JPS60253602A - Vibration apparatus for ground surface compacter - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The invention relates to a vibration device, in particular for a ground compactor, in which the relative angular position of two driven, rotating, eccentrically supported weights (counterweights) is It relates to a type that is adjustable and in which the above-mentioned adjustment of the counterweight is possible to the driver by means of an adjusting device.

Vibratory devices of the type mentioned above are known in different constructions. For example, in order to adjust the rotational motion phase of a rotating counterweight for the purpose of steplessly adjusting the strength of vibration from the maximum value to the minimum value, the relative angular position of the rotating counterweights may be adjusted. The use of gear transmissions or planetary gear transmissions is known.

The object of the invention is to provide a vibration device of the type mentioned in the introduction which is simple in construction and operation and is versatile. This problem is solved according to the invention in a vibrating device of the type mentioned in the introduction, in which one, eccentrically supported weight is supported on a driven first shaft, and the other, eccentrically The supported weight is supported on a second shaft arranged concentrically with respect to the first shaft, and both the first and second shafts can be driven to rotate synchronously with each other. The invention is solved by the fact that the first shaft and the second shaft are relatively rotatable via thread-like teeth with a large lead angle.

According to the above configuration of the vibrating device according to the present invention, the vibrating device can be replaced with a compact structure. This vibrating device has a relatively short overall length and therefore helps save space. The angular position adjustment of the rotating counterweights is accomplished by relatively simple means. Furthermore, the compact structure of the vibrating device has high reliability for its stationary and rotating components, and it is easy to install this vibrating device as a vibration generator on a road roller, tamper, etc. It can be done easily and at a small cost.

According to one embodiment of the invention, the second shaft is mounted as a hollow shaft on the first shaft, the two shafts being non-rotatably connected by means of a sleeve or the like. The sleeve is supported so as to be axially movable relative to both shafts. The cooperation between the sleeve and the second shaft advantageously takes place via thread-like teeth with a large lead angle.

Advantageously, the thread-shaped teeth described above are constructed in such a way that a rotation of the counterweight, which is supported on both concentric axes, occurs through 180 degrees from zero.

During rotation of both countershafts, the angular position of the counterweight is adjusted by axial movement of the sleeve. If the counterweights are offset 180° from each other, no vibrations occur because the moments cancel each other out. Eccentrically supported counterweights are 180% of each other
Adjustment is possible to all intermediate angular positions up to the lower position, so that the intensity of the vibration is continuously adjusted in a stepless manner from the maximum to the minimum value.

The movement of the sleeve can take place in different ways. The sleeve can be moved in the axial direction by means of an adjusting actuator, for example a lever mechanism. In accordance with one advantageous embodiment of the invention, the rotatably mounted lever is connected to the sleeve via a connection consisting of a fork and hook. Such an arrangement is particularly advantageous when the vibration device is used as an independent device unit. Furthermore, it is also possible to carry out the movement of the sleeve by means of an axially movably supported connecting rod. Such an adjustment operating device can be used if the vibrating device is to be operated in the axial direction.

When the vibrating device of the present invention is used as an independent device unit, the vibrating device of the present invention is attached to a device to provide vibration, such as a diaphragm, to a casing of the vibrating device that receives both shafts supported concentrically with each other. It is advantageous to provide legs for the purpose. Further, when the vibrating device of the present invention is used in a road roller, the casing of the vibrating device can be configured so that it can be attached to an internal intermediate wall of a roller dome or the like.

The invention will now be explained with reference to the illustrated embodiment.

The vibrating device 1 in FIG. 1 has a shaft 2 as a first shaft, which is driven by a drive device via a connecting plate 4 of a projecting end 3 and which is driven in a casing 7 by means of bearings 5 and 6. bearings.

This casing 7 is composed of two casing parts 8, 9, in which case the bolt 10 is connected to both casing parts 8, 9.
It combines 9. A weight 12, which is eccentrically supported on the driven shaft 2, is connected to the shaft 2 so that it cannot rotate relative to it.

The shaft 2 with the cantilevered shaft part 2a is provided with a concentrically arranged hollow shaft 13 as a second shaft, which on the one hand has a shaft part 2a
On the other hand, it is mounted in the housing part 9 by bearings 14, 1B. An eccentrically supported weight 15 is arranged on the front end of the hollow shaft 13 so as to be non-rotatable relative to the hollow shaft 13. The rear end of the shaft part 2a is mounted in a lid 17 of the casing part 9 by means of a bearing 16.

The sleeve 19 is connected to the shaft 2 via splines 21 by a sleeve disc 20 screwed onto the sleeve.
It is non-rotatably coupled to this. Sleeve 19
is connected to the hollow shaft 1 through the screw thread teeth 22 with a large lead angle.
It is engaged with 3. When the sleeve 19, 20 moves in the axial direction, the threaded teeth 22 with a large lead angle
The angular position of one eccentrically supported weight 15 relative to the other eccentrically supported weight '12 is adjusted. This adjusts the strength of the vibration.

In other words, in order to adjust the strength of vibration, the sleeve 19
．． 20 in the axial direction, the sleeve part 1
9 has a bearing 24, which is surrounded by a non-rotating bearing bush 25. There is a pin 26 on the outer periphery of the bearing bush 25, and this pin 26 has a
A hawk-shaped portion 29 of a lever 28 rotatable about an axis 27 is engaged. The shaft 27 is journalled in the casing part 9 and can be operated manually via a crank outside the casing or automatically by means of an adjusting motor or the like connected to the shaft 27. Reference numeral 29' designates a lid provided on the casing part 9.

The driven shaft 2 and the hollow shaft 13 are driven at the same rotation speed. When the lever 2B is pivoted, the sleeve 19,20 is rotated and moved axially on the shaft part 2a with respect to the hollow shaft 13, which is mounted in an axially immovable manner, so that a screw with a large lead angle can be rotated. Through the mountain-shaped teeth 22,
The hollow shaft 13 is rotated relative to the shaft 2, and the angular position of the eccentric weight 150 relative to the eccentric weight 12 is adjusted. Adjustment takes place over a range of 180° from 0, stepless adjustment to all intermediate angular positions being possible. The thread-like teeth 22 with a large lead angle are 40' to 50'.
It can be provided at an angle of . Both eccentric weights 12°15
The strength of the vibration is at its maximum in the position shown, where the two are opposite each other. Eccentric weight 15 is 18 relative to eccentric weight 12
In the 0° rotated position, the vibrations are caused by both eccentric weights 12.
15 can no longer be obtained by canceling or balancing the vibration moments. The stepless adjustment takes place without taking into account the vibration frequency of the drive shaft. The intensity of the vibration can be easily adjusted in relation to the hardness of the ground.

In the embodiment according to FIG. 1, the housing 7 has a leg 31 which is provided with a fixing flange 32 so that the vibrating device 1 can be mounted on a flat support, e.g. It can be mounted on a corresponding part of a diaphragm such as a titanpa.

In the embodiment of FIG. 2, a vibrating device 34 is shown which is mounted in a different manner, parts in common with the embodiment of FIG. 1 being provided with the same reference numerals. This vibrating device 34 is a roller drum 35 on a road roller or the like.
It is configured to be installed inside. Inside the roller drum 35 there is a ring-shaped intermediate wall 36 which is fixedly connected to the circumferential wall of the roller drum 35, to which the housing 7 is fixed by means of a housing part 9 and bolts 37. The axial movement of the sleeve 19.20 is
The bearing seat 38 is attached to the lid part 1 of the casing part 9.
This is possible by being movably supported in 7a. The free ends of the stay pins 38 are connected to each other by a plate 39 or the like, to which is attached a rod 40 which can be moved axially by any suitable drive. When the stay pin 38, the plate 39 and the rod 40 are moved in the direction of the arrow, the sleeve 19.20 moves axially inward, thereby adjusting the angular position of the eccentrically supported weight 15 from zero to 180°. It is done. On one end side of the roller drum 35 a drive for the shaft 2 can be provided, and on the other end side of the roller drum 35 an adjusting actuating device can be arranged for moving the sleeve 19,20. can.

[Brief explanation of drawings]

FIG. 1 is a schematic longitudinal cross-sectional view of an embodiment of the vibration device of the present invention, which can be used as an independent device unit, for example, by being attached to the vibration plate of a damper, and FIG. 2 shows the roller of a road roller. FIG. 3 is a schematic longitudinal sectional view of another embodiment of the vibration device of the present invention, which can be used by being installed inside a drum.

Claims (1)

[Claims] 1. A vibrating device, wherein the relative angular positions of two driven, eccentrically supported weights are adjustable, and the angular position adjustment of both weights is operated by an adjusting device. In one possible version, one eccentrically supported weight (12) is supported on the driven first shaft (2) and the other eccentrically supported weight (12) is supported on the driven first shaft (2). Ta weight (15)
is supported by a second shaft (13) arranged concentrically with respect to the first shaft (2°2a), and both the first and second shafts (2, 2a) ;13) are connected to each other so as to be rotationally drivable synchronously, and the first shaft (2, 2a) and the second shaft (13) have thread-like teeth (22) having a large lead angle. ) A vibrating device characterized in that it is relatively rotatable through. 2. The second shaft (13) is designed as a hollow shaft and is supported on the first shaft (2, 2a), and both the first and second shafts (2, 13) are arranged in a sleeve ( The vibrating device according to claim 1, wherein the vibrating device is non-rotatably coupled via the oscillators 19 and 20). 6. The sleeve (19, 20) is supported so as to be movable in the axial direction with respect to both the shafts (2, 13), and via the thread-like teeth (22) having the above-mentioned large lead angle, 3. Vibration device according to claim 1, wherein the vibration device is engaged with a second shaft (13) configured as a hollow shaft. 4. The sleeve (19, 20) is connected to the adjustment operating device (27, 2)
8) and rotatably mounted lever (2) of the adjusting actuator (27, 28).
8) is connected to the sleeve (
19, 20) The vibrating device according to any one of claims 1 to 6. 5. Vibration according to any one of claims 1 to 3, wherein the sleeve (9, 20) is movable by a connecting rod (3B, 39.40) supported so as to be movable in the axial direction. Device. 6. The casing (7) of the vibrating device (1), which receives both shafts (2, 13) supported concentrically with each other, is connected to the leg (31).
), and the vibration device (1
) is mounted on a device, such as a diaphragm, to be vibrated by the vibrating device.
The vibration device according to any one of Items 1 to 5. Z The casing (7a) that receives both shafts (2a, 13) that are supported concentrically with each other is the intermediate wall (36)
6. The vibrating device according to claim 1, wherein the vibrating device is mounted in the roller drum (35) via the vibrating device.