RU2800124C1 - Nozzle for processing machinery - Google Patents

Abstract

FIELD: processing of vehicles.

SUBSTANCE: invention can be used for special processing of hard-to-reach areas – the bottom of vehicles. The nozzle is made in the form of a platform of a rectangular shape, on which the axle of the wheelset is rigidly fixed from the back side. Inside the block, at least two outlet fittings are installed at a given distance relative to each other along the major axis of the block, on the outlets of which the atomizers are screwed. On the back side of the nozzle at the point of intersection of its axes, the inlet fitting tee is pivotally fixed adapted for fixing the nozzle at a given angle relative to the block plane. The inlet fitting tee is connected to the outlet fittings through channels that serve to supply solutions to the sprayers.

EFFECT: increased manufacturability of processing; improved processing efficiency; increased processing productivity.

1 cl, 3 dwg

Description

The claimed invention relates to the processing of equipment, in particular, it can be used for special processing of hard-to-reach areas of equipment - the bottom of cars.

The closest technical solution is a nozzle containing a block with bristles, equipped with a fitting [see. Maintenance and repair of cars: a textbook. Moscow: Academy, 2004. 480 p.]. The disadvantage of such a nozzle is the low manufacturability and productivity of processing equipment.

The technical result achieved by the nozzle for processing equipment is: improving the manufacturability of processing; improving processing efficiency; increase in processing productivity.

The specified technical result is achieved by the fact that, according to the invention, the nozzle is made in the form of a rectangular platform, on which the axle of the wheelset is rigidly fixed on the back side. Inside the block, at least two outlet fittings are installed at a predetermined distance relative to each other along the major axis of the block to the outlets, which are screwed onto the atomizers. On the back side of the nozzle at the point of intersection of its axes, the inlet fitting tee is pivotally fixed with the possibility of fixing the nozzle at a given angle relative to the block plane. The inlet fitting-tee is connected to the outlet fittings through channels that serve to supply solutions to the sprayers.

In a particular case, the wheel pair is a metal axle rigidly fixed to the back side of the block, on which the wheels are mounted and fixed with ball bearings. This mount provides rotation of the wheels around the axle. The presence of a pair of wheels facilitates the control of the nozzle when processing the bottoms of automotive vehicles and units under it without the use of special lifting equipment, which contributes to an increase in productivity and efficiency of processing.

The presence of at least two fittings provides a multi-channel solution supply, which allows you to process a large area and thereby increases the productivity of processing equipment.

The location of the fittings at a given distance allows you to provide the necessary shape of the jet and the uniformity of the treated surface [Pazhi D.G., Galustov B.C. Fundamentals of liquid spraying technique. Moscow: Chemistry, 1984, 256 s], which improves processing performance.

The atomizers are made with the possibility of screwing onto the outlet fittings. In a particular case, nozzles are used as atomizers [see. Industrial nozzles. https//promforsunki.ru], with which you can set the required spray angle, irrigation area and impact speed. Depending on the specific situation (type of contamination, degree of contamination, surface area to be treated, pressure used, etc.), a suitable (optimal) nozzle is selected that ensures effective removal of contaminants, resulting in increased efficiency of surface treatment while saving solutions in relation to a particular situation. In addition, in case of clogging of the nozzles, they are easily unscrewed and cleaned.

The fitting-tee is fixed to the platform at the point of intersection of its axes by means of a hinged fastening with a swivel latch [see Fig. https//promterra.ru/catalog/sharnirnye_connection]. Swivel mount allows you to take the position of the nozzle at any angle relative to the plane of the block. For reliable fixation of the selected position of the nozzle, a rotary lock is used. This mount allows you to manually set the nozzle in a position in which the spray torch will capture the largest area of irrigation, resulting in increased efficiency of the treatment.

The proposed nozzle is illustrated by the following graphics. Figure 1 shows a General view of the inventive nozzle; figure 2 top view; figure 3 bottom view.

The attachment for processing equipment contains a pad 1 made in the form of a rectangular platform, along the perimeter of which bristles are located. On the back side of the shoe, the axle of the wheelset 2 is rigidly fixed. Inside the shoe 1, at least two outlet fittings 3 are installed at a given distance relative to each other along the major axis of the shoe [for which holes are made in the shoe 1], on the outlets of which sprayers 4 are screwed, made, for example, in the form of nozzles. A tee fitting 5 is installed on the back side of the block, which is fixed by means of a hinged device with a swivel latch 6. The inlet tee fitting 5 is connected to the outlet fittings 3 through channels 7, which serve to supply solutions to the sprayers 4.

The nozzle works as follows. The fitting-tee 5 is connected to the outlet device of the hose or other source of solution supply. Depending on the surface to be treated, the necessary position of the nozzle 1 is manually set and fixed, at which the largest irrigation area is achieved. For example, when processing the bottom of a car, set the nozzle to a position in which the spray jet is directed upwards, and when processing the surface of equipment, to a position in which the spray jet is directed downwards. Depending on the specific situation (type of pollution, degree of pollution, area of the treated surface, pressure used, etc.), a suitable (optimal) nozzle 4 is selected, which ensures effective removal of contaminants.

Further, the solution under pressure enters the fitting-tee 5, from where it evenly flows through the channels 7 to the outlet fittings 3 and sprayers 6 is fed to the surface to be treated. The flow rate, angle and shape of the jet are determined by the design of the nozzle.

When processing surfaces with complex relief and many protruding elements that cover pollution, a pile surface is used, while the solution enters the contaminated surface, softens the pollution, and nylon fiber breaks the mud film, which ensures effective removal of pollution.

After completion of the special processing measures, the nozzle is removed.

Thus, this technical solution provides an increase in the manufacturability of processing; improving processing efficiency; increase in processing productivity.

Claims (1)

Nozzle for processing equipment, containing a block with bristles and an inlet fitting installed on the back, characterized in that the block is made in the form of a platform of a rectangular shape, on which the axle of the wheelset is rigidly fixed on the back side, is additionally equipped with two fittings with removable sprayers installed at a predetermined distance from each other along the major axis of the block, and the inlet fitting is made in the form of a tee, the outputs of which are connected to the inputs of the first and second fittings, respectively, the tee is fixed hinged to the platform at the point of intersection of its axes with the possibility of fixing at a given angle relative to the block plane.