RU2799157C1 - Ball valve pressure regulator - Google Patents

Abstract

FIELD: valve building.

SUBSTANCE: ball valve-pressure regulator comprises a body with an upper branch pipe, in which a cylindrical rod is installed, which is a shut-off and control element, as well as with inlet and outlet pipes providing an axial flow channel, in which a ball plug with a seat is installed. The stem is configured to control the pressure in the outlet pipe between the disc-shaped surface of the seat of the ball plug and the mating surface of the lower end of the stem. A balancing spring is installed on the rod, connected to the tuning element of the balancing spring. The body has a lower branch pipe, with a valve installed in it, with the help of a nut and a seal, to completely block the flow channel with a ball plug. The valve comprises a spindle, one end of which is placed in the outer lower groove of the ball plug configured for being acted on it by the spindle, and the valve handle is rigidly fixed at the other end of the spindle, with the help of a nut, to control the movement of the spindle. A cover is rigidly fixed on the upper branch pipe of the body, between which and the upper branch pipe a rubber seal is placed. The ball plug has at least inlet and outlet flow channels connected, in the open position of the valve, with the inlet and outlet pipes of the body, respectively.

EFFECT: improved performance characteristics.

10 cl, 8 dwg

Description

The present invention relates to the field of plumbing systems, in particular, to a combined ball valve-pressure regulator with manual control, designed not only to shut off pipelines, but also to regulate pressure in pipelines.

This combination ball valve-pressure regulator is designed for pipeline installation.

At present, mainly for water pipeline systems, various types of both taps and pressure regulators, as well as valves for pressure regulation, balancing valves are used. But among this equipment, there are practically no reliable combined valves-pressure regulators, which are made in one product and have one common body, and at the same time function as valves and pressure regulators.

Known "Ball valve" according to the patent of the Russian Federation for utility model No. 45495, containing a body with inlet and outlet pipes, a passage channel, a spherical rotary plug on supports, spring-loaded seats, a control unit mounted on the ball valve spindle, as well as a channel connecting the inlet pipe with a cavity between the body, spherical swivel plug and seats, and equipped with a means of closing it when the ball valve is closed, while the channel connecting the inlet pipe with the cavity between the body, spherical swivel plug and seats is located inside the body of the ball valve, and the means for closing it also serves as a shut-off valve located inside the body of the ball valve, the stem of which has a rolled ball at the upper end protruding above the surface of the body of the ball valve, and the control unit mounted on the spindle of the ball valve contains a special plate with two holes in which two pins are fixed, and a wedge chamfer that contacts the rolled ball of the shut-off valve, and a plate with two annular grooves is installed at the square end of the ball valve spindle, into which the pins of a special plate enter diametrically opposite to each other so that when the control unit is turned, they ensure its movement without turning the spherical rotary plug at an angle at which the movement of the rolled ball of the shut-off valve along the wedge chamfer of a special plate ensures the opening of the shut-off valve by a given stroke.

This ball valve has a rather complex and unreliable design, and it cannot be used to control pressure as a pressure regulator.

Also known is the "Ball valve-valve", containing a body with inlet and outlet pipes, in which a shut-off body with a through passage in the form of a ball or a ball segment with a lower rotation support and with an upper rotation support installed in an eccentric sleeve, elastic or rigid spring-loaded seats with a seal, limiters of the angle of rotation of the locking element and bushings, while the lower rotation support is also installed in the eccentric bushing, and the bushings are rigidly connected to each other in one piece by a coupling element outside or inside the body, while the connection element installed inside the body has the form of a spherical segment (RF patent No. 2720061).

In this ball valve-valve, a certain expansion of its functionality is provided by providing pressure control, however, this valve-valve has a rather complex and unreliable design.

Known "Combined ball valve-valve", including a ball valve body with a central through hole, a body cover, a ball plug with a central through hole, fixed inside the body with saddles, a stem, a handle, a check valve, while a check valve is installed in the central through hole of the ball plug valve with a valve located inside it, a stem with a thrust sleeve and a spring placed on it, while longitudinal through holes are made in the thickened part of the check valve body, hydraulically connected to the central through channel of the check valve and the ball valve, while the ball plug is connected to the check valve body valves with a threaded connection (RF patent for PM No. 162471).

This combined ball valve-valve has extended functionality, as it can function both as a valve and as a valve, but it has a rather complex and unreliable design.

Closest to the proposed invention is the "Fluid control device" according to the Russian patent for IZ No. 2643897, selected as a prototype.

This fluid control device includes a control valve containing an inlet, an outlet and a valve channel located between the inlet and outlet, an actuator connected to the control valve and containing a valve disc, the valve disc being located in the control valve and being movable along the longitudinal axis between in a closed position, hermetically adjacent to the valve channel, and an open position, located at a distance from the valve channel, a valve disc containing a sealing surface located adjacent to the outer radial edge of the valve disc, the sealing surface being adapted to seal against the valve channel in the closed position , the middle surface located radially inside the sealing surface, the groove formed in the middle surface, and the specified groove runs along the axis of the groove, which runs along the middle surface perpendicular to the longitudinal axis, and the axis of the groove is at least partially curved when viewed along the longitudinal axis, while there is one or more poppet passages extending longitudinally through the valve poppet, which have a first end of the poppet passage located adjacent to the median surface between the sealing surface and the groove.

This valve has a rather complex and unreliable design, narrow functionality, since it cannot function as a crane.

The objective of the proposed invention is to create a combined ball valve-pressure regulator with high reliability and simplicity of design, as well as advanced functionality, which can function both as a valve and as a pressure regulator.

The technical result of the proposed invention is the expansion of functionality while ensuring increased reliability and simplicity of the design of the ball valve-pressure regulator.

The stated technical result is achieved due to the fact that the ball valve-pressure regulator, containing a body with an upper branch pipe, in which a shut-off and control element is installed, as well as with inlet and outlet pipes, providing an axial flow channel, in which a regulating element with a seat is installed, at the same time, a balancing spring is installed on the shut-off and control element, connected to the adjusting element of the balancing spring, and the regulating element is a ball plug with an internal poppet seat installed in the flow channel between the small seat and the large seat, which is fixed with a stop nut, and the body has a lower branch pipe, with a valve installed in it, with the help of a nut and a seal, to completely block the flow channel with a ball plug, while the valve contains a spindle, one end of which is located in the outer lower groove of the ball plug, with the possibility of acting on it with a spindle in order to completely blocking or full opening of the flow channel, and at the other end of the spindle, a valve handle is fixed to control the movement of the spindle, while a cover is rigidly fixed on the upper branch pipe of the housing, a rubber seal is placed between which and the upper branch pipe, and the ball plug has at least an inlet and outlet flow channels connected, in the open position of the valve, with the inlet and outlet pipes of the body, respectively, and the locking and regulating element is made in the form of a cylindrical rod having a central axial longitudinal channel, which, in the upper part, goes into the over-piston cavity of the upper pipe of the body, and the lower part into the lower channel of the rod, which is located perpendicular to the axial longitudinal channel of the rod, while the rod is made with the possibility, when it moves up and down, to control the pressure in the outlet pipe by adjusting the gap between the disc surface of the seat of the ball plug and the mating surface of the lower end of the rod , and by establishing the necessary position of the rod to ensure the established predetermined pressure.

It is preferable that in the ball valve-pressure regulator the lower part of the cylindrical rod is made in the form of a tapering cone with a cut top, with the possibility of entering this conical part of the rod into the seat of the ball valve of the pressure regulator when the valve is fully opened, while providing the ability to adjust the pressure in the required range during reciprocating movement of the rod.

It is advisable that an annular chamfer is made in the ball valve-pressure regulator at the junction of the outer cylindrical and conical surfaces of the stem, while an annular chamfer is also made on the inner surface of the seat of the ball plug, which is a response to the annular chamfer made on the outer surface of the stem, with the purpose of forming a single annular gap between these chamfers for the passage of fluid during the translational movement of the rod upwards.

It is desirable that in the ball valve-pressure regulator the adjusting element for adjusting the setting pressure of the pressure regulator settings be made in the form of an adjusting nut, on the outer circumference of which special grooves are made to allow it to rotate around its own axis and move up/down along the stem body with the help of any improvised means and / or fingers of a person.

Preferably, in the ball valve-pressure regulator, side cuts are made in the upper branch pipe of the body for access to the adjusting nut, which is fixed to the stem by means of a threaded connection and installed between the body and the spring with the possibility of adjusting the degree of compression or relaxation of the spring, thereby providing the ability to adjust the pressure of the working medium at the outlet of the ball valve.

It is desirable that in the ball valve-pressure regulator the valve handle is fixed on the spindle with a nut.

It is advisable that in the ball valve-pressure regulator in the upper and lower parts of the stem rubber seals of round section are installed, made in order to ensure the tightness of the piston cavity of the body.

Preferably, in a pressure regulating ball valve, the spindle seal is made of polytetrafluoroethylene (PTFE).

Preferably, in the ball valve-pressure regulator on the body, preferably next to one of the side cutouts, a scale is made indicating the various setting values \u200b\u200bof the maintained pressure.

It is advisable that in the ball valve-pressure regulator the body is made of brass or steel.

For a more complete disclosure of the invention, the following is a description of specific possible options for its execution, which are illustrated by the corresponding drawings.

Fig. 1 - section of a ball valve-pressure regulator with an open valve.

Fig. 2 - general view of the ball valve-pressure regulator with a scale of possible setting pressure.

Fig. 3 - general view of the section of the ball valve-pressure regulator.

Fig. 4 - view of the pressure control zone with a closed valve.

Fig. 5 - view of the over-piston zone of the ball valve-pressure regulator.

Fig. 6 - view of the pressure control zone with an open tap.

Fig. 7 – conditional view of the annular gap of the free flow section.

Fig. 8 is a front view and general view of the adjusting nut.

In the preferred embodiment, the ball valve-pressure regulator contains a ball plug 1 installed in the body 2, with the possibility of impact on it by the spindle 3, rigidly fixed in the groove of the lower outer part of the ball plug 1, which has flow channels 10, and fixed between the large seat 6 and a small saddle 7 using a thrust nut 5 (Fig. 1-3). The body 2 is preferably made of brass or steel.

In the upper branch pipe 8 of the body 2, a cylindrical rod 4 of the pressure regulator is installed with the possibility of this rod 4 acting on the internal cavity of the ball plug 1, which has a poppet seat 9, and the body 2 also has inlet 11 and outlet 12 pipes associated with the flow channels 10 of the ball plug 1, and between the inlet 11 and outlet 12 nozzles, an axial flow channel is formed, in which a ball plug 1 is installed. A balancing spring 13 is installed on the cylindrical rod 4, fixed between the adjusting nut 14 and the upper part of the rod 4, and a cover 15 is installed on the upper nozzle 8 , between which and the upper part of the pipe 8 a rubber seal 16 is installed. Also, these seals 16 are installed in the upper and lower parts of the rod 4, with the possibility of ensuring the tightness of the over-piston cavity 17 between the cover 15 and the upper part of the rod 4 (Fig. 4-6). Rubber seals 16 can be made in the form of O-rings.

At the same time, the cylindrical rod 4 has a central axial longitudinal channel 18, which with its upper part extends into the over-piston cavity 17 of the upper branch pipe 8 of the body 2, and with its lower part into the lower channel 19 of the rod 4, which is located perpendicular to the axial longitudinal channel 18 of the rod 4, and the lower part cylindrical rod 4 is made in the form of a tapering cone with a cut top, with the possibility of entering this conical part of the rod 4 into the poppet seat 9 of the ball plug 1 of the pressure regulator when the valve is fully opened. When the rod 4 moves down and up, the pressure in the outlet pipe 12 is regulated by adjusting the gap between the plate-shaped surface of the seat 9 of the ball plug 1 and the mating surface of the lower end of the rod 4, and the required position of the rod 4 is established to ensure the established, by means of the adjusting nut 14, given pressure.

At the junction of the outer cylindrical and conical surfaces of the rod 4, an annular chamfer 20 is made, while on the inner surface of the seat 9 of the ball plug 1, an annular chamfer 21 is also made, which is a response to the annular chamfer 20, made on the outer surface of the rod 4, in order to form between the data chamfers of a single annular gap (Fig.7), which provides a living section of the flow for the passage of fluid during the translational movement of the rod 4 upwards, while providing the ability to adjust small amounts of flow during the reciprocating movement of the rod 4.

The body 2 also has a lower branch pipe 22, with a valve installed in it, using the nut 23 of the spindle 3 and the seal 24 of the spindle 3, which can be made of polytetrafluoroethylene (PTFE), to completely block the flow channel with a ball plug 1. In this case, the valve contains a spindle 3, one end of which is placed in the groove of the ball plug 1, with the possibility of acting on it with the spindle 3 in order to completely block or completely open the flow channel, and at the other end of the spindle 3, using the fixing nut 25, the handle 26 of the valve is rigidly fixed to control the movement spindle 3.

The adjusting nut 14 has special grooves 27 on the outer circumference for its convenient rotation around its own axis and moving up/down along the inner surface of the upper pipe 8 using any improvised means and/or human fingers (Fig. 8). And in the upper branch pipe 8 of the body 2, side cutouts 28 are made for access to the adjusting nut 14, which is fixed on the upper pipe 8 by means of a threaded connection and installed between the body 2 and the spring 13 with the ability to control the degree of compression or relaxation of the spring 13, thereby providing the ability to adjust the fluid pressure at the outlet of the ball valve-pressure regulator.

The ball valve-pressure regulator may also have, next to one of the side cutouts 28, a scale 29 indicating various settings of the maintained setting pressure for convenient setting of a given maintained pressure (Fig. 2). In this case, the setting pressure (or setting pressure) is the pressure that the outlet pressure regulator maintains (at a certain position of the setting nut 14 and the spring 13 is compressed).

The setting pressure, by compressing or relaxing the spring 13, can be changed by the consumer within the specified range (the range is indicated in the passport for each specific model and depends on the stiffness of the spring 13 in the range of its possible compression). Scale 29 indicates pressure in bar.

The ball valve-pressure regulator operates as follows.

To shut off the flow of the working medium, the handle 26 of the valve installed in the lower pipe 22 is turned to the non-working position. In this case, the spindle 3 acts on the ball plug 1, which occupies a position that blocks the flow channel between the inlet 11 and outlet 12 nozzles. There is a complete overlap of the flow of the working environment.

To resume the flow of the working medium, the handle 26 of the valve is turned into the working position. In this case, the spindle 3 acts on the ball plug 1, which occupies a position that opens the flow channel between the inlet 11 and outlet 12 nozzles. There is a full opening of the flow of the working environment.

To regulate the pressure of the flow of the working medium, first, the setting pressure is set in the pressure regulator by adjusting the adjusting nut 14 and a certain preload position of the spring 13. After that, the valve is opened using the handle 26 of the valve, described above. Also, the pressure setting can be done with the tap already open.

Then there is a process of regulating the pressure in the gap between the poppet seat 9 of the ball plug 1 and the lower conical surface of the rod 4 (surface A Fig. 4).

For more accurate pressure adjustment, an annular gap can also be formed between the chamfer 20 of the conical surfaces of the rod 4, and the chamfer 21, which is the answer to the annular chamfer 20, and is made on the outer surface of the poppet seat 9 of the rod 4. This provides a live flow section (Fig. 7 ) for the passage of fluid during the translational movement of the rod 4 upwards, and the ability to adjust the pressure during the reciprocating movement of the rod 4 (Fig. 4 and 6).

Further, through the axial 18 and lower 19 channels of the rod 4, the pressure throttled in the annular gap between the poppet seat 9 of the ball plug 1 and the conical surface of the rod 4 is fed into the over-piston cavity (B in Fig. 5). In this case, the piston cavity is created by the upper annular surface of the rod 4 (line C in Fig. 5), the walls of the upper part of the upper branch pipe 8 of the housing 2 and the cover 15, and the tightness of the cavity relative to the external environment is provided by a rubber seal 16.

Then the pressure in the cavity above the piston acts on the area of the upper part of the rod 4 and creates a force aimed at moving the rod 4 down to close.

Thus, when the pressure increases above the set value, the rod 4 will automatically close, thereby maintaining the required pressure at the outlet.

The setting pressure, by compressing or relaxing the spring 13, can be changed by the consumer within the specified range (the range is indicated in the passport for each specific model and depends on the stiffness of the spring 13 in the range of its possible compression). Scale 29 indicates pressure in bar.

Thus, in this invention, it was possible to create a combined ball valve-pressure regulator that functions as both a valve and a pressure regulator, combining these functions in one device with enhanced functionality.

At the same time, this combined ball valve-pressure regulator has a fairly simple design and high reliability of its operation.

In the body of a ball valve, for example DN15, separately taken, or a separately taken piston-type pressure regulator, for example DN15, with a construction length of the body of 50 mm, two of these devices are combined at once.

This combination allows you to implement the correct maintenance of the specified pressure at the outlet to the consumer (for example, to a washing machine), while without additional installation of a ball valve to cut off the flow (for the possibility of disconnecting the consumer), thereby saving space, which is often not enough in rooms with directly by the established consumer, and also saves money.

At the same time, the ball valve-pressure regulator has a mass of only 30% more than the pressure regulator or ball valve taken separately.

Also, in the ball valve-pressure regulator, the setting of spring 13 is greatly simplified in comparison with all other models of flat-type piston pressure regulators.

Due to the removal of the adjusting nut 14 in the lower part, and due to the design of the adjusting nut 14, which has side grooves 27, the pressure setting is simplified. And due to the presence in the upper branch pipe 8 of the housing 2, two significant side cutouts 28 for access to the adjusting nut 14, access to the pressure setting is greatly facilitated.

In addition to this, now the consumer has the opportunity to understand what pressure the regulator is set to, due to the presence of scale 29 on the body 2 of the ball valve-pressure regulator and the visual possibility of assessing the position of the adjusting nut 14 and the setting scale 29.

As will be appreciated by those skilled in the art, the present invention can easily be developed in other specific forms without departing from the spirit of the present invention.

However, the present embodiments are to be considered merely illustrative and not restrictive, and the scope of the invention is represented by the claims thereof, and it is intended that all possible changes and the scope of equivalence to the claims of the present invention are included.

Claims (10)

1. A ball valve-pressure regulator, containing a body with an upper branch pipe in which a shut-off and control element is installed, as well as with inlet and outlet pipes providing an axial flow channel in which a control element with a seat is installed, while on the shut-off and control element a balancing spring is installed connected to the adjusting element of the balancing spring, characterized in that the regulating element is a ball plug with an internal poppet seat installed in the flow channel between the small seat and the large seat, which is fixed with a thrust nut, and the body has a lower branch pipe, with a valve installed in it, with the help of a nut and a seal, to completely block the flow channel with a ball plug, while the valve contains a spindle, one end of which is located in the outer lower groove of the ball plug, with the possibility of acting on it with a spindle in order to completely block or fully open flow channel, and at the other end of the spindle, a valve handle is fixed to control the movement of the spindle, while a cover is rigidly fixed on the upper branch pipe of the housing, a rubber seal is placed between which and the upper branch pipe, and the ball plug has at least inlet and outlet flow channels, connected, in the open position of the valve, with the inlet and outlet pipes of the body, respectively, and the shut-off and control element is made in the form of a cylindrical rod having a central axial longitudinal channel, which in the upper part goes into the over-piston cavity of the upper pipe of the body, and with its lower part - into the lower rod channel, which is located perpendicular to the axial longitudinal channel of the rod, while the rod is made with the possibility, when it moves up and down, to control the pressure in the outlet pipe by adjusting the gap between the disc surface of the seat of the ball plug and the mating surface of the lower end of the rod, and due to establishing the necessary position of the rod to ensure the set target pressure. 2. Ball valve pressure regulator according to claim 1, characterized in that the lower part of the cylindrical rod is made in the form of a tapering cone with a cut top, with the possibility of entering this conical part of the rod into the seat of the ball plug of the pressure regulator when the valve is fully opened, while providing the ability to adjust the pressure in the required range with reciprocating movement of the rod. 3. Ball valve-pressure regulator according to claim 2, characterized in that at the junction of the outer cylindrical and conical surfaces of the rod an annular chamfer is made, while on the inner surface of the seat of the ball plug an annular chamfer is also made, which is a response to the annular chamfer made on the outer surface of the rod, in order to form a single annular gap between these chamfers for the passage of liquid during the forward movement of the rod upwards. 4. Ball valve-pressure regulator according to claim 1, characterized in that the adjusting element for adjusting the setting pressure of the pressure regulator is made in the form of a nut, on the outer circumference of which special grooves are made to allow it to rotate around its own axis and move up / down along stem body using any improvised means and / or human fingers. 5. Ball valve-pressure regulator according to claim 1, characterized in that in the upper branch pipe of the body there are side cutouts for access to the adjusting nut, which is fixed on the stem by means of a threaded connection and installed between the body and the spring with the possibility of providing regulation of the compression ratio or relaxation of the spring, thereby providing the ability to adjust the pressure of the working medium at the outlet of the ball valve-pressure regulator. 6. Ball valve pressure regulator according to claim 1, characterized in that the valve handle is fixed to the spindle with a nut. 7. Ball valve-pressure regulator according to claim 1, characterized in that in the upper and lower parts of the stem, preferably, rubber seals of round section are installed, made to ensure the tightness of the piston cavity of the housing. 8. Ball valve-pressure regulator according to claim 1, characterized in that the spindle seal is made of polytetrafluoroethylene (PTFE). 9. Ball valve-pressure regulator according to claim 1, characterized in that on the body, preferably next to one of the side cutouts, there is a scale indicating various settings of the maintained pressure. 10. Ball valve pressure regulator according to claim 1, characterized in that the body is made of brass or steel.

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