RU2008979C1 - Liquid spraying device - Google Patents

Abstract

FIELD: pneumatic spraying liquids. SUBSTANCE: housing has a removable cylindrical cup mounted at its upper part and connected to a liquid feed pipe. Nozzles are set up in the housing walls for supplying the liquid from the cup interior into slots. The housing has the form of a vertical cylinder with a hollow protrusion in it for accommodating a compressed air. The slots for the liquid supply are radially arranged on the upper horizontal surface of the protrusion. The air outlet channels are disposed at the adjacent slots so that the liquid is passed in a staggered order. The distance between the nearest outlet and the housing wall is not less than 0.6 of both the housing and the cup common height. The spraying device enables spraying liquid upwardly. EFFECT: widened abilities of spraying liquids. 2 cl, 3 dwg

Description

 The invention relates to techniques for spraying liquids with compressed air and can be used in the manufacture of devices for spraying various liquids, chemical solutions and dispersions.

 A device for spraying liquid is known, comprising a housing with a chamber for compressed air and channels for its exit to the surface of the housing, on which grooves are made for supplying liquid along them and nozzles for supplying compressed air and liquid (1).

 On the outer surface of the clutch housing, liquid flows, which is sprayed with compressed air through many through holes located in the side walls of the clutch. In this case, only that part of the liquid that passes over the hole is sprayed. The rest of the liquid flows past the holes.

 The known device does not allow the liquid to be sprayed vertically upward when processing the upper horizontal surfaces and does not provide a simultaneous supply of liquid to all the outlets for supplying compressed air, which affects the efficiency of the device.

 Thus, the invention is based on the task of creating a device for spraying a liquid in which the flow of liquid to be sprayed is limited and its uniform spraying is vertically from the bottom up, thereby improving the quality of spraying and the cost-effectiveness of the device.

 The problem is solved in that in a device for spraying a liquid, comprising a housing with a chamber for compressed air and channels for its exit to the surface of the housing, on which grooves are made for supplying liquid along them and nozzles for supplying compressed air and liquid, according to the invention, the housing equipped with a removable cylindrical cup installed in its upper part, connected with the fluid supply pipe, nozzles for supplying fluid from the cavity of the glass into the grooves are made in the walls of the housing, while the housing is made in the form of a vertical about a cylinder with a hollow cylindrical protrusion to accommodate compressed air, and the grooves for supplying fluid are located on the upper horizontal surface of the protrusion radially.

 The outlet openings of the channels for the outlet of compressed air are located in adjacent grooves for supplying fluid in a checkerboard pattern, while the distance from the nearest opening to the wall of the housing is made equal to at least 0.6 of the height of the housing with a glass.

 The execution of the housing with a removable in its upper part glass, forming a chamber for the liquid, allows you to evenly distribute the liquid through the nozzles in the side walls of the housing into grooves radially located on the upper horizontal surface of the protrusion of the cylinder and spray it through the outlet openings of the channels for supplying liquid with compressed air from the bottom up the processed surface. Changing the surface of a vertical cylindrical body with a removable cup into a chamber for compressed air and a conical surface for draining the liquid ensures the effective operation of the device during vertical spraying, which is not provided by the known device. The staggered distribution of the outlet openings increases the sprayed surface area. The device due to the presence of detachable connections of the housing with the glass and detachable bottom, is easily cleaned after use.

 The distance from the nearest hole to the casing wall depends on the height of the casing with the glass. The greater the height, the greater the distance so that the side wall does not interfere with the sprayed liquid. This distance is determined by experiments and calculations from the dependence of at least 0.6 of the height of the body with a glass.

 In FIG. 1 shows a device for spraying a liquid; in FIG. 2 - the same, top view; in FIG. 3 is a diagram of a spray of liquid.

 The device comprises a cylindrical body 1, the central part of which is made in the form of a hollow cylindrical protrusion, forming a chamber 2 for compressed air, and a cylindrical removable cup 3 is mounted on the upper part of the body by means of a threaded connection. The lower base of the body has a nozzle 4 for supply pipe in the center compressed air attached to the housing by means of a threaded connection. On the cylindrical removable cup 3 there is an opening 5 for supplying liquid to the chamber 6. On the upper horizontal surface of the chamber 2 for compressed air, open U-shaped grooves 7 are located with outlet openings 8 arranged in staggered grooves for the outlet of compressed air . The protrusion 9 of the chamber 6 is made hollow and cylindrical in shape to accommodate compressed air. On the upper horizontal surface of the protrusion 9 of the chamber 6 there are nozzles 10 for supplying fluid to the grooves 7 located radially.

 The device operates as follows.

 Compressed air through the nozzle 4 is fed into the chamber 2 for compressed air, and then, through the outlet openings 8 under pressure leaves the chamber on its outer upper surface.

 The sprayed liquid or solution through the pipe installed in the hole 5 is fed into a cylindrical glass 3, then into the chamber 6, its lower part 9 and horizontal nozzles 10, enters and flows down into the radially arranged horizontal open U-shaped grooves 7.

 The solution is sprayed with a stream of compressed air coming out of the hole 8 and sprayed onto the surface to be machined in a vertical direction around the circumference.

 The diameter of the spray circle is, for example, 600 mm at a distance of 300 mm from the spray gun.

 When compared with the prototype, the proposed installation is simpler in design, allows you to process the surface from the bottom up, provides uniform fine dispersion of the liquid. (56) U.S. Patent No. 3,915,384, cl. V 05 V 1/20, 1976.

Claims (2)

 1. DEVICE FOR SPRAYING A LIQUID, comprising a housing with a chamber for compressed air and channels for its outlet onto the surface of the housing, on which grooves are provided for supplying liquid along them, and nozzles for supplying compressed air and liquid, characterized in that the housing is provided with its upper part is a removable cylindrical glass associated with the fluid supply pipe; nozzles for supplying liquid from the cavity of the glass into the grooves are made in the walls of the body, while the body is made in the form of a vertical cylinder with a hollow cylindrical a protrusion to accommodate compressed air, and the grooves for supplying fluid are located on the upper horizontal surface of the protrusion radially.  2. The device according to p. 1, characterized in that the outlet openings of the channels for the exit of compressed air are located in adjacent grooves for supplying fluid in a checkerboard pattern, while the distance from the nearest opening to the wall of the housing is at least 0.6 times the height of the housing with the glass.

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