DE2356933A1 - PULLER FOR A ROAD CONSTRUCTION MACHINE - Google Patents

Description

Patent Attorneys Doe-Ing. R We-: οκμλΝΝ, '

Di.pl.-Ing. H. Veickmanin), Dipl.-Phys. Dr. KIFincke Dipl.-Ing. R A / Weickmann, Dipl.-Chem, B. Huber

8 MUNICH 86, DEN

PO Box 860 820

MÖHLSTRASSE 22, CALL NUMBER 98 3921/22

BARBER-GREEIiS COMPANY, 400 Worth. Highland Avenue, Aurora,

Illinois, V.St.A.

Extraction device for a paving machine ·.

"The invention relates to extractors on paving machines, that cover the streets with an asphalt surface. As known to the expert, such pullers are usually provided with a swing mechanism, which the the machine compresses the asphalt that is distributed to form an asphalt surface to shape. The oscillating mechanism of the pullers contemplated herein gives them a reciprocating motion in the vertical direction. The oscillating mechanism is often in the form of eccentric weights that surround horizontal cross shafts rotate. In the previously known pullers this oscillating movement is distributed practically evenly over the entire length and width of the puller. As the professional: known, the stripper itself cannot compress the asphalt sufficiently. Therefore, the road surfacing machine follows Compression vehicles that have large, heavy rollers to compress the asphalt surface even more.

The invention now wants a powerful, swinging puller for a black paver or the like. create that enables a greater compaction of the asphalt surface than previously achievable. In this case, to the extractor from the leading end thereof gradually decrease to the trailing part of the extent OCE vertical reciprocating "motion. In the single

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For this purpose, the invention sees a swinging squeegee before, the trailing part of which is connected to the pulling arms via flexible, transverse pivot pins and its Schwingmechanismiis is connected to the puller next to its leading end, so that the puller has a vertical Orbital oscillation is granted and the extent of vertical Back and forth movement of the puller from the leading end gradually decreases towards the trailing end. Next are vertical Springs are provided, the lower ends of which are in contact with the oscillating mechanism, to this downwardly directed To transmit forces, and the upper ends of which support weights that are freely supported by vertical walls that are attached to the Zugarinen. ■

The invention does the part of the rolling work through compaction devices as small as possible and allows the production of thicker layers, whereby the number of passes of the Road surface construction machine for the desired total thickness of the road surface is reduced.

Further details and advantages of the invention emerge, from the following description of an exemplary embodiment with reference to the accompanying drawings. Show it:

1 shows a side view of a pulling device according to the invention, at the rear ends of the pulling arms of an asphalt paver attached, and

FIG. 2 is a partial sectional view along line 2-2 of FIG. 1.

In Figure 1, a piece of an asphalt paver 10 is shown, as it is known to the person skilled in the art. This road construction machine has, as usual, two pull arms, one of which is shown at 12. The machine 10 also does not have a pair. shown, longitudinal material conveyor, which the asphalt transport to the rear, where it is transported by transverse screw conveyors, one of which is indicated by dashed lines at 14,

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is distributed across the width. The pulling arms 12 hold a a total of 15 designated vibrating pulling device, which compacts the material into a blanket, -as described below will. · ■

A horizontal, transversely standing pipe 16 is with its two The ends are stored in ring-shaped supports that are attached to the pulling arms are appropriate. Such a support is shown in FIG. The tube 16 is rotatable about its longitudinal axis, so that you can Change the angle of attack of the puller and thus adjust the height of the puller in a known manner. The tube 16 holds a downward stripping plate 18. Expediently, means, not shown, are provided to vertically. Ie adjustment of the skimmer plate 18 to allow.

Pig.2 shows the right part of the puller 15 · For this purpose it should be noted that the puller is symmetrical about its longitudinal axis. Accordingly, the description of the parts shown in Fig. 2 also applies in full to the left part of the puller, which is not shown.

On the tube 16 are two parallel, spaced vertical ones Plates 20, 21 attached with their front ends. The plate 20 carries a fastening plate 23 * on which a bearing element 24 is attached, in which one end of an adjusting screw 25 is rotatably received. The adjustment screw that has a hand crank 26 has is screwed through a block 27 which pivotally seated on the pull arm 12. Thus, when the hand crank 26 is rotated, the extractor rotates about the central axis of the tube 16, so that the angle of attack of the puller changes.

On the pipe 16 are two more parallel, spaced apart vertical plates 29,? 0 similar to the plates 20, 21, with their Front ends attached .. Each pair of plates 20, 2 * 1 and 29, 30 carries a type of attachment at the distal ends of the plates !!,

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which supports a leaf spring assembly. In Fig.1 of the Plates 20, 21 supported mounting arm 32 shown, on which a leaf spring arrangement 33 is supported, which consists of several,, consists of leaf springs mounted in vertical transverse planes *

The puller 15 further comprises a puller 35 in the form of a hollow twisting box with a pressing surface 35a. The lower leaf spring 33a of each leaf spring arrangement eats with the trailing part of the puller via a boom pivot connection 37 connected, which has a horizontal, quergeetell- ■ th trunnion 37a. Has. The puller can therefore be pivoted about a horizontal transverse axis that is coaxially aligned by the Pivot pin 37a is formed. The leaf spring assemblies allow limited horizontal movement of the pivot pins 37a closed when the oscillating mechanism to be described is working. It should be noted that the pivot connections 37 at the rear of the puller represent the only means of pulling the pulling arms 12 longitudinal tensile forces on the puller transferred to.

On the upper part of the puller are next the leading one At the end of several swing mechanisms attached. The sohwihg mechanism 40 has a bearing 41, which has a transverse shaft 42 records. On the cross shaft, next to each bearing 41 is an eccentric one Weight 43 rigidly attached. A drive not shown rotates the cross shaft 42, thereby due to the eccentric Weights 43 to produce an oscillating movement.

The Schwingmechaniemus 40 also has a housing 45 on which the lower end of a vertical coil spring 46 is seated. A weight 47 rests on the upper end of the helical spring 46. The weight 47 is freely movable in a space that is of the Plates 20, 21 and two transverse plates 48, 49 * between the plates 20, 21 are attached, is limited.

A second oscillating mechanism 50 is shown in FIG.

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represents, which is exactly the same as the swing mechanism 40 just described .. The swing mechanism 50 has a bearing 51 for the Cross shaft 42 and an eccentric weight 52 that is on the Cross shaft is attached. Its housing 53 is in contact with the lower end of a coil spring 54 which carries a weight 55. This weight is freely received in a space which is separated from the plates 29, 30 and a second space between the plates 29, 30 attached pair of plates is enclosed.

In operation, the cross shaft 42 is rotated to activate the oscillating mechanisms. The centrifugal forces that occur during The upward movement of the eccentric weights developed on the transverse shaft 42 will be in the springs 46, 54 stored and during the downward movement of the eccentric weights, these stored spring forces are released and add up to the eccentric weights wrapped centrifugal forces. The extra stored in the springs on the upstroke and released on the downstroke Energy gives a compression force that is greater than that achievable with the eccentric weights alone. The use of such springs therefore increases the performance of the puller essential when compressing the asphalt "

The swing mechanisms give the puller both a horizontal one as well as a vertical swinging movement. The leaf spring arrangement 33 allows the puller to swing back and forth in the horizontal direction, but these leaf springs convey only a very limited effect to the rear part of the puller Amount of vertical swing. The front or leading On the other hand, part of the puller can move freely, accordingly the horizontal and vertical vibratory forces generated by the vibrating mechanisms.

The oscillating mechanisms 40, 50 act with the leaf spring assemblies 33 together in such a way that the front part of the puller

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an oscillating movement "in the form of a vertical orbital movement learns how it is indicated by the arrows 60. This movement is contained in a vertical longitudinal plane. That The interaction of the swing mechanisms and the leaf springs the rear or trailing part of the puller can also perform a similar vertical orbital movement, but with the The difference is that the amount of vertical movement of the rear puller part is significantly less than the vertical Movement play of the front puller part. The vertical orbital movement of the rear puller part is indicated by the arrows 61 shown.

The vertical deflection of the swinging movement of the puller gradually decreases from the front end to the rear end of the puller. This property probably contributes significantly to the increased efficiency of the pulling device according to the invention. This is because the successive surfaces of material under the puller experience progressively less vertical movement from the puller with each stroke. Furthermore, the performance is based on the fact that δε the amplitude of the vertical movement of the front end of the puller is not limited, as is the case with conventional pulling devices. Therefore, all of the kinetic energy developed by the vibratory mechanisms can be transferred into the material to be compacted.

Since the invention provides greater compaction of the material, the proportion of subsequent rolling work is markedly reduced. In addition, the invention allows the construction of thicker layers, thereby increasing the number of passes of the Asphalt pavers for a desired total thickness of the Road surface reduced.

As is readily apparent to the person skilled in the art, the inventive Pulling device can also be set up in a simple manner for automatic level and slope control. A such an automated system is disclosed in U.S. Patent 3,285,148

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described. In addition, the pull-off device according to the invention expediently with a Kronenregulieruhg like her is known to the person skilled in the art.

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Claims (6)

Expectations Vibrating pulling device for a paving machine or the like., Characterized in that a puller (35) on its trailing part via a bracket (32, 33, 37a) 'is connected to a frame (12, 20, 21) for a relative oscillating movement between the two and the leading end of the puller with a swing device (40, 50) is connected, the holder and the oscillating device cooperating in such a way that the puller imparted rocking motion at least one vertical rocking motion of the front end of the puller and one predominantly horizontal longitudinal movement of the rear end of the puller, the amount of vertical rocking movement of the puller gradually decreases from the front end to the rear end. 2. Puller according to claim 1, characterized in that the oscillating movement of the puller is an orbital movement (60) of the front end of the puller, viewed in a vertical longitudinal plane, and an orbital movement (61) of the Rear end of the puller viewed in a vertical direction longitudinal plane, and that the vertical deflection of the oscillating movement at the rear end of the puller is essential is smaller than at the front end. 3 pulling device according to claim 1 or 2, characterized in that that the holder contains a spring arrangement (33) which is predominant in the operation of the oscillating device horizontal rocking motion of the rear end of the puller. ■ " 4. Puller according to one of the preceding claims, characterized in that the oscillating device is at least a swing mechanism (40, 50) attached to the front end of the puller and having an eccentric weight 409822/0339 (43, 52), which is rotatable about a horizontal transverse shaft (42), and that a spring (46, 54) with the oscillating mechanism is in such contact that it is directed vertically downward on the swing mechanism Transmits power. · 5 pulling device according to claim 4, characterized in that that a weight (47, 55) is added to the vibrating device one that bears on the spring (46, 54) and that in the frame (20, 21, 48, 49; 29, 30) for vertical movement is held to the frame. 6. Puller according to claim 3 or one of the following claims, characterized in that the spring arrangement (33) has a plurality of leaf springs which are arranged essentially in a vertical transverse plane and the upper one Ends attached to the frame and their lower ends with the rear end of the puller over transverse, horizontal Pivots (37a) are connected. 7 »Extraction device according to claim 6, characterized in that that the pivot pins (37a) define a transverse axis about which the swinging movement of the puller (35) takes place. 409822/0339 Blank page