NL2003109C2 - ROAD CONSTRUCTION AND METHOD FOR CLEANING A ROAD. - Google Patents

Description

ROAD CONSTRUCTION AND METHOD FOR CLEANING A ROAD

The present invention relates to a road construction for providing a road connection that is cleanable. The present invention further relates to a method for cleaning a road surface. Furthermore, the present invention relates to an asphalt composition suitable for use in the road construction and the method.

10 A large amount of particulate matter is released in road traffic. This fine dust arises for a multitude of reasons. A large part of the fine dust is released by resistance of tires with the road surface, for example during acceleration and braking of the car and shifting of the gearbox. Much of this fine dust is therefore released by the effect of friction. In society, this particulate matter causes problems in the sense that the air present above and in the vicinity of busy roads is polluted above a level that is considered acceptable.

20 As a result, further development of roads or of other projects in the vicinity of such roads is inhibited.

In order to help overcome this problem, the present invention provides a road construction for providing a road connection that is cleanable, comprising: - an open road surface structure suitable for passage of a liquid, - a liquid discharge assembly for discharging the liquid from the liquid. open road surface structure, and a liquid supply assembly for supplying liquid into the open road surface structure, wherein the open road surface structure can effectively function as a transport layer for the liquid from the liquid supply assembly towards the liquid discharge assembly.

An advantage of such a road construction according to the present invention is that the fine dust can be captured and discharged by means of the liquid. The present invention is based, inter alia, on the inventor's insight that upon the formation of the particulate matter particles, the particulate matter particles are electrically charged, whereafter they swirl freely through the air. When the earth is touched, the particulate matter particles generally lose the charge, after which they swirl again due to the air displacement caused by traffic. It is herein possible, for example, for the liquid discharge assembly and the liquid supply assembly to be designed as an assembly which alternately fulfills the function for supply and discharge.

When the road surface is moist due to the road surface construction according to the present invention, the same road traffic that causes the fine dust caused by the turbulence of the air to be extracted from the road surface in the form of a vapor or fine droplets which again under the influence of gravity will fall back on the road surface, at least be subject to greater gravitational forces than particulate matter. The moisture is also very suitable for trapping the fine dust. It is therefore very advantageous that the fine dust is bound to the road surface by means of the moisture. It is furthermore possible that the particulate matter is already bound to the road surface at the first landing or when it is formed.

In a first preferred embodiment according to the present invention, the liquid supply assembly is arranged viewed in the longitudinal direction of the road construction on one side of the open road surface structure for supplying the liquid to the open road surface structure from this one side and the liquid discharge assembly relative to the liquid supply assembly is arranged on the other side of the open road surface structure. The advantage of these preferred embodiments is that a liquid flow can be created from one side to the opposite side, by means of which liquid flow can also be effected draining the trapped particulate matter.

In a further preferred embodiment, the liquid supply assembly comprises at least one liquid supply chamber or liquid supply channel provided with a liquid inlet and which is arranged adjacent to the open road surface structure and is in fluid communication with it. As a result, a liquid supply is advantageously provided for adding liquid to the road surface. Preferably, the liquid supply assembly is positioned higher than the liquid supply assembly.

Preferably, at least the fluid-communicating connection from the fluid supply assembly to the road surface structure is located higher than the fluid-communicating connection from the road surface structure to the fluid discharge assembly, in which way a slope can be formed of preferably 0 to 10% , more preferably 1 to 8%, more preferably 1.5 to 7%, more preferably 2 to 6%, more preferably 2 to 5%, and more preferably 2 to 3%. This makes it possible to achieve a continuous liquid flow from the inlet to the outlet.

In a further preferred embodiment, the fluid-communicating connection of the fluid supply assembly to the open road surface structure and / or the fluid-co-communications connection from the open road surface structure to the fluid discharge assembly is arranged under at least a portion of the open road surface structure. This makes it possible to spread the supply and discharge of the liquid 5 over the surface of the road surface.

For saving relatively expensive drinking water, the device furthermore preferably comprises supply means for supplying liquid from a gray water storage. This makes it possible to use water present in the environment in a system and method according to the present invention.

In a further preferred embodiment, the road construction comprises cleaning supply means for adding or introducing cleaning agent and / or surfactants to the liquid. With the help of such agents or active substances the discharge of the fine dust can be further promoted. Other pollution can also be regularly or occasionally removed from the road surface in this way. Furthermore, such substances may be helpful in trapping the particulate matter.

The liquid discharge assembly is preferably integrated in a road surface limitation, such as a curb or a roadside, and these are preferably coupled to a sewer. The liquid supply assembly is further preferably integrated in the road surface limitation, such as a curb or roadside. With these preferred embodiments, a system according to the present invention can be implemented in a manner that is relatively recognizable to the road user. It is of course possible here to use external features that make clear to the user that he uses a cleanable path.

5

In a further preferred embodiment, the liquid supply assembly and / or the liquid discharge assembly comprises drainage pipes, preferably arranged under or immediately next to the road surface. Such tubes are particularly suitable for draining moisture in environments with fine particles, such as in sand or clay layers.

Further preferably, drainage pipes are included which are arranged in feed gutters and / or drain gutters. The drainage pipes 10 can be protected by means of such gutters.

To provide an advantageous distribution of the supply water, the road construction preferably comprises supply pipes with a liquid passage restriction.

A further aspect of the present invention relates to a method for cleaning an open road surface structure of a road construction, comprising steps for: - introducing a liquid into the open road surface structure by means of a liquid supply assembly, - discharging the liquid.

Such a method provides advantages similar to those described with reference to preferred embodiments of the road construction.

The method further preferably comprises steps 25 for controlling the water supply based on measurements of the presence of dust and particulate matter particles present on the road surface structure, in the road surface structure, in the air layer above the road surface structure and / or in the vicinity of the road structure . As a result, a predetermined liquid level can be achieved and preferably maintained. This allows a level to be regulated that is optimal for trapping the fine dust at the lowest possible liquid level.

6

Preferably, the method execution is performed at predetermined time periods.

In a further preferred embodiment the method comprises steps for raising the liquid level at slightly adjustable times to slightly below or slightly above the road surface level and subsequently draining the liquid. With the aid of such a method, it becomes possible, for example, to bring fine dust present in or on the road surface into contact with the liquid and then to remove it immediately. Such a method can be of original advantage in periods of relatively long-term drought.

A further aspect of the present invention relates to an asphalt composition for use in a road-covering structure of a road construction according to one or more of the preceding claims 1 - 13, wherein at least a part of the crushed stone of the asphalt composition comprises a grain size of 4 -30 mm, preferably 4-20 mm, more preferably 4-15 mm, more preferably 6-13 mm, more preferably 8-11 mm, more preferably 4-8 mm, more preferably 11-16 mm, more preferably 2-6 mm. Experiments have shown that such an asphalt composition has advantages within the application of the present invention.

Preferably, such an asphalt composition comprises reinforcing binders, such as bitumen, roofing membranes, polymers, modified polymers. In particular, the polymers and the modified polymers can advantageously be specifically manufactured to provide a very strong open asphalt composition.

For the purpose of discharging the fine dust through the asphalt, it preferably comprises an amount of hollow space in a percentage of 10 - 45%, preferably 15 - 7 40%, more preferably 20 - 30%, more preferably 23 - 28 %, more preferably 15-25%, more preferably 15-20%, further preferably 20-25% and more preferably about 25%.

A further aspect of the present invention relates to a road construction according to the present invention in combination with an asphalt composition according to the present invention for carrying out a method according to the present invention.

Further advantages, features and details of the present invention will be described in greater detail below with reference to one or more preferred embodiments with reference to the attached figures.

FIG. 1 shows a schematic representation in cross section of a first preferred embodiment according to the present invention.

FIG. 2 shows a schematic perspective view of a further preferred embodiment according to the present invention.

FIG. 3 shows a schematic representation in perspective and a schematic representation in cross section of a further preferred embodiment according to the present invention.

FIG. 4 shows a schematic representation in perspective and a schematic representation in cross section of a further preferred embodiment according to the present invention.

FIG. 5 shows a schematic representation in perspective and a schematic representation in cross section of a further preferred embodiment according to the present invention.

8

FIG. 6 shows a schematic cross-sectional view of a detail of the preferred embodiment of FIG. 5.

FIG. 7 shows a schematic representation in perspective and a schematic representation in cross section of a further preferred embodiment according to the present invention.

FIG. 8 shows a schematic representation in perspective and a schematic representation in cross section of a further preferred embodiment according to the present invention.

FIG. 9 shows a schematic cross-sectional view of three further preferred embodiments according to the present invention.

A first preferred embodiment (Fig. 1) according to the present invention relates to a water supply assembly 1. This is arranged on a foundation 9 with a first casing 8 thereon, an intermediate layer of stone asphalt concrete (STAB) 7 and a layer of open asphalt concrete 5. The layer of open asphalt concrete is meant in the claims with the asphalt composition. The road is bordered by a curb 11 and a curb.

The layer of open asphalt concrete 5 is made up of coarse-grained crushed stone with binders and possibly an amount of concrete. The binders comprise the said bitumen and polymers.

According to the present invention, this open asphalt concrete is suitable for allowing water to flow through or water flowing therein. The intention is that the water absorbs the fine dust and possibly drains it off.

The water can come into contact with the fine dust in or on top of the asphalt layer 5.

9

A water supply pipe 2 is shown on the left-hand side of the figure. This tube serves to add water for use during a method according to the present invention. From the tube 2 there are transverse connecting tubes 3 (shown here schematically) for transferring water from the tube 2 to the gutter 4. The gutter 4 serves for spreading the water in the longitudinal direction of the road surface. The gutter is provided with a grid 12 on the top side. On the right-hand side, the gutter 10 is provided with openings 6 for transferring water from the gutter to the road surface layer 5.

In FIG. 2, a water drain assembly 21 is shown next to a road surface with a STAB layer 7 and a road surface layer 5. A drain gutter 24 is arranged along the road surface. This drain gutter 24 is covered by means of a drain-suitable curb 26, which together form a series of drain cavities. The drain-suitable curb 26 comprises at the bottom a series of hollow spaces for admitting water into the gutter. As can be seen, these drainage cavities are in fluid communication with the open asphalt layer 5. Between the cavities, the curb is well supported on the gutter. Water which has absorbed fine dust according to the invention during that presence in the open asphalt layer 5 can be discharged by means of the liquid-communicating connection by means of the gutter 24.

In FIG. 3, a water supply assembly is shown.

Here too, a water supply pipe 2 is shown with feed-through connections 3 to the trough 31. This trough is positioned such that the open side faces the open asphalt 5. Here too the open asphalt is located on a STAB layer 7. Between the gutter and the open asphalt layer there is a cover plate 35 which is provided with openings 36.

10

A distribution tube is arranged in the gutter with an output restriction in the form of small openings 34. The small openings ensure that the water can only exit the tube at a low flow rate per linear meter of tube. As a result, the water is spread over the length of the gutter so that it can enter a large length into the open asphalt.

In FIG. 4 a variant is shown wherein the water is supplied from the bottom to the open asphalt. Here too there is a supply tube 2 with a feed-through tube 3. Furthermore, there is provided a well or trough 46 covered by a cover or series of covers 47. A control unit 41 is arranged in the well 46 for controlling the water supply towards the road surface. The water supply is carried out by means of a transverse tube 42 which flows into a nozzle 44 with a cover plate 44. The cover plate 44 is provided with openings 45 for allowing the water to pass through the open asphalt layer 5.

The control of the control unit 41 can be both mechanical and electronic, the latter having the advantage that a whole series of control units 41 can be operated in a simple manner. The cover plate 45 further provides a foundation for the open asphalt layer.

In FIG. 5 is a variant of the embodiment of FIG. 4 shown. In FIG. 5, the nozzle 53 is arranged in the open asphalt layer 5. The nozzle is herein provided with openings 55 in the cylindrical outer surface.

The top of the mouthpiece is provided with a closed cover plate. This is located in the surface of the road surface. Thus, in this embodiment, a lateral outflow of water from the nozzle 53 is provided.

In FIG. 6 is the nozzle of FIG. 5 shown in detail.

11

In FIG. 7 a variant of the water drain assembly is shown. This relates to a trough 71 which is arranged with the open side towards the open asphalt layer 5. A cover plate 72 with openings 73 is provided here. This cover plate prevents the asphalt from migrating into the gutter.

In FIG. 8 a further variant of the water discharge assembly is shown. The gutter 81 is arranged such that the opening towards the top makes contact with the open asphalt layer 5. The gutter is covered by a cover plate 82 which is provided with water passage openings 83. The cover plate further provides a foundation for the asphalt layer 5. The gutters of these embodiments resulted in a passage (not shown) towards a sewer.

In FIG. 9, further variants of the water discharge assembly are shown. In FIG. 9A a variant is shown with a so-called gully 98 in which the water can flow away in the longitudinal direction of the road surface above the asphalt without having the resistance that is present when the asphalt is to flow.

FIG. 9b shows a variant with a large 91 with a drainage pipe 94 arranged therein. Such a drainage pipe has a hollow space surrounded by a filtering material for not admitting coarse particles such as sand, but admitting fine dust.

At the top, a large one is provided with openings 93 for admitting the water from the asphalt layer 5. For this purpose, the curb edge 95 is provided with walls 96, 97 comprising three flow openings.

In the variant of FIG. 9 C. the vortex is combined with the gutter.

In addition to a discharge towards the sewer, it is also possible that a feed towards a water purification plant is realized for providing a purification before the water is discharged towards the general sewer.

In the foregoing, the present invention has been described with reference to a few preferred embodiments. Different aspects of different embodiments are considered described in combination with each other, whereby all combinations that can be made by a person skilled in the art on the basis of this document must be read. These preferred embodiments are not limitative of the scope of this text. The rights requested are defined in the appended claims.

15 20031 09-

Claims (22)

A road construction for providing a road connection that is cleanable, comprising: 5. an open road surface structure suitable for passage of a liquid, - a liquid discharge assembly for draining the liquid from the open road surface structure, and - a liquid supply assembly for the liquid supplying liquid to the open road surface structure, wherein the open road surface structure can effectively function as a transport layer for the liquid from the liquid supply assembly towards the liquid discharge assembly. 2. Road construction as claimed in claim 1, wherein the liquid supply assembly, viewed in the longitudinal direction of the road construction, is arranged on one side of the open road surface structure for supplying the liquid to the open road surface structure from this one side and the liquid discharge assembly is relative to the liquid supply assembly arranged on the other side of the open road surface structure. 3. Road construction as claimed in claim 1 or 2, wherein the liquid supply assembly comprises at least one liquid supply chamber or liquid supply channel provided with a liquid inlet and which is arranged adjacent to the open road surface structure and is in fluid communication with it. 30 Road construction as claimed in claim 1,2 or 3, wherein the liquid supply assembly is positioned higher than the liquid discharge assembly, in which way a slope can be formed of preferably 0 to 10%, more preferably 1 to 8%, more preferably 1 5 to 7%, more preferably 2 to 6%, more preferably 2 to 5%, and more preferably 2 to 3%. 5 5. Road construction as claimed in claim 4, wherein at least the fluid-communicating connection from the fluid supply assembly to the road surface structure is located higher than the fluid-communicating connection from the road surface structure to the fluid drain assembly. 6. Road construction as claimed in one or more of the foregoing claims, wherein the liquid-communicating connection of the liquid supply assembly to the open road surface structure and / or the liquid-communicating connection from the open road surface structure to the liquid discharge assembly is arranged under at least a part of the open road surface structure. Road construction as claimed in one or more of the foregoing claims, comprising supply means for supplying liquid from a gray water storage 8. Road construction as claimed in one or more of the foregoing claims, comprising cleaning supply means for adding or introducing cleaning agent and / or surfactants to the liquid. 9. Road construction as claimed in one or more of the foregoing claims, wherein the liquid discharge assembly is integrated in a road surface limitation, such as a curb or a roadside, and this is preferably coupled to a sewerage system. 10. Road construction as claimed in one or more of the foregoing claims, wherein the liquid supply assembly is integrated in road surface limitation, such as a curb or roadside. 11. Road construction as claimed in one or more of the foregoing claims, wherein the liquid supply assembly and / or the liquid discharge assembly comprises drainage pipes, preferably arranged under or immediately next to the road surface. 12. Road construction as claimed in one or more of the foregoing claims, comprising drainage pipes in supply gutters and / or discharge gutters. Road construction as claimed in one or more of the foregoing claims, comprising supply pipes and / or discharge pipes with a liquid passage restriction. 20 14. Method for cleaning an open road surface structure of a road construction, comprising steps for: - introducing a liquid into the open road surface structure by means of a liquid supply assembly, - discharging the liquid. 15. Method as claimed in claim 14, comprising further steps for controlling the water supply based on measurements of the presence of dust and fine dust particles present on the road surface structure, in the road surface structure, in the air layer above the road surface structure and / or in the vicinity of the road construction. A method according to claim 14 or 15 comprising steps for applying the rinsing steps in predetermined time periods. 5 17. Method as claimed in claim 14,15 or 16, comprising steps for keeping the liquid in the road surface structure at a predetermined liquid level, meanwhile preferably measuring the height and adjusting the feed thereto. Method according to one or more of claims 14 to 17, comprising steps for raising the liquid level at adjustable times to slightly below or slightly above the road surface level and subsequently draining the liquid. 19. Asphalt composition for use in a road surface structure of a road construction according to one or more of the preceding claims 1 - 13, wherein at least a part of the filling of the asphalt composition comprises a grain size of 4-30 mm, preferably 4-20 mm, more preferably 4-15 mm, more preferably 6-13 mm, more preferably 8-11 mm, more preferably 4-8 mm, more preferably 11-16 mm, more preferably 2-6 mm . The asphalt composition of claim 19 comprising reinforcing binders, such as bitumen, roofing membranes, polymers, modified polymers. 30 Asphalt composition according to claim 19 or 20 comprising empty space in a percentage of 10-45%, preferably 15-40%, more preferably 20-30%, more preferably 23-28%, more preferably 15-25% , more preferably 15-20%, more preferably 20-25% and more preferably about 25%. Road construction according to one or more of claims 1 to 13 and comprising asphalt composition according to one or more of claims 19 to 21. 2003109-