SU1412813A1 - Irrigator - Google Patents

Abstract

The invention relates to a device for spraying a liquid and can be used in irrigation systems with viscous liquids in the mining industry for suppressing dust during transportation and processing of minerals. The goal is to increase the range of the spray plume by increasing the twisting radius of the jet of working fluid. For this purpose, the tightening chamber in the sprinkler is made in the form of an ovoid with a supply of liquid in its narrow part. The internal diameter of the tangential fluid supply channel is equal to the radius of the minimum arc of the ovoidal twist chamber, and the length of the nozzle slot is equal to the arc length of the wide part of the twist chamber. 1 h. n. f-ly, 3 ill.

Description

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The invention relates to a device for spraying a liquid and can be used in irrigation systems with viscous liquids in the ropHQH industry for supplying dust during transportation and processing of minerals.

1 The purpose of the invention is to increase the long range of the spray plume by increasing the twisting radius of the jet of working fluid.

; FIG. 1 shows section A-A in FIG. 2; on f | 1g. 2 - sprinkler, side view; in fig. 3 - B1 | the morning surface of the chamber is of a twisted-ovoidal shape and the scheme of its implementation.

I The sprinkler includes a housing 1 with a twisting chamber 2, a tangential channel 3 feed and an exhaust nozzle 4, made in the form of a slot in the side wall of the cbi 2 in the plane coinciding with the axis of the tangential channel 3. Internal BiipxHOCTb 5 of the chamber 2 of the twist is made in the form of the ovoid ACBN provided that the size of the wide part of the AB is equal to the diameter of the chamber of the tightening of the known ororopril. At the same time, the tangential channel 3 in: is made in the narrow part of the inner ovoidal surface 5 of the chamber 2 twisting, and its internal diameter D is equal to the radius RI of the minimum arc F.NF of the curve forming the surface 5 of the chamber 2. The discharge nozzle 4 is made in a wide part of the twisting chamber 2, the length of the slot 4 of the nozzle is equal to the length of the arc ACB (L) formed by the radius Ra, i.e. the length of the arc forming the wide part of the chamber 2.

Sprinkler works as follows.

The pressurized fluid is supplied to the chamber 2 through the tangential channel 3, where it is twisted and ejected through the nozzle 4 in the form of a flat torch. The implementation of the twisting chamber 2 with the ovoidal surface 5 allows the twisting radius of the working fluid flowing from the tangential channel 3 to have a flow diameter equal to the radius Ri of the minimum ENF arc of the twisting chamber with a smooth transition to the arc FB of a larger radius R2 (the transition is smooth due to the performance of the chamber in the form of a circular curve). In addition, due to the implementation of the ovoid-shaped twist chamber

It is possible to cut a nozzle in a wide part with a length equal to the arc length BCA of radius Rs equal to the radius of the prototype twisting chamber and coinciding with the axis of the tangential channel 3, which reduces the hydrodynamic losses at the jet exit from the twisting chamber and results (taking into account the increase in the twisting radius specified stream) to increase the range of the irrigation torch.

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Claims (2)

1. The sprinkler comprising a housing with a swirling chamber, a tangential fluid supply channel and a nozzle, made in the form slots in the side wall of the chamber in a plane coinciding with the axis of the tangential channel, characterized in that, in order to increase the range of the irrigation plume by increasing the twisting radius of the working fluid jet, the twisting chamber is made in the form of an ovoid with a narrow supply of liquid, and the slot nozzle is made in its wide part. 2. The enlarger according to claim 1, characterized in that the inner diameter of the tangential channel for supplying fluid is equal to the radius the minimum arc of the ovoidal twisting chamber, and the length of the nozzle slot is equal to the length of the arc of the wide part of the twisting chamber. Fig Fig.Z