SU1463921A1 - Hydraulic monitor nozzle - Google Patents

Abstract

The invention relates to mining and is intended for the hydraulic destruction of rocks. The goal is to increase the efficiency of the hydromonitor by pulsating the jet while reducing its size. The hydro monitor head (H) consists of body 1 with feed channel (K) 2. At least part of the latter is made in longitudinal section with ejector profile with working H 3 , by the consignor 4, the smegaeni chamber 5 and the diffuser 6 and the jet-forming device W 7. The housing 1 is equipped with a reflector 8 in the form of a plate with holes and is made with a bypass K 9. In the latter, an interrupter (П) 10 is placed dimensions that provide it Movement within K 2, 9. The entrance of the cavity of the confuser 4 is communicated with the exit of the cavity of the diffuser by means of K 9. A working agent is fed through K 2 to H 3. Is he ; passes through the flow of K with the device 7 and destroys the mineral. Together with the working agent, P Yu is drawn into the diffuser 6. At the time of the passage of P 10 through K 5, the flow of fluid is braked and is twisted. Then P 10 hits c. Clamp 8 and again goes to K 9. 1 pc. with. f

Description

The invention relates to the mining industry and is intended for hydraulic fracturing of rocks · 5

The purpose of the invention is to increase the efficiency of the hydraulic monitor due to the pulsation of the jet while reducing the size.

The drawing shows a hydraulic monitor-Yu

Naya nozzle, longitudinal section.

The hydraulic nozzle consists of a housing 1, with a supply channel 2, at least part of which is made in its longitudinal section with an ejector profile 15, which has a working nozzle 3, a confuser 4, a mixing chamber 5 and a diffuser 6, and streamforms with a peace device 7. Housing 1 is equipped with a reflector 8 and execution \ 20 bypass channel. 9, in which the interrupter 10 is placed, made in the form of a ball, the dimensions of which are ensured by. their movement within the bypass channel 9 and the ejector. The 25 bypass channel 9 communicates the input part of the cavity of the confuser 4 with the output part of the LosTi diffuser 6. The reflector 8 is made in the form of a plate with holes' and is installed between the diffuser 6 and the jet-30 ^ forming device 7 at an acute angle to the feed channel 2.

The nozzle works as follows.

A production shell (not shown) with a hydraulic nozzle is lowered into a drilled hole for rock crushing during downhole hydraulic production. Through the inlet channel 2, a working agent is fed to the nozzle 3, which 45 passes through the flow channel, including the confuser 4, the mixing chamber 5 and the diffuser 6, through the openings of the Reflector 8, the jet forming device 7 and destroys the useful asset 45. When the working agent passes through the ejector, it is injected from the bypass channel

9, in which the breaker is located

10. The latter is sucked into the diffuser 6 and moves together with the pot, a lump of liquid into the mixing chamber 5. At the moment of passage of the interrupter 10 through the mixing chamber 5, the fluid flow is inhibited and interrupted. Then, the interrupter, under the action of liquid pressure, enters the diffuser 6 and hits the reflector 8, which is installed at an angle to the body. The reflector 8 is designed to / protect the jet-forming device 7 from destruction when the chopper 10 is fed. Then the latter flows again into the bypass channel 9, and the expiration of the continuous flow of the working agent from the nozzle of the hydraulic monitor is restored. Then the interruption of the jet is repeated. The frequency of interruption of the jet depends on the length of the bypass channel 9 and the number of breakers 10 located in the bypass channel.

Claims (1)

Claim A hydraulic nozzle comprising a housing with a feed channel and a jet forming device, characterized in that, in order to increase the efficiency of the hydraulic monitor due to jet pulsation while reducing dimensions, at least part of the feed channel is made in its longitudinal section with a profile having a profile shape ejector with sequentially located working nozzle, confuser, mixing chamber and diffuser, the housing is made with a bypass channel communicating the input part of the cavity of the confuser with the output part of the floor the diffuser, and is equipped with a reflector made in the form of a plate with holes installed between the diffuser and the jet forming device at an acute angle to the axis of the CONNECTING channel, as well as a chopper, made in the form of a ball with dimensions that ensure its movement within the supply and bypass channels, and placed in the cavity of the latter.