SU631082A3 - Device for percussion drilling with internal combustion engine - Google Patents

Description

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The invention relates to percussion devices, such as hammers used in the mining industry for drilling.

Impact deformation devices with internal combustion engines are known. They contain pvngatep, working piston cylinder, percussion piston and rock-destruction tool fl j.

The closest of the known technical results and results achieved to the proposed is a shock drilling device with an internal combustion engine, comprising a housing, in the cavity of which an engine driven piston is installed with the possibility of reciprocating movement, which actuates the shock piston through a gas chamber working stroke, while in the body of the body there is a backstop chamber and a channel for exhausting gases from the stroke chamber, and the percussion piston is made with an annular shoulder and a piece eye of 2j.

A disadvantage of the known device is the relatively weak impact of the piston.

The purpose of the invention is to provide a noBbf impact mass.

This goal is achieved due to the fact that there is a cavity in the body of the shock piston of the shlpolnek, which is communicated by means of channels that are filled in the rod of the impact port with the backstop camera, while the backstop camera is connected to the working chamber by means of the overflow valve installed in the channel for exhaust gases.

The drawing schematically shows a device for percussion drilling with an internal engine mount, a section.

The drive piston 1 of the engine for internal combustion and the shock piston 2 are installed with the possibility of returning access to the cavity of the housing 3, which has cooling ribs 4.

The working stroke chamber 5, located between the pistons 1 and 2, is filled with gas (in this case engine exhaust gases), which is ignited by means of a spark-plug 6.

The impact piston 2 is made with an annular collar 7 and a stem 8. The annular collar 7 can be moved in an expanded end portion 9 of the cavity of the housing 3, which is closed by a transverse partition (or bottom) of the Yu.

The annular shoulder 7 of the shock piston 2 and the transverse re-sling 10, together with the extended end part 9 of the cavity of the housing 3, form a reversing chamber 11. In the body of the housing there is a channel 12 for exhausting gases from the chamber 5 of the stroke, the center of which communicates both chambers. Channel 12 has a bypass valve 13.

The rod 8 of the shock piston 2 extends beyond the transverse partition 10 and transmits the shock pulses to the drilling tool itself, which is not shown in the drawing.

In the body of the shock piston 2, a cavity 14 is formed, which communicates with the return chamber 11 via channels 15 and 16 formed in the piston rod 8 of the shock piston 2. A gas enclosed in the cavity 14 and the return chamber 11 forms an elastic medium (gas gun) which provides about {stroke shock piston 2.

To release gas from the chamber 11 and the cavity 14 in the rod 8, a channel 17 is provided through which gas enters the bottomhole. The outlet 18 of the channel 17 is positioned below the channel 1 b at such a distance that it overlaps the surface 19 of the transverse partition 1O, which is a guide for the rod 8, the collar of the collar 7 of the shock piston 2 is above the partition 10.

This design ensures that the amount of gas in the chamber 11 and cavity 14 and forming a gas cushion is always enough to stop the movement of the shock piston 2 before

ring collar 7 will hit the partition 10.

When the device is in operation, the impact piston 2 makes a working stroke under the pressure of the gas of the chamber 5 of the working stroke. As a result, at the very end of the gas stroke,. enclosed in the closed backstop chamber 11 and the cavity 14, stops the movement of the shock piston 2 and causes it to return to its original position, i.e. make a move in order to then be ready to make a new working move.

The bypass valve 13 prevents the flow of gas from the chamber 11 into the chamber 5 of the working stroke, but makes possible the flow of gas into the chamber of the return stroke 11, provided that the pressure in it is less than that in the channel 12.

Claims (2)

1. USSR author's certificate number 337997, cl. E 21 C 3/18, 1969. 2. Patent of Sweden No. 319134,. 87 B 2/13, 1969. / R j w