DE2242881A1 - DEVICE FOR MILLING DOWN ROAD COVERINGS - Google Patents

Description

Device for milling off road surfaces. The invention relates to a device for milling off road surfaces, encompassing a chassis and, carried by the chassis, at least one rotating cutter.

Favored by the use of studded tires are the main ones Road damage ruts in the road surface. For repairing damaged ceilings one could apply a new ceiling covering this time. The disadvantage of this repair method the reduction of clearance heights at bridges and in cities is a necessity, Having to lift manhole covers, sewer gutters, etc.

There are therefore methods known that the strand covering to a width Peel or mill off approx. 30 mm deep up to 3.75 m. In both cases, the old one Ceiling covering heated by infrared rays to support the work process. The new ceiling covering is then installed in this recess up to the old ceiling height. The machines previously used for milling use milling drums with horizontal horizontal shaft and knives with hard metal coating attached to the circumference of the roller.

The devices working with milling drums must be very heavy and in many cases are weighed down with ballast because the milling drums because of the Type of cutting operation. The power requirement is also at these known devices great.

The invention is based on the object of providing a device of the initially described designated type so that one with a lower weight, if necessary gets by with less ballast and with less power requirement.

To solve this problem it is proposed according to the invention that the rotating milling cutter is a milling disk rotating about a substantially vertical axis with milling cutters arranged on the circumferential surface. The diameter of the milling disks can be anything; it is preferably in the order of magnitude of 0.5 to 1.5 m best at about 1 m.

The rotating milling disk can have hard metal parts on its peripheral surface be equipped.

To the device according to the invention without excessive enlargement of the Drive pulley diameter and the required drive torque to large working widths To adjust perpendicular to the working direction of travel, one can use several rotating Milling cutter offset from one another in the working direction and transversely to the working direction arrange, where to adjust the working width, the cutter crossways can be arranged adjustable relative to each other to the direction of travel. One comes with regard to the working widths in question with two milling cutters, so are to arrange these in steps transversely to the direction of travel; is needed in the H2nblnck the desired machining width three milling cutters, so you can have two of them in a row and the third offset in the working direction with respect to this row and in the transverse direction place between the first two; eventually there will be more than three milling cutters required, it is expedient in two in the direction of travel one behind the other Arrange rows, with the cutters of one row each filling the gaps between each two successive milling cutters are assigned to the other row.

When using milling disks with a diameter of approx you will often get by with a total of three milling disks on the device. the The width of a motorway lane is regularly 3.75 m, which means; that one with three milling disks each 1.25 m in diameter mill a motorway lane off once can.

The adjustability of the milling disks in the transverse direction can be increased easy way to ensure that each milling disc on its own milling disc transverse displacement slide is arranged, which is adjustable on the chassis transversely to the direction of travel.

In order to be able to adjust the height of the milling disks, we recommend it is advisable to store the milling claws on a height-adjustable milling disk carrier, which is height-adjustable in relation to the respective milling disc transverse displacement slide is attached. It proves to be particularly advantageous if the milling disc carrier on one in the working direction in front of the axis of rotation of the associated milling disc located point at right angles to the direction of travel lying and over the milling disc arranged axis pivotably attached and by a setting device is pivotable about this axis. The particular advantage of this last-mentioned training lies in the fact that you can perform the milling work at any point on a roadway to be milled can begin by initially adjusting the carrier (s) using the adjustment device so that the milling disk or milling disks face in the direction of travel front lower edge of the milling cutter penetrate into the Påhrbahn and then during the journey lowers the carrier more and more by pivoting. That way you can after driving through a distance corresponding to the diameter of the milling disc the milling disks in the position parallel to the carriageway suitable for continuous milling operation bring.

The milling disks can be driven by means of the individual milling disks assigned drive motors attached to the respective milling disc carriers take place; In particular, hydrostatic drive motors are used as drive motors Question, which from a central pressure medium source arranged on the chassis be fed from.

The wheels of the chassis are advantageously attached to the chassis Attach swivel arms pivotably mounted about vertical axes in such a way that they can be set to different track widths. You then have the opportunity the running wheels during the milling work either in the already milled area or to run in the not yet milled area. In addition, the swivel arms folded onto the chassis for road transport.

The dimensions of one equipped with, for example, three milling disks Device according to the invention can be kept so small that it is not disassembled can be transported by road. The road transport direction is vertical to the Work direction of the device. It is easier to fold the swivel arms the road transport.

If there is a number of milling disks, this will be the case drive in groups with different directions of rotation. Siild two milling disks present, one leaves one in one direction of rotation, the other in the other rotate; if there are three milling disks, you will have two of them in one and let the third rotate in the other direction of rotation. With a larger, even number of milling disks will one half in one direction and run the other half in the other direction. In the case of a larger, odd one Number of n milling disks one becomes n - 1 milling disks in 2 of one direction and Let n + 1 rotate in the other direction 2. One achieves that the due to the reaction forces on the device that set the milling resistance cancel, so that the possibly remaining resulting transverse force by the Adhesion of the road bicycles to the driving surface can be taken up.

The accompanying figures explain the invention using an exemplary embodiment. The figures show: FIG. 1 a view of a device according to the invention, transversely to Working travel direction viewed, partly in section; Figure 2 is an end view of the inventive device according to Figure 1 in the work travel direction according to the arrow A of Figure 1 viewed; Figure 3 shows the engagement of the milling disk of an inventive Device in a road surface; Figure 4 through a device according to Figures 1 and 2 generated in a road surface.

The device shown in Figures 1 and 2 comprises a chassis, which is designated generally by 10. This chassis includes four swivel arms 12, which are attached to the chassis 10 B so that they can be pivoted about pivot axes 14. To the free ends of the swivel arms 12 are running wheels 16 rotatably mounted about axes of rotation 18; the running wheels 16 can be adjusted in height relative to the swivel arms 12 by means of lifting devices 20.

The chassis 10 consists of three cross members 22 to 26, which through Longitudinal beams 28 are connected to one another to form a rigid frame. On the cross members 22, 24, a slide 30 is guided in a transversely displaceable manner and is not shown by means of Locking means can be clamped. On the cross members 24, 26 are two carriages 32, 34 slidably guided and also lockable. The structure of the carriage 30, 32, 34 is the same from slide to slide, so that eB is sufficient, for the sake of example to discuss the carriage 30 in more detail: A strut 36 is attached to the carriage 30, which is stiffened by a diagonal support 38 and means at its lower end of a joint 40 carries a milling disc carrier 42. Of the.

Milling disc carrier 42 is the pivot axis by means of an adjusting device 44 2m Can be swiveled 4o and is therefore height adjustable.

On the milling disk carrier 42 is a milling disk 46 around a vertical one Axis rotatably mounted; it is driven by a hydrostatic drive motor 48, which is also arranged on the milling disc carrier 42.

FIG. 3 shows the formation of the peripheral edge of a milling disk 46 shown in detail; it can be seen that the peripheral surface 48 of the milling disc is bagged with hard metal parts 50.

In Figure 1, the milling disks 46 are in the working position. That when milling in the course of a work trip of the device in the direction of travel A. the figure 1 resulting milling pattern, viewed in plan view of the road surface, is shown in FIG.

At the beginning of the milling work, the milling disc carrier 42 is on his in Figure 1 right end raised so that only the front in the direction of travel Lower edge 52 of the milling disc penetrates into the material of the road surface.

After running a distance, corresponding to the pulley diameter d in the direction of travel ~ A of Figure 1, the disk 46 can be in the position shown in FIG 1, and the same applies to the other slides 32, 34 attached discs.

To facilitate milling work on a bituminous road surface this can be heated with infrared heaters before milling.

The road transport of the device shown in Figures 1 and 2 takes place perpendicular to the plane of the drawing in FIG. 12, while the pivot arms 12 are on the cross members 22 or 26 or folded in on the longitudinal member 28. In a vehicle body 54 are a cab 56 and a motor housing 58 for drive motors, pumps and like. included.

It should be added that the lifting devices 20 do not adjust the height only for setting the milling depth but also to such an extent that that the entire machine can be transported on its own with sufficient ground clearance Axis can be done.

Claims (13)

Claims 1. A device for milling off road surfaces, comprising a chassis and, at the very least, a rotary cutter carried by the chassis characterized that the rotiere-.de Fraser one around a substantially vertical Axis rotating milling disc (46) with milling cutters arranged on the circumferential surface (45) (so is. 2. Apparatus according to claim 1, characterized in that the rotating Milling disk (46) is equipped with hard metal parts (50) on its circumferential surface. 3. Device according to one of claims 1 and 2, characterized in that that with the arrangement of several rotating milling cutters on the chassis these in the direction of travel (A) offset from one another and also offset from one another transversely to the direction of travel and are arranged adjustable relative to one another. 4. Apparatus according to claim 3, characterized in that in one first row, which runs transversely to the direction of travel, has two milling disks (46) and are offset from this row in the direction of travel and approximately in the middle between the two milling disks (46) in the row a third milling disk (46). 5. Device according to one of claims 3 and 4, characterized in that that each milling disc (46) on its own milling disc transverse displacement slide (30, 32, 34) is arranged, which on the chassis (10) transversely to the direction of travel is adjustable. 6. VTorrich-device according to claim 5, characterized in that one Milling disc (46) is mounted on a height-adjustable milling disc carrier (42), which is height-adjustable in relation to the milling disc transverse displacement slide (30) is attached. 7. Apparatus according to claim 6, characterized in that the milling disc carrier (42) on one in the working direction in front of the axis of rotation of the associated milling disc (46) around a transverse to the direction of travel and above the milling disc (46) arranged axis (40) pivotally attached and by an adjusting device (44) is pivotable about this axis (40). 8. Device according to one of claims 6 and 7, characterized in that that each milling disk (46) has a drive motor arranged on the milling disk carrier (42) (48) is assigned. 9. Apparatus according to claim 8, characterized in that the drive motor (48) is a hydrostatic drive motor, which is driven by one on the chassis (10) arranged central pressure medium source is fed. 10. Device according to one of claims 1 to 9, characterized in that that the wheels (16) of the chassis (10) on the chassis about vertical axes pivotally mounted swivel arms (12) are attached in such a way that you on different Track width are adjustable. 11. The device according to claim 10, characterized in that the Swivel arms (12) are foldable for road transport on the chassis (10). 12. Device according to one of claims 1 to 11, characterized in that that in the presence of a plurality of milling disks (46) these with them in groups are driven in different directions of rotation. 13. Device according to one of claims 1 to 12, characterized in that that the chassis (10) compared to the associated bicycles (16) to such an extent is adjustable in height that a transport of the entire device with sufficient Ground clearance on its own axis is possible.