SU1123024A2 - Jet-type consumption control - Google Patents

Abstract

JET FLOW REGULATOR according to ed. St. No. 798740, about tl and baking, and with the fact that, with a chain of performance improvement due to the hermetic flow, it is sleeping installed in a coaxially inlet channel with a confuser connected by an expanding part through a mating concave surface of rotation with an output edging , and the narrowing part with the receiving nozzle. The ratio of the radius of curvature of the mating concave rotational surface to the curvature radius of the convex curved rotational surface of the nozzle is 1015, and the internal diameter of the inlet nozzle is 3-5% smaller than the internal diameter of the receiving nozzle.

Description

The invention relates to automatic control and can be used in hydro-pneumatic automation systems, in the chemical, food and other industrial sectors. s

According to the main author. St. No. 798740 is known an inkjet flow regulator, comprising a housing with an inlet channel in which an inlet nozzle connected to a nozzle is installed, an outlet channel 10 located coaxially with a nozzle, an annular control chamber connected to the nozzle through an annular slot, and a receiving nozzle mounted on lines of action of the jet from the outlet channel, 15 the inner surface of the nozzle is made in the form of a convex curvilinear surface of rotation, and the annular gap is located tangentially to the inner surface of the GtZ nozzle. 20

The disadvantage of this regulator is that when using aggressive and toxic liquid working media, the flow of control going to the Drain blows their vapors to the atmosphere, so that 25 It has a negative effect on health. service personnel;

The purpose of the invention is to improve performance by sealing the flow.

The goal is achieved by the fact that the jet flow regulator is equipped with a confusorr installed coaxially with the confuseror connected to the expanding part through a mating concave surface of rotation with the output channel and a tapering part with a receiving nozzle, and the ratio of the radius of curvature of the mating concave surface rotation to the curvature dradius of the convex curvilinear surface of the rotation of the nozzle is 10–15, and the internal diameter of the inlet nozzle is 3-5% less inside - the diameter of the receiving nozzle. The drawing shows the proposed flow regulator.

An inkjet flow regulator includes a housing 1 with an inlet channel 2 in which an inlet 50 nozzle 3 is coaxially mounted, connected to a nozzle 4, the inner surface of which is filled in the form of a convex curvilinear rotating surface, an outlet channel 5 coaxially located with the nozzle 4 55 and an inlet channel 2. In the housing there is an annular control chamber 6 for delivering control flow from the channel

7. The control chamber 6 is connected to the nozzle 4 via an annular slot 8 located tangentially to the inner surface of the nozzle 4, and a working chamber 9. On the line of action of the jet from the output channel 5 a receiving nozzle 10 is installed.

The confuser 11 is connected by an expanding part through a mating concave surface of rotation 12 to an output channel 5, and a narrowing part to a receiving nozzle 10. The ratio of the radius of curvature of the mating concave surface of rotation 12 to the radius curvature of a convex curvilinear surface, the rotation of the nozzle 4 is 10-15 and the internal diameter of the inlet nozzle 3 is 3-5% less internal: it has a diameter of the receiving nozzle 10.

The device works as follows.

In channel 2 of case 1, the flow is aggressive, toxic, and the working medium with a constant pressure of flow j j с kastra: leaked through the nozzle 4, gets into the output channel 5, and then into the receiving nozzle. 10. Simultaneously: through the channel 7 the gas flow of control is fed into the chamber 6, which through the annular gap B, the working chamber 9, the nozzle 4, the confuser I enters the receiving nozzle 10.

The space between the exit channel 5 and confuser 11 is bounded from the atmosphere. Through the mating concave rotation surface 12. The radius of curvature of this mating concave rotation surface 12 is 1015 times larger than the radius of curvature of the convex curvilinear rotation surface of the nozzle 4, and the diameter of the inlet sol 3 is 3- less. 5% of the internal diameter of the receiving nozzle 10. This makes it possible to obtain the area over the cross sections inside the mating concave surface of rotation almost does not differ from the area of the receiving nozzle 10. This reaches Since in the chamber 9 and the receiving nozzle 10 there occurs a simultaneous flow of a liquid working medium and a gas with a stable partition between them.

The control flow of gas, covering the jet of liquid working medium, isolates the latter from the inner surfaces of the working chamber 9, the nozzle 4 and the receiving Nozzle 10.

An increase in the flow rate of the controllable gas flow leads to a decrease in

the cross section of the liquid working medium, and thereby reducing the flow rate of the liquid medium. A decrease in the control gas flow, on the contrary, leads to an increase in the flow rate of the liquid working medium.

The technical and economic effect of the introduction of the proposed jet flow regulator consists in eliminating the loss of aggressive toxic fluids and eliminating the means of protection against the pollution of the premises.

Claims (1)

Inkjet expense controller for ed. St. No. 798740, due to the fact that, in order to improve operational performance by sealing the flow, it is equipped with a confuser installed coaxially to the input channel, which is connected by the expanding part through the conjugated concave surface of rotation to the output channel ,. and a tapering part with a receiving nozzle, the ratio of the radius of curvature of the mating concave surface of revolution to the radius of curvature of the convex curved surface of rotation of the nozzle is 1015, and the inner diameter of the inlet nozzle is 3-5% less than the inner diameter of the nozzle. 1 1123024 2