RU51155U1 - CORNER SWITCHING CRANE - Google Patents

Abstract

The angular switching valve relates to pipeline valves, namely to multi-way valves, and is designed to change the direction of the fluid flow in the pneumatic-hydraulic system, in particular, if necessary, disconnect one safety valve from the system for repair or dismantle and simultaneously connect to the system without stopping the worker another safety valve process. The utility model solves the problem of simplifying manual control of a crane by hydraulically unloading its conical plug. The angular switching tap contains: a housing 1 with outlet pipes 2, 3 and a conical cavity 7; a conical plug 10 installed in a cavity 7 on a bearing 8 with a passage channel 13; end cover 4 of the housing with an inlet pipe 5; fixed in the housing 1, rotatable in the transverse and longitudinal directions relative to the housing 1 and in the longitudinal direction relative to the tube 10, the control handle 25, which is connected to the tube 10 through a cam 24, equipped with a limiter for its longitudinal movement up; return springs 9 and 21. The plug 10 is equipped with a spindle 17, pivotally connected to the cam 24 and connected to the plug motionless in the transverse direction and is limitedly movable in the longitudinal direction. The space 20 between the ends of the spindle 17 and the plug 10 while turning the control handle 25 in the longitudinal direction downwardly communicates with the passage channel 13 through the hole 33, which contains a check valve 34 with a spring-loaded lifting spool 37 and the drive from the rotary handle 25 through the cam 24 and the spindle 17 . To interact with the spring-loaded check valve 37, the spindle 17 is equipped with a pusher 38 located in the through hole in the plug with an annular gap 41. When the control handle 25 is turned in the opposite direction the space 20 is isolated from the passage channel 13.

Description

The invention relates to pipeline valves, namely to multi-way valves, and is intended to change the direction of the fluid flow in the pneumatic-hydraulic system, in particular, if necessary, disconnect from the system for repair or dismantle one safety valve and simultaneously connect to the system without stopping the work process another safety valve.

Known switching crane, protected by US patent US 1540927, IPC ⁷ F 16 K 11/083, published 09.06.1925. The analogue contains a housing with a conical bore and nozzles, a conical plug, a pivot arm, and a spring pressing the plug to the sealing surface in the housing from the side of the larger base.

The disadvantage of the analogue is that in the design of the crane there is no means to prevent jamming of the conical plug in the conical bore of the body, and this makes it difficult to turn the plug manually.

The prototype of the inventive switching tap is an angular switching tap protected by Japanese patent JP 2004116595, IPC ⁷ F 16 K 11/083, F 16 K 5/16, published April 15, 2004. The prototype contains: a body with a conical cavity; a conical plug installed in the cavity on the bearing with an angular passage channel; end cover of the housing with an inlet pipe; a control handle-lever fixed in the housing on the axis with the possibility of rotation in a vertical direction perpendicular to the direction of rotation of the cork and engaging with the installation groove of the housing. When the control handle is turned down, it disengages from the housing and presses on the conical tube, which moves slightly down along the body to form a small gap between the conical surfaces of the tube and the body. The turning force on the plug is reduced, the operation of turning and switching the tap is facilitated, the durability of the tap is increased as a result of preventing scuffing on the conical surfaces of the plug and the casing sliding relative to each other.

The disadvantage of the prototype is not to use the capabilities of the working environment to reduce the mechanical drive force on the handle.

The inventive utility model solves the problem of simplifying manual control of the crane due to the hydraulic discharge of its conical plug.

The claimed technical problem is solved in an angular switching tap, which contains: a housing with outlet pipes and a conical cavity; a conical plug installed in the cavity on the bearing with a passage channel inside it; end cover of the housing with an inlet pipe; fixed in the housing, rotatable in the transverse and longitudinal directions relative to the housing and in the longitudinal direction

relative to the cork, a control handle connected to the cork through a cam provided with a limiter for its longitudinal upward movement; return spring. The plug is equipped with a spindle pivotally connected to the cam and connected to the plug motionless in the transverse direction and is limitedly movable in the - longitudinal direction. The return spring is located in the space between the ends of the spindle and the plug, which, when the control handle is rotated in the longitudinal direction downward, communicates with the passage channel inside the plug, and when turned in the opposite direction, it is isolated from it. The limiter for the longitudinal movement of the cam up is equipped with a floating thrust bearing. A through hole is made in the plug, which communicates the space between the ends of the spindle and the plug with a passage channel inside the plug. In the through hole in the plug there is a check valve with a spring-loaded lifting spool and a drive from the rotary handle through the cam and spindle. To interact with the spring-loaded lifting valve of the check valve, the spindle is equipped with a pusher placed in the through hole in the tube with an annular gap. A return spring is installed between the plug and the end cover of the housing.

The essence of the utility model is illustrated by the drawing, in Fig.1 of which an angular switching tap is depicted, a general view from above; figure 2 is a section along aa of figure 1; - section along BB figure 1; figure 4 is a view In figure 2, figure 5 is a perspective view of the cap with slots for the control handle.

The angular switching valve comprises a housing 1 with outlet pipes 2 and 3 for connecting safety valves to them (not shown in the drawing). The housing 1 is closed from below by an end cap 4 with an inlet pipe 5, and from above by a cap 6. In the housing 1, a conical cavity 7 is made, in which a conical plug 10 with one inlet 11 and three outlet openings 12 is installed on the thrust bearing 8 and the return disk spring 9, O-rings 14, 15 and 16 are installed between the inner conical surface of the housing 1 and the outer conical surface of the tube 10, which are connected inside the plug 10. The conical plug 10 is movably connected in the longitudinal direction with the spindle 17 with the help of its profiled shank 18, placed in the socket 19 of the tube. A return spring 21 is placed in the space 20 between the ends of the shank 18 and the socket 19. The spindle 17 is provided with eyes 22, in which a cam 24 is fixed on the axis 23 in the form of an eccentric with a spherical outer surface connected to the control handle 25. The spindle 17 is sealed in the housing 1 with an oil seal 26 by means of a pressure flange 27. In the cap 6, grooves 28 are made for fixing the control handle 25 in the desired working position, and on the inner surface of the cap 6 there is a recess 29 for accommodating a floating spherical thrust bearing 30 therein, for regulation Celia control handle 25 in cap 6 is adjustable stop 31 whose position is fixed by a nut 32. The conical stopper 10 is stepwise

a through hole 33 communicating the space 20 between the ends of the shank 18 of the spindle 17 and the socket 19 with a passage channel 13 inside the conical plug 10. In the hole 33 there is a check valve 34 with a return spring 35 pressed to the seat 36 by a ball lifting spool 37 and the drive from the control handle 25 through the cam 24 and the spindle 17. To interact with the spool 37 of the check valve 34, the spindle 17 is equipped with a pusher 38. The check valve 34 is fixed in the through hole 33 with a threaded cap 39. Between the upper end of the conical plug 10 and the end of the spindle I 17 provides a cavity 40, sealed by a ring 16 and an oil seal 26. An annular gap 41 is provided between the lateral surfaces of the pusher 38 and the hole 33. An adjustment gasket 42 is installed between the return spring 9 and the thrust bearing 8, by means of which the adjusting force of the spring 9 is changed. Taper angle the housing 1 and the plug 10 exceeds the angle of friction of their materials, as a result of which the conical connection is non-self-locking.

The inventive angle switching valve operates as follows.

When the control handle 25 is turned in the longitudinal direction, the cam-eccentric 24 is connected to the handle 23 as a result of stopping the outer surface of the cam-eccentric 24 through the floating spherical thrust bearing 30 into the cap 6, the rotation of the cam-eccentric 24 is converted into translational movement of the spindle 17 When this occurs, the compression of the return springs 21, 9 and the movement of the conical plug 10 down inside the conical cavity 7 of the housing L. The pusher 38 of the spindle 17, acting on the ball valve 37 and compressing the atnuyu spring 35 pushes the ball valve 37 of the check valve 34 from the valve seat 36 and connects the annulus 41 passing channel stopper 10c space 13 between the ends 20 of the shank 18 of the spindle 17 and the slot 19 and cavity 40 above the upper end of the tapered plug 10.

In the absence of medium pressure, the installation force of the return spring 9 presses the conical plug 10 against the conical surface of the cavity 7 of the housing 1.

In the presence of medium pressure and with the non-return valve 34 closed, the resulting force from the pressure of the medium on the conical plug 10 is less than the installation force of the return spring 9 and is directed in the opposite direction, as a result of which it reduces the force of pressing the conical plug 10 against the conical surface of the cavity 7 of the housing 1. At the moment opening the check valve 34, the pressure of the medium in the cavity 40 is compared with the pressure of the medium in the passage channel 13 of the plug 10, as a result of which the squeezing plug 10, the resulting force increases and becomes more established spring force 21. The rotation of the control handle 25 is facilitated.

Subsequent rotation of the control handle 25 in the transverse direction to the left or right leads to the rotation of the plug 10 on the thrust bearing 8, and its rotation in the longitudinal direction up into the groove 28 of the cap 6 until it stops leads to restoration

under the action of the return spring 9 of the contact of the conical sealing surfaces of the housing 1 and the plug 10 and the overlapping plug 10 of one of the nozzles 2 or 3 of the housing. In this case, the cam-eccentric 24, turning on the axis 23 with a decrease in radius, allows the spindle 17 to move upward under the influence of the pressure of the medium and the return spring 21, and to the ball valve 37 of the check valve 34 under the action of the return spring 35 to sit on the seat 36 and block the medium access from the passage channel 13 of the conical plug 10 into the cavity 40 above its upper end. Due to the movement of the spindle 17 under the action of the return spring 21 upward, the volume of the cavity 40 above the upper end of the conical plug 10 increases, and the pressure of the medium in it drops. Counteraction to the spring 9, pressing the plug 10 against the sealing surface of the cavity 7, is reduced.

After completion of repair work, the switching tap is brought to its initial position by turning the control handle 25 to the highest position in the middle groove 28 of the cap 6. The average position of the control handle 25 corresponds to the supply of the working medium to both safety valves, the extreme upper position of the control handle 25 in the left groove of the cap 28 6 corresponds to the shutdown of the left valve, the extreme upper position of the control handle 25 in the right groove 28 of the cap 6 corresponds to the shutdown of the right valve. When changing the daily ambient temperature, the constant control effort of the handle 25 is supported by a return spring 9.

Claims (6)

1. An angular switching valve comprising a housing with outlet nozzles and a conical cavity for a conical plug mounted on a bearing with a passage channel inside it, an end cap of the housing with an inlet nozzle, fixed in the housing, rotatable in the transverse and longitudinal directions relative to the housing and in the longitudinal direction relative to a control handle connected to the stopper through a cam provided with a limiter for its longitudinal upward movement and a return spring, characterized in that the stopper is provided a spindle pivotally connected to the cam and connected to the plug motionlessly in the transverse direction and limitedly movable in the longitudinal direction, with the return spring placed in the space between the ends of the spindle and the plug, which, when the control handle is rotated in the longitudinal direction downwardly communicates with the passage channel inside the plug, and when turning in the opposite direction, it is isolated from it. 2. The angular switching tap according to claim 1, characterized in that the limiter for the longitudinal movement of the cam upward is provided with a floating thrust bearing. 3. The angular switching tap according to claim 1, characterized in that the plug has a through hole communicating the space between the ends of the spindle and the plug with a passage channel inside the plug. 4. The angular switching tap according to claim 3, characterized in that a check valve with a spring-loaded lifting spool and a drive from the rotary handle through the cam and spindle is placed in the through hole in the plug. 5. The angular switching tap according to claim 4, characterized in that for interacting with a spring-loaded check valve of the check valve, the spindle is equipped with a pusher located in the through hole in the plug with an annular gap. 6. The angular switching tap according to claim 1, characterized in that a return spring is installed between the plug and the end cover of the housing.