RU2360782C1 - Nozzle of sand blast device - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: nozzle comprises body with insert in the form of cylindrical spring and guide channel arranged in its area, and nozzles for abrasive and compressed air supply into guide channel. Guide channel is arranged as cone-shaped, narrowing to the side of its outlet section. In body, axisymmetrically to guide channel, bush is installed with openings that communicate guide channel with nozzles for supply of abrasive and compressed air. Openings that communicate nozzle for supply of compressed air and cavity between insert and wall of guide channel are arranged along helical line relative to axis of guide channel. Section of body with guide channel is arranged in the form of separate part with the possibility of its longitudinal displacement and fixation.

EFFECT: increased wear resistance of insert, prolonged service life of insert and nozzle.

3 dwg

Description

The invention relates to mechanical engineering and can be used in devices for jet-abrasive processing of parts.

Known nozzles for sandblasting devices: ed. testimonial. No. 1757529, 604667, 837830, 1611718.

Known nozzle sandblasting apparatus (ed. Certificate. No. 1024247-prototype) with an insert made of a set of twisted coil springs with different coefficients of thermal expansion located concentrically. Compressed air for the formation of a protective layer on the working surface of the spring is supplied through a pipe installed perpendicular to the guide channel of the nozzle. Such a supply of compressed air does not provide uniform throttling of air between the turns of the spring along its length and, accordingly, does not provide a uniform protective air layer, thereby reducing the wear resistance of the spring insert.

An object of the present invention is to remedy this drawback.

The technical result is achieved by the fact that in the nozzle of a sandblasting apparatus containing a housing with an insert made in the form of a cylindrical spring, nozzles for supplying abrasive and compressed air to the guide channel, a sleeve with holes communicating the guide channel with the supply pipes is installed axisymmetrically to the guide channel, while the holes in communication with the compressed air supply pipe and the cavity between the insert and the wall of the guide channel are located along a helical line relative to the axis of the guide inbound channel, and a body portion with a guide channel is formed as a separate part with the possibility of longitudinal displacement and fixation, wherein the guide channel is tapered, narrowing toward its outlet section.

The execution in the housing of an axisymmetric sleeve with holes for supplying air into the cavity between the insert and the wall of the guide channel, located along a helical line relative to the axis of the guide channel, allows air to be supplied to the insert moving with a swirl along its axis. Thus, the air moving along the insert with swirl through the inter-turn gaps of the insert is evenly distributed over the section of the insert, and the implementation of the guide channel with a cone, tapering towards the output section, allows you to align the air supply along the length of the insert. A uniform protective layer of air is formed on the entire inner surface of the insert, protecting the insert from abrasive wear, while the case section with the guide channel in the form of a separate part with the possibility of its longitudinal movement and fixing allows you to adjust the inter-turn gaps of the insert and, accordingly, the flow of incoming air into the guide channel, and thereby the magnitude of the spin of the abrasive mixture from the inner surface of the insert.

Figure 1 shows a sandblasting device, a General view.

Figure 2 is a cross section of the housing along an axisymmetric sleeve.

Figure 3 is a view of the hole of the axisymmetric sleeve.

The nozzle of the sandblasting apparatus consists of a housing 1, movable in the housing of the part 2, in which an insert 3 is installed in the form of a spring forming a guide channel L, nuts 4 for moving the movable part, the retainer 5, the axisymmetric sleeve 6, the air supply pipe 7, the abrasive supply pipe 8.

The nozzle of the sandblasting apparatus operates as follows.

The pipe 8 is fed abrasive. At the same time, continuously compressed air is supplied through the pipe 7. In the sleeve 6, the air is divided into two flows: the first, mixed with the abrasive, moves along the guide channel L, and the second, directed with a twist into the area between the movable part 2 and the insert 3, moves along the axis of the guide channel L. The swirl of the air flow ensures uniform distribution air supply to the insert over the cross section. The conical profile of the movable part 2 allows you to create air in the cavity between the surfaces of the part and the insert, thereby ensuring a uniform flow of air into the insert. A uniform protective air layer eliminates the interaction of the abrasive with the insert. When moving the nut 4 of the movable part 2, interacting with the spring insert 3, the inter-turn gap of the insert changes, which allows you to adjust the flow rate of air entering the guide channel L, and thereby the amount of squeezing the abrasive mixture from the inner surface of the insert.

Thus, the use of the invention allows to increase the wear resistance of the insert by forming an effective, evenly distributed on the inner surface of the insert air gap that prevents the destruction of the insert, and to increase the wear resistance of the nozzle of the sandblasting apparatus.

Claims (1)

A nozzle of a sandblasting apparatus, comprising a housing with an insert made in the form of a cylindrical spring, and a guide channel made in its area, and nozzles for supplying abrasive and compressed air to the guide channel, characterized in that a sleeve with holes is mounted axisymmetrically to the guide channel, communicating a guide channel with nozzles for supplying abrasive and compressed air, and holes communicating a nozzle for supplying compressed air with a cavity between the insert and the wall of the guide channel, made along a helical line relative to the axis of the guide channel, while the section of the housing with the guide channel is made in the form of a separate part with the possibility of its longitudinal movement and fixation, and the guide channel is made conical, narrowed towards the output section.

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