CZ292952B6 - Vibrating roller runner containing vibrating mechanism with directional vibration - Google Patents

Abstract

In the present invention, there is disclosed a runner of a vibrating roller comprising a vibrating mechanism with directional vibration wherein the vibrating roller consists of a runner (29) with an engine (16) mounted on the axis (30) thereof. Said engine is fixedly coupled with a gearbox (32) to which a vibrating housing (31) of a vibrating mechanism with directional vibration is attached. The gearbox (32) is formed by a basket (34) containing bearings (41A) and (41B) in which there are carried toothed wheels (10) and (13) with pinions (11) and (12). The vibrating housing (31) includes gearings (37A), (37B), (38A), (38B), (39A) and (39B) serving for carrying shafts (19), (20), (21) and (40) with counterweights (22), (23) and (24) therein, wherein said shafts are interconnected through the mediation of toothed wheels (25), (26), (27) and (28). The present invention is characterized in that said gearbox (32) is movably connected through the mediation of a bearing (35) to the vibrating housing (31) that is fixedly coupled to the runner (29) jacket (36).

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tread arrangement of a vibratory roller comprising a vibration directed mechanism.

BACKGROUND OF THE INVENTION

Some compaction technology manufacturers use a solution to achieve directed vibration in that the vibration exciter housing includes a pair of unbalanced shafts in its lower portion, with an additional shaft mounted in the upper portion. The third shaft drives the two unbalanced shafts by means of a gear wheel in either the opposite or the opposite direction of rotation. This arrangement of the vibration exciter of the compaction machine makes it possible to adjust the vibration amplitude to a greater or lesser degree. The disadvantage of this solution, however, is that the adjustment value of the greater or lesser amplitude of the vibration is relatively inaccurate, since the solution does not allow precise locking of the relative position of the pair of shafts with unbalance to the third driven shaft, which causes compaction work.

Another known solution of a vibrational mechanism with a directed vibration is provided, for example, by German patent application DE 41 29 182, which is based on a vibration tread with a vibration casing which can deflect about an axis parallel to the axes of the shafts on which unbalance is mounted. . The vibration box can be fixed in the desired position and the vibration shafts move from one above the other to the next side, where they are approximately horizontal. The advantage of the solution is the possibility to set the vibration vector from vertical to approximately horizontal. A disadvantage of the described solution, however, is that the vibration housing is rotatably mounted in the tread, placing high demands on the bearing capacity between said tread and the vibration housing. The bearings must transmit high alternating forces from the centrifugal forces of directed vibration.

A similar solution of a vibration-controlled vibration mechanism is provided by the invention to which European Patent No. EP 0 530 546 has been granted. Also this invention uses a solution of two vibration shafts mounted in a vibration housing that can deflect about an axis relative to the tread in which it is rotatably mounted. This solution makes it possible to position the vibration housing in the desired position, so that the vibration shafts mounted therein are moved from a vertical position to an approximately horizontal position. The disadvantages of this solution are the same as those mentioned for the solution cited in the preceding paragraph of German Patent Application DE 41 29 182.

SUMMARY OF THE INVENTION

Said drawbacks will be overcome by the solution of a vibratory roller tread comprising a vibration-guided vibration mechanism comprising a tread having an engine mounted on an axis which is rigidly coupled to the gearbox and to which the vibration-guided vibration mechanism casing is attached. a basket comprising bearings in which the pinion gears are supported, and wherein the vibration housing comprises bearings in which unbalance shafts are mounted, the shafts being interconnected by means of gears, the principle being that which is rigidly connected to the tread housing, the gearbox is movably connected via a bearing.

In a tread vibration housing containing a vibration-guided vibration mechanism, there is a central shaft with an unbalance and two counter-rotating shafts also with unbalance. The spindle shafts produce centrifugal forces, which are transmitted to the tread by means of bearings in which said shafts are attached.

The change of the position of the basket which is accommodated in the gearbox is made possible by the movement of the driven shaft 5 relative to the segment which is fixedly connected to the basket, this change of position of the basket being independent of the position of the vibration box. The advantage of this arrangement is that it allows the basket to be rotated in various positions around the axis and also to change the direction of the vibration force vector in a continuous range between 0 ° and 180 °. Another advantage of the basket arrangement, including the movement of the driven shaft relative to the segment, is that the basket is rotated at the same angle as the direction of the vibration force vector of the vibration mechanism, which is caused by the unbalance.

By arranging the basket in the gearbox, a coaxial output of counter-rotating separate shafts, namely shafts 17 and hollow shafts 18, which connect the gearbox to the vibration housing, is possible. As a result of this arrangement, the direction of the vibration force vector of the tread of the vibration roller 15 containing the directed vibration mechanism is thus rotated by the same angle as the gearbox basket, thereby allowing the vibration vector to be adjusted from vertical to horizontal.

The direction of the vector of the directed vibration force is independent of the position of the vibration box and is controlled by the movable basket, the position of the basket being independent of the position of the vibration box.

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BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail with reference to the drawings, in which Fig. 1 schematically shows an overall view of a tread of a vibratory roller comprising a vibrating mechanism with directed vibration.

Giant. 2 is a view of the overall configuration of the gearbox. Giant. 3 is a more detailed view of the basket arrangement in the gearbox.

DETAILED DESCRIPTION OF THE INVENTION

The tread of the vibratory roller comprising the vibration-controlled vibration mechanism is formed by the tread 29, on whose axis 30 the motor 16 is mounted, the gearbox 32 and the vibration box 31. The motor 16 is rigidly coupled to the gearbox 32, The torque from the motor 16, which is preferably constituted by a hydraulic motor, is transmitted via the clutch 33 to the inside of the gearbox 32. This consists of a movably mounted basket 34 in which the gears 10, 13, pinion 11, 12 and Shafts 17.18. The basket 34 is mounted on the bearings 41A and 41B relative to the gearbox 32, thereby making it possible. Easy shooting.

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The vibration housing 31 consists of unbalances 22, 23, 24, shafts 19, 20, 21 and countershaft 40, gears 25, 26.27, 28 and bearings 37A. 37B. 38A. 38B. 39A and 39B.

The arrangement of the gears 10, 13 of the sprockets 11, 12 and the shafts 17, 18 housed in the basket 34 in the gearbox 32 allows the torque transmitted from the clutch 33 to be distributed on the gear 10 in two directions.

One part of the torque is transmitted from the left gear 10 to the shaft 17 which is housed inside the hollow shaft 18 inside the vibration housing 31. where the shaft 17 is connected to the central 50 shaft 20, on which the central unbalance 23 is mounted.

The second torque portion is transmitted from the left gear 10 via intermediate pinion gears 11 and 12 to the right gear 13 and then through the hollow shaft 18 to the inside of the vibration housing 31, where the hollow shaft 18 is connected to the left shaft 19. unbalance 22 and oz

A gear 25 that engages with the gear 26. The gear 26 is rigidly connected via a countershaft 40 to the gear 27 that engages the gear of the gear 28. The gear 28 is fixed to the right shaft 21 on the right. By placing the countershaft 40 off the tread axis 30, the torque is transferred from the left shaft 19 to the DC shaft 21 and thereby to step on the counter-rotating center shaft 20, which is mounted on the tread axis 30. 29.

The left pinion 10 housed in the gearbox 34, which is rigidly connected to the shaft 17 engages the gearing of the left pinion 11, the left pinion 11 engages the gearing of the right pinion 12. The right pinion 12 engages the gearing of the right gear 13 with hollow shaft 18.

By arranging the basket 34 with the gears 10, 13 and the pinion 11, 12 in the gearbox 31, a coaxial output of the counter-rotating separate shafts 17 and 18 is possible. The counter-directional output of the two coaxial shafts 17 and 18 is provided by the shaft 17 being rigidly connected with the left gear 10 and the hollow shaft 18 is rigidly connected by the right gear 13, with the odd number of co-meshing gear pairs changing the direction of rotation.

By counter-rotating the central unbalance 23 against the unbalance 22 and 24 stored together in the vibration box 31, the direction of the vibration force vector is directed in a preset direction perpendicular to the tread axis 30. The vibration force vector direction of the vibration compaction roller and 24 rotate at the same angle as the basket 34 of the gearbox 32. thereby allowing the vibration vector to be adjusted from vertical to horizontal.

The centrifugal forces from the central shaft 20 with the counterbalance 23 and the counter-rotating shafts 19 and 20 on which the unbalances 22 and 24 are mounted are transmitted via bearings 37A, 37B, 38A, 38B, 39A and 39B to the casing 36 of the tread 29.

By moving the driven shaft 15 relative to the segment 14 which is rigidly connected to the basket 34 of the gearbox 32, the basket 34 is allowed to rotate to different positions about the axis 30. This solution allows for a smooth change of direction of the vibration force vector preferably 0 to 180 °. By this arrangement of the basket 34 and the movement of the driven shaft 15 relative to the segment 14, the basket 34 is rotated at the same angle as the direction of the vibration force vibration mechanism vector due to the unbalance 22, 23 and 24. Rotating the basket 34 in the gearbox 32 allows phase shifting of the rotating shafts 17al8.

Industrial applicability

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The tread of a vibratory roller comprising a vibration-guided vibration mechanism according to the invention can be used in all compacted and split tread compactors that need to be guided by vibration-guided, for example, due to the nature of the work being performed.

Claims (7)

PATENT CLAIMS 1. A drum tread, the axis of which is a motor fixed to the gearbox, to which the vibrating box of the vibrating mechanism with rectified vibration is attached, the gearbox comprising a basket containing shafts on which the gears and pinions are mounted, and wherein the vibratory housing comprises bearings in which unbalance shafts are mounted, said shafts being interconnected by means of gears, characterized in that to the vibratory housing (31) which is rigidly connected to the casing (36) of the tread (29) , a gearbox (32) is movably connected by means of a bearing (35). Vibration roller tread according to claim 1, characterized in that the central shaft (20) with the unbalance (23) and the counter-rotating shafts (19) and (20) with the unbalance (22) and (24), which are supported 15 within the vibrating housing (31), they generate centrifugal forces which are transmitted to the tread (29) by means of bearings (37A), (37B), (38A), (38B), (39A) and (39B). •and Vibratory roller tread according to claims 1 to 2, characterized in that the basket (34) is mounted movably in the gearbox (32), irrespective of the position of the vibrating box (31), 20, the gearbox (32) is rotated by a toothed shaft (15) and a toothed segment (14) which is rigidly connected to the basket (34). Vibration roller tread according to claims 1 to 3, characterized in that the shaft (17) and the hollow shaft (18) connect the transmission housing (32) to the vibration housing (31), the shaft (17), 25, which is mounted in the hollow shaft (18), rotates counter-directionally with respect to the shaft (18). Vibration roller tread according to claims 1 to 4, characterized in that the shafts (19) and (21) are connected by means of gears (25), (26), countershaft (40) and gears (27) and (28). . Vibration roller tread according to claims 1 to 5, characterized in that the direction of the directional vibration vector is independent of the position of the vibration housing (31). Vibration roller tread according to claims 1 to 6, characterized in that the direction 35 of the directed vibration vector is adjustable by the position of the basket (34), the position of which is independent of the position of the vibration box (31).