SU1500791A1 - Ejector - Google Patents

Description

The invention relates to pneumatic ejectors with water spraying devices and can be used for cooling air, irrigation and dust suppression in mine workings. The goal is to increase the efficiency of the ejector by reducing the resistance to movement of the ejected air. The ejector includes a housing (K) 1 with an outlet part 2 connected to the head 3 and forming an annular chamber (KK) 4 and an annular nozzle 5 having a rounded edge.

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ku 6. Spray nozzles 7 of the ejector are installed on the output part K 1 and connected to the collector 8. The ring nozzle 5 is placed on the outer part 13 of the ejector, and the collector 8 and KK 4 inside K 1. The nozzle 9 of the compressed air supply is connected at one end 10. annular nozzle 5, and the other with a source of compressed air. The pipe 11 of the fluid supply is connected at one end 12 with the collector 8, and the other with a source of fluid supply. The ends of the 10 and 12 nozzles are placed inside the K 1, installed coaxially and coaxially with each other. Flowing from the nozzle 5, the compressed air forms an air layer on the outer surface of the K'1. From the nozzles 7 connected to the collector 8, small particles of liquid enter the air flow. Due to turbulent mixing, a water-air jet is used, used for irrigation, dust suppression or cooling of ambient air. 2 Il.

5 C „„ 1500791

3,150

The invention relates to pneumatic ejectors with water spraying devices and can be used for cooling air, irrigation and dust suppression in mine workings.

The aim of the invention is to increase the efficiency of the ejector by reducing the resistance to movement of the ejected air.

Fig, 1 shows the ejector, a general view; in fig. 2 shows view A in FIG.

The ejector includes a housing 1 having an outlet part 2 and connected to the head 3 to form an annular chamber 4 and an annular nozzle 5 having a rounded edge 6, spray nozzles 7 that are connected to the collector 8. Nozzle 9 a supply of compressed air one end 10 is connected to the annular nozzle 5 through the annular chamber 4, and the other to the source of compressed air supply (not shown), the liquid supply pipe 11, for example, water, one end 12 is connected to the collector 8, and the other to the source fluids (not shown), nozzle 5 times placed on the outer part 13 of the ejector, and the collector 8 and the annular chamber 4 are placed inside the housing 1, "The ends of the 10 and 12 nozzles of the compressed air and fluid supply are placed inside the housing, mounted coaxially and coaxially 35 FRIEND to a friend. at the output of the housing 2. The annular chamber and the collector _{g are} separated by a sealed partition 14.

The proposed water-air ejector - 40 torus operates as follows.

Compressed air through the pipe 9 enters the annular chamber 4 and, flowing through the annular nozzle 5 in the direction 45 of the outlet outer surface of the housing 1, forms an air layer on it with increased speed. Impulse dv1 ⁴

from the air layer on the outer surface of the housing 1 is transmitted to the ejected ambient air. Liquid (water) through the pipe 11 enters under pressure in the manifold 8, which is separated by a sealed partition 14 from the annular chamber 4.

Through the nozzles 7 fine particles of liquid enter the air flow. Subsequently, due to turbulent mixing, a water-air jet is formed, which can be used to irrigate, suppress, or cool ambient air. FIG. 1 movement of air and fluid is indicated by arrows.

Claims (1)

Claim The ejector includes a housing having an outlet part and connected to the head to form an annular chamber and an annular nozzle having a rounded edge, spray nozzles connected to the collector, a compressed air supply nozzle connected to the annular nozzle through the annular chamber and the other source of compressed air, and a fluid supply pipe, one end connected to the collector and the other to a liquid source, characterized in that, in order to increase the efficiency of the ejector due to reducing the resistance to movement of the ejected air, the annular nozzle is placed on the outer part of the ejector, and the collector and the annular chamber are placed inside the body, while the ends of the liquid and compressed air supply nozzles are placed inside the body and head and are coaxial with them and coaxial to each other at the exit of the hull. 1500791