CN107012765B - Road shoulder is with assisting stone - Google Patents

Abstract

The invention relates to an auxiliary stone for road shoulders, which comprises a blocky auxiliary stone body, wherein a division surface for integrally dividing the auxiliary stone body into two independent blocks, namely a lower base block and an upper base block, is arranged in the auxiliary stone body, the starting edge of the division surface is positioned on one side surface of the auxiliary stone body, forwards penetrates through the whole auxiliary stone body, and ends at the other opposite side surface of the auxiliary stone body and inclines upwards; a connecting part is arranged between the lower base block and the upper base block, so that the upper base block can be turned clockwise and downwards by taking the starting line of the dividing surface as an axis to form a block body with an inclined upper surface with the lower base block. The manufacturing cost of the invention is far lower than that of the prior stone-assisted base material made of stones, the cost of the invention is not half of that of the prior base stone, and the cost is lower when the reclaimed waste rubber is adopted for refining; this assist stone can need not extra cushion, and itself can fold and open, forms one and rises domaticly, and the vehicle of being convenient for goes, takes place the unstable condition at the vehicle and can play the cushioning effect, improves the security of vehicle.

Description

Road shoulder is with assisting stone

Technical Field

The invention relates to a road auxiliary device, in particular to a novel auxiliary stone for a road shoulder, which replaces the traditional stone concrete road shoulder and improves the safety.

Background

At present, with the continuous development of social economy in China, the number of roads is also continuously increased, the two sides of a road are long and provided with road shoulders, the road shoulders are strip-shaped structural parts which are positioned from the outer edge of a traffic lane to the edge of a roadbed and have certain width, and the road shoulders comprise hard road shoulders and road shoulders, are used for keeping the function of the traffic lane and temporarily stopping the vehicle and are used as transverse supports of the road surface.

Wherein, the hard road shoulder is usually formed by pouring raw stones or concrete, and the prior road shoulder auxiliary stones mainly made of stones have the following defects: the price is high, the cost of the auxiliary stone with the volume of 80cm by 20cm by 50cm is higher than one thousand yuan, and the transportation and the pavement need to depend on special mechanical equipment, so the pavement cost of the highway is high; the parking difficulty is a troublesome problem for many cities along with more and more vehicles, sidewalks on two sides of a road shoulder are used as temporary parking spaces in a short time of specific people and are popularized in most cities, and when stones or concrete are used as the road shoulder, vehicles need to cross the road shoulder protruding from the road surface, so that the vehicles are not beneficial to people to use, chassis scraping and rubbing of the vehicles are easily caused, and an additional auxiliary slope cushion block is needed; moreover, when the vehicle slips or runs out of control to hit a road shoulder protruding from the road surface, the danger coefficient of personnel in the vehicle can be improved.

In conclusion, it is important to design an auxiliary stone for a safety shoulder, which can save cost and improve use.

Disclosure of Invention

In view of the above problems, the present invention aims to provide a road shoulder auxiliary stone which has the advantages of low cost, convenient use and improved safety for pedestrians and vehicles on the road.

The technical scheme adopted by the invention is as follows:

an auxiliary stone for road shoulders comprises a block-shaped auxiliary stone body, wherein a dividing surface for integrally dividing the auxiliary stone body into two independent blocks, namely a lower base block and an upper base block, is arranged in the auxiliary stone body, the starting edge of the dividing surface is positioned on one side surface of the auxiliary stone body, forwards penetrates through the whole auxiliary stone body, and ends at the other opposite side surface of the auxiliary stone body and inclines; and a connecting part is arranged between the lower base block and the upper base block, so that the upper base block can be turned clockwise and downwards by taking the starting line of the dividing surface as an axis to form a block body with an inclined upper surface with the lower base block.

Furthermore, the lower base block and the upper base block are made of rubber with the same material, or the lower base block is made of cement concrete or stone material, and the upper base block is made of sampling rubber material.

Further, the dividing surface is one of sawtooth shape, wave shape and uneven shape.

Further, the inclination angle of the dividing plane is 30 to 60 °.

Further, be equipped with the night light layer on the assistance stone body, the night light layer is fixed at the night light adhesive tape of assisting the stone surface through pasting, or is fixed at the night light adhesive tape of assisting the stone surface through the screw, or the night light coating of brushing.

Furthermore, the projection of the dividing surface on the upper surface of the lower base block and the lower surface of the upper base block is larger than or equal to the area of the upper surface of the lower base block and the area of the lower surface of the upper base block.

Furthermore, the connecting part comprises a U-shaped first connecting part and a U-shaped second connecting part, the first connecting part is connected with the upper base block, and the U-shaped opening end of the first connecting part is used for meshing and fixing the upper base block in the U-shaped inner part; the second connecting part is connected with the lower base block, and the U-shaped opening end of the second connecting part is used for occluding and fixing the lower base block in the U-shaped part; the U-shaped closed end of the first connecting part is provided with a first notch, and the U-shaped closed end of the second connecting part is provided with a second notch staggered with the first notch; the first notch and the second notch are crossed in a staggered mode, the first connecting portion and the second connecting portion are connected through the optical axis, and the upper base block and the lower base block can be opened and closed in a rotating mode along the optical axis.

Furthermore, mutually meshed contact pins are arranged inside the U-shaped openings of the first connecting portion and the second connecting portion.

Further, the connecting part comprises a first connecting plate, and the first connecting plate is connected with the upper base block through an expansion screw; the second connecting plate is connected with the lower base block through an expansion screw; a first connecting ring is discontinuously arranged behind the first connecting plate, and a second connecting ring is arranged behind the second connecting plate and staggered with the first connecting ring; the first connecting rings and the second connecting rings which are staggered are connected in series through the positioning pins, so that the upper base block and the lower base block can be opened and closed in a rotating mode along the positioning pins.

Furthermore, the connecting part is a rubber sheet, the rubber sheet is attached to the side face of the auxiliary stone body where the starting edge of the dividing surface is located, the upper part of the rubber sheet is fixedly connected with the upper base stone, and the lower part of the rubber sheet is fixedly connected with the lower base stone; the upper base stone is turned over and opened with the lower base stone by taking the dividing surface as a line.

Furthermore, the lower base block is provided with a reinforcing layer, and the reinforcing layer is wrapped at the bottom of the lower base block and made of stone or metal.

Advantageous effects

The manufacturing cost of the invention is far lower than that of the prior stone-assisted base material made of stones, the cost of the invention is not half of that of the prior base stone, and when the reclaimed waste rubber is adopted for refining, the cost is lower; this assist stone can need not extra cushion, and itself can fold and open, forms a domatic rising face, and the vehicle of being convenient for goes to the effect that can play the buffering takes place unstable condition at the vehicle, improves the security of vehicle.

Drawings

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a first schematic structural diagram of a division plane;

FIG. 3 is a second schematic structural view of the divided surface;

FIG. 4 is a schematic view of a first connection portion;

FIG. 5 is a schematic structural view of a second connecting portion;

FIG. 6 is a schematic view of the connection portion with pins in FIG. 5;

FIG. 7 is a schematic diagram of a first connecting plate structure;

FIG. 8 is a schematic view of a second tie plate construction;

FIG. 9 is a third schematic structural view of a connecting portion;

FIG. 10 is a prefabricated base;

in the above figures: 100 stone bodies, 101 division surfaces, 102 lower base blocks, 103 upper base blocks, 104 noctilucent layers, 200 first connecting parts, 201U-shaped opening ends, 202U-shaped closing ends, 203 pins, 800 second connecting parts, 300 first connecting plates, 700 second connecting plates, 301 first connecting rings, 701 second connecting rings, 400 rubber sheets, 500 prefabricated bases and 600 connecting parts.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and the accompanying drawings.

An auxiliary stone for road shoulders comprises a block-shaped auxiliary stone body, wherein a dividing surface for integrally dividing the auxiliary stone body into two independent blocks, namely a lower base block and an upper base block, is arranged in the auxiliary stone body, the starting edge of the dividing surface is positioned on one side surface of the auxiliary stone body, forwards penetrates through the whole auxiliary stone body, and ends at the other opposite side surface of the auxiliary stone body and inclines; and a connecting part is arranged between the lower base block and the upper base block, so that the upper base block can be turned clockwise and downwards by taking the starting line of the dividing surface as an axis to form a block body with an inclined upper surface with the lower base block.

As shown in fig. 1, an auxiliary stone for road shoulder comprises a block-shaped auxiliary stone body, wherein a division surface which divides the whole auxiliary stone body into two independent blocks, namely a lower base block and an upper base block, is arranged in the auxiliary stone body, the initial edge of the division surface is positioned on one side surface of the auxiliary stone body, forwards penetrates through the whole auxiliary stone body, and is terminated at the other opposite side surface of the auxiliary stone body and is inclined; and a connecting part is arranged between the lower base block and the upper base block, so that the upper base block can be turned clockwise and downwards by taking the starting line of the dividing surface as an axis to form a block body with an inclined upper surface with the lower base block. The lower base block and the upper base block are made of rubber with the same material, or the lower base block is made of cement concrete or stone material, and the upper base block is made of sampling rubber material. In actual processing, the design is made according to the use requirement, and is not particularly limited herein.

When the stone mixed clay in the prior art is used as a road shoulder base stone, the installation of the base stone is completed by using auxiliary devices such as a crane and the like in the installation process, a plurality of persons are required to jointly install the stone at a specified position, the adjustment and the later maintenance are difficult and heavy, and the traffic jam condition can be caused by the need of auxiliary devices such as the crane and the like in the maintenance process; during installation and maintenance, the installation and maintenance can be realized without excessive equipment, and the installation and maintenance cost is low; can regard as gentle slope to use, increase its service function, need not to go the vehicle and additionally carry supplementary cushion to adopt useless rubber to process this supplementary stone, the cost is cheaper, does benefit to resource recovery and recycles.

The upper base block and the lower base block are made of the same material, so that the upper base block and the lower base block are more convenient to be integrally formed and processed in actual processing; the corrosion prevention effect of the concrete lower base block in actual use is generally better than that of rubber, the upper base block is hinged with the lower base block, and a driver can drive on a slope without additionally carrying a cushion block; simultaneously when not using as the cushion, prevented the rigid collision between vehicle and the curb, provide the buffering, increase driver factor of safety.

As shown in fig. 2 and 3, the dividing surface is one of a zigzag shape, a wave shape, and an uneven shape in order to improve the driving safety. It is not limited herein, and is designed according to the actual engineering requirements, the friction of the vehicle, or other factors.

The upper foundation stone and the lower foundation stone are mutually meshed in different shapes of the partition surfaces, so that the connection reliability when the upper foundation stone and the lower foundation stone are used as road shoulder stones is ensured, and when the upper foundation stone and the lower foundation stone are collided and the like, the auxiliary buffering effect is increased, and the safety is improved; and when the tire needs to be opened for use as a gentle slope, the friction force is increased, and the abrasion of the tire on the uphill slope is reduced.

For the convenience of practical construction, the inclination angle of the dividing surface is 30-60 degrees. The angle is not limited to this, and is determined according to the cross-sectional shape of the gravel body and the portion buried in the ground.

For example, when the auxiliary stone body is made of full rubber, when the cross section of the auxiliary stone body is a 40CM square foundation block, the part embedded underground is 20CM, the height left on the ground is 20CM, the upward inclination forms the division surfaces with the angles of 30 degrees, 45 degrees and 60 degrees along one half of the height of the bottom foundation block, the inclination starting line of the division surfaces starts to incline upwards at the position exposed out of one half of the height of the bottom surface, the rubber auxiliary stone body is completely divided into two blocks, the upper foundation stone is ensured to be tightly abutted to the lower foundation stone when the upper foundation stone is turned over as a cushion block, the supporting effect is good, meanwhile, the connecting part is not damaged, the foundation stone body is used as a supporting body, the weight of a vehicle is supported, and the service life is prolonged.

Of course, if the bicycle is a common bicycle or the like, an article with low weight requirement passes through, the starting line of the dividing plane may be set at other positions, and is not limited herein.

As shown in fig. 1, in order to improve the safety and warning performance of the foundation stone, the auxiliary stone body is provided with a noctilucent layer, and the noctilucent layer is fixed on a noctilucent adhesive tape on the outer surface of the auxiliary stone through pasting, or fixed on the noctilucent adhesive tape on the outer surface of the auxiliary stone through screws, or is a brushed noctilucent paint. And are not limited herein.

In actual life, the existing foundation stone is stone mixed clay, the combination of the existing foundation stone with fluorescent paint and luminous paint is not ideal, and if auxiliary facilities such as lamplight are added on auxiliary stones, construction is more difficult; after the upper base block of the road shoulder auxiliary stone is changed into rubber, the construction performance of the material is obviously superior to that of stone concrete, the advantage of combination of the material and coatings such as luminous paint is more obvious, the maintenance of fluorescent coatings such as luminous paint in the later period is reduced, the service life of the luminous paint is prolonged, the maintenance cost is reduced, and the driving safety is improved.

In order to ensure that the upper base surface and the lower base surface effectively form a split structure, the projection of the splitting surface on the upper surface of the lower base block and the lower surface of the upper base block is larger than or equal to the area of the upper surface of the lower base block and the area of the lower surface of the upper base block.

Only if the area of the division surface is larger than or equal to the area of the base surface, the auxiliary stone body can be guaranteed to be divided into two split structures, the auxiliary stone body can be guaranteed to function as a road shoulder base stone, and meanwhile the auxiliary stone body can also function as a vehicle gentle slope.

As shown in fig. 4 and 5, in order to realize safe and reliable connection, the connecting part comprises a first connecting part and a second connecting part which are U-shaped, the first connecting part is connected with the upper base block, and the open end of the U-shape thereof is used for clamping and fixing the upper base block in the U-shape; the second connecting part is connected with the lower base block, and the U-shaped opening end of the second connecting part is used for occluding and fixing the lower base block in the U-shaped part; the U-shaped closed end of the connecting part is provided with a first notch, and the U-shaped closed end of the second connecting part is provided with a second notch staggered with the first notch; the first notch and the second notch are crossed in a staggered mode, the first connecting portion and the second connecting portion are connected through the optical axis, and the upper base block and the lower base block can be opened and closed in a rotating mode along the optical axis.

The connection between the upper base block and the lower base block adopts a U-shaped occlusion mode, the upper base block and the lower base block can be fixed again through bolts, expansion screws or gluing after occlusion, secondary processing is carried out according to actual field processing or using requirements, and the secondary processing is not limited.

The rear end of the U-shaped connecting part is set to be in a staggered meshing mode, the shaft sleeve does not need to be arranged again, the closed end is used as the shaft sleeve, the upper base block and the lower base block rotate around the optical axis, the structure is simple and uncomplicated, the cost is low, and the opening and closing are rapid and reliable.

As shown in fig. 6, in order to improve the connection reliability, the U-shaped openings of the first and second connection portions are provided with pins engaging with each other.

The rubber material is determined by the property of the rubber material, so that the connection safety and reliability are further improved, and the service life is prolonged; when connecting, will go up the base block or base block inserts the U-shaped inslot down, adopt the pressfitting of collecting together, make U-shaped connecting portion be the mode of interlock and be connected with base block from top to bottom, this kind of connected mode safe and reliable, no matter meet the collision or all can the omnidirectional provide effectual connection for the base block when weighing, avoid connecting portion inefficacy.

As shown in fig. 7 and 8, in order to simplify the connection manner and improve the installation and maintenance efficiency, the connection part includes a first connection plate, and the first connection plate is connected with the upper base block through an expansion screw; the second connecting plate is connected with the lower base block through an expansion screw; a first connecting ring is discontinuously arranged behind the first connecting plate, and a second connecting ring is arranged behind the second connecting plate and staggered with the first connecting ring; the first connecting rings and the second connecting rings which are staggered are connected in series through the positioning pins, so that the upper base block and the lower base block can be opened and closed in a rotating mode along the positioning pins.

The connecting part is in a form similar to a door shaft, the upper base block and the lower base block are used as door plates and are fixed on the connecting plate through bolts or expansion screws, the connecting mode is quicker, the field processing is more facilitated, and the cost for processing and manufacturing the connecting plate which is only a flat plate is lower.

As shown in fig. 9, in order to reduce the production cost, the connecting portion is a rubber sheet, the rubber sheet is attached to the side surface of the stone-supporting body where the starting edge of the dividing surface is located, the upper portion of the rubber sheet is fixedly connected with the upper base stone, and the lower portion of the rubber sheet is fixedly connected with the lower base stone; the upper base stone is turned over and opened with the lower base stone by taking the dividing surface as a line.

The mode that adopts the sheet rubber laminating, the bed stone of two blocks of components of a whole that can function independently about will be connected as an organic wholely, connect stably, low cost had both avoided the bed stone components of a whole that can function independently from top to bottom, and the management of being convenient for again is installed also fast, and the change of bed stone is also more convenient, does benefit to the maintenance in later stage.

As shown in fig. 10, when the auxiliary stone bodies are made of rubber, the lower base block is provided with a reinforcing layer which is wrapped at the bottom of the lower base block and is made of stone or metal, based on the consideration of prolonging the service life and enabling the base stone to be used for a long time. And are not limited herein.

In the actual use process, although the cost and the installation cost of the rubber base block are lower than those of the existing stone concrete base block, the service life of the rubber base block is shorter than that of the existing stone and concrete, particularly the rubber base block is deeply buried in an underground part, so that a stone or metal protective sleeve is arranged in the underground part, can be a prefabricated base, a base groove and the like, and is prevented from being oxidized due to excessive contact with soil, and the service life is shortened.

The stone material can be selected from broken stones of leftover materials for landfill, so that the cost is reduced, and the service life of the auxiliary stone made of rubber is prolonged; and the prefabricated base is more beneficial to later maintenance.

If going up the basement stone and adopting the rubber material preparation, and the basement stone adopts the rubber concrete preparation down, the best connected mode this moment adopts the connected mode of mixing, adopts inside first connecting portion 200 that has the contact pin promptly to be connected with last basement stone, and adopts first even board 300 and be connected with lower basement stone, is connected through the optical axis between first connecting portion and the first board again for first connecting portion can open and shut with the first board rotation. Other connection modes are not described herein.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (10)

1. The utility model provides a curb, its characterized in that: the auxiliary stone comprises a block-shaped auxiliary stone body, wherein a dividing surface for integrally dividing the auxiliary stone body into two independent blocks, namely a lower base block and an upper base block, is arranged in the auxiliary stone body, the starting edge of the dividing surface is positioned on one side surface of the auxiliary stone body, the dividing surface forwards penetrates through the whole auxiliary stone body, and the dividing surface is terminated on the other opposite side surface of the auxiliary stone body and is inclined; and a connecting part is arranged between the lower base block and the upper base block, so that the upper base block can be turned downwards clockwise by taking the starting edge of the dividing surface as an axis to form a block body with an inclined upper surface with the lower base block.

2. The auxiliary stone for the road shoulder as claimed in claim 1, wherein the lower base block and the upper base block are made of rubber of the same material, or the lower base block is made of cement concrete or stone material, and the upper base block is made of rubber material.

3. The auxiliary stone for road shoulder as claimed in claim 1, wherein the dividing surface is uneven.

4. The auxiliary stone for road shoulder as claimed in claim 1, wherein the angle of inclination of the dividing plane is 30 ° to 60 °.

5. The auxiliary stone for the road shoulder as claimed in claim 1, wherein the auxiliary stone body is provided with a noctilucent layer, and the noctilucent layer is fixed on the outer surface of the auxiliary stone through a noctilucent adhesive tape or a noctilucent adhesive tape fixed on the outer surface of the auxiliary stone through a screw or a brushed noctilucent paint.

6. The auxiliary stone for road shoulder as claimed in claim 1, wherein the projection of the dividing plane on the upper surface of the lower base block and the lower surface of the upper base block is equal to or larger than the area of the upper surface of the lower base block and the lower surface of the upper base block.

7. The auxiliary stone for the shoulder of any one of claims 1 to 5, wherein the connecting part comprises a first connecting part and a second connecting part which are U-shaped, the first connecting part is connected with the upper base block, and the open end of the U-shape of the first connecting part is used for clamping and fixing the upper base block in the U-shape; the second connecting part is connected with the lower base block, and the U-shaped opening end of the second connecting part is used for occluding and fixing the lower base block in the U-shaped part; the U-shaped closed end of the first connecting part is provided with a first notch, and the U-shaped closed end of the second connecting part is provided with a second notch staggered with the first notch; the first notch and the second notch are crossed in a staggered mode, the first connecting portion and the second connecting portion are connected through the optical axis, and the upper base block and the lower base block can be opened and closed in a rotating mode along the optical axis.

8. The curb of claim 7 wherein the first and second connector U-shaped openings have interengaging pins disposed therein.

9. The auxiliary stone for road shoulders as claimed in any one of claims 1 to 5, wherein said connecting portion comprises a first connecting plate, said first connecting plate being connected to the upper base block by means of an expansion screw; the second connecting plate is connected with the lower base block through an expansion screw; a first connecting ring is discontinuously arranged behind the first connecting plate, and a second connecting ring is arranged behind the second connecting plate and staggered with the first connecting ring; the first connecting rings and the second connecting rings which are staggered are connected in series through the positioning pins, so that the upper base block and the lower base block can be opened and closed in a rotating mode along the positioning pins.

10. The auxiliary stone for the road shoulder as claimed in any one of claims 1 to 5, wherein the connecting part is a rubber sheet, the rubber sheet is attached to the side surface of the auxiliary stone body where the starting edge of the dividing surface is located, the upper part of the rubber sheet is fixedly connected with the upper foundation stone, and the lower part of the rubber sheet is fixedly connected with the lower foundation stone; the upper base stone is turned over and opened with the lower base stone by taking the dividing surface as a line.

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