SU781260A1 - Hydro-pneumatic pile hammer - Google Patents

Description

(54) PNEUMODIZE HYDRAULIC MOLOTH f

one

The invention relates to construction equipment and is used for the destruction of rocks, reinforced concrete elements and frozen ground, as well as for driving piles during the construction of foundations.

A hammer is known that includes a drive with a rod, a housing with a pneumatic buffer, a piston impact part and a mechanism connecting the impact part with a drive rod made in the form of a piston holding the impact part due to the pressure of the liquid filling the cavity in which the rod moves drive 1.

The disadvantage of this hammer is that when the piston moves in a liquid medium at a high speed, which is characteristic of a-. It has to overcome the resistance of this medium (back pressure), which increases in direct proportion to the speed of movement of the piston. This leads to unproductive energy losses and limits the possibility of increasing the speed of movement of the impact part, which leads to a limitation of the magnitude of the impact energy of the hammer.

.:.:. 1 Closest to the present invention is a pneumohydraulic hammer containing a hydraulic cylinder and a housing mounted coaxially with a cylindrical cavity filled with compressed gas, in which a hammer is installed, interacting with the hydraulic cylinder rod by means of a magnetic gripper in the form of an electromagnet attached to the rod with a chopper action of magnet 2. Such a design of the hammer allows you to get any speed of movement of the impact part, increases the reliability of the hammer and its efficiency.

However, this hammer requires electrical power, which reduces the technological capabilities and complicates the design of the hammer.

The purpose of the invention is to simplify the design of the hammer.

Claims (2)

The goal is achieved in that in a pneumohydraulic hammer containing a hydraulic cylinder and a housing mounted coaxially with a cylindrical cavity filled with compressed gas, in which a hammer is installed, interacting with the hydraulic cylinder rod by means of magnetic gripping. an interrupter of the magnet, the latter is shown in the form of stops located in the upper part of the cylindrical cavity of the case, interacting with the impact part, while the magnetic gripping can be made in the form of a permanent magnet. The drawing shows a pneumatic hammer, longitudinal section. The hammer includes a hydraulic cylinder 1, in which the piston 2 with the brush 3 is placed. The rod 3 is placed in the cylindrical cavity 4 of the housing 5 filled with compressed gas and provided with a permanent magnet 6 at the end (for example, a magnet having a constant magnetization, a natural or artificial magnet), transverse the cross section of which is smaller than the cross section of the cavity 4. A sleeve 7, made of a non-magnetic material, is mounted into the body 5, and the drummer 8 and the firing pin 9 with the rod 10 and the tip 11 are placed. Enikeev with the hammer stop elements 12, for example in the form of projections on the inner surface of the sleeve 7. Axial elements are arranged so that their abutment surface is below the magnet in its upper position. The operation of the hydraulic cylinder is carried out by the spool 13. The hammer operates as follows. When the oil is fed into the upper cavity of the hydraulic cylinder 1, the gap 2 is lowered down and presses the lower plane of the magnet 6 to the upper plane of the striker S. This forms a single magnetic system that reliably connects the hammer 8 to the magnet 6. At this moment the valve 13 switches and the oil, entering the lower cavity of the hydraulic cylinder I, moves the piston 2 upwards. The piston 2, moving upwards together with the magnet 6 attached to its brush 3, carries the hammer 8 behind them, squeezing the gas leaking in the cavity 4. When the drummer 8 contacts the stop elements 12, its upward movement stops and the magnet 6 continues to move upwards due to that the force developed by the hydraulic cylinder is more than the attracting force of the magnet. In this case, the lower end of the magnet is detached from the upper plane of the striker 8. Under the action of its own weight and compressed gas placed in cavity 4, the striker 8 rushes down and strikes the striker 9, destroying the rock. At the same time, the spool 13 switches, the oil enters the upper cavity of the hydraulic cylinder 1, lowering the piston 2 down, and the cycle repeats. Such an embodiment of the hammer makes it possible to obtain any speed of movement of the impact part and at the same time simplifies its design and eliminates the need for supplying electric power for the connecting mechanism. Claim 1 Pneumatic-hydraulic hammer containing a hydraulic cylinder and a housing mounted coaxially with a cylindrical cavity filled with compressed gas in which a hammer is installed, interacting with the hydraulic cylinder rod by means of a magnetic gripper, interrupting the action of the magnet, characterized in that, in order to simplify the design, The magnet is made in the form of lugs located in the upper part of the cylindrical cavity of the case, interacting with the impact part. 2. A hammer according to Claim 1, characterized in that the magnetic gripper is made in the form of a permanent magnet. Sources of information taken into account during the examination 1. USSR author's certificate No. 202832, cl. E 21 C 3/08, 1960. 2. USSR author's certificate for application number 1864064 / 29-33, cl. E 02 D 7/10, 1973.