SU1567740A1 - Free springless hydraulic hammer - Google Patents

Abstract

The invention relates to construction. The purpose of the invention is to increase the efficiency of operation by ensuring the stability of the vibratory hammer motion mode. The free springless vibrohammer includes vibration exciter 1 and guide body 4, enclosing submersible element 3, stabilizing device in the form of spring loaded friction blocks 5 interacting with the submersible element 3. 3. Friction arising from the mutual movement of the friction pads and the submerged element on the contact has a stabilizing effect on the operating mode of the vibro-hammer. 2 Il.

Description

N

 -12

SP 35 1 1

eleven

107 5

3 Fi.G

The invention relates to the construction and concerns related to the sinking into the ground of building elements for various purposes (pipes, piles, sheet piling, etc.).

The purpose of the invention is to increase the efficiency of operation by ensuring the stability of the motion mode of the vibratory hammer,

In Fig.1 schematically shows vibrohammer when immersed pipe; 2 shows a variant of its execution when immersing elements such as tongue, pile, etc.

Free springless vibratory hammer consists of vibration exciter 1, spring-loaded shock-absorbing suspension

2 and made in the form of enclosing a submersible element, for example, a pipe

3 guide casing 4. In the guide casing 4, a stabilizing device made in the form of a pad 5 with a friction pad 6 is installed movably in a plane perpendicular to the longitudinal axis of the submersible element 3. The cushion 5 is spring-loaded relative to the control casing 4 by a spring 7, mounted in a guide beaker 8. The glass 8 has a threaded tail 9 installed in a sleeve 10 rigidly connected

with body 4, and is fixed against displacement by a lock nut 1 1. The pads 5 are connected, for example, by flexible couplings 12, passing through block 13, with a shock-absorbing suspension 2.

In the case of immersing a dowel 14, piles, or the like. The guide casing can be made in the form of two rigid stops 15 and 16, in one of which a stabilizing element is installed, similar in construction to that described, and a friction lining fixedly fixed on the second one. In this case, to keep the center of application of forces on the vibration exciter and damping suspension, additional blocks 17 and 18 are installed, and the second end of the flexible connection is fixed in the center of vibration isolator 1.

Free springless vibrohammer works as follows.

The adjustment of the force of the stabilizing device at the rate of

five

0

five

,

Q $

0

five

neither force, friction equal to 5-10% of the magnitude of the driving force for a low-frequency vibrator or 10-20% for a high-frequency vibrator.

The adjustment is carried out by rotating the tail part 9 of the guide cup 8, after which it is loosened with a lock nut 1 1.

The vibratory hammer is lifted by the suspension 12. At the same time, the suspension springs are compressed under the action of the self-weight of the vibrator.

The movement of the suspension 2 is transferred by flexible couplings 12 to the pads 5, which, compressing the springs 7, move in the horizontal direction. In this position, the vibratory hammer is put on the upper end of the submersible element. When the suspension 2 is released, it moves downwards to the yrfopa into the vibration exciter; at the same time, the pads 5 are pressed by the action of the springs 7 with their friction linings 6 to the outer surface of the submersible element 3 (figure 1) or 14 (figure 2).

In this position include the vibration exciter, which under the action

alternating driving force begins to make vertical oscillations relative to the immersed element. When the vibration exciter moves upwards, it detaches from the submerged element, and when it moves downward, it strikes a blow at the end of the element, making it forced diving into the ground. Friction arising from the mutual movement on the contact of the friction pads and the submerged element has a stabilizing effect on the operating mode of the vibro-hammer. The amount of friction within the specified limits is sufficient to ensure the mode of operation — one stroke per revolution of the unbalance of the exciter, which is the most effective mode of vibratory hammers from the point of view of immersion capacity.

In order to remove the vibrohammer from the submersible element, it is sufficient to apply to the suspension 2 a force equal to the weight of the vibration exciter. At the same time, the friction pads are moved apart, which makes it possible to lift the vibratory hammer freely over the submerged element. i

The device allows the elements to be immersed in the ground at the most rational in terms of the submerged mode of operation, which ultimately makes it possible to increase the productivity of work and increase the depth of immersion compared to the known design of a free springless vibro-hammer, retaining all its technological advantages.

Claims (1)

Invention Formula Free springless vibratory hammer, including vibration exciter and direction C A further, enclosing submersible element, characterized in that, in order to increase efficiency in operation by ensuring the stability of the vibratory hammer motion mode, it is equipped with a stabilizing device in the form of spring loaded friction pads interacting with the submersible element, mounted in a guide body with the possibility of movement in perpendicular to the longitudinal axis of the element. 1B Phie. 2