Hammering device

Abstract

A hammering device enabling an increased hammering effect to an object is provided. The device has a fork-shaped first frame having series of suspension organs on the inner surfaces of the forks. The hammering device has a second frame that forms a frame for two vibrators and includes a gripping jaw locating on movable turning bars. The vibrators are coupled to the first frame by the suspension organs and locate on both sides of the gripping jaws.

Claims

1. A hammering device which can be coupled to a working machine, comprising a first frame and a second frame, the first frame having a forked shape with two forks and having attachment means for attaching the hammering device to the working machine the first frame further having a series of suspension organs on inner surfaces of the two forks, wherein said second frame comprises two vibrators, and gripping jaws for gripping an object, the gripping jaws locating in the first end of turning jaw bars, wherein said bars can be moved by means of a hydraulic cylinder, the second frame being attached via the suspension organs to the first frame, wherein the second frame extends to a first direction parallel to a center line and a second direction perpendicular to the center line so that said jaw bars are attached to articulation points such that the suspension organs, the vibrators and the gripping jaws all locate on a same plane, and the vibrators and the suspension organs locate centric on both sides of said center line, thereby arranging a hammering force of the hammering device to be transferred from the vibrators to the turning jaw bars via the articulation points of the turning jaw bars.

2. The hammering device according to the claim 1, wherein the vibrators are located on both sides of the gripping jaws so that their common middle line of vertical forces goes via gripping line of the gripping jaws.

3. The hammering device according to the claim 1, wherein both vibrators have at least one rotatable eccentric mass.

4. The hammering device according to the claim 1, wherein both vibrators have at least three or more rotatable eccentric masses in same vertical line.

5. The hammering device according to the claim 1, wherein the articulation points are located in the second frame on a lower height level than the vibrators.

6. The hammering device according to the claim 1, wherein the hammering device can be fitted to hammer the object from top and to grip the object via side grip and to hammer by means of side grip.

7. The hammering device according to the claim 1, wherein the vibrators are placed as first equipment beside both series of the suspension means wherein the second frame is fitted to extend from both vibrators to the attachment points of the jaw bars.

8. The hammering device according to the claim 1, wherein both vibrators comprise only two eccentric masses side by side, wherein the eccentric masses of each vibrator are in a cog contact, and the eccentric masses are mounted so that the line, on which the suspension organs, the vibrators and the gripping jaws locate, goes between the two eccentric masses of a vibrator, via the point of their cog contact.

9. The hammering device according to the claim 1, wherein the vibrator comprises vibrator housings, and both vibrator housings have only one eccentric mass.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In the following the invention is described more detailed by referring to the attached drawings in which

(2) FIG. 1 shows a hammering device according to the invention seen from the side.

(3) FIG. 2 shows a hammering device seen from the side.

(4) FIG. 3 shows a hammering device as the first frame removed.

(5) FIG. 4 shows a hammering device according to the FIG. 3 seen from below.

DETAILED DESCRIPTION OF THE INVENTION

(6) In FIG. 1 there is shown a hammering device which is attached to a working machine by means of an attachment means 1. Between the hammering device and attachment means a rotation device 2 has been in this case still fitted for rotating the hammering device round its vertical axis. Below the rotation device 2 there is first frame 3 of the hammering device, which is forking to two forks as U-form so, that both forks are ending to series of suspension organs, which are formed of several suspension organs 4. Two vibrators 5 belonging to the second frame 6 have been attached to the suspension organs 4. The second frame 6 hangs by means of the vibrators 5 from the first frame 3. The second frame 6 extends both rearwards and downwards to a portion 6a and there has been by means of a cylinder 7 moved gripping jaws 9 attached on the lower level in relation to vibrators 5 said jaws having articulation points 10 (FIG. 4). The gripping jaws 9 locate in the ends of the jaw bars 8 for gripping to the hammered object.

(7) FIG. 2 shows, how U-formed first frame 3 locates outer with its forking sides and the upper part of the second frame 6 locates inside the forking sides. In FIG. 2 there is shown, how the suspension organs 4, vibrators 5 and the gripping jaws 9 all locate in the same line L. Vibrators 5 and series of the suspension organs locate, however, in both sides of the line L, not direct in the line L, but the impact lines of both they together being one common line locates in the line L, because they locate centric in relation to the line L. The hammering force is so transferred also when hammered by side grip in the direction of the object to the object, not causing harmful side forces or not turning effort to the jaw bars 8 in the grip.

(8) FIG. 3 shows the device as the first frame 3 removed, wherein the vibrator alone is presented. In this embodiment both vibrators have three rotatable masses 11, 12 one on the other. The mass 12 in the middle can be twice compared with the masses 11, wherein the side forces have been compensated. In the vertical direction a maximum vibrator force is achieved.

(9) Masses 11, 12 are rotated by a hydraulic motor 13. Above the jaw bar 8 there is another bar 14, in order a pure turning force is obtained for the articulation points 10.

(10) FIG. 4 shows the vibrator seen from below. Also here a line L1 can be found, which line goes via the gripping organs and the vibrators 5. A portion 6b joins the lower parts 6a of the second frame 6.

(11) In one embodiment both vibrators have only two eccentric masses. In this case they are placed in vibrator housing side by side in horizontal direction and rotated in different directions. The eccentric masses are mounted so that the line L goes between them i.e. via the point of their cog contact. This solution increases dimensions of the vibrator housing causing increased lengths for the forks in the U-form. If this is allowed this solution is also usable.

(12) In another embodiment both vibrator housings have only one eccentric mass. In this case the rotation axis of both eccentric masses has same direction than the fork of the first frame 3 has and the eccentric masses are rotated in the opposite directions. This solution causes increased distance between the forks in the frame 3. And this causes increased bread for the whole hammering device.

(13) The object can be hammered both from top and by means of the side grip.