SU1483205A1 - Device for treating damp air - Google Patents

Abstract

The invention relates to the field of refrigeration, in particular, to devices for treating wet ionized air with a vortex energy separator. In order to cool the cutting area of the metal-cutting machine, a protective cover 6 is placed around the cold flow outlet 4 and connected to the positive electrode 7, while the negative electrode 8 is needle-shaped and located along the axis of the nozzle 4, as a result of which the ionized air enters the cutting zone, cools the cutter 11 and the workpiece 12. 1 Il.

Description

The invention relates to refrigeration, in particular to devices for treating moist air using vortex energy separation, ’and can be used to cool the cutting zone of metal cutting machines, as well as for air conditioning in industrial premises.

The purpose of the invention is the provision of cooling the cutting zone of a metal cutting machine with ionized air "

The drawing schematically shows the proposed device. fifteen

The device contains a source 1 of compressed humid air connected to the nozzle inlet 2 of the vortex tube 3.

The vortex tube 3.has a nozzle 4 20 output cold flow and a throttle 5 for output hot flow. The nozzle 4 is connected to the ionizer, made in the form of a protective casing 6, located around the nozzle 4, in which the positive 7 and negative 8 electrodes are placed, the positive 7 electrode being connected to the protective casing 6. The negative electrode. 8 is made needle-shaped with placement 30 of the tip of the needle 9 in the direction of movement of the cold stream. The electrodes 7, 8 are connected to a source of '10 DC.

The cut of the outlet pipe 4 of the cold gg flow is oriented to the cutting zone in which the cutter 11 of the metal cutting machine (not shown) and the workpiece 12 are located.

The device operates as follows.

Compressed moist air from the source 1 is fed into the nozzle inlet 2 of the vortex tube 3. The air heated in the vortex tube 3 exits through the throttle 45 5, and the cooled air with the fog formed in it exits the vortex tube 3 through the cold flow pipe 4. In the cold flow branch pipe 4, the cooled air with fog enters the region of a unipolar corona discharge excited in the ionizer by the electric field of a needle negative electrode 8. Fog particles and air molecules acquire a negative charge in the region of the corona discharge and under the action of electrostatic forces move to the positive ring electrode, 7, entraining the cooled air from the vortex tube 3. An ozone molecule is formed from the excited oxygen molecules in the corona discharge zone. The cooled ionized and ozonized air enters the cutting zone, it cools the tool 11 and the workpiece 12. In addition, ionized and ozonized air accelerates the formation of a thin oxide film on the surface of the workpiece 12 and the cutter 11. Naya _£ oxidized film serves as a lubricant and reduces heat in the cutting zone.

Claims (1)

Claim A device for processing moist air containing a source of compressed air connected to a nozzle inlet of a vortex tube, the outlet pipe of the cold flow of which is connected to an ionizer made in the form of a protective casing with positive and negative electrodes inside, characterized in that, in order to ensure cooling of the cutting zone metal cutting machine, a protective casing is placed around the nozzle. the output of the cold stream and is connected to the positive electrode, and the negative electrode is made of needles and is located along the axis of the cold flow pipe, with the tip of the needle being placed in the direction of flow, moreover, the cold pipe output pipe of the vortex tube is made of dielectric material,