SU1352052A1 - Hydraulic monitor nozzle - Google Patents

Abstract

The invention relates to equipment for hydraulic mining of minerals. The goal is to increase the efficiency of water recovery by increasing the amplitude of the pulsations. For /, / 8 of this, the air interrupter (VP) 7 of the nozzle is spring-loaded relative to the housing 1 and is made in the form of a ring with a collar in which the radial holes 8 are drilled. When VP 7 moves to the left, the holes 9 of the cavity B first overlap the atmosphere is broken. Then the VP 7 opens the holes 5, together with the cavity B with the cavity B and the annular gap formed by the liquid jet and the cylindrical section 3. The alternating discharge of air in the VP 7 causes the pulsation of the jet. By completely interrupting the airflow, the jet pulsations are greatest. The frequency of the pulsations can be adjusted within wide limits, changing the stiffness of the spring 10 and the volume of the cavity B using the regulating element 4. 4 Il. i (Л С 4

Description

The invention relates to jetting devices for forming a water jet and can be used in the hydraulic mining of minerals.

The aim of the invention is to increase the efficiency of hydroforming by increasing the amplitude of the pulsations.

Fig, 1 shows the proposed nozzle section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - air interrupter, middle position; in fig. 4 - the same, the extreme left position.

The jetting nozzle consists of a body 1, a conical section 2, a cylindrical section 3, made in the form of a tube and fixed in case 1 by means of a regulating element 4. At the end of the cylindrical section 3, facing the conical section 2, radial holes 5 and step 6 are made. At the end of the cylindrical section 3, facing the conical section 2, an air interrupter 7 is placed in the bore of the housing 1 with the ability to move along the nozzle axis. The interrupter 7 is made in the form of a ring with a bandage-shell in which radial holes 8 are drilled. In case 1 there are made radial holes 9 with an annular bore inside the case. The chopper 7 with its end is pressed against the ledge 6 by the spring 10. An annular cavity B is formed between the housing 1 and the cylindrical section 3. A spring 10 is installed in the cavity B between the housing 1 and the chopper 7. The annular cavity B through the holes 8 of the chopper 7 and the radial holes 9 of the housing 1 communicated with the atmosphere.

Nozzles works as follows.

When a jet of fluid emanates from the nozzle in a critical section (at the point where the conical section 2 transitions to the cylindrical section 3 - the cavity V., a vacuum forms. At the end of the chopper 7, the atmospheric force begins to act from the annular cavity B communicated with the atmosphere.

pressure, causing a displacement of the air-55 DU11 chopper is spring-loaded from the interrupter 7 to the left (Fig. 1). In this case, the spring 10 is compressed. When the chopper 7 moves to the left, the openings 9 of the housing 1 first overlap

and is provided with an annular ledge located on the reverse side of the spring, in which additional radial holes are made.

The connection of the annular cavity B with the atmosphere is interrupted (Fig. 3), then the interrupter 7 opens the holes 5, together with the cavity B, with the cavity B and the annular gap formed by the fluid jet and the cylindrical section 3. By inertia, the valve 7, compressing the spring 10, takes

The position shown in FIG. 4. At this time, the air pressure in cavity B and C is balanced by the flow of air from cavity B to cavity C and is intensively ejected by a jet through the annular gap. After stopping in the leftmost position under the action of the spring 10, the interrupter 7 begins to shift to the right, closes the openings 5, then opens the openings 9 of the housing, together the annular cavity B with the atmosphere. Due to the continuous ejection of air by the stream of water, the pressure in cavity B is again lowered, and the cycle is repeated, i.e. When a stream of water flows out of the nozzle, the interrupter 7 oscillates around the middle position, the passage into the annular gap of the air portion. Alternate air discharge

in the chopper causes pulsation of the jet. By completely interrupting the airflow, the jet pulsations are greatest. The pulsation frequency can be adjusted in wide

limits, changing the stiffness of the spring 10 and the volume of the cavity B using adjustable. the molding element 4.

Claims (1)

Invention Formula Nozzles of the jetting machine, comprising a housing with internal conical and cylindrical sections and an annular ledge communicated with the atmosphere through radial holes, an air interrupter placed in an annular ledge and having radial holes, an annular gap formed by the difference in diameter of a cylindrical and conical sections when fluid escapes from the nozzle, characterized in that, in order to increase the efficiency of hydroturbation by increasing the amplitude of the pulsations, the air interrupter is spring-loaded relative to the housing. and provided with an annular ledge placed on the reverse side of the spring, in which additional radial holes are made. 313520524 and the housing has an additional annular holes for the chopper, with an annular cavity interspersed through a gap or with the atmosphere. -/one FI.2 fig.Z Editor T. Parfenova Order 5546/27 Circulation 453Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5   - Production and printing company, Uzhgorod, Projecto st., 4 figure 1 Compiled by V.Pushkarsky Tehred M. Khodanich. Proofreader S. Shekmar