THIS invention relates to a road marker.
The invention is particularly concerned with a road marker of the kind which is mounted on a traffic control line on a road surface. Such road markers include a reflector to reflect light from approaching vehicle headlights back towards the vehicle driver, thereby to indicate clearly the position of the line to the driver.
Different types of road marker are known and used. A currently popular road marker has a base which is sunk in a preformed cavity in the road surface, and adhered there by adhesive, and a rigid upper reflector exposed above the road surface and encapsulated in tough glass. While such road markers are popular they are expensive to manufacture and install. Another popular and somewhat less expensive road marker has a rigid plastics frame holding the reflector above a flat base which is stuck directly to the road surface by adhesive. The problem here is that such road markers are frequently dislodged from the road surface by the impacts applied to them by vehicle tyres, and hence have to be replaced frequently.
According to the invention there is provided a road marker comprising a base which can be secured to a road surface and resilient support means secured to the base and supporting at least one light reflector at an acute angle to the road surface in a manner allowing the reflector to be deflected resiliently towards the base in response to passage of a vehicle tyre over the road marker, and means to prevent ingress of solid particles between the reflector and the base.
In the preferred embodiments, the support means comprises, for each reflector, at least one resilient, hollow diaphragm made of elastomeric material and having an opening therein in which the reflector is mounted. Most preferably the diaphragm has an open bottom, spaced apart front and rear walls and spaced apart side walls, the front, rear and side walls defining an upwardly tapering hollow structure and the front wall having the opening therein in which the reflector is mounted, the front, rear and side walls, the hollow structure being located on and secured to the base to prevent ingress of solid particles between the reflector and the base.
Other preferred features of the invention are set forth in the appended claims.
The invention will now be described in more detail, by way of example only, with reference to the accompanying drawings in which:
Each arm 20 serves to support a pair of reflectors 24 arranged side by side. The reflectors are designed to receive and reflect light generally horizontally, in opposite directions, as indicated in
In use a suitable adhesive, typically a silicone-based adhesive, is applied to the underside 16 of the base 14 and the base is adhered to a road surface, typically on a traffic control line. The line is not illustrated in the drawings but it will be understood that it will extend in the direction indicated in
Once the road marker has been installed in this way on a road surface it will be subjected to frequent impacts and loads applied to it by the tyres of passing vehicles. If a tyre impacts on the road marker, the arms 14 will flex downwardly as shown in
With a suitably tough grade of silicone rubber, it is anticipated that the arms of the road marker will be able to flex down and up virtually indefinitely without breaking or otherwise failing.
It is considered undesirable for large stones or other particles to lodge between an arm 20 and the base 14, since irreparable damage could then be caused to the arm and/or the base when next the arm, flexes downwardly in response to an applied load from a vehicle tyre. Another danger is that a large particle between an arm and the base could prevent the arm from flexing properly.
It is however considered acceptable for smaller stones or other particles to lie between the arms and the base, since such particles would merely form temporary impressions in the arms and/or the base without causing any permanent damage or interfering with the free flexure of the arms. The webs 22 serve to limit the size of any particle which might otherwise enter between the arms and the base. It will be understood that in practice the clear spacing between the webs is selected to allow only particles smaller than a predetermined size to enter. While serving the important function of excluding larger particles, the webs provide very little resistance to free flexure of the arms in response to applied loads.
A major advantage of the embodiment illustrated in
In the embodiments described above, the outer or upper surfaces of the arms 20 are formed with undercut recesses 42 as exemplified in the detail of FIG. 5. Reflectors made in the manner described in the preceding paragraph are clipped into these recesses so that the reflective tape is exposed above the road surface to perform the required light reflecting action. To improve the resistance of the polycarbonate to scratching, a silicone film may be applied to the exposed reflector surface either after before or after installation of the reflector.
The reflector mounting arrangement just described has the advantage that the reflector can be replaced when necessary merely by prising it out of the recess 42 and clipping a new one in its place.
Many other reflector possibilities are within the scope of the invention. For instance, the body 12 could itself be made of a clear grade of silicone with the reflective tape merely embedded in the arms 20 during the moulding process. Alternatively, narrow cavities could be formed, during moulding, in the arms into which reflective strips could be slipped, the cavities subsequently being sealed off with a silicone sealant or the like. In each case, it will be understood that the reflective tape or other reflective material which is used is specifically designed to receive and reflect light in specific angular ranges, in each case to suit the specific orientation of the arms 20.
In the embodiments described above, there are two reflectors per arm 20. It is envisaged that this will promote further flexibility of the arms. Nevertheless It is quite possible for each arm to carry a single reflector only. It is also within the scope of the invention for these embodiments of road marker to have only a single arm. Such markers could find application in situations where motorists only need to see a road marker from one direction, eg on a one way road.
The fourth embodiment has a separate base 62 moulded in one piece of a rigid polycarbonate. As illustrated, the base 62 includes a pair of openings 64 separated from one another by a central rib 66.
The fourth embodiment has reflectors 67 each of which includes a rigid, light transmitting polycarbonate front plate 68 and a rigid polycarbonate rear plate 74. The reflectors are mounted in the openings 54 of the diaphragm. The front plate 68 is formed with a peripheral undercut 70 that receives a rib 72 circumscribing the opening 54 and is anchored relative to the opening by the rear plate 74 which spans across the opening and which is ultrasonically welded to the front plate at the extremities of a peripheral rib 76 on that plate. The ribbed edge of the opening is therefore trapped securely between the front and rear plates and the reflector is permanently connected to the body 50.
The bodies 50 are secured to the base 62. The lower edges of the sides 58 carry ribbed flanges 78 which locate in undercut recesses 80 at the sides of the openings 64 in the base, as illustrated in FIG. 19. In each case, a rigid polycarbonate base backing plate 82 is then brought up against the underside of the base 62 such that its peripheral edge locates in a recess 84 where ultrasonic welding takes place. Although the flanges 78 are now trapped in the recesses 80, it will be seen that the recesses are wide enough to allow some lateral movement of the flanges when the diaphragms are depressed forcibly by a vehicle tyre as described below.
In use, the base backing plates and exposed areas of the underside of the base 62 are stuck permanently to the road surface by means of a suitable adhesive, typically an epoxy.
Although the side walls 58 and rear wall 60 of the diaphragms 56 are of thin cross-section, their resilience is sufficient to maintain the reflectors at the appropriate acute angle to perform the necessary road marking function. When a vehicle tyre passes over the road marker, the diaphragms will deform as necessary to allow the support formation to flex downwardly, as indicated by the arrows 90 in
Referring to
Apart from their resilience function, the diaphragms 56 prevent ingress of stones or other larger particles beneath the support formations and reflectors.
The elastomeric bodies 50 in the fifth embodiment are once moulded in one piece of HYTREL™ (trade mark of E I de Pont de Nemours & Co). These bodies 50 are of substantially the same configuration as those in
In the fifth embodiment, the base 62 is once again moulded in rigid polycarbonate and includes a pair of openings 64 separated from one another by a central rib 66. However in this case smaller ribs 100 lie alongside the central rib 66 with a small gap between each rib 100 and the rib 66. Referring to
In the embodiment of
The rear surfaces of the front plates 68 in the embodiment of
As shown in
Apart from the features noted above the road marker illustrated in
In both the fourth and fifth embodiments, the upper and side edges of each reflector 68 are bounded by a ridge 71 which strengthens these edges.
Number | Date | Country | Kind |
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2001/3994 | May 2001 | ZA | national |
2001/6976 | Aug 2001 | ZA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB01/02334 | 12/7/2001 | WO | 00 | 5/13/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/09291 | 11/21/2002 | WO | A |
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3216335 | Stolarczyk et al. | Nov 1965 | A |
3924958 | Rowland | Dec 1975 | A |
4234264 | Baldi | Nov 1980 | A |
4297051 | Robinson | Oct 1981 | A |
4595312 | Corless | Jun 1986 | A |
4955982 | Paulos | Sep 1990 | A |
5069577 | Murphy | Dec 1991 | A |
5302048 | Paulos et al. | Apr 1994 | A |
5425596 | Steere et al. | Jun 1995 | A |
5857801 | Brown | Jan 1999 | A |
5895170 | Chambers et al. | Apr 1999 | A |
Number | Date | Country |
---|---|---|
25 22 935 | Dec 1976 | DE |
2136859 | Sep 1984 | GB |
Number | Date | Country | |
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20040184881 A1 | Sep 2004 | US |