CZ236697A3 - Vibration exciter - Google Patents

Abstract

The generator has an adjusting unit (5), with at least one flywheel unit (20,30) on either side. The adjusting unit has two coaxial relatively turnable toothed adjusting wheels (6,7). One of the wheels meshes with a toothed wheel (12,16) of one of the neighbouring flywheel units. The other adjusting wheel meshes with the other toothed wheels of the other unit. There are two flywheel units (20,40,30,50) on either side of the adjusting unit, and these mesh with each other. The axis (2,21,31,41,51) of all units are parallel to each other, and located in the same plane.

Description

Oscillator

Technical field

BACKGROUND OF THE INVENTION The present invention relates to an oscillator with at least one rotationally driven vibratory unit having an external vibrator in the form of a hollow cylinder and a coaxially mounted internal vibrator therein, and a spaced gear adjusting device which is coupled to the external gear vibrator and with the internal vibrator gear

BACKGROUND OF THE INVENTION

A similar vibration exciter is known from DE 35 05 580 C2, in which the speed is adjusted by means of an axial displacement of the helical gear double gear. The required axial drive and the corresponding sliding bearing lead to a complex construction. Moreover, this known oscillator with a single vibration unit is only partially suitable for generating larger oscillations, as well as the oscillator known from DE 24 09 417 A.

Higher vibration forces and a compact design of the apparatus are achievable by using two vibration units such as the vibration hammer described in EP 0 199 922. Hydraulic fluid is used to adjust the oscillations in this known device. However, due to the tightness, this solution is problematic for devices designed to produce strong oscillations. In addition, the vibrational hammer described cannot be totally summed. The opposite rotation of both vibration units results in undesirable parasitic

AND

-2 - movement.

A multi-vibration exciter is also mentioned in DE 27 38 794 A. For adjusting the external vibrator against the internal vibrator, a complex adjusting and clamping device is provided, which is expensive to manufacture.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a compact and, if possible, simply designed oscillator with which it is possible to generate even larger oscillations.

According to the invention, this object is achieved by providing for both sides of the adjusting device at least one vibration unit at all times, that the adjusting devices have toothed adjusting wheels which are coaxially mounted and rotatable relative to each other and that one of the toothed adjusting wheels is meshing with one gear of each adjacent vibration unit, while the second gear adjuster wheel meshes with a second gear of each adjacent vibration unit. By rotating the two gear wheels against one another, for example by 180 [deg.], The external or internal vibrators of the individual vibration units are rotated by the same angle. In a simple way, the oscillations can be continuously varied, depending on the rotation, by adding or compensating.

An advantageous development of the invention consists in providing for both sides of the adjusting device two vibration units which are engaged with each other. Both

On the one hand, the vibration units engage only one of the adjusting gear wheels of the adjusting device, while the other vibration unit engages only the first vibration unit. By this arrangement with a total of four vibratory units, for example, a vertical vibrator can be formed in which the oscillations are totally added in the vertical direction. However, if the same vibrating masses are used for the inner and outer vibrator, the oscillations in the horizontal direction are compensated to zero. By avoiding undesired side vibrations, a similar vertical vibrator is particularly suitable for the function of an adjusting vibrator for special underground work. The arrangement according to the invention allows the rotation of oscillations with a relatively large vibration mass without causing undesired parasitic movements.

Particularly good compensation for the undesired oscillation components is achieved by having the gear adjuster on one side engaging the outer vibrator gear of one vibratory unit, while the same gear adjusting wheel engages the internal vibrator gear of the other vibrating unit on the other.

Another advantageous development of the invention is that, on one side of the adjusting device, only the external vibrator gears and the internal vibrator gears are engaged together. With this arrangement, the vibrations of the external vibrator and the internal vibrator can be precisely matched on each side.

In principle, for a compact design of the oscillator, it is possible to arrange the axes of the vibration units and the adjustment units so that they are axially parallel to one another but spatially.

shifted. However, to accurately add oscillations or compensate them, it is advantageous to arrange the axes of the vibration units and the adjusting device so that they are axially parallel to one another and lie in the same plane.

For a more robust design, it is advantageous that the internal vibrators are mounted in the housing so that they can rotate. For this purpose, it is suitable that the external vibrator is supported by a bearing device on the internal vibrator. The bearing device may be a roller bearing, in particular a needle bearing, or a plain bearing. The non-lubricating plain bearings in the sliding bearing function must be selected in the case where the oscillator according to the invention is intended to produce strong oscillations.

The motor torque can in principle be guided through the adjusting device and transmitted to the individual vibration units by means of gears. The adjusting device must then be implemented in the corresponding dimensions. For small adjusters, however, it is preferable that the torque of the drive motor can be transmitted to the vibration unit. The drive motor is in direct connection with the internal or external vibrator of the vibration unit by means of a gearbox.

As a variant to this embodiment, according to the invention, it is envisaged that the driving torque can be simultaneously transmitted to all vibration units. For this purpose, for example, it is possible to envisage a propulsion motor for each vibration unit or a central motor with a corresponding transmission. Thanks to this type of drive, the gear wheels of both the adjusting device and the individual vibration units can be designed with a low strength. .

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is further explained on the basis of an exemplary embodiment, which is schematically illustrated in the figures.

Giant. 1 shows a schematic cross-section of an oscillator according to the invention with four vibrating units.

Giant. 2 to 5 show a schematic view according to section A-A of FIG. 1 at various stages of operation.

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The oscillator 10 according to the invention with an adjusting device 1 and four vibratory units 20, 30, 40, 50 is shown in Fig. 1. The adjusting device 5 comprises a first gear adjusting wheel 6 with a bearing extension 8 and a fixing extension 3. The toothed adjusting wheel 7 is detachably fastened by means of a locking device (not shown, for example an adjusting screw), by means of a not shown. · By means of a rolling bearing 4 and bearing extensions 8 of both toothed adjusting wheels 6, 7, the adjusting device X is mounted.

The vibration units 20, 30, 40, 50 are initially adjacent to both sides of the adjusting device 5, and the vibration units 20, 30, 40, 50 are designed in the same way, with the vibration units 30 50 on one side of the adjusting device 2 rotated 180 °. relative to the vibration units 20. 40 on the other side of the adjusting device 5. · The design of the vibration units 20. 30, 40, 50 is explained on the vibration unit 20.

The vibration unit 20 has an external vibrator 15 in the form of a hollow cylinder and has an internal vibrator 11 therein. The internal vibrator 11 is rotatably mounted in the housing by means of a roller bearing 4 and bearing extensions 13. To engage the gear adjuster 7 and the adjacent vibration unit 40, a spur gear 12 is provided. In order to achieve an uneven mass distribution, the internal vibrator 11 is provided with a recess 14 on one side.

The external vibrator 15 is rotatably supported by the two sliding bearings 18 on the internal vibrator 11. The external vibrator 15 has a gear 16 and a recess 17 for oscillation. The gears 1 2 1 6 have the same diameter. The axial spacing of the toothed wheels 1 2, 16 corresponds to the spacing of the toothed adjusting wheels 6, 7.

The gear adjuster 1 of the adjuster 1 engages on one side the gear 12 of the internal vibrator 11 of the vibration unit 20 and on the other hand the gear wheel 16 of the external vibrator 15 of the second adjacent vibration unit 30. The second gear adjuster 6 of the adjuster 1 engages the gear 16 of the vibration unit 20 and the toothed wheel 12 of the vibration unit 30.

On one or the top side of the adjusting device 5, the gear 12 of the vibration unit 20 engages the corresponding gear 12 of the vibration unit 40. while the gear 16 of this unit engages the corresponding gear 16. In this way, the speeds of the external vibrator 15 and the internal vibrator 11 are connected to one another.

On the other side or on the underside of the adjusting device 5, the gear adjusting wheel 2 is connected by means of gears 16 to the external vibrators 15 of the vibration units 30. 50. Correspondingly, the gear adjusting wheel 6 is in communication with the gear wheels 12 of the vibration units 30. The axis 21 of the adjusting device 21 and the axis 21, 31, 41, 51 of the respective vibration units 20, 30, 40, 50 are parallel to each other and lie in the plane of the figure.

The operation of the oscillator 10 according to the invention is further explained on the basis of FIGS. 2 to 5. In FIGS. 2 and 3, the oscillations of the individual vibration units 20, 30, 40 are set so that their sum has a maximum value. The vibrating masses are schematically indicated by the black triangles LJ, while the directions of rotation of the individual vibrating units 20, 30, 40.

and the adjusting device 5 are represented by arrows P.

In Fig. 2, the vibration units 20, 30, 40, 50 are housed in the housing 1 in an operating state in which the maximum vibration force is oriented upwards.

In the illustrated configuration of the oscillator 10 according to the invention, undesirable transverse force components are substantially prevented, as shown by the operating state of FIG.

40, 50 turned by 90 °. The rotational forces F1 and F2 generated by the rotation form the total forces FL1RESfj, which cancel each other out. Thus, in the vertical direction, the maximum vibration force is achieved with this adjustment of the vibration units 20, 30, 40, but in the horizontal direction the forces are zero.

· · * · · · ·

4 and 5, a phase shift of 180 [deg.] Is achieved by rotating the toothed adjusting wheels 6, 7 of the adjusting device 5. In each vibration unit 20, 30, 40, 50, a corresponding rotation of the inner vibrator 11 relative to the outer vibrator 15 is achieved by rotating the toothed adjusters 6, 7. At the same vibrating masses of the inner vibrator 11 and the outer vibrator 15, forces, so that no oscillations are produced or, in any case, only very small.

Claims (9)

A vibration exciter having at least one rotationally driven vibration unit having an external vibrator in the form of a hollow cylinder and a coaxially mounted internal vibrator therein, and a spaced gear adjusting device which is coupled to the external gear for oscillation adjustment 1 and 2, wherein at least one vibration unit (20, 30) is provided for both sides of the adjusting device (5), that the adjusting device (5) has two gear adjusting wheels (6, 7) which are coaxially mounted and rotatable relative to each other, and that one of the gear adjusting wheels (6) engages one gear (12, 16) of each adjacent vibration unit (20, 30), while the other gear adjusting wheel (6) is engaged. 7) engages a second gear (12, 16) of each adjacent vibration unit (20, 30). Vibration exciter according to claim 1, characterized in that two vibrating units (20, 30, 40, 50) are provided for both sides of the adjusting device (5), which are engaged with each other. An oscillator according to claim 1 or 2, characterized in that on one side the gear adjuster (6) engages the gear (16) of the external vibrator (15) of one vibration unit (20), while on the other hand, the same gear adjuster (6) occupies the gear (12) of the internal vibrator (11) of the second vibration unit (30). The oscillator according to claim 2 or characterized in that the oscillator according to claim 2 is characterized in that: ··· · ···· · · ········· This means that on one side of the adjusting device (5) only the gear wheels (16) of the external vibrators (15) and the gear wheels (12) of the internal vibrators (11) only engage. Vibration exciter according to one of Claims 1 to 4, characterized in that the axes (2, 21, 31, 41, 51) of the adjustment unit (5) and the vibration units (20, 30, 40, 50) are parallel to one another and lie in one plane. Vibration exciter according to one of Claims 1 to 5, characterized in that the internal vibrators (11) are each rotatably mounted in the housing (1). Vibration exciter according to one of Claims 1 to 6, characterized in that the external vibrator (15) is mounted on the internal vibrator (11) by means of a bearing device (18). Vibration exciter according to one of Claims 1 to 7, characterized in that the torque of the drive motor can be transmitted to the vibration unit (20, 30, 40, 50). Vibration exciter according to one of Claims 1 to 7, characterized in that the drive torque can be simultaneously transmitted to all vibration units (20, 30, 40, 50).