DE1962185B2 - PNEUMATICALLY ACTUATED SUBMERGED DRILL - Google Patents

Description

1 2

The invention relates to a pneumatically actuated right picture, its lowest part; the two used Countersink drill hammers with connections for printed images show the parts next to them air and drilling fluid on its tubular of the hammer in a longitudinal section in another Housing, one essentially from the drilling plane.

Flushing through the shock absorber piston, a shock 5 First, let those parts of the hammer be

damper chuck, a shock absorber bushing, a valve lettering, which is also the well-known hammer of this type

housing for the control of the compressed air, a cylindri- has.

cal chuck, which is mounted in the housing and with a cylindrical housing is on its upper

this forms an annular space, a percussion piston end with a shock absorber sleeve 2 and this is

with a coaxial attachment that slides in a bushing, screwed to a shock absorber sleeve 3. These

below which a relaxation sleeve 3 slides on a shock absorber piston 4 in the housing; she

chamber for the compressed air is located, and a means is on this by grooves and wedges 5 against rotation

a shaft in the housing, which is slidably mounted, is secured and limited in its longitudinal movement,

has chisel, wherein the shock absorber piston is a The piston 4 is at its upper end in a one

axial line for the supply of the flushing screwed to the 15 screw piece 6 with which the hammer

Has borehole bottom. screwed to the drill pipe (not shown)

In a known hammer of this type (British. The housing 1 is at its lower end with

patent 946 678) the flush to the drilling a chisel holder 7 is screwed, in this same

Hole bottom leading line as an axial tube over tet the drill bit 8, by a pin 9 against

the entire length of the hammer to the bottom of the borehole, 20 flying out secured.

namely through an axial bore of the valve at the lower end of the shock absorber sleeve 2 is seated

housing, the percussion piston and the drill bit in the valve housing 10, which is the (not in the reference

leads. includes (marked) valve plate; it's axial

This design has the disadvantage of being fixed by a cylindrical chuck 11 via a central hole, which, along with the two components that are most heavily loaded during operation of the hammer attached to its lower end, is located in the housing 1 between the shock absorber bushing 2 ie the percussion piston and the drill bit itself. And the bit holder sleeve 7 is clamped. This results in a relatively short standing cylindrical chamber 13 formed by the chuck 11 time of the percussion piston and the drill bit, so that the percussion piston 14 slides; it has a coaxial that must be replaced frequently. At deep 30 approach 15 that slides in the sleeve 12.
Boring is, however, the replacement of the drilling. With 16, a meißeis attached to the shock absorber piston 4 is very expensive, since the hammer on the earth-axial socket denotes; their axial bore forms surface must be returned. Connect part of the pipe for the drilling fluid,
The chuck 11 is permitted on its outside with no drilling fluid, hammers without a pipe for the drilling fluid 20 from its upper end to just before its lower end and with longitudinal grooves 20 that do not pierce through - Do not confuse the piston and drill bit in order to reduce the repair work with the longitudinal grooves 47 to be described later. However, this has the other downstream and near its lower end with openings 21 distribute that the bearing holder see two different ways which connect these longitudinal grooves 20 with the interior of drill bits and ram, namely with or 40 chamber 13 of the chuck 11; this length without a hole for the passage of the tube, and two grooves 20 and openings 21 are used to supply different types of hammers according to the working air to the bottom of the percussion piston. The type of soil must provide. Lining 11 is also close to its outside

In addition, because of the need for the lower end to extend to its lower edge, the

ben and not to weaken the drill bit too much, 45 the longitudinal grooves 22 and provided with openings 24,

the pipe for supplying the drilling fluid to one of these longitudinal grooves 22 with the inner chamber 13

small diameter and thus to a very connected; these grooves 22 and openings 24 are used

limited flow rate restricted. together with on the outside of the socket 12

The invention is therefore based on the object, ordered longitudinal grooves 23 for removing the relaxed

while avoiding the difficulties mentioned and 5 ° compressed air in the outside air.

Disadvantages of a pneumatic hammer with drilling The compressed air driving the hammer flows

flush, the one percussion piston and a low path: From the drill pipe (not shown)

Drill bit used without a center hole. through the screw-in piece 6, through an axial drilling

Such a hammer is according to the invention tion 27 and a plurality of these continuing holes

characterized in that the axial line for 55 28 of the damper piston 4 and further through several

the guidance of the drilling fluid in a manifold bores 29 in the valve housing 10. From here

opens, which flows axially in the valve housing for the control - depending on the position of the valve

tion of the compressed air is attached and from which plate - either through several holes 30 in

radial flushing channels via radial openings the part located above the percussion piston 14

to downwardly leading, separated axial lines 60 of the chamber 13 or through a plurality of bores 31

in the annular space between the cylindrical lining and and the longitudinal grooves 20 and the openings 21 of the

Housing extend to which at the level of the chuck 11 in the below the impact piston 14

Liner connecting radial and vertical channels, the located part of the chamber 13. The relaxed

through axial lines with the bottom of the borehole in Ver Air flows out of the chamber 13 through the opening

commitment. 65 24 and the longitudinal grooves 22 and 23 in one

An example of a hammer according to the invention is tension chamber 32 and from there through channels 33

in fig. 1 and 2 shown in longitudinal section, and to the bottom of the borehole to the outside.

the uppermost part in the left picture and the drilling fluid - compressed air or pressurized water

water flows out of the drill pipe (not shown) through a connection piece 35 and an axial pipe 36 in the hammer. The way in which it is guided further to the bottom of the borehole by cltn hammer lies the difference between the known hammer and the hammer according to the invention.

In the known hammer, the axial line 36 - which is not shown in the drawing - extends to the bottom of the borehole through axial bores of the percussion piston and the drill bit. In the hammer according to the invention, the axial line 36 extends only to the valve housing 10; From there, the drilling fluid on the outer circumference of the cylindrical chuck 11 passes through the longitudinal grooves of the chuck 11 and the socket 12. The drilling fluid flows through a manifold 41 located in the valve housing 10, namely through an axial bore (not shown) and several radial ones Bores 42 of this distributor piece, through an inner ring channel 43, radial bores 44 and an outer ring channel 45 of the valve housing, through openings 48 of the cylinder chuck 11 in axially parallel lines 47 machined on the outside of this chuck in the form of grooves towards the lower end of the hammer. There the drilling fluid flows from these downward axial lines 47 through radial channels 49 and 50 of the chuck 11 and the sleeve 12 and through longitudinal channels 51 and longitudinal grooves of the socket 12 and further through the expansion chamber 32 and through the channels 33 to the bottom of the borehole. With 46 seals are designated which seal the axial pipe 36 and the distributor piece 41 in the sleeve 16 of the shock absorber piston.

In the hammer according to the invention, therefore, the percussion piston and the drill bit are the same as those in a hammer of the same caliber used without flushing, and their resistance and performance are obviously equivalent.

The axial pipe 36 for the supply of drilling fluid can easily have a larger diameter than that of the known hammers, since it does not extend through any organ, the greater loads is exposed. In fact, it only goes through section 16 of the shock absorber piston, and that section represents only a slide for actuating the distribution device. Through a feed pipe with a significantly larger diameter, a larger amount of mud can be applied to the bottom of the borehole feed, which facilitates the removal of the cuttings.

Depending on the type of douche, it may be beneficial not to do this with the relaxing one Air to mix, and the outlet lines for the compressed air and the purging can also be independent be from each other. The drilling fluid can also be compressed air.

Claims (3)

Patent claims: 1. Pneumatically operated countersink hammer with connections for compressed air and drilling fluid on its tubular housing through which the drilling fluid essentially flows Shock absorber pistons, a shock absorber liner, a shock absorber sleeve, a valve housing for the Control of the compressed air, a cylindrical chuck that is mounted in the housing and with this forms an annular space, a percussion piston with a coaxial extension that slides in a sleeve, below which there is an expansion chamber for the compressed air in the housing, and has a drill bit slidably mounted in the housing by means of a shaft, the shock absorber piston having an axial line for the supply of the mud to the borehole bottom, characterized in that the axial Line (36, 16) for guiding the drilling fluid opens into a distributor piece (40) which is mounted axially in the valve housing (10) for the control of the compressed air and from which radial irrigation channels (44) via radial openings (48) to downwardly leading, separated axial Lines (47) extend in the annular space between the cylindrical chuck (11) and the housing (1), to which radial and vertical channels (49, 50, 51) connect at the level of the sleeve (12), which are in communication with the bottom of the borehole by axial lines (33). 2. Countersink hammer according to claim 1, characterized in that the axial line for the drilling fluid between "the connecting piece (35) and the distributor piece (40) following parts comprises: a first axial tube (36) connected to the connecting member (35) and on the shock absorber piston (4) is attached, a second axial tube (41), which is connected to the distributor piece (40) is connected, and an axial sleeve (16) which is attached to the shock absorber piston (4) and the free Ends of the two axial tubes (36, 41) connects by means of seals (46), the second axial tube (41) extends so far into the sleeve (16) that it is in all positions of the shock absorber piston engages in the sleeve (16). 3. Countersinking hammer according to claim 2, characterized in that the between the cylindrical Chuck (11) and housing (1) arranged axial lines (47) for the drilling fluid in the Outlet lines (33) open for the compressed air. 1 sheet of drawings OQPY