is arranged in the groove, a supporting boss is arranged at the edge of the bottom of an inner cavity of a box body, a water collecting pit is arranged at the center of the bottom of the box body, round holes are formed in the side wall of the box body, the bottom of the box body is arranged on the upper surface of the reinforcement cage through angle steel, two ends of a threading pipe are arranged between every two adjacent box bodies through the round holes, one end of a joint is arranged in the middle part below the box body, a filter screen is arranged above the middle ear part of the joint, a sealing gasket is arranged below the middle ear part of the joint, the other end of the joint is connected with a drainage pipe, asphalt spreading layers are arranged above the concrete slab, a cable is arranged in the threading pipe, the supporting block is arranged above the supporting boss, an 85ED (85) luminous.

Description

Light-emitting floor tile burying structure and method adapting to concrete pavement deformation

Technical Field

The invention relates to the technical field of luminous floor tiles, in particular to a luminous floor tile burying structure and method suitable for deformation of a concrete pavement.

Background

According to data issued by a traffic administration, 1.4 thousands of traffic accidents of motor vehicles and pedestrians occur on zebra crossings all over the country in the last three years, wherein the rate of the traffic accidents occurring in the environments of night, rainy days, haze days and the like is more than 5 times of that in normal times. The main reasons for this phenomenon are the indifference of a pedestrian to the awareness of traffic laws and regulations, the inattention of drivers of two vehicles, and the obstruction of the driver's sight in extreme weather. Aiming at the problems, a novel intelligent traffic sign-luminous floor tile (201920093826.5) is suitable for transportation, thereby not only enhancing the safety consciousness of old people, children and head-lowering people on the road, but also reminding the passing vehicles to decelerate in advance when encountering zebra crossings.

However, in view of the current use situation, the problems of local collapse of the road surface and unsmooth drainage are easily caused by the luminous floor tiles of this type. The newly poured concrete module and the original pavement module can not form a unified whole, cracks are easily formed under the frequent braking force impact of vehicle tires, and further, the local collapse of the pavement, the loose peeling of aggregates and pits are caused, and the driving comfort and the service performance of the pavement are seriously influenced.

Disclosure of Invention

The invention aims to provide a light-emitting floor tile embedding structure and a method adapting to the deformation of a concrete pavement, and designs a structural construction method capable of enhancing the service performance of the pavement in consideration of the problems of uneven pavement settlement and cracking diseases caused by the novel intelligent traffic sign-light-emitting floor tile under the influence of vehicle load so as to solve the problems in the background technology.

The light-emitting floor tile embedding structure comprises a concrete slab, an asphalt overlay layer, a reinforcement cage, a threading pipe, a box body, a light-transmitting resin block, angle steel, a drain pipe, a bolt, a joint, a hexagon nut, a filter screen, a sealing washer, a support block, an L ED light-emitting plate, a groove, a cable, a support boss, a water collection pit and a round hole, wherein the groove is embedded above the concrete slab, the reinforcement cage is arranged in the groove, the box body is provided with a plurality of groups, the box body is hollow, the bottom edge of an inner cavity of the box body is provided with the support boss, the center of the bottom of the box body is provided with the water collection pit, the side wall of the box body is provided with the round hole, the bottom of the box body is arranged on the upper surface of the reinforcement cage through the angle steel, two ends of the threading pipe are arranged between every two adjacent box bodies through the round hole, one end of the joint is arranged in the middle part below the box body, the light-emitting plate is provided with the filter screen above the middle ear part of the joint, the sealing washer is arranged below the middle ear part of the joint, the other end of the joint is connected with the drain pipe, the support block is arranged above the asphalt overlay layer L, the support boss is arranged above the light-transmitting resin overlay layer, and the ED layer is.

Preferably, the diameter of the round hole is matched with the outer diameter of the threading pipe.

Preferably, the depth of the groove is 30-50cm, and the width of the groove is 50-80 cm.

Preferably, the angle steel is fixedly connected with the box body through a bolt and a hexagon nut, and the bolt is matched with the hexagon nut.

Preferably, the diameter of the drain pipe is 40-60 mm.

Preferably, the asphalt overlay is SBS modified asphalt.

A method for burying luminous floor tiles adapting to deformation of a concrete pavement comprises the following steps:

step 1: measuring and lofting the concrete slab and determining the width and depth of an excavated groove;

step 2: assembling a three-dimensional structure of the luminous floor tiles, fastening a box body and angle steel through bolts and hexagon nuts, connecting a joint and a drain pipe in a threaded mode, wherein the drain pipe is positioned at the central part of the steel reinforcement cage structure, a sealing washer and a filter screen are respectively positioned below and above the middle ear plate part of the joint, and a threading pipe is positioned between the box bodies of the two luminous floor tiles;

and step 3: pouring concrete at the bottom of the groove for leveling, wherein the depth of the groove is consistent with the three-dimensional structure of the light-emitting floor tile after leveling;

and 4, step 4: placing the three-dimensional structure of the luminous floor tile to the bottom of the groove along the vertical direction and rotating the connector to enable the drain pipe to have a certain gradient in the horizontal direction;

and 5: burying a foundation of a control cabinet and building a threading well;

step 6: pouring concrete into the grooves, wherein the pouring height is consistent with the height of the peripheral concrete slab, and the concrete is uniformly poured by using a vibrating rod;

and 7: heating SBS modified asphalt and pouring into the concrete part of the groove bottom rapidly, after paving, the height is 1cm higher than that of the adjacent road surface, and compacting the mixture by using a small road roller or a vibrating rod;

step 8, enabling the cable to penetrate through the threading pipe, installing supporting blocks, L ED light-emitting plates and light-transmitting resin blocks, wherein the supporting blocks are placed at the bottom of the box body and tightly attached to two sides of the inner wall of the box body;

and step 9: and connecting a 220V power supply and traffic light signals to the control cabinet and debugging.

Compared with the prior art, the invention has the beneficial effects that:

(1) the pouring type reinforced concrete structure has the characteristics of good integrity and high rigidity, and the tensile strength of the concrete can be effectively improved by using the reinforcement cage.

(2) The connection between the angle steel and the box body not only effectively ensures the close contact between the box body and the reinforcement cage, but also can enhance the deformation resistance of the bottom of the box body.

(3) The structure of the luminous floor tile is convenient to install, maintain and repair, and has simple structure and lower price than a cast iron box type structure.

(4) The design of the drain pipe with a certain gradient and hydraulic radius can enhance the drainage capacity of rainwater, ensure that no water is accumulated in the luminous floor tile, and simultaneously, the scheme of pipeline separation also avoids the soaking of cables;

(5) according to the invention, the steel reinforcement cage is embedded in the concrete slab, so that the uneven settlement of the light-emitting floor tiles under extreme weather conditions can be effectively solved, the deflection value of the pavement at the position is reduced by 30-50%, and the cracking resistance and the service performance of the pavement structure are improved.

Drawings

FIG. 1 is a schematic view illustrating the installation of a light-emitting floor tile;

FIG. 2 is a schematic perspective view of a light-emitting floor tile;

FIG. 3 is a second schematic view of a three-dimensional structure of the light-emitting floor tile;

FIG. 4 is a front view of a cross-sectional structure of a light-emitting floor tile;

fig. 5 is a schematic structural diagram of the box body.

In the drawing, 1-concrete slab, 2-asphalt overlay layer, 3-steel reinforcement cage, 4-threading pipe, 5-box body, 6-light-transmitting resin block, 7-angle steel, 8-water drainage pipe, 9-bolt, 10-joint, 11-hexagon nut, 12-filter screen, 13-sealing washer, 14-supporting block, 15-L ED light-emitting plate, 16-groove, 41-cable wire, 51-supporting boss, 52-water collecting pit and 53-round hole are included.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, the invention provides a technical scheme that a light-emitting floor tile embedding structure suitable for deformation of a concrete pavement comprises a concrete slab 1, an asphalt overlay 2, a reinforcement cage 3, a threading pipe 4, a box body 5, a light-transmitting resin block 6, angle steel 7, a drain pipe 8, a bolt 9, a joint 10, a hexagon nut 11, a filter screen 12, a sealing washer 13, a support block 14, an L ED light-emitting plate 15, a groove 16, a cable 41, a support boss 51, a water collection pit 52 and a circular hole 53, wherein the groove 16 is embedded above the concrete slab 1, the depth of the groove 16 is 30-50cm, the width of the groove 16 is 50-80cm, the reinforcement cage 3 is arranged in the groove 16, the reinforcement cage 3 embedded in the concrete slab 1 can effectively improve the tensile strength of concrete, the problem of uneven sinking of the light-emitting floor tile under extreme conditions can be effectively solved, the weather of the light-emitting floor pavement deflection value is reduced by 30-50%, crack resistance and serviceability of a pavement structure are improved, the box body 5 is provided with a plurality of the box body 5, the box body 5 is provided with a hollow, the inner cavity bottom of the support block 5, the support boss 51 is provided with a support boss, the boss 7 is provided with a screw thread-nut 7, the nut 7 is provided at the corner joint, the corner joint 5, the corner joint is provided with the corner joint, the corner joint 4, the corner joint is provided with a waterproof joint, the corner joint is provided with a waterproof joint, the corner joint 4, the corner joint is provided with a waterproof joint, the corner joint 4 is provided with a waterproof joint, the corner joint is provided with a waterproof joint, the corner joint is provided with a waterproof joint, the.

Application method

A method for burying luminous floor tiles adapting to deformation of a concrete pavement comprises the following steps:

step 1: measuring and lofting above the concrete slab 1 and determining the width and depth of the excavated groove 16;

step 2: assembling a three-dimensional structure of the luminous floor tiles, fastening a box body 5 and angle steel 7 through bolts 9 and hexagon nuts 11, connecting a joint 10 and a drain pipe 8 in a threaded mode, positioning the drain pipe 8 at the structural central part of the reinforcement cage 3, respectively positioning a sealing washer 13 and a filter screen 12 below and above the middle ear plate part of the joint 10, and positioning a threading pipe 4 between the box bodies 5 of the two luminous floor tiles;

and step 3: concrete is poured at the bottom of the groove 16 for leveling, and the depth of the groove 16 is consistent with the three-dimensional structure of the light-emitting floor tile after leveling;

and 4, step 4: placing the three-dimensional structure of the luminous floor tile to the bottom of the groove 16 along the vertical direction and rotating the joint 10 to enable the drain pipe 8 to have a certain gradient in the horizontal direction;

and 5: burying a foundation of a control cabinet and building a threading well;

step 6: pouring concrete into the grooves 16, wherein the pouring height is consistent with the height of the peripheral concrete slab 1, and the pouring height is uniform by using a vibrating rod;

and 7: heating SBS modified asphalt and pouring into the concrete part at the bottom of the groove 16 rapidly, after paving, the height of the SBS modified asphalt exceeds that of the adjacent road surface by 1cm, and compacting the mixture by using a small-sized road roller or a vibrating rod;

step 8, enabling the cable 41 to penetrate through the threading pipe 4, installing the supporting blocks 14, L ED light-emitting plates 15 and the light-transmitting resin blocks 6, and placing the supporting blocks 14 at the bottom of the box body 5 to be tightly attached to two sides of the inner wall of the box body 5;

and step 9: and connecting a 220V power supply and traffic light signals to the control cabinet and debugging.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a light-emitting floor tile buried structure that adaptation concrete pavement warp, includes concrete slab (1), pitch spreading layer (2), steel reinforcement cage (3), threading pipe (4), box (5), printing opacity resin block (6), angle steel (7), drain pipe (8), bolt (9), joint (10), hexagon nut (11), filter screen (12), seal ring (13), supporting shoe (14), L ED luminescent plate (15), recess (16), cable conductor (41), support boss (51), sump pit (52) and round hole (53), recess (16) embedded in concrete slab (1) top, be equipped with steel reinforcement cage (3) in recess (16), box (5) are equipped with the multiunit, box (5) inside cavity, the inner chamber bottom edge of box (5) is equipped with support boss (51), the bottom center department of box (5) is equipped with sump pit (52), the lateral wall of box (5) is equipped with round hole (53), the bottom of box (5) is located through angle steel reinforcement cage (7) upper surface of box (3) is buried structure, the threading pipe (4) is equipped with the layer (10) and is equipped with the joint (13) top through two adjacent ear joints (13) of glue reinforcement cage (10) the luminescent plate (13), the glue spreading layer (13), the drain pipe (13) top, lighting slab (16) top is equipped with the luminescent plate (13), the luminescent plate (16) bottom is equipped with steel reinforcement cage (11), the glue the joint (13), the glue board (13), the glue the joint (13), the bottom of recess (13), the bottom of locating ring (13), the glue the joint (13), the drain pipe (13), the bottom is equipped with the drain pipe (13), the drain pipe (52), the drain pipe (13), the bottom is equipped with the glue the joint (6) bottom is equipped.

2. The burying structure of luminous floor tiles adapted to the deformation of a concrete pavement according to claim 1, wherein: the diameter of the round hole (53) is matched with the outer diameter of the threading pipe (4).

3. The burying structure of luminous floor tiles adapted to the deformation of a concrete pavement according to claim 1, wherein: the depth of the groove (16) is 30-50cm, and the width of the groove (16) is 50-80 cm.

4. The burying structure of light-emitting floor tiles according to claim 1, wherein the burying structure is adapted to the deformation of the concrete pavement: the angle steel (7) is fixedly connected with the box body (5) through a bolt (9) and a hexagon nut (11), and the bolt (9) is matched with the hexagon nut (11).

5. The burying structure of luminous floor tiles adapted to the deformation of a concrete pavement according to claim 1, wherein: the diameter of the drain pipe (8) is 40-60 mm.

6. The burying structure of luminous floor tiles adapted to the deformation of a concrete pavement according to claim 1, wherein: the asphalt overlay layer (2) is SBS modified asphalt.

7. A method for burying luminous floor tiles adapting to deformation of a concrete pavement is characterized by comprising the following steps:

step 1: measuring and lofting above the concrete slab (1) and determining the width and depth of the excavated groove (16);

step 2: assembling a three-dimensional structure of the luminous floor tiles, fastening a box body (5) and angle steel (7) through bolts (9) and hexagon nuts (11), connecting a joint (10) and a drain pipe (8) in a threaded manner, positioning the drain pipe (8) at the center of a structure of a reinforcement cage (3), respectively positioning a sealing washer (13) and a filter screen (12) below and above the middle ear plate part of the joint (10), and positioning a threading pipe (4) between the box bodies (5) of the two luminous floor tiles;

and step 3: concrete is poured at the bottom of the groove (16) for leveling, and the depth of the groove (16) is consistent with the three-dimensional structure of the light-emitting floor tile after leveling;

and 4, step 4: placing the three-dimensional structure of the luminous floor tile to the bottom of the groove (16) along the vertical direction and rotating the joint (10) to enable the drain pipe (8) to have a certain gradient in the horizontal direction;

and 5: burying a foundation of a control cabinet and building a threading well;

step 6: pouring concrete into the grooves (16), wherein the pouring height is consistent with the height of the peripheral concrete slab (1), and the pouring height is uniform by using a vibrating rod;

and 7: the SBS modified asphalt is heated and quickly poured into the concrete part at the bottom of the groove (16), the height of the SBS modified asphalt exceeds that of the adjacent pavement by 1cm after paving is finished, and the mixture is compacted by a small-sized road roller or a vibrating rod;

step 8, enabling the cable (41) to penetrate through the threading pipe (4), installing a supporting block (14), an L ED light-emitting plate (15) and a light-transmitting resin block (6), and placing the supporting block (14) at the bottom of the box body (5) to be tightly attached to two sides of the inner wall of the box body (5);

and step 9: and connecting a 220V power supply and traffic light signals to the control cabinet and debugging.

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