SU1434067A2 - Pneumatic striker - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to mining and is intended for drilling wells. The purpose of the invention is to simplify the design and increase reliability. The pneumatic impactor contains a cylinder-housing 1, inside of which is located a piston-hammer (NU) 2, dividing its internal cavity into chambers (K) of forward 3 and reverse 4 strokes. In the central channel of PU 2 there are upper 5 and middle 6 cavities, in the walls of

Description

w

(L

f

CO 4ib

hch

The second channels are 7 and 8; They communicate cavities 5 and 6 with K 3 and 4. From below, housing 1 has an anvil 9 with a check valve 10. On top of K 3, the block 11 of the blocking device is screwed, which is designed as a sub with splines, interacting with the upper the end of the pipe 13, which rests with its muffled end on the pipe 14, the latter rests on the surface of the anvil. Nozzles 13 and 14 form an air distribution tube in the form of two nozzles 13 and 14, which are directed towards each other with blind ends. Elastic elements 15 are installed at the open ends of the tube. Due to the displacement of PU 2 relative to the pipes 13 and 14, K 3 is connected with the pressure line, and K 4 - with the annular space. Therefore, PU 2 makes a working stroke and strikes the anvil, which is passed on to the rock-breaking tool. 3 il.

one

The invention relates to submersible percussion mechanisms used in mining when drilling wells. The purpose of the invention is to simplify the design and increase the reliability of an air hammer.

Figure 1 shows a pneumatic hammer, longitudinal section; 2 and 3, respectively, sections A-A and BB in Fig. 1 “

The pneumatic hammer has a cylinder-body 1, inside of which there is a piston-hammer 2, which divides its internal cavity into chambers of forward 3 and reverse 4 strokes. In the central channel of the impactor piston, there are upper 5 and middle 6 cavities, in the walls of which radial channels 7 and 8 are made, communicating these splines with chambers 3 and 4. The housing 1 ends at the bottom: with anvil 9, in the central channel of which the return valve 10 is located and made bypass channels. Anvil 9 simultaneously serves as an adapter to a core pipe or chisel (not shown).

A slotted sleeve 11 of the blocking unit is screwed onto the housing 1, which is made in the form of a sub 12 with pliers, which interacts with the upper end of the nozzle 13, which rests with its muffled end against the nozzle 14, which in turn is supported by the lower end of the anvil, 9. Ja of the open ends of the pipes 13 and 14 are fitted with elastic elements in the form of liners 15. The pipes 13 and 14 form an air distribution tube, which has the upper 16, middle 17 and lower 18 radial channels.

Hammer works as follows.

Hammer included in the composition of the submersible drilling tools and lowered into the well. At the same time, due to the overlapping of the central channel of the anvil 9 and the valve 10, which occupies the upper position under the action of the pressure of the liquid, the ingress of liquid with the fluid inside the hammer is prevented. As the bottom is reached, the details of the impactor take up the positions shown in Figure 1, i.e. the sub 12 occupies the lower position and rests with its lower end on the elastic insert 15 of the upper nozzle 13, and the upper channels 16 are located in the zone of the upper cavity 5 of the piston - the impactor 2. Therefore, the compressed air has access through the radial channels 7 only to the lower chamber 4 of the reverse stroke, whereupon the piston-drummer begins to move upwards.

The forward running chamber 3 at this time is connected with the annulus through channels 8, cavity 6, channels 17 and the central channel of nozzle 14 and then through the bypass channels of the anvil 9. As the piston of the impactor 2 moves upward relative to the air distribution tube, the radial channels 16 are in cavity 6, the middle channels 17 of the Shut-off (from the walls of the central channel of the piston of the impactor 2, and the lower channels 18 receive a connection with the back-up camera 4. As a result, the forward-facing camera 3 is connected to the pressure line ( The canal tube 13, the channels 16 and 8 and the cavity 6), and the reversing chamber 4 through the channels 18 and the central channel of the nozzle 14, with the annulus, therefore, the piston-hammer 2 makes a working stroke and strikes the anvil 9, which is transmitted further rock cutting tool.

The piston of the impactor 2 is blocked with a slight movement of the sub 12 upwardly relative to the spline sleeve 11, as a result of this. the gap between the ends of the nozzle 13 and translation: ka 12, as a result of both. kai workers

eleven

FIG, g

Measures 3 and 4 are connected to the pressure pipe at the same time, as a result of which piston-hammer 2 is blocked, since the pressure of compressed air is the same in both chambers. When the working ends are closed, the working position will be restored and the hammer will begin to strike the anvil, and the sealing elastic elements 15 will provide a more reliable sealing: o.

Formula

gaining

Pneumatic hammer on avt.St. K 1 283372, distinguished by the fact that, in order to simplify the construction and increase the reliability, the air distribution pipe is made in the form of two branch pipes with blind ends directed towards each other, and elastic elements are installed on the open ends.

bb

sixteen

Fig.Z

Claims (1)

The claims 15 Auto-impact hammer N ’1 283372, characterized in that, in order to simplify the design and increase reliability, the air distribution tube is made in the form of two nozzles directed by deaf tori to each other, and elastic elements are installed on the open ends. bb Fig.Z