EP2363212A2 - Infinitely adjustable oscillation exciter - Google Patents

Infinitely adjustable oscillation exciter Download PDF

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Publication number
EP2363212A2
EP2363212A2 EP11000185A EP11000185A EP2363212A2 EP 2363212 A2 EP2363212 A2 EP 2363212A2 EP 11000185 A EP11000185 A EP 11000185A EP 11000185 A EP11000185 A EP 11000185A EP 2363212 A2 EP2363212 A2 EP 2363212A2
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EP
European Patent Office
Prior art keywords
imbalance
vibration
shaft
transmission
coupling
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP11000185A
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German (de)
French (fr)
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EP2363212B1 (en
EP2363212A3 (en
Inventor
Jens Wagner
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Bomag GmbH and Co OHG
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Bomag GmbH and Co OHG
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Publication of EP2363212A2 publication Critical patent/EP2363212A2/en
Publication of EP2363212A3 publication Critical patent/EP2363212A3/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B06GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS IN GENERAL
    • B06BMETHODS OR APPARATUS FOR GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS OF INFRASONIC, SONIC, OR ULTRASONIC FREQUENCY, e.g. FOR PERFORMING MECHANICAL WORK IN GENERAL
    • B06B1/00Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency
    • B06B1/10Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of mechanical energy
    • B06B1/16Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of mechanical energy operating with systems involving rotary unbalanced masses
    • B06B1/161Adjustable systems, i.e. where amplitude or direction of frequency of vibration can be varied
    • B06B1/162Making use of masses with adjustable amount of eccentricity
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18344Unbalanced weights

Definitions

  • the invention relates according to the preamble of claim 1 a vibration exciter with a shaft and at least two arranged on the shaft imbalance weights, in which the radial distance of the common center of gravity of the imbalance weights of the axis of rotation of the shaft is infinitely adjustable by means of a transmission.
  • a pin is used for the purpose of adjusting the phase position of the imbalances, which engages in a helically extending groove of a hub.
  • a translational movement of the pin causes a rotational movement of the hub, so that a mutual rotation of the imbalances is made possible.
  • high adjusting forces must be applied.
  • the disadvantage is that a complex coupling between the imbalances must be provided. This not only leads to higher costs, but also to greater space requirements.
  • a reciprocating vibrator in which the excitation force can be adjusted continuously during operation.
  • a running as a flat push rocker, planar coupling gear is used.
  • a displacement of the push rod leads to a swinging movement of the coupling and the rocker, so that the center of gravity distance of the unbalance weights can be varied to the axis of rotation of the unbalanced shaft.
  • the vibration exciter principle inherent, since a swinging of the imbalance weights in the radial direction is required to increase the excitation force, a relatively large installation space in both the axial and radial direction of the unbalanced shaft claimed.
  • the invention is therefore based on the object to provide a vibration generator of the type mentioned, which overcomes the disadvantages of the known vibration exciter of the prior art.
  • the vibration exciter according to the invention has a transmission, which is a spatial coupling mechanism, for example, a spatial thrust transmission, is.
  • Coupling gearboxes have at least four gear members, which by sliding joints, d.
  • H. Joints such as push and pivot joints whose elements slide on each other or touch each other in surfaces are connected.
  • All coupling gears have at least one fixed coupling, which represents a not stored in the frame or guided transmission link.
  • the coupling or coupling members may be designed as connecting rods, drive rods, etc.
  • coupling gears allow easier and cheaper manufacture of the gear members.
  • coupling gears are considered to be more robust thanks to the higher load capacity of the sliding joints.
  • Level coupling gears are characterized in that the limbs of all members perform a planar movement, d. H. only tracks in a plane or parallel planes. To distinguish this are “spherical coupling mechanism", all of whose limbs can only pass through tracks on concentric spherical surfaces.
  • the transmission for adjusting the center of gravity of the imbalance weights is a spatial coupling mechanism.
  • at least one member to at least one other member can perform a spatial movement.
  • a spatial movement is understood to mean a movement in which at least one point of a body passes through a spatial path that is no longer in a plane.
  • the vibration exciter according to the invention With the aid of the vibration exciter according to the invention a stepless adjustment of the amplitude of the vibration or the excitation force during operation is possible in a simple and cost-effective manner. Thanks to the transmission kinematics according to the invention, the required adjustment forces are very low. In addition, the vibration exciter according to the invention can be built to save space.
  • the transmission comprises a variable slide and coupling members, each coupling member is connected by means of pivot connections with the adjusting slide and one of the imbalance weights.
  • the transmission according to the invention is a spatial coupling mechanism with a frame, a drive member designed as an adjusting slide, two coupling members and two output members, which are preferably connected to the imbalance weights or the imbalance weights themselves. It is therefore a parallel transmission with two four-link coupling gears.
  • Joint freedom degree is understood as the degree of freedom that a joint attaches to a member in relation to the other member connected to it by the joint. Since these are swivel joints, each swivel joint allows two rotational movements about two different axes of rotation.
  • the pivot joints each comprise a rotatably mounted clevis.
  • the first axis of rotation is located as in conventional fork joints in the pin axis, which runs through the cheeks of the clevis. Due to the rotatable mounting of the fork head, a second axis of rotation is formed as a Vertical axis of the fork head perpendicular to the first axis of rotation and runs centrally between the cheeks of the clevis.
  • the shaft has coaxial partial waves, which each have a rotationally and axially fixedly connected imbalance weight, wherein the partial waves are arranged adjacent to each other via rotational sliding surfaces.
  • the total weight of the vibrator can be reduced because the shaft need not be continuous.
  • the production of the exciter can be simplified by the coupling of the imbalance weights to the respective partial waves in a simple manner, for example by means of a casting process.
  • the two imbalance weights which are arranged adjacent to one another via rotational sliding surfaces, are coupled to one another and mounted in a common frame such that a single adjusting drive is sufficient to rotate the two imbalance weights relative to one another.
  • the two imbalance weights are arranged mirror-inverted with respect to the center of the wave. However, they are the same in shape and size, allowing easy manufacturing.
  • the imbalance weights extend axially substantially over the entire length of the shaft. This creates an extremely compact vibration exciter.
  • the invention further relates to a directional vibrator for generating a directional vibration with at least two vibration exciters according to the invention, wherein the phase between the waves of the vibration exciter is continuously displaceable.
  • a directional oscillator is created from two individual rotating orbiting agents, which can produce a directional vibration on a particular axis due to the superposition of individual vibrations.
  • devices for soil compaction for example, predominantly vertically directed vibrations are generated.
  • the phase between the individual vibration exciters is infinitely displaceable in the directional vibrator according to the invention.
  • the phase is understood to mean firstly the position of the exciter or imbalance shaft with respect to a freely determinable reference position and, secondly, the size ratio of the imbalances to one another.
  • Run the two unbalanced shafts in-phase ie they are around the respective axis of rotation rotating center of gravity vectors of the unbalanced shafts arranged in at least two positions parallel to each other and the imbalances of the two unbalanced shafts are the same size, then only forces are generated in the vertical direction.
  • the axis of the directed oscillation tilts at a certain angle with respect to the imbalance vertical. This may be advantageous, for example, to generate and adapt a propulsion of the directional vibrator in addition to the compaction of the soil.
  • the invention relates to a vibrating plate or roller with a directional vibrator with two vibrators according to the invention.
  • the vibrating plate or roller can thus be easily and inexpensively manufactured and adjusted with only small adjustment forces during operation. Not only the amplitude of the directed vibration, but also the inclination of the oscillation axis relative to the vertical can be adjusted continuously, so that depending on the application, the size of the imbalance and the speed and direction of the vibrating plate or roller can be adjusted.
  • FIG. 1 shows a kinematic scheme of the spatial coupling transmission according to the invention.
  • the transmission can be broken down into two four-membered transmissions, namely a first four-member with a frame 1, a drive member 2, a first coupling 3a and a first output member 4a and a second four-member with a frame 1, a drive member 2, a second coupling 3b and a second output member 4b.
  • the coupling 3a, 4a are connected via the joints g 2,3a and g 2,3b to the drive member 2 and the joints g 3a, 4a and g 3b, 4b with the output members 4a, 4b.
  • a translational movement of the drive member 2 along the axis Ax according to arrow T is converted into a swinging movement of the output members 4a, 4b about the axis Ax according to arrow R, wherein the directions of rotation of the output members 4a, 4b are opposite to each other.
  • the coupling 3a, 3b perform in the adjustment of each a spatial movement.
  • FIG. 2a shows a front view of an embodiment of the vibration exciter according to the invention in a position in which the partial imbalances generated by the imbalance weights 20, 30 cancel each other, so that the total imbalance is minimal, that is substantially zero.
  • the center of gravity S which is formed on the one hand from the partial center of gravity S1 of the first imbalance weight 20 and on the other from the partial center of gravity S2 of the second imbalance weight 30, lies in this position on the horizontal H, so that there is no radial distance to the axis of rotation Ax. Thus, no appreciable imbalance occurs.
  • FIG. 2b shows the front view of the vibration exciter Fig. 2a in a position in which the oscillation amplitude or the total imbalance is maximum.
  • the imbalance weights 20, 30 and thus also their centers of gravity S1, S2 are rotated along the arrow directions shown to each other, so that the center of gravity S now has a significant distance from the horizontal H or the axis of rotation Ax.
  • the distance of the center of gravity S from the axis of rotation can be between the in Fig. 2a shown, minimum value 0 and the in Fig. 2b shown, maximum value can be adjusted continuously.
  • FIG. 3 shows a perspective view of the vibrator 10 according to the invention for a better overview, in this case the housing is not shown.
  • the vibration exciter essentially comprises the gear 11, which in turn comprises an adjusting slide 12, the two coupling links 13, 14, the imbalance weights 20, 30 and the four pivot joints 15.
  • the exciter housing not shown here corresponds to the in Fig. 1 shown frame 1.
  • the adjusting slide 12 corresponds to the drive member 2 from Fig. 1
  • the coupling links 13, 14 represent the coupling 3a, 3b Fig. 1
  • the imbalance weights 20, 30 correspond to the output members 4a, 4b Fig.
  • the four hinge joints 15 make the joints g 2,3a , g 2,3b , g 3a, 4ab g 3b, 4b Fig. 1
  • the shaft 18 of the vibration generator 10 is firstly composed of a first hollow-bored partial shaft 21, which carries the first imbalance weight 20, and on the other hand from a second hollow-drilled partial shaft 31, which carries the second imbalance weight 30. In the position shown, no unbalance is generated ( Fig. 2a ).
  • FIG. 4 shows a perspective view of the vibration exciter 10 Fig. 3 , but in a position where the generated imbalance is maximum ( Fig. 2b ).
  • the adjusting slide 12 is pushed in the direction of the imbalance weights 20, 30.
  • the articulated with the adjusting slide, rigid coupling members 13, 14 each perform a spatial movement, whereby the articulated weights also associated with them unbalanced weights 20, 30 together with the partial shafts 21, 31 perform a rotational movement about the axis of rotation Ax.
  • the vibration exciter caused by the gear 11 rotational movements of the imbalance weights 20, 30 of the excitation drive or vibration drive (not shown) caused rotational movement of the imbalance weights 20, 30 are superimposed.
  • FIGS. 5a, 5b the plan views of the vibrator 10 are shown before and after the adjustment.
  • one end of the adjusting slide 12 is at position X1.
  • FIG. 5b shown is the addressed end of the adjusting slide 12 via a hydraulic cylinder or a linear motor (both not shown) for the purpose of adjusting the unbalance by the amount X placed in the position X2.
  • the imbalance weights 20, 30 are rotated about the axis of rotation Ax to each other, so that in the plan view, a distance Y2, which is smaller than the distance Y1 from Fig. 5a . is recognizable. Any position of the adjusting slide 12 between X1 and X2 is infinitely adjustable.
  • FIG. 6 shows a part of the transmission 11 from Fig. 3 ,
  • the adjusting slide 12 essentially comprises a cylindrical part, which is guided in the bore of the partial shaft 31.
  • a shaft shoulder can be seen, which serves to receive a Wälziagerung (not shown).
  • the rigid coupling members 13, 14, which in each case again by means of hinge joints 15 with the imbalance weights 20, 30 (not shown here) are connected.
  • FIGS. 7 and 8 are the imbalance weights 20, 30 off Fig. 3 shown in detail.
  • the partial waves 21, 31 produced integrally with the imbalance weights 20, 30 are also clearly visible.
  • the imbalance weights 20, 30 are identical in construction.
  • the one end (with the larger bore) of the second imbalance weight 30 on the outer circumferential surface of the partial shaft 21 of the first imbalance weight 20 can rotate rotationally.
  • the one end of the first imbalance weight together with the part shaft 31 of the second imbalance weight also forms a rotary sliding surface.
  • the axial extent of the imbalance weights 20, 30 substantially corresponds to the axial extent of the shaft 18 with the partial shafts 21, 31.
  • FIG. 9 is a directional vibrator 50 with two vibrators according to the invention including excitation housing 19 and cover 17 is shown.
  • the directional vibrator 50 is off Fig. 9 shown, but without cover 17 and exciter housing 19.
  • the directional vibrator 50 includes two juxtaposed vibration exciters 10, 40, which means (not shown) for synchronously opposing rotation of the unbalanced shafts have.
  • a main adjusting cylinder 41 with an adjusting piston 42. That with the adjusting piston 42 connected connecting member 44 provides for a synchronous adjustment of the adjusting slide of the vibration exciter 10, 40.
  • the auxiliary cylinder 43 is provided to make a phase adjustment of the imbalance shaft of the vibration exciter 40 relative to the imbalance shaft of the vibration exciter 10.
  • the unbalance shafts of the vibration exciter 10, 40 in the same phase with maximum imbalance.
  • the excitation force generated by the directional oscillator 50 is directed vertically upwards or downwards.
  • FIG. 11 shows the directional oscillator 50 Fig. 10 , but with a phase shift.
  • the phase of the shaft of the first vibration exciter 10 relative to the shaft of the second vibration exciter 40 is displaced by the fact that the imbalance of the first vibration exciter 10 due to an adjusting movement has an eccentricity e1, which - as also schematically in Fig. 11
  • the eccentricity e2 of the imbalance of the second vibration exciter 40 is Unbalance of the first vibration exciter 10 is smaller than the imbalance of the second vibration exciter 40.
  • a directional vibration is generated whose axis A is not vertical, ie perpendicular to the horizontal H, but by a certain angle, For example, 15 °, is inclined relative to the vertical axis V, as well as in FIG. 12 good to see.
  • This may expediently be used for setting an independent forward or backward movement of a vibration plate, which comprises a directional vibrator 50 according to the invention.

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  • Mechanical Engineering (AREA)
  • Apparatuses For Generation Of Mechanical Vibrations (AREA)

Abstract

The vibration generator (10) has a shaft (18) and two imbalance weights (20,30) located on the shaft. A gear (11) is provided as a spatial coupled gear, for e.g. a spatial impulse vibration gear. The gear has an adjustable slider (12) and a coupling element (13,14). Pivoted joint connections (15) have a rotary mounted fork head (16). An independent claim is also included for a directed vibrator for generating directed vibration.

Description

Die Erfindung betrifft gemäß dem Oberbegriff des Anspruchs 1 einen Schwingungserreger mit einer Welle und mit mindestens zwei auf der Welle angeordneten Unwuchtgewichten, bei dem der radiale Abstand des gemeinsamen Schwerpunktes der Unwuchtgewichte von der Rotationsachse der Welle mittels eines Getriebes stufenlos verstellbar ist.The invention relates according to the preamble of claim 1 a vibration exciter with a shaft and at least two arranged on the shaft imbalance weights, in which the radial distance of the common center of gravity of the imbalance weights of the axis of rotation of the shaft is infinitely adjustable by means of a transmission.

Bei einem aus der DE 24 09 41 7 A1 bekannten Schwingungserreger mit zwei Unwuchten wird zwecks Verstellung der Phasenlage der Unwuchten ein Stift eingesetzt, welcher in eine schraubenförmig verlaufende Nut einer Nabe eingreift. Eine translatorische Bewegung des Stiftes ruft eine rotatorische Bewegung der Nabe hervor, so dass ein gegenseitiges Verdrehen der Unwuchten ermöglicht wird. Hierbei ist es nachteilig, dass hohe Verstellkräfte aufgebracht werden müssen. Des weiteren besteht der Nachteil darin, dass eine aufwendige Kopplung zwischen den Unwuchten vorgesehen werden muss. Dies führt nicht nur zu höheren Kosten, sondern auch zu größerem Bauraumbedarf.At one of the DE 24 09 41 7 A1 known vibration exciter with two imbalances, a pin is used for the purpose of adjusting the phase position of the imbalances, which engages in a helically extending groove of a hub. A translational movement of the pin causes a rotational movement of the hub, so that a mutual rotation of the imbalances is made possible. It is disadvantageous that high adjusting forces must be applied. Furthermore, the disadvantage is that a complex coupling between the imbalances must be provided. This not only leads to higher costs, but also to greater space requirements.

Aus der DD 265 113 A1 ist ein Gegenlaufvibrator bekannt, bei dem die Erregerkraft während des Betriebes kontinuierlich eingestellt werden kann. Dazu wird ein als eine ebene Schubschwinge ausgeführtes, ebenes Koppelgetriebe verwendet. Eine Verschiebung der Schubstange führt zu einer Schwingbewegung des Koppels und der Schwinge, so dass der Schwerpunktsabstand der Unwuchtgewichte zur Rotationsachse der Unwuchtwelle variiert werden kann. Auch hier besteht der Nachteil darin, dass der Schwingungserreger prinzipbedingt, da zur Erhöhung der Erregerkraft ein Ausschwingen der Unwuchtgewichte in radialer Richtung erforderlich ist, einen relativ großen Einbauraum in sowohl axialer als auch radialer Richtung der Unwuchtwelle beansprucht.From the DD 265 113 A1 a reciprocating vibrator is known in which the excitation force can be adjusted continuously during operation. For this purpose, a running as a flat push rocker, planar coupling gear is used. A displacement of the push rod leads to a swinging movement of the coupling and the rocker, so that the center of gravity distance of the unbalance weights can be varied to the axis of rotation of the unbalanced shaft. Again, there is the disadvantage that the vibration exciter principle inherent, since a swinging of the imbalance weights in the radial direction is required to increase the excitation force, a relatively large installation space in both the axial and radial direction of the unbalanced shaft claimed.

Der Erfindung liegt daher die Aufgabe zugrunde, einen Schwingungserreger der eingangs genannten Art anzugeben, der die Nachteile der bekannten Schwingungserreger des Standes der Technik überwindet.The invention is therefore based on the object to provide a vibration generator of the type mentioned, which overcomes the disadvantages of the known vibration exciter of the prior art.

Diese Aufgabe wird gelöst durch den Gegenstand des unabhängigen Anspruchs 1. Die abhängigen Ansprüche sind auf vorteilhafte Ausführungsformen der Erfindung gerichtet.This object is solved by the subject matter of independent claim 1. The dependent claims are directed to advantageous embodiments of the invention.

Der erfindungsgemäße Schwingungserreger weist ein Getriebe auf, welches ein räumliches Koppelgetriebe, beispielsweise ein räumliches Schubschwingengetriebe, ist.The vibration exciter according to the invention has a transmission, which is a spatial coupling mechanism, for example, a spatial thrust transmission, is.

"Koppetgetriebe", wie beispielsweise Schubschwingen, Schubkurbeln, Kurbelschwingen etc., gehören zur Gruppe der ungleichmäßig übersetzenden Getriebe und kommen dann zum Einsatz, wenn eine Umwandlung einer Drehbewegung in eine oszillierende (geradlinige oder schwingende) Bewegung und umgekehrt erforderlich ist. Koppelgetriebe weisen mindestens vier Getriebeglieder auf, die durch Gleitgelenke, d. h. Gelenke wie beispielsweise Schub- und Drehgelenke, deren Elemente aufeinander gleiten bzw. sich in Flächen berühren, verbunden sind. Alle Koppelgetriebe weisen mindestens eine feste Koppel auf, welche ein nicht im Gestell gelagertes oder geführtes Übertragungsglied darstellt. Je nach Anwendungsfall können die Koppel bzw. Koppelglieder als Pleuel, Treibstangen etc. ausgeführt sein."Koppetgetriebe", such as thrust rockers, cranks, rocker arms, etc., belong to the group of non-uniform transmission gear and are used when a conversion of a rotary motion in an oscillating (rectilinear or oscillating) movement and vice versa is required. Coupling gearboxes have at least four gear members, which by sliding joints, d. H. Joints such as push and pivot joints whose elements slide on each other or touch each other in surfaces are connected. All coupling gears have at least one fixed coupling, which represents a not stored in the frame or guided transmission link. Depending on the application, the coupling or coupling members may be designed as connecting rods, drive rods, etc.

Im Vergleich zu Kurvengetrieben, die eine weit verbreitete Getriebeart bilden, erlauben Koppelgetriebe eine einfachere und günstigere Fertigung der Getriebeglieder. Zudem sind Koppelgetriebe dank höherer Belastbarkeit der Gleitgelenke als robuster anzusehen.Compared to cam gears, which form a widespread type of transmission, coupling gears allow easier and cheaper manufacture of the gear members. In addition, coupling gears are considered to be more robust thanks to the higher load capacity of the sliding joints.

Weit verbreitet sind "ebene Koppelgetriebe". Ebene Koppelgetriebe zeichnen sich dadurch aus, dass die Gliedpunkte aller Glieder eine ebene Bewegung ausführen, d. h. nur Bahnen in einer Ebene oder zueinander parallelen Ebenen. Davon zu unterscheiden sind "sphärische Koppelgetriebe", deren sämtliche Gliedpunkte nur auf Bahnen auf zueinander konzentrischen Kugelflächen durchlaufen können.Widely used are "flat coupling gear". Level coupling gears are characterized in that the limbs of all members perform a planar movement, d. H. only tracks in a plane or parallel planes. To distinguish this are "spherical coupling mechanism", all of whose limbs can only pass through tracks on concentric spherical surfaces.

Erfindungsgemäß ist vorgesehen, dass das Getriebe zur Verstellung des Schwerpunktes der Unwuchtgewichte ein räumliches Koppelgetriebe ist. Im Unterschied zu ebenen oder sphärischen können bei räumlichen Koppelgetrieben Gliedpunkte mindestens eines Gliedes gegenüber mindestens einem anderen Glied eine räumliche Bewegung ausführen. Unter einer räumlichen Bewegung wird eine Bewegung verstanden, bei welcher wenigstens ein Punkt eines Körpers eine räumliche Bahn durchläuft, die nicht mehr in einer Ebene liegt. Bei räumlichen Koppelgetrieben gelten im Vergleich zu ebenen oder sphärischen Koppelgetrieben komplett andere Analyse- und Syntheseverfahren.According to the invention it is provided that the transmission for adjusting the center of gravity of the imbalance weights is a spatial coupling mechanism. In contrast to planar or spherical coupling elements of spatial linkage at least one member to at least one other member can perform a spatial movement. A spatial movement is understood to mean a movement in which at least one point of a body passes through a spatial path that is no longer in a plane. For spatial coupling gears Compared to planar or spherical coupling gears, completely different methods of analysis and synthesis apply.

Mit Hilfe des erfindungsgemäßen Schwingungserregers wird in einfacher und kostengünstiger Weise eine stufenlose Verstellung der Amplitude der Schwingung bzw. der Erregerkraft während des Betriebes ermöglicht. Dank der erfindungsgemäßen Getriebekinematik sind die benötigten Verstellkräfte sehr gering. Zudem kann der erfindungsgemäße Schwingungserreger platzsparend gebaut werden.With the aid of the vibration exciter according to the invention a stepless adjustment of the amplitude of the vibration or the excitation force during operation is possible in a simple and cost-effective manner. Thanks to the transmission kinematics according to the invention, the required adjustment forces are very low. In addition, the vibration exciter according to the invention can be built to save space.

In einer vorteilhaften Ausführungsform der Erfindung umfasst das Getriebe einen Verstellschieber und Koppelglieder, wobei jedes Koppelglied mittels Drehgelenkverbindungen mit dem Verstellschieber und einem der Unwuchtgewichte verbunden ist.In an advantageous embodiment of the invention, the transmission comprises a variable slide and coupling members, each coupling member is connected by means of pivot connections with the adjusting slide and one of the imbalance weights.

Gemäß dieser Ausführungsform handelt es sich beim erfindungsgemäßen Getriebe um ein räumliches Koppelgetriebe mit einem Gestell, einem als Verstellschieber ausgeführtes Antriebsglied, zwei Koppelgliedern und zwei Abtriebsgliedern, welche vorzugsweise mit den Unwuchtgewichten verbunden sind bzw. die Unwuchtgewichte selbst sind. Es handelt sich also um ein Parallelgetriebe mit zwei viergliedrigen Koppelgetrieben.According to this embodiment, the transmission according to the invention is a spatial coupling mechanism with a frame, a drive member designed as an adjusting slide, two coupling members and two output members, which are preferably connected to the imbalance weights or the imbalance weights themselves. It is therefore a parallel transmission with two four-link coupling gears.

In einer weiteren bevorzugten Ausführungsform der Erfindung weisen die Drehgelenkverbindungen je einen Gelenkfreiheitsgrad von f=2 auf.In a further preferred embodiment of the invention, the pivot joints each have a joint degree of freedom of f = 2.

Unter Gelenkfreiheitsgrad wird der Freiheitsgrad verstanden, den ein Gelenk einem Glied gegenüber dem mit ihm durch das Gelenk verbundenen anderen Glied zumisst. Da es sich hierbei um Drehgelenkverbindungen handelt, erlaubt jede Drehgelenkverbindung zwei Drehbewegungen um zwei unterschiedliche Rotationsachsen. Anstelle einer Drehgelenkverbindung mit einem Gelenkfreiheitsgrad von f=2 kann auch eine Drehgelenk mit einem höheren Gelenkfreiheitsgrad von f=3 verwendet werden, was beispielsweise bei einem Kugelgelenk der Fall ist.Joint freedom degree is understood as the degree of freedom that a joint attaches to a member in relation to the other member connected to it by the joint. Since these are swivel joints, each swivel joint allows two rotational movements about two different axes of rotation. Instead of a hinge joint with a joint degree of freedom of f = 2, it is also possible to use a rotary joint with a higher joint degree of freedom of f = 3, which is the case, for example, in the case of a ball joint.

Gemäß einer vorteilhaften Ausführungsform der Erfindung umfassen die Drehgelenkverbindungen je einen drehbar gelagerten Gabelkopf.According to an advantageous embodiment of the invention, the pivot joints each comprise a rotatably mounted clevis.

Mit dieser Ausführungsform wird in einfacher und robuster Weise eine Drehgelenkverbindung mit einem Gelenkfreiheitsgrad von f=2 geschaffen. Die erste Drehachse befindet sich wie bei üblichen Gabelgelenken in der Bolzenachse, die durch die Wangen des Gabelkopfes verläuft. Durch die rotierbare Lagerung des Gabelkopfes wird eine zweite Drehachse gebildet, die als eine Hochachse des Gabelkopfes senkrecht zur ersten Drehachse und mittig zwischen den Wangen des Gabelkopfes verläuft.With this embodiment, a hinge joint with a joint degree of freedom of f = 2 is created in a simple and robust manner. The first axis of rotation is located as in conventional fork joints in the pin axis, which runs through the cheeks of the clevis. Due to the rotatable mounting of the fork head, a second axis of rotation is formed as a Vertical axis of the fork head perpendicular to the first axis of rotation and runs centrally between the cheeks of the clevis.

Gemäß einer weiteren vorteilhaften Ausführungsform der Erfindung weist die Welle koaxiale Teilwellen auf, welche jeweils ein mit ihr dreh- und achsfest verbundenes Unwuchtgewicht aufweisen, wobei die Teilwellen über rotatorische Gleitflächen einander benachbart angeordnet sind.According to a further advantageous embodiment of the invention, the shaft has coaxial partial waves, which each have a rotationally and axially fixedly connected imbalance weight, wherein the partial waves are arranged adjacent to each other via rotational sliding surfaces.

Gemäß dieser Ausführungsform kann das Gesamtgewicht des Schwingungserregers reduziert werden, da die Welle nicht durchgehend ausgeführt sein muss. Zudem kann die Herstellung des Erregers durch die Kopplung der Unwuchtgewichte an die jeweiligen Teilwellen in einfacher Weise beispielsweise mit Hilfe eines Gussverfahren vereinfacht werden. Die beiden Unwuchtgewichte, die einander über rotatorische Gleitflächen benachbart angeordnet sind, sind derart aneinander gekoppelt und in einem gemeinsamen Gestell gelagert, dass ein einziger Verstellantrieb ausreicht, um die beiden Unwuchtgewichte relativ zueinander zu verdrehen. Die beiden Unwuchtgewichte werden bezüglich des Mittelpunktes der Welle spiegelverkehrt angeordnet. Allerdings sind sie gleich in ihrer Form und Größe, so dass eine einfache Fertigung ermöglicht wird. Vorzugsweise erstrecken sich die Unwuchtgewichte axial im Wesentlichen über die gesamte Länge der Welle. Somit entsteht ein äußerst kompakter Schwingungserreger.According to this embodiment, the total weight of the vibrator can be reduced because the shaft need not be continuous. In addition, the production of the exciter can be simplified by the coupling of the imbalance weights to the respective partial waves in a simple manner, for example by means of a casting process. The two imbalance weights, which are arranged adjacent to one another via rotational sliding surfaces, are coupled to one another and mounted in a common frame such that a single adjusting drive is sufficient to rotate the two imbalance weights relative to one another. The two imbalance weights are arranged mirror-inverted with respect to the center of the wave. However, they are the same in shape and size, allowing easy manufacturing. Preferably, the imbalance weights extend axially substantially over the entire length of the shaft. This creates an extremely compact vibration exciter.

Die Erfindung betrifft ferner einen Richtschwinger zur Erzeugung einer gerichteten Schwingung mit mindestens zwei erfindungsgemäßen Schwingungserregern, wobei die Phase zwischen den Wellen der Schwingungserreger stufenlos verschiebbar ist.The invention further relates to a directional vibrator for generating a directional vibration with at least two vibration exciters according to the invention, wherein the phase between the waves of the vibration exciter is continuously displaceable.

Durch eine Kopplung von mindestens zwei erfindungsgemäßen Schwingungserregern, wobei die Kopplung eine zueinander gegensinnige und synchrone Rotation der Unwuchtwellen ermöglicht, wird aus zwei einzelnen umlaufenden Kreiserregern ein Richtschwinger geschaffen, welcher infolge der Überlagerung von Einzelschwingungen eine gerichtete Schwingung auf einer bestimmten Achse erzeugen kann. In Vorrichtungen zur Bodenverdichtung beispielsweise werden vorwiegend vertikal gerichtete Schwingungen erzeugt. Vorzugsweise ist beim erfindungsgemäßen Richtschwinger neben der Amplitude der Schwingungen auch die Phase zwischen den einzelnen Schwingungserregern stufenlos verschiebbar. Unter der Phase werden in diesem Zusammenhang zum einen die Lage der Erreger- bzw. Unwuchtwelle bezüglich einer frei zu bestimmenden Bezugsposition und zum anderen aber auch das Größenverhältnis der Unwuchten zueinander verstanden. Laufen die beiden Unwuchtwellen gleichphasig, d. h. sind die um die jeweilige Drehachse rotierenden Schwerpunktsvektoren der Unwuchtwellen in wenigstens zwei Stellungen parallel zueinander angeordnet und sind die Unwuchten der beiden Unwuchtwellen gleich groß, dann werden nur Kräfte in vertikaler Richtung erzeugt. Haben die beiden Unwuchtwellen allerdings eine unterschiedliche Phase zueinander, d. h. weisen die Schwerpunktsvektoren der Unwuchtwellen keine Stellung auf, in der sie parallel zueinander angeordnet sind oder sind die Unwuchten der Unwuchtwellen unterschiedlich groß, so neigt sich die Achse der gerichteten Schwingung um einen gewissen Winkel gegenüber der Vertikalen. Dies kann beispielsweise vorteilhaft sein, um zusätzlich zur Verdichtung des Bodens einen Vortrieb des Richtschwingers zu erzeugen und anzupassen.By a coupling of at least two vibration exciters according to the invention, wherein the coupling allows mutually opposite and synchronous rotation of the unbalanced shafts, a directional oscillator is created from two individual rotating orbiting agents, which can produce a directional vibration on a particular axis due to the superposition of individual vibrations. In devices for soil compaction, for example, predominantly vertically directed vibrations are generated. Preferably, in addition to the amplitude of the oscillations, the phase between the individual vibration exciters is infinitely displaceable in the directional vibrator according to the invention. In this context, the phase is understood to mean firstly the position of the exciter or imbalance shaft with respect to a freely determinable reference position and, secondly, the size ratio of the imbalances to one another. Run the two unbalanced shafts in-phase, ie they are around the respective axis of rotation rotating center of gravity vectors of the unbalanced shafts arranged in at least two positions parallel to each other and the imbalances of the two unbalanced shafts are the same size, then only forces are generated in the vertical direction. However, if the two imbalance shafts have a different phase relative to one another, ie if the center of gravity vectors have no position in which they are arranged parallel to one another or if the imbalances of the imbalance shafts vary in size, the axis of the directed oscillation tilts at a certain angle with respect to the imbalance vertical. This may be advantageous, for example, to generate and adapt a propulsion of the directional vibrator in addition to the compaction of the soil.

Des weiteren betrifft die Erfindung eine Vibrationsplatte oder -walze mit einem Richtschwinger mit zwei erfindungsgemäßen Schwingungserregern. Die Vibrationsplatte oder -walze kann somit einfach und kostengünstig hergestellt und mit nur geringen Verstellkräften während des Betriebes verstellt werden. Nicht nur die Amplitude der gerichteten Schwingung, sondern auch die Neigung der Schwingungsachse gegenüber der Vertikalen können stufenlos verstellt werden, so dass je nach Anwendungsfall die Größe der Unwucht sowie die Geschwindigkeit und die Fahrtrichtung der Vibrationsplatte bzw. -walze angepasst werden können.Furthermore, the invention relates to a vibrating plate or roller with a directional vibrator with two vibrators according to the invention. The vibrating plate or roller can thus be easily and inexpensively manufactured and adjusted with only small adjustment forces during operation. Not only the amplitude of the directed vibration, but also the inclination of the oscillation axis relative to the vertical can be adjusted continuously, so that depending on the application, the size of the imbalance and the speed and direction of the vibrating plate or roller can be adjusted.

Nachfolgend wird die Erfindung anhand von Ausführungsbeispielen weiter erläutert. Es zeigen schematisch:

Figur 1
Ein kinematisches Schema des erfindungsgemäßen räumlichen Koppelgetriebes;
Figur 2a
eine Vorderansicht des Schwingungserregers bei minimaler Unwucht;
Figur 2b
eine Vorderansicht des Schwingungserregers bei maximaler Unwucht;
Figur 3
eine perspektivische Ansicht des Schwingungserregers bei minimaler Unwucht;
Figur 4
eine perspektivische Ansicht des Schwingungserregers bei maximaler Unwucht;
Figur 5a
eine Draufsicht des Schwingungserregers bei minimaler Unwucht;
Figur 5b
eine Draufsicht des Schwingungserregers bei maximaler Unwucht;
Figur 6
eine perspektivische Ansicht des Verstellschiebers mit den Koppelgliedern und Drehgelenkverbindungen aus Fig. 3;
Figur 7
eine perspektivische Ansicht des ersten Unwuchtgewichtes aus Fig. 3;
Figur 8
eine perspektivische Ansicht des zweiten Unwuchtgewichtes aus Fig. 3;
Figur 9
eine perspektivische Ansicht des Richtschwingers;
Figur 10
eine perspektivische Ansicht des Richtschwingers aus Fig. 9 ohne Erregergehäuse und Deckel bei maximaler Unwucht;
Figur 11
eine perspektivische Ansicht des Richtschwingers aus Fig. 10 mit Phasenverschiebung;
Figur 12
Amplitudenverlauf der gerichteten Schwingung bei Phasenverschiebung gemäß Fig. 11.
The invention will be further explained by means of exemplary embodiments. They show schematically:
FIG. 1
A kinematic scheme of the spatial coupling transmission according to the invention;
FIG. 2a
a front view of the vibrator with minimal imbalance;
FIG. 2b
a front view of the vibrator at maximum imbalance;
FIG. 3
a perspective view of the vibrator with minimal imbalance;
FIG. 4
a perspective view of the vibrator at maximum imbalance;
FIG. 5a
a plan view of the vibrator with minimal imbalance;
FIG. 5b
a plan view of the vibrator at maximum imbalance;
FIG. 6
a perspective view of the adjusting slide with the coupling links and swivel joints Fig. 3 ;
FIG. 7
a perspective view of the first imbalance weight Fig. 3 ;
FIG. 8
a perspective view of the second imbalance weight Fig. 3 ;
FIG. 9
a perspective view of the stabilizer;
FIG. 10
a perspective view of the stabilizer Fig. 9 without exciter housing and cover with maximum unbalance;
FIG. 11
a perspective view of the stabilizer Fig. 10 with phase shift;
FIG. 12
Amplitude curve of the directional vibration in phase shift according to Fig. 11 ,

Figur 1 zeigt ein kinematisches Schema des erfindungsgemäßen räumlichen Koppelgetriebes. Das Getriebe lässt sich in zwei viergliedrige Getriebe zerlegen, nämlich in ein erstes Vierglied mit einem Gestell 1, einem Antriebsglied 2, einer ersten Koppel 3a und einem ersten Abtriebsglied 4a sowie ein zweites Vierglied mit einem Gestell 1, einem Antriebsglied 2, einer zweiten Koppel 3b und einem zweiten Abtriebsglied 4b. Die Koppel 3a, 4a sind über die Gelenke g2,3a und g2,3b mit dem Antriebsglied 2 und über die Gelenke g3a,4a und g3b,4b mit den Abtriebsgliedern 4a, 4b verbunden. Eine translatorische Bewegung des Antriebsgliedes 2 entlang der Achse Ax gemäß Pfeil T wird in eine schwingende Bewegung der Abtriebsglieder 4a, 4b um die Achse Ax gemäß Pfeil R umgeformt, wobei die Drehrichtungen der Abtriebsglieder 4a, 4b einander entgegengesetzt sind. Die Koppel 3a, 3b führen bei der Verstellung jeweils eine räumliche Bewegung aus. FIG. 1 shows a kinematic scheme of the spatial coupling transmission according to the invention. The transmission can be broken down into two four-membered transmissions, namely a first four-member with a frame 1, a drive member 2, a first coupling 3a and a first output member 4a and a second four-member with a frame 1, a drive member 2, a second coupling 3b and a second output member 4b. The coupling 3a, 4a are connected via the joints g 2,3a and g 2,3b to the drive member 2 and the joints g 3a, 4a and g 3b, 4b with the output members 4a, 4b. A translational movement of the drive member 2 along the axis Ax according to arrow T is converted into a swinging movement of the output members 4a, 4b about the axis Ax according to arrow R, wherein the directions of rotation of the output members 4a, 4b are opposite to each other. The coupling 3a, 3b perform in the adjustment of each a spatial movement.

Figur 2a zeigt eine Vorderansicht eines Ausführungsbeispiels des erfindungsgemäßen Schwingungserregers in einer Stellung, in der die durch die Unwuchtgewichte 20, 30 erzeugten Teilunwuchten sich gegenseitig aufheben, so dass die Gesamtunwucht minimal ist, d. h. im Wesentlichen null ist. Der Schwerpunkt S, welcher zum einen aus dem Teilschwerpunkt S1 des ersten Unwuchtgewichtes 20 und zum anderen aus dem Teilschwerpunkt S2 des zweiten Unwuchtgewichtes 30 gebildet wird, liegt in dieser Stellung auf der Horizontalen H, so dass kein radialer Abstand zur Rotationsachse Ax vorliegt. Damit tritt auch keine nennenswerte Unwucht auf. FIG. 2a shows a front view of an embodiment of the vibration exciter according to the invention in a position in which the partial imbalances generated by the imbalance weights 20, 30 cancel each other, so that the total imbalance is minimal, that is substantially zero. The center of gravity S, which is formed on the one hand from the partial center of gravity S1 of the first imbalance weight 20 and on the other from the partial center of gravity S2 of the second imbalance weight 30, lies in this position on the horizontal H, so that there is no radial distance to the axis of rotation Ax. Thus, no appreciable imbalance occurs.

Figur 2b zeigt die Vorderansicht des Schwingungserregers aus Fig. 2a in einer Stellung, in der die Schwingungsamplitude bzw. die Gesamtunwucht maximal ist. Durch das Getriebe zur Verstellung werden die Unwuchtgewichte 20, 30 und damit auch deren Schwerpunkte S1, S2 entlang der gezeigten Pfeilrichtungen zueinander verdreht, so dass der Schwerpunkt S nun einen deutlichen Abstand zur Horizontalen H bzw. der Rotationsachse Ax aufweist. Je größer der Abstand des Schwerpunktes S von der Rotationsachse Ax ist, desto größer ist die erzeugte Unwucht. Der Abstand des Schwerpunktes S von der Rotationsachse kann zwischen dem in Fig. 2a gezeigten, minimalen Wert 0 und dem in Fig. 2b gezeigten, maximalen Wert stufenlos eingestellt werden. FIG. 2b shows the front view of the vibration exciter Fig. 2a in a position in which the oscillation amplitude or the total imbalance is maximum. By the gearbox for adjustment, the imbalance weights 20, 30 and thus also their centers of gravity S1, S2 are rotated along the arrow directions shown to each other, so that the center of gravity S now has a significant distance from the horizontal H or the axis of rotation Ax. The greater the distance of the center of gravity S from the axis of rotation Ax, the greater the imbalance generated. The distance of the center of gravity S from the axis of rotation can be between the in Fig. 2a shown, minimum value 0 and the in Fig. 2b shown, maximum value can be adjusted continuously.

Figur 3 zeigt eine perspektivische Ansicht des erfindungsgemäßen Schwingungserregers 10. Zur besseren Übersicht ist hierbei das Gehäuse nicht gezeigt. Der Schwingungserreger umfasst im Wesentlichen das Getriebe 11, welches seinerseits einen Verstellschieber 12, die beiden Koppelglieder 13, 14 die Unwuchtgewichte 20, 30 sowie die vier Drehgelenkverbindungen 15 umfasst. Das hier nicht gezeigte Erregergehäuse entspricht dem in Fig. 1 gezeigten Gestell 1. Der Verstellschieber 12 entspricht dem Antriebsglied 2 aus Fig. 1. Die Koppelglieder 13, 14 repräsentieren die Koppel 3a, 3b aus Fig. 1. Die Unwuchtgewichte 20, 30 entsprechen den Abtriebsgliedern 4a, 4b aus Fig. 1. Die vier Drehgelenkverbindungen 15 stellen die Gelenke g2,3a, g2,3b, g3a,4ab g3b,4b aus Fig. 1 dar. Die Welle 18 des Schwingungserregers 10 wird zum einen aus einer ersten hohlgebohrten Teilwelle 21, welche das erste Unwuchtgewicht 20 trägt, und zum anderen aus einer zweiten hohlgebohrten Teilwelle 31, welche das zweite Unwuchtgewicht 30 trägt, zusammengesetzt. In der gezeigten Stellung wird keine Unwucht erzeugt (Fig. 2a). FIG. 3 shows a perspective view of the vibrator 10 according to the invention for a better overview, in this case the housing is not shown. The vibration exciter essentially comprises the gear 11, which in turn comprises an adjusting slide 12, the two coupling links 13, 14, the imbalance weights 20, 30 and the four pivot joints 15. The exciter housing, not shown here corresponds to the in Fig. 1 shown frame 1. The adjusting slide 12 corresponds to the drive member 2 from Fig. 1 , The coupling links 13, 14 represent the coupling 3a, 3b Fig. 1 , The imbalance weights 20, 30 correspond to the output members 4a, 4b Fig. 1 , The four hinge joints 15 make the joints g 2,3a , g 2,3b , g 3a, 4ab g 3b, 4b Fig. 1 The shaft 18 of the vibration generator 10 is firstly composed of a first hollow-bored partial shaft 21, which carries the first imbalance weight 20, and on the other hand from a second hollow-drilled partial shaft 31, which carries the second imbalance weight 30. In the position shown, no unbalance is generated ( Fig. 2a ).

Figur 4 zeigt eine perspektivische Ansicht des Schwingungserregers 10 aus Fig. 3, allerdings in einer Stellung, bei der die erzeugte Unwucht maximal ist (Fig. 2b). Dazu wird der Verstellschieber 12 in Richtung der Unwuchtgewichte 20, 30 hineingeschoben. Die mit dem Verstellschieber gelenkig verbundenen, starren Koppelglieder 13, 14 führen jeweils eine räumliche Bewegung aus, wodurch die mit ihnen ebenfalls gelenkig verbundenen Unwuchtgewichte 20, 30 samt den Teilwellen 21, 31 eine Drehbewegung um die Rotationsachse Ax ausführen. Während des Betriebes des Schwingungserregers sind die durch das Getriebe 11 hervorgerufenen Drehbewegungen der Unwuchtgewichte 20, 30 der durch den Erregerantrieb bzw. Vibrationsantrieb (nicht gezeigt) hervorgerufenen Drehbewegung der Unwuchtgewichte 20, 30 überlagert. FIG. 4 shows a perspective view of the vibration exciter 10 Fig. 3 , but in a position where the generated imbalance is maximum ( Fig. 2b ). For this purpose, the adjusting slide 12 is pushed in the direction of the imbalance weights 20, 30. The articulated with the adjusting slide, rigid coupling members 13, 14 each perform a spatial movement, whereby the articulated weights also associated with them unbalanced weights 20, 30 together with the partial shafts 21, 31 perform a rotational movement about the axis of rotation Ax. During operation of the vibration exciter caused by the gear 11 rotational movements of the imbalance weights 20, 30 of the excitation drive or vibration drive (not shown) caused rotational movement of the imbalance weights 20, 30 are superimposed.

In Figuren 5a, 5b sind die Draufsichten des Schwingungserregers 10 vor und nach der Verstellung gezeigt. In der Ausgangsstellung, wenn keine Unwucht erzeugt werden soll (Fig. 2a), befindet sich das eine Ende des Verstelischiebers 12 auf der Position X1. Dabei liegen die Lagerstellen L1, L2, an denen die Gabelköpfe 15 der Drehgelenkverbindungen 15 drehbar gelagert sind, um einen Abstand Y1 voneinander entfernt.In FIGS. 5a, 5b the plan views of the vibrator 10 are shown before and after the adjustment. In the initial position, if no imbalance is to be generated ( Fig. 2a ), one end of the adjusting slide 12 is at position X1. Here are the bearings L1, L2, where the fork heads 15 of the hinge joints 15 are rotatably mounted to a distance Y1 away from each other.

Wie in Figur 5b gezeigt wird das angesprochene Ende des Verstellschiebers 12 über einen Hydraulikzylinder oder einen Linearmotor (beide nicht gezeigt) zwecks Verstellung der Unwucht um den Betrag X in die Position X2 gebracht. Dies entspricht der Stellung für die maximale Unwucht (Fig. 2b). Die Unwuchtgewichte 20, 30 werden um die Rotationsachse Ax zueinander verdreht, so dass in der Draufsicht ein Abstand Y2, welcher kleiner ist als der Abstand Y1 aus Fig. 5a, erkennbar ist. Jede beliebige Position des Verstellschiebers 12 zwischen X1 und X2 ist stufenlos einstellbar.As in FIG. 5b shown is the addressed end of the adjusting slide 12 via a hydraulic cylinder or a linear motor (both not shown) for the purpose of adjusting the unbalance by the amount X placed in the position X2. This corresponds to the position for the maximum unbalance ( Fig. 2b ). The imbalance weights 20, 30 are rotated about the axis of rotation Ax to each other, so that in the plan view, a distance Y2, which is smaller than the distance Y1 from Fig. 5a . is recognizable. Any position of the adjusting slide 12 between X1 and X2 is infinitely adjustable.

Figur 6 zeigt ein Teil des Getriebes 11 aus Fig. 3. Der Verstellschieber 12 umfasst im Wesentlichen einen zylindrischen Teil, welcher in der Bohrung der Teilwelle 31 geführt ist. An dem linken Ende des Verstellschiebers 12 ist ein Wellenabsatz erkennbar, welcher zur Aufnahme einer Wälziagerung (nicht gezeigt) dient. Am gegenüberliegenden Ende des Verstellschiebers 12 sind zwei Gabelköpfe 16 um jeweils eine Hochachse drehbar gelagert und bilden jeweils eine Drehgelenkverbindung 15 mit einem Gelenkfreiheitsgrad von f=2. Damit verbunden sind die starren Koppelglieder 13, 14, welche jeweils wieder mittels Drehgelenkverbindungen 15 mit den Unwuchtgewichten 20, 30 (hier nicht gezeigt) verbunden sind. Anstelle der gezeigten Drehgelenkverbindungen 15 mit drehbar gelagerten Gabelköpfen 16 können die Koppelglieder 13, 14 auch über Kugelgelenke (f=3) drehbar am Verstellschieber 12 bzw. an den Unwuchtgewichten 20, 30 gekoppelt sein. Alternativ ist es auch möglich, Gelenklager zur drehbaren Verbindung der Koppelglieder 13, 14 am Verstellschieber 12 bzw. an den Unwuchtgewichten 20, 30 vorzusehen. FIG. 6 shows a part of the transmission 11 from Fig. 3 , The adjusting slide 12 essentially comprises a cylindrical part, which is guided in the bore of the partial shaft 31. At the left end of the adjusting slide 12, a shaft shoulder can be seen, which serves to receive a Wälziagerung (not shown). At the opposite end of the adjusting slide 12 two fork heads 16 are rotatably mounted about a vertical axis and each form a hinge joint 15 with a joint degree of freedom of f = 2. Connected thereto are the rigid coupling members 13, 14, which in each case again by means of hinge joints 15 with the imbalance weights 20, 30 (not shown here) are connected. Instead of the illustrated pivot connections 15 with rotatably mounted fork heads 16, the coupling links 13, 14 can also be coupled via ball joints (f = 3) rotatably on the adjusting slide 12 or on the imbalance weights 20, 30. Alternatively, it is also possible to provide spherical plain bearings for the rotatable connection of the coupling members 13, 14 on the adjusting slide 12 or on the imbalance weights 20, 30.

In Figuren 7 und 8 sind die Unwuchtgewichte 20, 30 aus Fig. 3 im Detail gezeigt. Gut sichtbar sind die mit den Unwuchtgewichten 20, 30 integral hergestellten Teilwellen 21, 31. Ebenfalls gut sichtbar ist, dass die Unwuchtgewichte 20, 30 baugleich sind. Im zusammengebauten Zustand kann das eine Ende (mit der größeren Bohrung) des zweiten Unwuchtgewichtes 30 auf der äußeren Mantelfläche der Teilwelle 21 des ersten Unwuchtgewichtes 20 rotatorisch gleiten. Dementsprechend bildet das eine Ende des ersten Unwuchtgewichtes zusammen mit der Teilwelle 31 des zweiten Unwuchtgewichtes auch eine rotatorische Gleitfläche. Beim Verstellen des Schwerpunktsabstands gleiten die genanten Gleitpartner relativ zueinander. Gut erkennbar ist ferner, dass die axiale Erstreckung der Unwuchtgewichte 20, 30 im Wesentlichen der axialen Erstreckung der Welle 18 mit den Teilwellen 21, 31 entspricht.In FIGS. 7 and 8 are the imbalance weights 20, 30 off Fig. 3 shown in detail. The partial waves 21, 31 produced integrally with the imbalance weights 20, 30 are also clearly visible. It is also clearly visible that the imbalance weights 20, 30 are identical in construction. In the assembled state, the one end (with the larger bore) of the second imbalance weight 30 on the outer circumferential surface of the partial shaft 21 of the first imbalance weight 20 can rotate rotationally. Accordingly, the one end of the first imbalance weight together with the part shaft 31 of the second imbalance weight also forms a rotary sliding surface. When adjusting the center of gravity distance the mentioned sliding slide relative to each other. It can also be clearly seen that the axial extent of the imbalance weights 20, 30 substantially corresponds to the axial extent of the shaft 18 with the partial shafts 21, 31.

In Figur 9 ist ein Richtschwinger 50 mit zwei Schwingungserregern gemäß Erfindung samt Erregergehäuse 19 und Deckel 17 gezeigt.In FIG. 9 is a directional vibrator 50 with two vibrators according to the invention including excitation housing 19 and cover 17 is shown.

In Figur 10 ist der Richtschwinger 50 aus Fig. 9 gezeigt, allerdings ohne Deckel 17 und Erregergehäuse 19. Der Richtschwinger 50 umfasst zwei nebeneinander angeordnete Schwingungserreger 10, 40, welche Mittel (nicht gezeigt) zur synchron gegensinnigen Rotation der Unwuchtwellen aufweisen. Anstelle der Verstellung mittels separater Verstellzylinder ist es zweckmäßig einen Hauptverstellzylinder 41 mit einem Verstellkolben 42 vorzusehen. Das mit dem Verstellkolben 42 verbundene Verbindungselement 44 sorgt für eine synchrone Verstellung der Verstellschieber der Schwingungserreger 10, 40. Der Hilfszylinder 43 ist dazu vorgesehen, um eine Phasenverstellung der Unwuchtwelle des Schwingungserregers 40 gegenüber der Unwuchtwelle des Schwingungserregers 10 vornehmen zu können. In der in Fig. 10 gezeigten Stellung laufen die Unwuchtwellen der Schwingungserreger 10, 40 in gleicher Phase mit maximaler Unwucht. Damit ist die durch den Richtschwinger 50 erzeugte Erregerkraft vertikal nach oben bzw. unten gerichtet.In FIG. 10 the directional vibrator 50 is off Fig. 9 shown, but without cover 17 and exciter housing 19. The directional vibrator 50 includes two juxtaposed vibration exciters 10, 40, which means (not shown) for synchronously opposing rotation of the unbalanced shafts have. Instead of adjustment by means of separate adjusting cylinder, it is expedient to provide a main adjusting cylinder 41 with an adjusting piston 42. That with the adjusting piston 42 connected connecting member 44 provides for a synchronous adjustment of the adjusting slide of the vibration exciter 10, 40. The auxiliary cylinder 43 is provided to make a phase adjustment of the imbalance shaft of the vibration exciter 40 relative to the imbalance shaft of the vibration exciter 10. In the in Fig. 10 shown position run the unbalance shafts of the vibration exciter 10, 40 in the same phase with maximum imbalance. Thus, the excitation force generated by the directional oscillator 50 is directed vertically upwards or downwards.

Figur 11 zeigt den Richtschwinger 50 aus Fig. 10, allerdings mit einer Phasenverschiebung. Hierbei ist die Phase der Welle des ersten Schwingungserregers 10 gegenüber der Welle des zweiten Schwingungserregers 40 dadurch verschoben, dass die Unwucht des ersten Schwingungserregers 10 aufgrund einer Verstellbewegung eine Exzentrizität e1 aufweist, welche - wie auch schematisch in Fig. 11 dargestellt - einen geringeren Wert aufweist als die Exzentrizität e2 der Unwucht des zweiten Schwingungserregers 40. Da die Unwucht U gemäß der Formel U = m * e aus dem Produkt der Masse m und der Exzentrizität e (Schwerpunktsabstand von der Rotationsachse) berechnet wird, ist die Unwucht des ersten Schwingungserregers 10 kleiner als die Unwucht des zweiten Schwingungserregers 40. Infolge der synchron gegensinnigen Rotation der Wellen der Schwingungserreger 10, 40 wird eine gerichtete Schwingung erzeugt, deren Achse A nicht vertikal, d. h. senkrecht zur Horizontalen H, sondern um einen gewissen Winkel, beispielsweise 15°, gegenüber der vertikalen Achse V geneigt ist, wie auch in Figur 12 gut erkennbar. Dies kann zweckmäßiger Weise zur Einstellung einer eigenständigen Vorwärts- oder Rückwärtsbewegung einer Vibrationsplatte, welche einen erfindungsgemäßen Richtschwinger 50 umfasst, genutzt werden. FIG. 11 shows the directional oscillator 50 Fig. 10 , but with a phase shift. In this case, the phase of the shaft of the first vibration exciter 10 relative to the shaft of the second vibration exciter 40 is displaced by the fact that the imbalance of the first vibration exciter 10 due to an adjusting movement has an eccentricity e1, which - as also schematically in Fig. 11 Since the imbalance U is calculated according to the formula U = m * e from the product of the mass m and the eccentricity e (center of gravity distance from the axis of rotation), the eccentricity e2 of the imbalance of the second vibration exciter 40 is Unbalance of the first vibration exciter 10 is smaller than the imbalance of the second vibration exciter 40. Due to the synchronous rotation in opposite directions of the waves of the vibration exciters 10, 40, a directional vibration is generated whose axis A is not vertical, ie perpendicular to the horizontal H, but by a certain angle, For example, 15 °, is inclined relative to the vertical axis V, as well as in FIG. 12 good to see. This may expediently be used for setting an independent forward or backward movement of a vibration plate, which comprises a directional vibrator 50 according to the invention.

Claims (7)

Schwingungserreger (10) mit einer Welle (18) und mit mindestens zwei auf der Welle angeordneten Unwuchtgewichten (20, 30), wobei der radiale Abstand des gemeinsamen Schwerpunktes der Unwuchtgewichte (20, 30) von der Rotationsachse (Ax) der Welle (18) mittels eines Getriebes (11) stufenlos verstellbar ist,
dadurch gekennzeichnet,
dass das Getriebe (11) ein räumliches Koppelgetriebe, beispielsweise ein räumliches Schubschwingengetriebe, ist.Vibration generator (10) having a shaft (18) and having at least two imbalance weights (20, 30) arranged on the shaft, wherein the radial distance of the common center of gravity of the imbalance weights (20, 30) from the axis of rotation (Ax) of the shaft (18) by means of a transmission (11) is infinitely adjustable,
characterized,
that the transmission (11) is a three-dimensional coupling transmission, for example, a spatial thrust wings transmission. Schwingungserreger (10) nach Anspruch 1,
dadurch gekennzeichnet,
dass das Getriebe (11) einen Verstellschieber (12) und Koppelglieder (13, 14) umfasst, wobei jedes Koppelglied (13, 14) mittels Drehgelenkverbindungen (15) mit dem Verstellschieber (12) und einem der Unwuchtgewichte (20, 30) verbunden ist.Vibration generator (10) according to claim 1,
characterized,
in that the transmission (11) comprises an adjusting slide (12) and coupling members (13, 14), each coupling member (13, 14) being connected to the adjusting slide (12) and one of the imbalance weights (20, 30) by means of rotary joint connections (15) , Schwingungserreger (10) nach Anspruch 2,
dadurch gekennzeichnet,
dass die Drehgelenkverbindungen (15) je einen Gelenkfreiheitsgrad von f=2 aufweisen.Vibration generator (10) according to claim 2,
characterized,
that the swivel joints (15) each have a joint degree of freedom of f = 2. Schwingungserreger (10) nach Anspruch 2 oder 3,
dadurch gekennzeichnet,
dass die Drehgelenkverbindungen (15) je einen drehbar gelagerten Gabelkopf (16) umfassen.Vibration generator (10) according to claim 2 or 3,
characterized,
in that the swivel joints (15) each comprise a rotatably mounted clevis (16). Schwingungserreger (10) nach einem der vorhergehenden Ansprüche,
dadurch gekennzeichnet,
dass die Welle (18) koaxiale Teilwellen (21, 31) aufweist, welche jeweils ein mit ihr dreh- und achsfest verbundenes Unwuchtgewicht (20, 30) aufweisen, wobei die Teilwellen (21, 31) über rotatorische Gleitflächen einander benachbart angeordnet sind.Vibration generator (10) according to one of the preceding claims,
characterized,
in that the shaft (18) has coaxial partial shafts (21, 31) which each have an imbalance weight (20, 30) connected to it in a rotationally and axially fixed manner, wherein the partial shafts (21, 31) are arranged adjacent to each other via rotational sliding surfaces. Richtschwinger (50) zur Erzeugung einer gerichteten Schwingung mit mindestens zwei Schwingungserregern (10, 40) nach einem der vorhergehenden Ansprüche, wobei die Phase zwischen den Wellen der Schwingungserreger (10, 40) stufenlos verschiebbar ist.Directional oscillator (50) for generating a directional vibration with at least two vibration exciters (10, 40) according to one of the preceding claims, wherein the phase between the waves of the vibration exciter (10, 40) is continuously displaceable. Vibrationsplatte oder -walze mit einem Richtschwinger (50) nach Anspruch 6.Vibratory plate or roller with a directional vibrator (50) according to claim 6.
EP11000185.6A 2010-03-03 2011-01-12 Continuously adjustable vibration generator Active EP2363212B1 (en)

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Also Published As

Publication number Publication date
US8881612B2 (en) 2014-11-11
DE102010010037A1 (en) 2011-09-08
DE102010010037B4 (en) 2019-10-31
US20120055276A1 (en) 2012-03-08
CN102189075B (en) 2014-10-22
EP2363212B1 (en) 2019-10-02
EP2363212A3 (en) 2016-11-09
CN102189075A (en) 2011-09-21

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