RU40427U1 - PIPE BODY HOUSING - Google Patents

Abstract

The utility model relates to pipe fittings, in particular to valves, and can be used in energy, petrochemical and other industries. The purpose of the utility model is to create a single multifunctional housing for various types of fittings with minimized hydraulic resistance coefficients. The goal is achieved in that the ratio of the nozzles “D” and the passage channel “d” is selected in such a way that a saddle of the locking node is placed between the horizontal parts asymmetrically arranged with an eccentricity “a” with respect to the nozzles in the same vertical plane of the parts (knees) of the passage channel.

Description

The utility model relates to pipe fittings, in particular to valves, and can be used in energy, petrochemical and other industries.

A non-return valve body is known (see the Nomenclature Handbook for Pipe Fittings, OSNG Part 2, Publishing House 2, Moscow 2002 p.342, KZ 41001), having two nozzles located on the same axis, inside of which a passage channel for the working medium having a Z-shaped is coaxially made form, with a knee fracture of more than 90 °, intersected by a vertical channel to accommodate the locking organ.

The disadvantages of the known include a high coefficient of hydraulic resistance (see I.E. Idelchik Handbook of hydraulic resistance, Gosenergoizdat M, L, 1960, p. 299, the passage channel with an angle of rotation of 2 elbows at an angle greater than 90 ° is equal to ξ = 7, 8.)

The valve body is also known (see the Nomenclature Guide for Pipe Fittings, OSNG Part 2, Publishing House 2, Moscow 2002, p.343, Fig. 943.) also having two nozzles located in the same plane, but at different levels inside which are coaxial a passage channel with a double kink (elbows) was made at an angle of 90 °, which has a reduced hydraulic resistance coefficient compared to the first prototype (see I.E. Idelchik Handbook of hydraulic resistance, Gosenergoizdat M. L. 1960, p.203, where is the hydraulic resistance the bend at an angle of 90 ° depending on the ratio of the diameter “d” of the passage channel to the distance “a” between the axes of the horizontal bends does not exceed ξ = 4.22), but this housing cannot be used for pipe fittings with nozzles located on the same axis, for example for gate valve.

The purpose of the utility model is to create a single multifunctional housing for various types of fittings with minimized hydraulic resistance coefficients.

This goal is achieved in that the ratio of the diameters of the nozzles “D” and the passage channel “d” is chosen so that between the horizontal asymmetrically arranged with an eccentricity “a” with respect to the nozzles in the same vertical plane of the parts (elbows) of the passage channel is located the saddle of the locking node .

Figure 1 shows a section of a valve body with a double fracture of the end of the passage channel by 90 °.

Figure 2 shows a section of the valve body.

The housing contains an inlet pipe 1 and an outlet pipe 2 located in the same axis of the same diameter, in which the passage channel 3 is located consisting of 3 parts (elbows) of two horizontal 3, 4 and vertical 5. The vertical elbow 5 is coaxial with the vertical chamber 6 to accommodate the shut-off body (in Fig. not shown) interacting with the saddle 7.

Thus, due to the fact that the ratio of the diameters of the nozzles and the passage channel allow you to arrange the latter horizontally i.e. the passage channel consisting of three parts (elbows) 3, 5 and 4 has two 90 ° turns to minimize pressure losses during the passage of the working medium, and also obtain a valve body with a minimum coefficient of hydraulic resistance with a coaxial passage channels 3 and 4, thereby ensuring the possibility of obtaining from a single workpiece a number of cases of pipe fittings for various functional purposes.

Claims (1)

The body of the pipe fitting containing horizontal nozzles located on the same axis for the passage channel with a vertical chamber intersecting it to accommodate the shutter assembly, characterized in that the ratio of the diameters of the pipe and passage channel is selected so that between horizontal asymmetrically arranged relative to the pipes in a single vertical to the plane of the parts (knees) of the passage channel, a saddle of the locking assembly is placed.