SU606044A1 - Vortex pipe - Google Patents

Description

(54) VORTEX PIPE

one

The invention relates to the field of refrigeration. It can be used, for example, in miniature air coolers for heat protection suits.

Vortex tubes are known, mainly for low flow rates of compressed gas, with a silencer and a throttle valve at the high end of l.

These pipes are not compact enough and have a high level of noise.

The purpose of the invention is to eliminate this disadvantage.

The goal is achieved by the fact that the silencer is made in the form of a sleeve of porous material fixed to the throttle valve, with the possibility of axial movement along the hot end of the pipe.

The drawing shows a vortex tube.

The pipe contains a nozzle inlet 1 of compressed air with an opening 2 for releasing the cooled part of the flow to the consumer, a hot end 3 placed in the cavity 4 of a silencer made in the form of a porous tube 5, and a choke 6 partially overlapping the holes 7 brought into the cavity 4. The tube 5 is made of porous

bronze, foam glass or other material with permeable pores with a diameter, mainly 0.005 - 0.2 mm, and attached to the choke 6, screwed into the cavity of the hot end 3. In the last hole at the hole 7 there is a cross. 8 to straighten out what flow.

The high-velocity flow of expanding air (gas) through the nozzle inlet 1 rushes into the vortex chamber and twists. At the same time, the near-axial layers of the vortex are led out through the opening 2 to the cooled object, and the heated peripheral layers are brought out through the opening 7 into the cavity 4 of the silencer and through the pores in the walls of the tube 5 to the atmosphere. Operation mode adjustment

The vortex tube is rotated by the tube 5 controlling the position of the throttles 6. When unscrewing the throttles 6, the cross section of the holes 7 increases and the flow rate of the cold flow through the hole 2 decreases, which leads to a corresponding decrease in its temperature.

Placing the hot end of 3 in cavity 4 muffler in the form of a porous

tubes 5 without increasing overall

the size of the vortex tube provided effective noise attenuation (60-70 dB, depending on the size and nature of the pores). The speed of the individual air jets at the exit of the pores of the tube 5 does not exceed 20 m / s. Using the porous tube 5 as a throttle adjustment knob 6 is convenient when operating a small-scale vortex tube, since the dimensions of the knob are commensurate with the dimensions of the hot channel 3.

The effectiveness of the pipe is to reduce the size and reduce the noise level.

Claims (1)

1. USSR author's certificate No. 325467, cl. 725 B 9/02, 1970.