DE7713897U1 - SCREED FOR ROAD PAVER - Google Patents

Description

1147a

Joseph Vögele AG, Neckarauer Strasse 168-228, 6800 Mannheim 1

Screed for pavers

The innovation relates to a screed for pavers, consisting of a main plank, preferably divided for setting a smile profile, and at least an additional screed extending approximately over half the length of the main screed, which is behind the main screed in the paving direction arranged and is displaceable with respect to this outwards to increase the paving width, with both the main screed and the additional screed are equipped with at least one vibration device.

A large-scale vibration compression of spread out bulk material, e.g. B. paving material, sets when evenly and should be optimal, the strict observance of a physical law presupposes that all vibratory individual masses of a multi-part surface compression system vibrate in absolute synchronism have to. If this equality of timing cannot be achieved, the achievement of the desired compression is questionable. Resonances that occur when the timing is unequal make the The compression effect is not only uncontrollable, but can also result in the compression as a whole or in part the opposite, namely to turn it into a loosening up.

The division of the compression areas of so-called extendable. Paving screeds »which mostly consist of a main screed divided for setting a roof profile and at least one

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displaceable additional screed exist, forcing the use of multi-part vibration devices, so that the Taktgieichheit here vibrations are of particular importance.

The mechanical vibration devices previously used in sin building screeds, which are designed as unbalance vibrators enable a continuous main screed to vibrate in the same mode and setting a desired frequency. The transmission of the vibratory drive from the main screed to the additional screed is, due to the displacement of the additional screed, associated with a lot of effort, which is nevertheless not the synchronism of the vibrations is guaranteed with absolute certainty.

Electromagnetic oscillation devices ensure a common mode of oscillation, but have a high response sensitivity to changes in the mass ratios that result from fluctuations in the installation behavior and in the ability of the installation material to compress. In the case of an electromagnetic vibration device, a change in the masses leads to what is known as a "stop operation ^11" and thus to mechanical destruction. A change in the frequency in electromagnetic vibration devices is only possible with a great deal of electrical engineering effort.

The innovation is therefore based on the task of a screed for pavers, which consists of a main screed and there is at least one movable additional screed to be designed in such a way that all screed parts work in unison without much effort vibrate and that both a change in amplitude and frequency is possible.

In order to solve this problem, it is proposed according to the innovation in a sin building floor according to the overarching clause of claim 1, that the vibration devices consist of hydraulic ones known to you Pulsation devices exist that have a common, hydraulic pulse generator of known type are connected. All pulsators vibrate in unison via the pulse generator. The speed of the pulse generator is adjustable so that

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so that the frequency of the PuIaatOperi-SohViJng-Jingen can be changed » With the amount of oil sent through the pulse generator, which the Pulsators is fed in synchronism, the amplitude of the same and thus also the amplitude of the screed parts can be changed. By changing the pressure of the pulsating oil flow the intensity of the oil pulses is influenced. These three factors represent one for all drive or installation conditions Adjustment of the pulsators to the respective optimum compression

ι sure.

The innovation is explained in more detail below using an exemplary embodiment shown in a drawing. Show it

Pig. 1 an oblique view of a screed according to the innovation and

2 shows the schematic connection of the pulsators to the pulse generator.

In-Fig. 1 of the drawing, a screed 1 is shown which Is articulated on indicated support arms 2 height and inclination adjustable on a paver, not shown. The screed 1 consists of a main screed 3, which is firmly connected to the support arms 2 and in the middle for setting a Dachprofi3.it is divided. Located behind this main plank 3 two additional piles 4 »5, each approximately over the extend half the length of the main screed 3 and can be displaced outwardly in relation to the same to increase the paving width. The two additional piles 4, 5 are known per se, not shown, both on the main piles 3 and on the Support arms 2 out and are via hydraulically actuated / Lolben cylinder units 6, 7 separately or together from their Basic position shifted laterally outwards and backwards.

A hydraulic pulsator 8, which is designed as a short-stroke, double-acting piston-cylinder unit, is attached to each part of the main screed 3 as well as to each additional screed 4, 5. The arrangement of the pulsators 8 is chosen so that the pistons move perpendicular to the base of the main screed 3 and the additional screeds 4, 5. A hydraulic pulse generator 9 is provided on the main screed 3, which via FIG. ^{3 1 Xg.} 1, lines (not shown) are connected to all four pulsators 8.

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According to Pig ". 2, the pulse generator 9 is operated by a hydraulic motor 10 set in rotary motion, its oil flow from a hydraulic pump 11 receives, for example from an electric motor is driven. The speed is via the hydraulic pump 11 of the hydraulic motor 10 controllable. In the illustrated exemplary embodiment, the oil flow emerging from the hydraulic motor 10 is the pulse generator 9 is supplied. The pulse generator 9 is now designed so that it rotates this continuously supplied oil flow into two pulsating oil flows transforms and supplies them to both sides of the pulsators 8. As a result, the pulsators 8 lead in frequency of the incoming oil pulses from vibrations, their amplitudes depend on the amount of oil, the oil pressure and the effective piston area depend. The oil pressure is adjustable by a pressure relief valve 12, whereby the amplitude can be influenced. The frequency of the vibrations is determined by changing the speed of the hydraulic motor 10 via a quantity regulator 13.

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Claims (3)

1147a Joseph Vögele AG, IJeckarauer Straße 168-228, 6800 Mannheim 1 Claims for protection: 1. Screed for pavers consisting of one, preferably split to adjust a roof profile Main screed and at least one additional screed extending over about half the length of the main screed in the paving direction arranged behind the main plank and displaceable towards the outside to increase the width of the construction is, wherein both the main screed and the additional screed with at least one vibration device are equipped characterized, that the vibration devices from per se, known hydraulic Pulsation devices (8) are made with a common hydraulic pulse generator (9) of known design are connected. 2. Screed according to claim 1,
characterized in that the Pulsationsgeräte _s (8) are constructed as piston-cylinder units. 3. Screed according to claim 1,
characterized in that the pulsation devices (8) are formed from a housing with a membrane. - 2 ~ 7713897 10/20/77