RU2172216C2 - Plant for liquid spraying - Google Patents

Abstract

FIELD: equipment for liquid spraying by compressed air; applicable in manufacture of plants for spraying of various liquids, chemical solutions. SUBSTANCE: plant has body, chamber for compressed air with main and additional through holes for supply of air, additional open channels made on generating side surface and nozzles for supply of liquid to channels. Body is made in form of sleeve forming upper chamber for liquid and continuous cylinder connected with open end by threaded joint. Air chamber is made in form of hollow cylinder embracing body central part and having upper and lower bases. Channels are radially arranged on external surface of upper base and passing into channels on side surface. Said channels are made in form of alternating channels of different lengths. Additional and main through holes are shifted relative to ends of open channels. Nozzles for liquid supply are made in wall of sleeve for communication with ends of additional open channels. Continuous cylinder is made with vertical channels whose inlet parts face upper chamber for liquid and with additional radial nozzles communicating with outlet parts of vertical channels and supplying liquid to under through holes of lower base of chamber for compressed air. Lower base of chamber for compressed air is rigidly secured to body continuous cylinder and connected with side surface of chamber for compressed air by detachable joint. EFFECT: extended technological potentialities of plant and increase its economical efficiency due to possible execution of direction motion of liquid flow subject to spraying and liquid spraying in any direction. 2 cl, 1 tbl

Description

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

 A known liquid atomizer (see ed. Certificate of the USSR N 1734870, IPC 5 V 05 V 17/00, 1992) containing a guide plate for fluid ejection with a groove of a V-shaped cross section and a hole for supplying compressed air in its recess. However, the presence of a single hole limits the production capacity of the known sprayer when working with large machined surfaces.

 There is also known a device for spraying liquid (see US patent N 3915384, IPC B 05 V 1/20, 1972), comprising a housing, a chamber for compressed air with through holes for supplying air and made on the side surface along the generatrix of open channels, and nozzles for supplying fluid to the channels. The nozzles for supplying liquid to the channels are made in the pipeline, which causes a non-uniform supply of liquid to all channels. The execution of the surface of the body with a vertical rectilinear surface does not allow the spraying of liquid in any direction, which is especially important when cleaning the air from harmful emissions by trapping them with drops of sprayed liquid.

 Thus, the basis of the invention is the task of creating a device for spraying liquid, in which another embodiment of the shape of the housing, the chamber for compressed air and the introduction of new elements would allow for directed movement of the fluid flow to be sprayed and its spraying in any directions, thereby expanding the technological capabilities of the installation would increase its efficiency.

 The problem is solved in that in the installation for spraying liquid containing a housing, a chamber for compressed air with through holes for supplying air and made on the side surface along the generatrix of the open channels, and nozzles for supplying liquid to the channels, according to the invention, the housing is made in the form of a glass forming the upper chamber for liquid, and connected to its open end by a threaded connection of a continuous cylinder, the air chamber is made in the form of a hollow cylinder covering the central part of the housing with the upper and lower bases, made with additional through holes in the bases and additional open channels placed radially on the outer surface of the upper base and passing into channels on the side surface, made in turn in the form of alternating channels of different lengths, additional and main through holes are placed with a shift relative to the ends of the open channels, while the nozzles for supplying fluid are made in the wall of the glass for communication with the ends of the additional open channels A solid cylinder, and the continuous cylinder is made with vertical channels facing the inlet portions to the upper fluid chamber, and with additional radial nozzles communicating with the output portions of the vertical channels to supply fluid through the through holes of the lower base of the compressed air chamber.

 It is also advisable that the lower base of the chamber for compressed air was rigidly fixed to a continuous cylinder of the housing and connected to the side surface of the chamber for compressed air is detachable.

 The separation of the housing into the upper part in the form of a glass, forming a chamber for liquid, and the lower part in the form of a continuous cylinder with vertical channels facing the inlet portions to the chamber for liquid, leads to the fact that the liquid is directed into nozzles for its supply located in the wall of the glass and in the cylinder, and goes to the side surface of the housing, respectively, above the upper and lower bases of the compressed air chamber having openings with a shift on radially arranged channels of different lengths, which allows The direction of flow of liquid to be sprayed, and its spraying in all directions, thus expanding the technological possibilities of installation and increases its efficiency.

 The implementation of the housing and the chamber for compressed air detachable allows for quick cleaning of the installation after its operation, which also increases its efficiency.

 In FIG. 1 shows an apparatus for spraying a liquid; in FIG. 2 - the same, top view.

 The installation comprises a housing in the form of a glass 1, forming the upper chamber 2 for liquid, and connected to its open end by a threaded connection of a continuous cylinder 3. The installation also includes an air chamber 4, made in the form of a hollow cylinder covering the central part of the housing with upper and lower bases 5 and 6. On the side surface of the chamber 4, through holes 7 are made for supplying air to open channels formed on the side surface along the generatrix 8. The chamber 4 is made with additional through holes 9 and 10 in the upper and lower bases and additional open channels 11 placed radially on the outer surface of the upper base 5 and passing into the channels 8 on the side surface.

 Channels 8 are made in turn in the form of alternating channels of various lengths. Additional and main through holes 7 and 9 are placed with a shift relative to the ends of the open channels.

 Nozzles 12 for supplying fluid are made in the wall of the glass 1 for communication with the ends of the additional open channels 11.

 The continuous cylinder 3 is made with vertical channels 13, facing the inlet portions to the upper fluid chamber 2, with additional radial nozzles 14 communicating with the outlet portions of the vertical channels 14 for supplying fluid through the through holes 10 of the lower base of the compressed air chamber 4.

 The lower base 6 of the chamber 4 for compressed air is mounted on a continuous cylinder 3 of the housing and is detachably connected to the side surface of the chamber 4 for compressed air. Channel 15 is intended for communication chamber 4 for compressed air with a source of compressed air. The hole 16 is designed to communicate through a pipe (not shown) with a source of fluid supply.

 Installation works as follows.

 Compressed air through a pipe installed in the channel 15 is supplied to the chamber 4 for compressed air, and then through the openings 7, 9 and 10 leaves the chamber to its outer upper side and lower surfaces.

 The sprayed liquid or solution through the nozzle installed in the hole 16 is fed into the liquid chamber 2, then through the vertical channels 13 into the lower cylinder 3 of the housing and through the horizontal nozzles 12 it enters the radially arranged additional radial open channels 11, flowing down into the vertically located open channels 8 of various lengths, and through additional radial nozzles 14 it flows downward at an angle to the lateral surface of the cylinder 3, where it is sprayed with a stream of compressed air emerging from the openings 10.

 The solution flowing through the open channels 11 and 8 is sprayed with a stream of compressed air leaving the openings 9 and 7. The sprayed air processes the entire internal volume of the production room or the entire inner surface of the cylindrical container.

Claims (2)

 1. Installation for spraying liquid, comprising a housing, a chamber for compressed air with through holes for supplying air and made on the side surface along the generatrix of the open channels, nozzles for supplying liquid to the channels, characterized in that the housing is made in the form of a glass forming the upper chamber for fluid and connected to its open end by a threaded connection of a continuous cylinder, the air chamber is made in the form of covering the Central part of the body of the hollow cylinder with upper and lower bases, made with additional through holes in the bases and additional open channels placed radially on the outer surface of the upper base and passing into channels on the side surface, made, in turn, in the form of alternating channels of different lengths, additional and main through holes are placed with a shift relative to the ends of the open channels, while nozzles for supplying fluid are made in the wall of the glass for communication with the ends of the additional open channels, and the solid cylinder is made with vert channel channels facing the inlet portions to the upper fluid chamber, and with additional radial nozzles communicating with the outlet portions of the vertical channels for supplying fluid through the through holes of the lower base of the compressed air chamber.  2. Installation according to claim 1, characterized in that the lower base of the chamber for compressed air was rigidly fixed to a continuous cylinder of the housing and connected to the side surface of the chamber for compressed air detachably.

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