SU590440A1 - Submersible hydraulic hammer - Google Patents

Description

The invention relates to a drilling technique, in particular, to submersible hammers used for drilling blastholes in the mining industry.

A submersible immersion hammer is known, consisting of a housing, an air distribution box, a piston impact hammer with a shank, and a zolotpik installed between the shank and the end wall of the axle box 1.

The disadvantage of this hammer is the lack of the possibility of rational use of the forward and reverse chambers, since, due to the short duration of the inlet of compressed air into these chambers, the movement of the impact hammer during forward and reverse moves occurs mainly due to the expansion of compressed air, the average pressure of which is significantly lower. network.

The closest in technical essence and effect achieved is a submersible pneumatic hammer comprising a housing with working and idling chambers, a hammer drum with a shank, an air distribution valve, and a spool valve with spool 2.

A disadvantage of the known air hammer is the low impact power due to the incomplete use of the useful area of the impact hammer during its forward and reverse strokes, since at the time of the reverse stroke the end face

the shank is under the pressure of the network compressed air, and during the direct stroke of the impactor piston the pressure of the tail of the shank is equal to the air pressure of the return chamber.

The aim of the invention is to increase the shock power of the hammer by creating additional pressure from the side of the spool chamber.

This goal is achieved by the fact that there is a channel in the Shank body, which informs the spool chamber with the working stroke chamber.

The drawing presents a hammer, a longitudinal section.

The pneumatic hammer consists of the housing 1, the spool of the barrel 2 with the shank 3, the chamber 4, the axle box 5, which has in the upper part a spool chamber 6 that is larger than the diameter of the stem, the valve 7, valve 8, valve seat 9, constantly connected to the compressed air line which has an annular groove 10 in its internal diameter, connected by channels 11 to an annular chamber 12 communicating with the compressed air line through channels 13 in the body of the axle box leading into the spool chamber. The central channel 14 of the shank of the impactor is plugged from the side of the spool chamber and communicates with the outer surface of the shank using windows 15, and an axial channel 16 is made in the body of the shank, having an exit to the end of the shank and to its outer surface through radial windows 17 and a calibrated hole 18.

The body of the pneumatic hammer is divided by a piston into the chambers of the worker 19 and idle 20 strokes and has exhaust windows 21. In the body of the piston of the projectile there is a channel 22, and in the body of the keyboard a window 23.

Hammer works as follows.

The energy source enters the rod through channels 13 into the annular chamber 12. If the firing piston is in the forward position and the crown does not reach the bottom, the windows 15 of the shank are connected to the power stroke chamber 19, as a result of which the piston cannot move backwards - blockage occurs . When the crown is pressed to the bottom of the hole, the impact drum moves back, air intake into chamber 19 through windows 15 is stopped. In this case, the energy carrier through channels 11, annular groove 10, windows 15, central channel 14 and channel 22 fills the idle chamber 20 while window 23 acts on the valve 8, presses it to the saddle 9, increasing the access of energy to the idle chamber. Since the camera of working stroke 19 is connected to exhaust windows 21, and camera 4 is blocked from the network by spool 7 and connected via channels 16 and windows 17 to camera 19, the entire piston area is freed from pressure and the impactor moves back Square of shock As the striking piston moves, the exhaust windows 21 close first, then the windows 17 enter the annular groove 10, and the energy carrier begins to fill the working stroke chamber 19 and the chamber 4. Simultaneously, the spool 7 pushes off the shank, forming a 13-barrel annular chamber, which The irodol filled with energy through the calibration hole 18. At the same time the piston-hammer with the front edge opens the exhaust windows 21 from the idling chamber 20, and through the channel 14 and the windows 21 and 15, the pressure drops from the valve space Features: The valve is thrown on the working stroke. Upon further movement, the spool 7 overlaps the channels 13, and a buffer is created in the chambers 19 and 12. After expiration of the supply of kipetic energy, the mouthpiece stops.

By this time, chamber 20 is released from the energy carrier through exhaust ports 21, and podzolotnikov ring chamber through windows 15.

Pachinaets working stroke. Initially, the energy carrier acts on the pistol hammer across the area of chamber 19. After the channel 13 opens with the spool 13, the working stroke chamber 19 is filled. The spool, giving the hammer-piston an additional acceleration, rests against the end of the spool chamber and stops. Subsequently, the energy carrier acts on the piston-hammer through the chambers 19 and 4, since the axial channels 16 open

after stopping the spool. Upon further movement of the impact piston, exhaust ports 21 open, and pressure drops in chambers 19 and 4. At the same time, windows 15 enter into the annular groove 10, opening access

the energy carrier in the idling chamber 20, the valve 8 is thrown over to the saddle 9, and the shock drum 2 strikes the crown shank. In yes, the 1st cycle repeats.

Fore iM} l a li goiter r € t s n and

A submersible pneumatic hammer comprising a housing with working and idling chambers, a pistol drum with a shank, an air distribution valve and a spool chamber with a spool, characterized in that in order to increase the impact power by creating additional pressure from the spool chamber, a channel is made in the tail body communicating the spool chamber with the working chamber.

Sources of information taken into account in the examination

1. USSR author's certificate N ° 169471, cl. E 21 C 3/04, 1962.

2.Certificate of the USSR N ° 173680, cl. E 21 C 3/02, 1963.