NL8100056A - VIBRATING BLOCK WITH IMPACT. - Google Patents

Description

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HdB / WW / MLD / 60.90.290 Tünkers Maschinenbau G.m.b.H. in Ratingen / Germany, Germany

Vibratory hammer with striking mechanism

The invention relates to a vibrating block with impact device for ram and pulling goods or other drive-in and pull-out elements.

It is known to use vibratory blocks which are vibrated by vibrators for driving and / or pulling out planks, posts, pipes, sheet piling or other braking and pulling goods. The ram and pulling material which is suitably connected to the vibrating block is driven in or out of the vibrations of the vibrating block. brought out of the soil. The effectiveness of this operation depends not only on the frequency and amplitude of the vibrations generated, but also to a substantial extent on the condition of the soil at the site. For example, e.g. It has been found that the known vibratory blocks are not sufficiently effective with the frequently occurring clay or loam-containing soil types. The static friction between the bottom and the ram and pulling material that occurs with these soil types has a very unfavorable influence on the effectiveness of the vibrations. For constructional and other reasons, it is not permissible or possible, the frequency and amplitude entirely dependent on the condition of adapt the soil, as this may cause undesired and even harmful vibrations in the soil and the surrounding area, as well as in buildings or other places, and cause damage. A completely satisfactory lighter and faster movement of the ram and pulling material in soils with such an unfavorable condition cannot be achieved with the usual known vibratory blocks. There is therefore a need for a vibrating block, with which the intended ramming and pulling works can be carried out reliably, simply and quickly under the painted onerous conditions and under difficult soil conditions.

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The object of the invention is to provide a vibrating block provided with an auxiliary device for use under unfavorable soil conditions and under adverse conditions.

According to the invention, a vibrating block for ram and pulling goods 5 or other drive-in or retractable elements is provided with a striking device, wherein a mass block which is displaceably arranged between the vibrators in the vibration direction is caused to vibrate by the vibrations of the vibrators, which movement intensification of ram and pulling movements can be transferred to ram and pulling goods. The movements of the ram and pulling material are thus caused not only by the vibrations of the vibrating block, but also by the effective impact movements of mass.

The continuous vibrations accordingly keep the ram and pulling material in constant motion while, moreover, the impact movements of the mass also strike the ram and pulling material in the direction of movement, so that a strengthening of the movement results. The impact movements advantageously support the continuity of the movement of the ram and pulling material and prevent or reduce the increase in the disturbing static friction between the bottom and the ram and pulling material, so that the work can be carried out more easily and smoothly.

The design and construction of the device are such that with each stroke movement of the mass block two vibrations of the vibrators occur in the same direction. The number of strokes depends on the vibration number. This has the advantage that the impact can be adjusted and adjusted by the frequency of the vibrations, if this is efficient or necessary due to the soil conditions and / or the conditions of the environment.

The vibrating block according to the invention is further characterized in that each vibrator is provided with a rotatable or rotatable unbalance mass, such that two synchronous opposing masses always have two vibrators in the same direction of vibration. bring. Preferably, each vibrating block is provided with two vibrators / which work in pairs.

However, it is also possible to use several pairs of vibrators for a vibratory hammer.

According to the invention the mass block / which is located in a space enclosed by a sleeve-like / is slidable in the direction of the pulling plate against a spring element of rubber, plastic or another suitable material, and in the direction of the ram and pulling material against a projection, extension piece or other such body connected loosely or inseparably to the support plate. Preferably, each stroke of the mass block is transferred to the support plate with a striking surface of the mass block adapted to the infeed or protrusion of the support plate ("kraftschlüssig"). The body 15 of the housing is fixedly and tightly connected to the support plate. The impact movements exerted by the mass block are consequently partly absorbed by the body of the housing and transferred jointly to the ram and pulling material with the support plate. In this way the body of the housing is intended and suitable for transmitting not only the vibrations generated by the vibrators, but also the impact movements of the mass block generated according to the invention together with the supporting plate on the ram and pulling material.

According to an embodiment of the invention, for locking and releasing the vibration-dependent lateral movement of the mass block on one side thereof, a locking slot or space, or on two opposite sides, both a locking slot or space, such that through the wall of the housing an axially displaceable locking bolt, and / or the like can be inserted or removed in the facing locking slot, space or the like. Such a possibility for locking or releasing the strokes may be of particular advantage if, for various reasons, 8100056 4 λ »-4- ορ perform certain methods temporarily or completely without the use of strokes.

The adjustment and control of the device can be easily carried out and require no special effort.

The device can also be set to manual operation.

The switchover can take place when the vibratory hammer is out of operation.

Further details and features of the invention will become apparent from the following exemplary embodiment and the accompanying figures.

Fig. 1 is a vibrating block with the vibrators in section; Fig. 2 is a vibrating block with the mass block in section; Fig. 3 is the vibrating block of Fig. 1 in its lower position of vibration and action when the mass block is struck on the support plate; Fig. 4 is the vibrating block of Fig. 1 in the upper position of vibration and operation with the distance existing in this position between the ground block and the support plate.

The pulling plate 3 connected by means of a spring 2 or the like to a scaffold / scaffold, hook or the like suspension means 1 carries the one-part body of the housing 4. The housing 4 is separated and with parallel axes placed two vibrators 5 and 6 in the form of 25 hollow cylinders. In the vibrator 5 an unbalance mass 7 is arranged rotatably or rotatably about the shaft 8, while in the vibrator 6 an imbalance mass 9, rotatable or rotatable is placed around the axis 10.

The two unbalance masses 7 and 9 run in opposite synchronous manner so that the two vibrators 5 and 6 together generate rectified vibrations, which are transmitted to the housing 4 and then to the ram and pulling material 11. The drive of the imbalance masses 7 and 9 can be electrically , pneumatic, hydraulic or other manner known per se.

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The placement and design of the two unbalance masses can be set arbitrarily for each direction of rotation.

It is only necessary to ensure that the two imbalance masses simultaneously weigh synchronously in the opposite direction.

Between the two vibrators 5 and 6, in a space 12 enclosed by the body of the housing 4 and other parts acting as wall, there is a movable mass block 13. A guide shaft 14 in the bore 15 of the housing 4 keeps the mass block 13 slidable. fixed. The guide shaft 14 is housed in a recess 10 16 in the form of a hollow space in the ground block 13. The recess 16 can be closed by a cover 17 secured by screws, pins or otherwise. In the lid 17 and in the bottom of the recess 16, recesses, rings or the like 18 for the bearing and the guiding of the ends of the guide shaft 14 are arranged. The mass block 13 is formed and placed such that it can shift abruptly in the direction of vibration depending on the frequency of the vibrations of the vibrators 5 and 6. These striking movements of the mass block 13 are intended and suitable to be transferred to the ram and pulling material 11 and thus serve to intensify the ram and pulling movements.

On the side facing the ram and pulling material 11, the mass block 13 is expediently provided with a recessed or otherwise formed striking surface 19, which can strike a corresponding projection, protrusion or such an element 20 of the supporting plate 21. The attachment or protrusion 20 can be attached to the support plate 21 in a releasable or insoluble manner. According to the invention, a clamping device 22 serves for the connection of the ram and pull 30 to the support plate 21. The support movements 21 with the ram and pull material 11 attached thereto are moved by the stroke movements of the mass block 13. These favorable impact movements generated and transmitted according to the invention, together with the vibrations 35 for moving the ram and pulling material 11, make it possible to perform the work more simply, more easily and economically, and also with a difficult soil conditions and aggravating environmental conditions.

The support plate 21 and the body of the housing 4 are tightly connected ("kraftschlüssig"), so that both together and simultaneously absorb the impact movements of the mass block 13 and transmit them in the intended manner.

Advantageously, a bottom 23 consisting wholly or partly of sound-insulating 10 or other material can close off the space 12 at the bottom, which bottom can then be fixed releasably by screws or other means. To close the space 12 on the opposite side, a top wall of metal or the like is provided, which is connected releasably to the body of the housing 4 by means of screws or other means. The top wall 24 may optionally be its own separate body; or form one whole with the pull plate v3.

Between the top wall 24 and the lid 17 in the space 12, a spring element 25 of rubber or another elastic material is arranged to accommodate the axial movements of the guide shaft 14. The spring element 25 can be in the form of a hollow cylinder, or a have a different shape, and may be applied to an intermediate disc or bottom layer 26. The side walls 27 and 28, which consist wholly or partly of sound-insulating material, define the upper part of the space 12.

Not all methods for which the vibrating block according to the invention is intended should be applied using the impact movements of the mass block 13. As the condition and circumstances so require, it may be effective or necessary on a case-by-case basis. and pulling work for only a short time, or even without performing any stroke movements.

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For this purpose a desired adjustable lock is provided, with which the movement of the mass block 13 can be released or interrupted. Preferably, a locking slot or the like 29 is arranged on one side or on both sides of the ground block 13. In the adjacent wall of the body of the housing 4, a bore 30 is provided which corresponds in height and width to the locking slot 29 and in which a locking bolt, pin or body slidable into the locking slot 29 10 31 is present. The stroke movements are blocked by inserting one or both locking bolts 31 into the intended locking slot 29 of the ground block 13. To release the strokes, it is sufficient simply to pull the locking bolt 31 out of the associated locking slot 29. The impact lock has the advantage that the work can be performed in an economically most favorable way, with or without impact movements, as required.

In the position shown in Fig. 3, the unbalance masses 7 and 9 have reached their lowest point, whereby the vibrating block has been brought into its corresponding lowest position. The mass block 13 was also shifted in the direction of the vibrations, so that the block performed its stroke movement on the feed or protrusion 20. In this position, the vibrating block has not only absorbed the vibrations originating from the vibrators 5 and 6 by means of their unbalance masses 7 and 9, but also the percussion movements of the mass block 13 superimposed thereon and by means of the supporting plate 21 on the ramming towing material 11 transferred. The unbalanced masses 30, 7 and 9 can be operated in both directions of rotation as desired, taking care only that they always run synchronously in the opposite direction.

The vibrations that occur here cause shifts in the mass block 13 in the directions of vibration, which are advantageously used as impact movements. It has been found that two vibrations of the vibrators 5 and 6 are required for each stroke movement in the same direction. The vibrations continue to move. therefore the mass block 13 alternately successively in both directions of vibration.

In the condition of the vibrating block shown in Fig. 4, the two unbalance masses 7 and 9 are at their opposite top point. The vibrating block is then also in its highest possible position, as is clear from the schematic distance lines a and b until the plane of the suspension is visible. The vibrations that occur when the position of the vibrating block changes, mean that the mass block 13 is also shifted upwards. The guide shaft 14 placed in the recess 16 of the ground block 13 is displaced in the bore 15 in the axial direction. The spring element 25 in the enclosed space 12, which is conveniently placed between the top wall 24 and the lid 17, serves to elastically damp the displacement of the mass block 13. In this condition, the impact surface 19 of the mass block 13 has come loose from the projection or extension 20 so that no striking movement takes place here. When the unbalance masses 7 and 9 are kept in continuous motion, the corresponding vibrations also occur, in which successively alternately superimposed strokes are transferred to the ram and pulling material 11 in the painted manner.

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Claims (6)

Vibration block with impact device for ram and pulling goods or other drive-in or pull-out elements, characterized in that a mass block (13) which is displaceable between the vibrators (5,6) in the triHings-5 direction due to the vibrations of the vibrators ( 5,6) is brought into slamming movement, which movement can be transferred to the ram and pulling material (11) to intensify the ram and pulling movements. Vibration block according to claim 1, characterized in that each stroke of the mass block in the same direction is caused by two oscillations of the vibrators (5,6). Vibration block according to claims 1 and 2, characterized in that each vibrator (5,6) is provided with a revolving imbalance mass (7 and 9, respectively), which synchronously reverse two vibrators (5,6) in common rectified vibration bring. Vibratory block according to claims 1-3, characterized in that the mass block (13). located in a housing (12) and in the direction of the drawing plate (3) against a spring element (25) and in the direction of the ram and pulling material (11) against a projection connected releasably or inseparably to the support plate (21) whether the feed is slidable. Vibratory block according to claims 1 to 4, characterized in that the impact movements of the mass block (13) can be transferred by the supporting plate (21) and the body of the housing (4) to the ram and pulling material (11). 0 Vibration block according to claims 1 to 5, characterized in that for locking and releasing the vibration-dependent displacement movement of the mass block (13) on one side a locking slot or the like (29) 81 0 0 05 6 -10- <»V. Whether a locking slot or the like (29) is (are) provided on both opposite sides, such that an axially sliding locking bolt, pin or the like is inserted through the wall of the body of the housing (4). (31) can be retracted or extended into the matching locking slot (29). i 8100056