SU1036392A1 - Pneumatic injection nozzle - Google Patents

Description

The invention relates to the construction, in particular, to devices for applying flowable materials, for example plaster, by means of compressed air, and can be used in the finishing works. The known pneumatic nozzle, comprising a housing, tubes for supplying flowable material and compressed air, is installed at the outlet end of the housing with the possibility of longitudinal movement of 1 nozzles, and a spring-loaded biconical races; a heater placed inside the nozzle Cl However, this nozzle does not provide even outflow the charge of the air-material mixture due to the displacement of the dissector under the pressure of its flow, which leads to a change in the cross section of the outlet ring hole between it and the nozzle. The closest technical His decision to the invention is a stump nozzle containing a core - a sleeve, a branch pipe of the flowable material, a compressed air supply tube, mounted at the exit end of the nozzle body and a cone diffuser, with clamps, by means of which and is oriented with the apex in the direction of the output end of the housing 2.. A disadvantage of the known nozzle is the inconsistency and low dispersion of atomization of the flowing material due to its insufficient mixing with air. The aim of the invention is to improve the uniformity and dispersion. spraying a flowable material. This goal is achieved by the fact that in a pneumatic nozzle comprising a housing, a supply pipe for a flowable material, a compressed air supply tube mounted on the outlet end of the nozzle housing and a cone splitter with clamps, by means of which it is mounted inside the housing the output end of the housing, the conical divider from the base side has an axial cup-shaped recess with a conical protrusion in the middle, the latches of the conical divider are made in the form of rods, each The first of which is attached to the outer surface tja of one of its ends, let us take the compressed air supply tube inserted into the supply pipe of the flowable material, and the last outlet end is located coaxially with the conical protrusion and inserted with a gap into the tea-like recess of the cone Fussellator. The drawing shows a pneumatic nozzle, a common view. The nozzle contains an arc-curved, azure-curved -pipe 1 for supplying a flowable material with a fitting 2, which is connected with a flange 3 to its housing 3, the nozzles are mounted on the outlet end, a compressed air supply pipe 5, equipped with one end 6, and another end - inserted through the sealing hole 7 into the supply pipe of the fluid material with the possibility of longitudinal movement inside it and fixing it in a predetermined position With the help of the locking screw 8, the conical divider 91 has an axial cup-shaped corner at the base side lambing 10 with a conical protrusion 11 in the middle. A conical divider is installed inside the housing coaxially with it and oriented vertically in the direction of its outlet opening, forming the outer surface of the conical divider, annular narrowing channel 12 with the inner surface of the case, copying. The rods 13 are fixed to the outer surface of the conical divider by means of which it is fixed inside the case, while the outlet pipe for supplying the flowable material is located coaxially with the conical protrusion of the cone-shaped dissector and is inserted with a gap m in its cup-shaped recess. The nozzle works as follows. By fitting 2, the nozzle is connected to a pressure supply hose for a flowable material, for example, a plaster solution, and a fitting by means of a redie. 6 to the pressure hose of the compressed air supply, --- Through Kreen 6, compressed air is supplied to the tube 5, and then through the fitting 2 to the socket 1 the solution is fed. At the exit from the tube 5, the stream of compressed air and from the nozzle 1 the stream of solution is dissected inside the housing 3 by a conical protrusion 11 of the cone dissector 9 on. 3; t0363 individual jets, which, with the force of a blow to the walls of its cup-shaped recess 12, are crushed into small ones. particles are mixed in it to form a material-air mixture, which enters the annular gap 12 between the housing 3 and the cone-shaped divider 9. In this cannula during the process of the material and air material, the rods 13 rotate in their path, causing its intensive turbulence, which contributes to its additional crushing mixing its particles. Subsequently, the 92.4 terial air mixture enters the nozzle t and is ejected from the neto in the form of a torch, which, if necessary, is adjusted by moving the tube 5 and fixing it with a retaining screw 8. The pneumatic nozzle of the proposed design improves the uniformity and dispersion of the sputtering of the flowable material, intensively displacing it with air, improve the quality of the applied layer and reduce the consumption of flowable material.

Claims (1)

PNEUMATIC NOZZLE, comprising a housing, a fluid supply pipe, a compressed air supply pipe mounted at the output end of the nozzle body and a cone divider with clamps, by means of which it is mounted inside the housing coaxially and oriented with a vertex in the direction of the output end of the housing, different t £ m, which, in order to increase the uniformity and dispersion of sawing fluid, material, the cone divider on the base side has an axial cup-shaped recess with a conical protrusion in the middle, f cone divider ixers are made in the form of rods, each of which is fixed on one of its ends by one of its ends, the compressed air supply pipe being inserted into the fluid supply pipe, and the last by the output end being aligned with the conical protrusion and inserted with a gap into the cup-shaped recess of the conical divider. SU,. ,, 1036392 1 1036392 2