RU1775181C - Sprayer assembly - Google Patents

Abstract

Usage: dust removal of roads, water irrigation, the application of preventative coatings. SUMMARY OF THE INVENTION: the sprayer is provided with a diametrical baffle. The partition is installed along the axis of the pipe and with a gap relative to the end caps. The nozzles are equipped with nozzles. 5 ill.

Description

The invention relates to devices for sawing liquids and can be used for dust removal of roads, water irrigation, the application of preventive coatings on the surface of vehicles to prevent sticking and freezing of rock mass, coating products with viscous materials to reduce their viscosity under positive conditions and negative temperatures.

A known thermal nozzle is designed to suppress dust under conditions of negative temperature by adjusting the magnetic field and electrically heating the water, in which the nozzle and swirl are made of electrically conductive material to enable electric heating by the induction field of an electromagnetic coil wound on the nozzle body.

A disadvantage of the known device is that it is not designed to be in an explosion-proof design and therefore cannot be used in an explosive atmosphere. It should also be noted that with multi-nozzle spray units using a known device, these spray units will be difficult to manufacture and operate.

Also known is a spray assembly used in a water dedusting system, consisting of a pipeline with nozzles welded at some distance into which the spray nozzles are screwed. Water dedusting is carried out due to the constant irrigation of the dust area, in particular, the place of overloading the rock mass from the transport vessel into the receiving hopper.

A disadvantage of the known device is its operability only at positive temperatures. In conditions of negative temperatures, especially during its cyclic operation, the nozzle outlet openings freeze, and

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with

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also the liquid being cut in the pipeline itself, which leads to the failure of the entire spray unit.

The closest invention to the technical essence and the achieved result is a coating device comprising a rod made in the form of annular caps of cylinders concentrically arranged with a gap and muffled from the ends, in the annular gap of which circulating pipes of coating material are installed, and equipped with mounted on outer cylinder with nozzles for circulating coolant. In this technical solution, the coolant flows from one side of the rod, and merges from the other. For this reason, the temperature of the rod itself, through which the coolant flows, will be less at the discharge point, and more at the point of flow of the coolant.

A disadvantage of the known device is that it does not provide uniform heating of the entire device and because of this, an increased consumption of thermal energy is allowed, since thermal calculation must be carried out according to the temperature of the coolant at the discharge point.

The aim of the invention is to increase the efficiency of the spray assembly by uniformly heating the spray pipe and spray nozzles.

This goal is achieved in that the spray unit containing the pipe for supplying sprayed liquid with spray nozzles installed on it, a device for heating the pipe for supplying sprayable liquid, made in the form of covering the supply pipe with the formation of an annular gap of the cylinder with end caps and coolant supply pipes, it is equipped with a diametrical partition mounted along the axis of the nozzles and with a gap relative to the end caps, while the nozzles are equipped with nozzles.

In FIG. 1 shows a device, a General view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1; in FIG. 4 is a section bb in FIG. 1; in FIG. 5 is a section GG in FIG. 1.

The spraying unit contains a pipe for supplying the sprayed liquid 1, to which the nozzles 2 are welded with nozzles 3 folded into their nozzles, and also a heating device. The heating device consists of a tight enclosure enclosing the spraying unit formed by two half pipes 4 and 5, which together with pipe 1 form an annular gap b, divided by partitions 7 and 8 into two cavities A and B.

The pipe 1 and the casing are plugged with plugs 9 and 10. The sprayed liquid is supplied through the pipe 11 connected to the pipe 1, and the coolant is supplied through the pipe 12 and exits the spray unit through

branch pipe 13.

The spray unit operates as follows.

The pipe 12 is connected to a heat supply source, and the pipe 13 is connected to

return coolant pipe. The coolant entering the cavity A flows through it to the periphery, flows into the cavity B and is discharged through the nozzle 13. In this case, the pipe 1 for supplying the sprayed liquid to the nozzles is uniformly heated, which ensures the uninterrupted operation of the spraying unit at a negative ambient temperature. So

as one of the diametrically located partitions passes along the axis of the nozzle nozzles, they receive heat from two heat carrier flows having different temperatures. Taking into account the uniform heat loss by the coolant, the average temperature near the nozzle nozzles will be the same along the entire length of the spray unit.

The use of a loop heating circuit,

elimination of heat loss through the inner surface of the cavity allows for uniform heating of the spray unit and significantly save heat energy,

Claims (1)

SUMMARY OF THE INVENTION A spray assembly comprising a spray fluid supply pipe with spray nozzles mounted thereon, a device for heating the supply pipe of the sprayed liquid, made in the form of covering the supply pipe with the formation of an annular gap of the cylinder with end caps and supply pipes heat carrier, characterized in that. that, in order to increase the efficiency in the operation of the spray unit due to the uniform heating of the supply pipe of the sprayed liquid and the spray nozzles, it equipped with a diametrical partition installed along the axis of the nozzles and with a gap relative to the end caps, while the nozzles are equipped with nozzles. R 8 AND W 1775181 Aa. increased 6 AT Fig.Z 4. Fa 5 /