SU1218117A1 - Hydrodynamic tip - Google Patents

Description

The device relates to the mining industry and is intended for preferential use in hydraulic monitors for drilling and treating the walls of wells.

The purpose of the invention is to increase the efficiency of the impact of a hydrodynamic jet on solids.

FIG. 1 shows the nozzle, obsh, iy view; in fig. 2 shows section A-A in FIG. one.

The nozzle consists of a body 1 provided with an inlet nipple 2, inside the body there is a rod 3 with spiral channels 4 formed on it, rigidly fixed with an oscillatory element 5. The oscillatory element is designed as a rod with slots 6. The depth of the slots is 1 / 2- 3/4 diameter rod. The slits are located relative to each other at an angle of 120-180 °. The nozzle is provided with an outlet nozzle 7 connected to the spiral channels 8 located at an angle close or equal to the angle of the spiral channels.

Making the rod channels with a slit depth from 1/2 to 3/4 of the diameter of the rod located at an angle of 120-180 ° to each other allows the oscillating element to oscillate not only along its own axis, but also around the axis of the rod, and

also with the deviation of the axis of the rod from the axis of the nozzle. When the slot depth is less than 1/2 of the rod diameter, the oscillating element becomes rigid. When the depth of the slits is greater than 3/4 of the rod diameter, the reliability of operation decreases, and the probability of failure of the oscillatory element increases. The arrangement of the slits at an angle of 120 ° allows 3 slits to be offset with respect to each other in diameter.

180 ° - respectively 2 slots. In addition, these slots can be arranged in several rows. This increases the amplitude of the rod oscillations.

The nozzle works as follows. The fluid, the passage through the nozzle 2, striking the free end of the rod 3 and the passage through the spiral channels 4, swirling, form into a high-pressure turbulent jet. This jet acts on the oscillatory element 5, which imposes to vibrate intensely with a high frequency, which creates hydrodynamic cavitation in a fluid flow. The high-pressure cavitation jet passes through channels 8 into nozzle 7. The jet flowing from the nozzle has great energy. Nozzle

Mounted in jetters, drill bits and other devices.

Claims (1)

HYDRODYNAMIC NOZZLE containing an inlet fitting, an outlet nozzle, a housing with a rod located inside it with spiral channels on the surface, rigidly connected to the oscillating element, characterized in that, in order to increase the efficiency of the hydrodynamic jet on solids, the oscillating element is made in the form of a rod with slots with a depth of 1/2 to 3/4 of the diameter of the rod and located at an angle of 120-180 ° to each other.