SU1291782A1 - Flow regulator - Google Patents

Abstract

The invention can be used in lubricating and hydraulic systems and makes it possible to increase the reliability and simplify the design by making an adjustable throttle in the form of a ball 8 mounted in a conical bore on a rod and interacting with a thrust surface concentrically mounted on a rod 1 of a movable element associated with a rotatable tube 5. The flow of fluid passing through the throttle gap, the ball 8 is displaced all the way into the conical surface of the nut 6. Together with the axial movement of the nut 6, The axis of the rod 1 changes the magnitude of the indicated displacement of the ball 8 and, consequently, the size of the flow area of the throttle gap between the ball 8 and the conical surface of the hole 2. The mobility of the ball 8 reduces the likelihood of clogging and obliteration of the throttling channel at relatively low flow rates. 3 h, para. f-ly, 4 ill. with (L

Description

one

12

The Invention relates to QM flow controllers and can be used in lubricating and hydraulic systems.

The purpose of the invention is to increase reliability and simplify the design due to the organic combination of rotary measuring and throttle devices.

FIG. 1 shows the flow controller, section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - the same, when performing a movable element in the form of a sleeve with a thrust surface in the form of a portion of an Archimedean spiral; in fig. 4 - the same, when performing a movable element in the form of a sleeve with a cylindrical thrust surface made with an eccentricity relative to the axis of the rod.

The flow regulator contains a rod 1 with a tapered bore 2, with an inlet 3 at one end and an outlet 4 at the other transparent tube 5, a nut 6 with a portion of the thrust conical surface 7, a ball 8, a nut 9, an annular float 10, a spring 11 and O-rings 12 and 13.

The transparent tube 5 is made rotatable, connected by a spline connection with the nut 6, and is an adjusting element of the throttle, made in the form of a ball 8 installed in a conical hole 2 on the rod 1 and interacting with an abutting conical surface 7 of the nut 6.

The conical bore 2 is connected to the inlet 3 by a channel 14, is a seat for the ball 8 and is configured to provide the necessary axial and radial movement of the latter.

The rod 1 is provided with a conical section 15 which narrows towards the outlet orifice, on which the annular float 10 is installed in the cavity formed by the internal cylindrical surface of the tube and the rod.

The regulator works as follows.

The fluid in the flow regulator flows through the inlet 3, passes through the throttling gap between the ball 8 and the conical surface of the hole 2, the annular gap between the inner hole of the float

five

0

five

0

five

10 and the rod 1 and goes to the outlet 4. Monitoring the operation of the regulator is carried out through the transparent tube 5. The change in the fluid flow rate is carried out by turning the transparent tube, while the nut 6 is rotated on the thread of the rod 1, shifted in the axial direction the interaction of its hard conical surface 7 with the ball 8 changes the size of the throttle gap between the ball 8 and the conical surface of the hole 2.

For ease of adjustment, the adjustment range of the rotation angle of the tube 5 can be performed within 360 or more.

When the fluid passes through the flow regulator, the spring-loaded float 10 moves along the tube axis, thereby changing the area of the annular cross-section (increasing it with increasing flow rate and decreasing with decreasing it) between the float 10 and the rod 1, and stops at a certain position corresponding to the balance of forces him.

The equilibrium of the system corresponds to a certain value of flow recorded on a scale deposited on the transparent tube 5. The stop surface for the ball 8 can also be performed in the sleeve 16, for example, as a portion of an Archimedean coil 17, which makes it possible to perform the range of the adjustment angle of rotation of the sleeve 5 close

0 to 360 °, or in the form of a cylindrical surface 18 made with an eccentricity about the axis of the rod 1 (the range of the adjustment angle of rotation of the tube 5 in this case

5 is 180).

The flow of fluid passing through the throttle slit, the ball 8 is displaced all the way into the conical surface of the nut 6. Together with the axial movement of the nut 6 along the axis of the rod 1, the amount of displacement of the ball 8 and, consequently, the size of the throttle slit between the ball 8 and conical surface 2.

The mobility of the ball 8 reduces the likelihood of clogging and obliteration of the throttling channel at relatively low flow rates. So,

For example, if a certain size of the contaminating particle gets into the throttle gap, the ball 8 due to its ability to radially displace in the conical hole 2 as a result of interaction with the specified particle can be displaced from the equilibrium position in the flowing fluid flow and thus form a gap in the place of interaction for passing through the throttle gap of the contaminating particle. Improving the resistance of the throttles to obliteration is provided as follows. Under actual operating conditions of the proposed device, as a result of fluctuations in pressure drop across the throttle, for example, due to the changing load of the fluid flow consumer, the ball 8 is displaced (oscillates), changing the configuration of the throttle slit within certain limits and thus making it difficult for the obliterator Ts1Sh throttle gap at low cost. ,

Claims (4)

Invention Formula one . A flow regulator comprising a rometric measuring device made in one housing in the form of a central element with flow channels, on which a concentration 4 is present. The regulator according to claim 1, characterized in that the movable element is made in the form of a sleeve with a cylindrical abutment surface  The spring-loaded ring of 35 with an eccentricity of the relative float and the tube of a transparent axis of the central element are placed trickingly. -X 0 )five 0 five 0 it is a spindle, and a throttle device with a locking element that overlaps the housing passageway, characterized in that, in order to increase reliability and simplify the design, the central element is made with a conical section tapering towards the output channel, and in the central element there is a conical opening and a lock - The eight element is designed as a ball and is placed in this hole, while on the central element there is a concentric mounted mobile element with a stop surface with which the ball interacts, and the tube from rozrachnogo material pivotally mounted relative tsentrsShnogo element and connected to the movable element. 2. The regulator according to claim 1, characterized in that the movable element is made in the form of a nut with a portion of an abutting conical surface. 3. The regulator according to claim 1, characterized in that the movable element is made in the form of a sleeve with a thrust surface in the form of a section Archimedean spiral. I 4. The regulator according to claim 1, characterized in that the movable element is made in the form of a sleeve with a cylindrical abutment surface, 5 made with eccentricity relative to the axis of the central element. Fot d. 2 Compiled by O. Bugaev Editor 0. Yurkovetskaya Tehred V. Kadar Order 219/38 Circulation 640 Subscription VNIIII USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d, 4/5 . Production and printing company, Uzhgorod, st. Project, 4 Fig.Z . Proof-reader I. Erdeyi