RU2088829C1 - Control ball valve - Google Patents

Abstract

FIELD: manufacture of fittings, in particular pipeline valving. SUBSTANCE: control ball valve has housing with coaxially positioned inlet and outlet branch pipes. Installed in the housing is ball gate with openings on its opposite sides, which come in contact with perforated discs made of antifriction material, for example of bronze. The discs are rotatably installed in recesses of the branch pipes. Holes with identical diameters on the ball and perforated disks are disposed along concentric circumferences at equal distances from the central holes. The further are the holes from the center, the smaller are their diameters. All the holes are made radial, it means that they are directed toward the center of the ball. EFFECT: improved effectiveness of flow control. 2 cl, 4 dwg

Description

 The invention relates to aromatherapy, in particular to stop valves.

Known control valve type UORC, which can be used to control pressure and flow, as well as to work in gear mode. Such a crane comprises a housing having coaxially located input and output channels, and a shutter-ball mounted in the housing, in which a cylindrical channel is formed passing through its center. In this crane, the shutter shaft is deflected 30 ^o from the vertical, and on the surface of the ball are two grooves of variable cross-section located in opposite directions. The beginning of the grooves is near the edges of the cylindrical channel. Here the cross section of the grooves is maximum. The central lines of both grooves are located in a plane perpendicular to the axis of the shaft (Yu. Y. Kaziner. Reduction of cavitation in control valves. Overview. XM-10 series. "Industrial pipe fittings". M. TsINTIkhimneftemash, 1988, p. 12, Fig. 7 )

 However, such a device is characterized by increased complexity in manufacturing and unstable operation with an opening degree of, for example, less than 7.5% due to the design features of the ball-gate.

 Also known is a ball control valve comprising a housing having coaxially located input and output channels, and a perforated shutter-ball mounted in the housing in contact with stationary perforated disks with a spherical concave surface. In such a perforator tap in the disks and shutter, the balls are made coaxially along concentric circles with different passage conditions (US patent 5070909, class F 16 K 5/10, 1991).

 The disadvantages of such a ball control valve are the instability of operation at low degrees of opening due to the holes in the perforated disk with the same conditional passage, the inability to change the characteristics of the valve without replacing the disks with disks with other perforations and the manufacturing complexity associated with installing perforated plates inside the ball.

 Based on a set of common features, a ball control valve according to US patent 5070909 is selected as a prototype.

 The objective of the invention is to simplify the design and increase reliability at low degrees of opening of the crane.

 The technical result is achieved in that in a ball control valve comprising a housing with coaxially located input and output channels and a perforated shutter-ball installed in the housing in contact with the spherical surface of the perforated disks, perforation in the disks and shutter-ball is made coaxially along concentric circles in the form radial holes with various conditional passages, discs are mounted in the housing with the possibility of rotation relative to the center and the holes are made increasing towards the center.

 The installation of disks in the housing with the possibility of rotation relative to the center additionally provides more accurate control of the crane resistance at small degrees of opening due to the displacement of the holes of the disks relative to the openings of the shutter-ball depending on the consumer's requirements for a specific position of the technological scheme and taking into account the dynamic characteristics of the actuator. Such devices allow you to adjust the conditional passage of the crane. The maximum nominal pass is achieved when all the openings of the shutter-ball and perforated discs coincide. The remaining positions when turning one or both of the perforated discs correspond to intermediate conditional passes. In the position of small opening, a large dissipative effect is achieved by turning the input perforated disk to the position when the input throttling stage takes over most of the differential, and the output throttling stage corrects the required flow rate.

 Performing perforation in the disks and the shutter-ball coaxially along concentric circles in the form of radial holes with various conditional passages provides smoother flow control at low degrees of tap opening due to the formation of two throttling stages. Thus, the pressure drop at each throttle stage is halved.

 In FIG. 1 shows a longitudinal section through a crane; FIG. 2 is a view along arrow A in the fully open position; in Fig. 3, the same is in the small-open position; in Fig. 4, the same is an option for achieving small openness by turning the perforated disk.

 The ball control valve comprises a housing 1, sowing coaxially located inlet 2 and output 3 nozzles, and a shutter ball 4 mounted in the housing 1 with holes 5 on its opposite sides in contact with perforated discs 6 made of antifriction material, for example, bronze, and installed with the possibility of their rotation in the grooves of the nozzles 2 and 3. Holes 5 with the same diameter are placed on the shutter-ball 4 and perforated disks 6 along concentric circles at equal distances from the central holes and of distance from the center, their diameter decreases. All holes are made radial, i.e. directed toward the center of the ball. In the middle part of the housing 1 there is a tide, in the bore of which, through the seals, the spindle 7 is installed.

 The device operates as follows.

In the closed position, the shutter-ball 4 is turned to the perforated disks 6 by sides that do not have perforation, and is pressed against the disk mounted on the side of the outlet pipe 3 by the pressure of the medium, locking it. When working with maximum flow, the shutter-ball 4 through the spindle 7 rotates in the housing 1 by 90 ^o , while the refractory medium from the channel 2 passes through the coaxially located holes 5 of the disks 6 and the shutter-ball 4 to the outlet through the pipe 3.

When the shutter-ball 4 is rotated through an angle less than 90 ^° , part of the holes in the disks 6 are blocked by the non-perforated surface of the shutter-ball. The throttled medium passes through the slots formed when the openings of the ball shutter and the perforated disk are superimposed at the inlet of the valve and fills the cavity of the ball and then re-throttling occurs through the slots at the outlet of the control valve.

 The invention allows to simplify the design of the crane, to improve the quality of regulation in various operating modes.

Claims (2)

 1. Ball control valve comprising a housing with coaxially located input and output channels and a perforated shutter-ball installed in the housing in contact with the spherical surface of the perforated discs, the perforation in the disks and the shutter-ball being made coaxially along concentric circles with different conditional passages, characterized the fact that the disks are mounted in the housing with the possibility of rotation relative to its center.  2. The crane according to claim 1, characterized in that the perforation in the disks and the shutter-ball is made in the form of radial holes.

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