RU2009864C1 - Method for jet blasting - Google Patents

Abstract

FIELD: blasting. SUBSTANCE: part is blasted in a liquid working medium by a freely gas-saturated fluid working medium jet. EFFECT: improved output. 2 dwg

Description

 The invention relates to metal processing and can be used in various industries for finishing and hardening processing of complex parts.

 A known method of processing parts with an abrasive medium, in which a part mounted on a spindle, immersed in a container with an abrasive medium and tell her the rotation.

 The disadvantage of this method is the low productivity due to the small contact forces between the abrasive particles and the part.

 Also known is a method of waterjet processing in which a hydroabrasive medium is placed between the workpieces and relative movements are reported to the parts to create a waterjet wedge.

 The disadvantage of this method is the low quality of processing due to the increased content of large particles of abrasive in a waterjet wedge.

 As a prototype of the selected method of blasting, in particular waterjet, in which the processing of parts is carried out in a liquid abrasive medium.

 The disadvantage of this method is low productivity due to the small force of the impact of particles of abrasive on the workpiece.

 The purpose of the invention is to increase the productivity of the process by enhancing the impact of particles of the working medium on the surface of the workpiece.

 The goal is achieved in that the treatment is carried out freely by a gas-saturated jet of a liquid working medium.

 The free saturation of air with a jet of a liquid working medium leads to the formation of a stream with small air bubbles, which cannot be created by other methods. For example, when using compressed air as the energy carrier (in the prototype), an inhomogeneous jet is formed with significant air bubbles, which, after leaving the displacement chamber, rush to the liquid surface, dragging the particles of the solid filler along with them. Thus, the jet is depleted in abrasive, and its speed decreases, as a result of which the productivity of the process decreases.

 When a part is processed with a freely gas-saturated liquid working medium, a significant boundary layer on the surface to be treated is formed, which is formed when a part flows around a part with a liquid (in the prototype), in which braking of particles of a solid filler (abrasive or other material) is observed, as a result of which the force exerted by the particles on the part is reduced.

 A gas-saturated jet is characterized by a lower density in comparison with a jet of liquid and filler. In this regard, a boundary layer is not formed on the workpiece surface, leading to damping of the velocity of the filler particles, as a result of which the processing efficiency increases.

 When processing parts with a free gas-saturated jet, there is an increase in the contact spot of the jet with the surface by a factor of 2–3 compared with the prototype. This is achieved due to the rupture of air bubbles upon impact on the part, which leads to a dispersion of particles of solid filler on the treated surface, which also removes the metal.

 Thus, the claimed method meets the criterion of "novelty."

 Comparison of the proposed method not only with the prototype, but also with other solutions in the art, did not reveal the signs that distinguish this method from the prototype, which allows us to conclude that its criterion of "significant differences".

 In FIG. 1 shows a diagram of a device for implementing the method; in FIG. 2 - node I in FIG. 1.

 The device consists of a reservoir 1 with a liquid working medium 2, into which the workpiece 3 and the jet apparatus 4 are immersed. Part 3 has the possibility of rotation and vertical movement. A pump 5 with a suction filter 6 is used to supply liquid working medium to the jet apparatus 4 and for mixing. The jet apparatus 4 consists of a mixing chamber 7, a discharge chamber 8 and a nozzle 9. At the bottom of the discharge chamber 8 there is a nozzle 10 for collecting the liquid working medium 2, and in the upper part there is a suction tube 11 for intake of atmospheric air.

Concrete example
A liquid working medium of water and abrasive material is poured into the tank 1 (white aluminum oxide, grain size 50) and the GTE blades are processed from VT-9 alloy with a free gas-saturated jet of liquid working medium for 10 minutes.

 As a result of processing, the surface roughness decreases from 1, 2, 5 in the initial state to 0.32 μm, and the blade geometry fits into the tolerance field. When processing the blades without gas saturation of the jet of a liquid working medium, ceteris paribus, the specified roughness is achieved only after 30 minutes of processing.

 Using the proposed method of blasting in comparison with the prototype allows you to get a part of the required quality for less processing time. (56) Copyright certificate of the USSR N 207768, cl. B 24 C 1/00, 1967.

Claims (1)

 METHOD OF BLASTING, whereby a part immersed in the working medium is affected by a flooded jet supplied by an energy carrier using an ejector type jet with an intake nozzle, characterized in that they consume air in order to increase fed into the mixing chamber of the jet apparatus under atmospheric pressure, and a working medium is used as the energy carrier.

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