RU2714089C1 - Ball shutter assembly with built-in valve - Google Patents

Abstract

FIELD: valve industry.

SUBSTANCE: invention relates to heating, water supply and gas supply systems for buildings and structures. Ball valve 3 with diametrical hole 4 is installed in channel 2 of housing 1 with possibility of rotation. Rod bushing 7 is installed in housing 1 with output from housing 1 to the outside and is conjugated by second end 10 with ball gate 3 with possibility of rotation of ball gate 3. Rod 12 is installed in the hole of rod bushing 7 with outward output from rod bushing 7 of first end 14, as well as with passage through radial hole 6 of ball gate 3 of second end 15 of rod 12. Rod 12 is provided with means 16 to apply torque to its first end 14. Pipeline valve element 17 to control flow through diametrical hole 4 of ball gate 3 is fixed on second end 15 of rod 12. Separator 18 is fixed in diametrical hole 4 of ball gate 3 and is made with middle section 19 with hole 20 located geometrically along axis of rod 12, as well as with two overlapping sections 21, 22 located on opposite sides of middle section 19 and made with each possibility of overlapping half of diametrical hole 4, one overlapping section 21 – along radial direction of diametrical hole 4 towards radial hole 6 of ball gate 3, and by second 22 – in opposite radial direction of diametrical hole 4. Stem 12 and rod bushing 7 are made with mating along thread 23 for their relative longitudinal displacement at their relative turn. Pipeline valve element 17 is made round and is arranged to interface with middle section 19 of separator 18 along perimeter of hole 20 made in this middle section 19.

EFFECT: invention is aimed at provision of smooth proportional control, mainly manually, of liquid or gas flow through ball valve.

4 cl, 1 dwg

Description

FIELD OF THE INVENTION

The invention relates to heating systems, water supply, gas supply of buildings and structures, and specifically to a ball valve assembly with a built-in valve used in the construction of piping and / or valves for various purposes, installed in the pipeline network of cold or hot water supply, gas network, including compressed air networks for industrial purposes, into a pipeline that performs any other technological function and transports liquid or gas. The ball valve assembly with a built-in valve in accordance with the present invention can be implemented in products of pipe fittings, where it is necessary to shut off the pipeline, and to regulate the flow rate in the pipeline, throttling the flow. Such products include, but are not limited to: ball valve with valve, manifold, ball valve with integrated filter, valve with integrated filter and pressure reducer, and the like.

State of the art

A prototype of the present invention is known from the description of the invention to US patent No. 4,230,154 (US 4230154 A, IPC F16K 43/00, 1980) ball valve assembly with an integrated valve, which contains:

- housing with a channel;

- a ball valve with a diametrical hole, mounted with a seal in the channel of the housing with the possibility of rotation to locate the hole along the axis of the channel, as well as with a radial hole in the diametrical hole;

- a stem sleeve installed with a seal in the housing with the first end exiting from the housing and mating the second end with a ball valve to rotate the ball valve, the rod sleeve being configured to couple with means for applying torque to its first end;

- a rod installed in the hole of the stem sleeve with a seal and with an exit outward from the stem sleeve from the side of its first end, as well as passing through the radial hole of the ball valve of the second end, and the rod is configured to mate with means for applying torque to the first end ;

- pipeline valve element for regulating the flow through the diametrical hole of the ball valve, made in the form of a disk with a diameter corresponding to the diameter of the diametrical hole of the ball valve, and mounted on the second end of the rod along its axis with its diameter with the possibility of rotation and location across the diametrical hole.

Due to the indicated rotation of the pipeline valve element, regulation (throttling control) of the flow flowing through the diametrical opening of the ball valve is carried out.

The disadvantage of this design is that it does not provide a smooth proportional control of the flow of liquid or gas through the ball valve. The first 75 degrees of rotation of the disk from the longitudinal diametrical hole of the ball valve, the position of the pipeline valve element with its plane reduces the consumption by no more than 8%. Effective regulation is ensured when the plane of the pipeline valve element is close to the transverse diametrical bore of the ball valve. But here it is necessary to track very small rotation angles, which is very difficult to do manually. With the same success, you can adjust the flow by turning the ball valve itself.

Disclosure of the invention

The technical result of the present invention is to provide smooth proportional control, mainly by hand, of the flow of liquid or gas through a ball valve assembly with an integrated valve.

This technical result provides a ball valve assembly with a built-in valve, which contains:

- housing with a channel;

- a ball valve with a diametrical hole, installed with a seal in the channel of the housing with the possibility of rotation for the location of the diametrical hole on the axis of the channel, as well as with a radial hole in the diametrical hole;

- a rod sleeve installed with a seal in the housing of the piping device with the first end exiting from the case and paired with a second end to a ball valve to rotate the ball valve, the rod sleeve being adapted to couple with means for applying torque to its first end;

- a rod installed in the hole of the rod bush with a seal and with the outlet from the rod bush of the first end of the rod, and also passing through the radial hole of the ball valve of the second end of the rod, and the rod is made with means for applying torque to its first end;

- pipeline valve element for regulating the flow through the diametrical hole of the ball valve, mounted on the second end of the rod.

The difference of the invention lies in the fact that the ball valve with a built-in valve is equipped with a separator fixed in the diametrical hole of the ball valve and made with a middle section with a hole located geometrically along the axis of the shock, as well as with two overlapping sections located on opposite sides of the middle section and made each with the possibility of overlapping half of the diametrical hole, with one overlapping section - in the radial direction of the diametrical hole in the direction of the radial tverstiya rotary valve, and the second - in the opposite radial direction of the diametrical hole.

In this case, the stem and the stem sleeve are mated to the threads for their relative longitudinal movement during their relative rotation, and the valve element is made with a circular cross section transverse to the axis of the rod, and is arranged to mate with the middle portion of the separator, at least along the perimeter holes made in this section.

In the particular case of the invention, the pipeline valve element can be made in the form of a round gasket mounted on the end of the rod along its axis.

Also in the particular case of the invention, the separator can be made in the form of an elongated plate with a middle section in its middle part and overlapping sections made in the form of sides of the plate bent at right angles, each having a semicircle in plan, with the projection of the separator on a plane perpendicular to the diameter axis ball valve holes, has the shape of a circle.

In yet another particular embodiment of the invention, a ball valve with an integrated valve may be provided with a spacer ring. In this case, the diametrical hole of the ball valve is stepped and has an annular groove in the side wall of the stage of the diametrical hole of a larger diameter. The separator in this case is installed with emphasis on the step by one overlapping section and into the spacer ring installed in the annular groove by the second overlapping section.

Brief Description of the Drawings

The drawing shows a cross-section of the collector with a plane passing along the axis of the ball valve assembly with an integrated valve made in accordance with the present invention.

The implementation of the invention

The ball valve assembly with a built-in valve contains:

- housing 1 with channel 2;

- a ball valve 3 with a diametrical hole 4, mounted with a seal by the seat rings 5 in the channel 2 of the housing 1 with the possibility of rotation to position the diametrical hole 4 along the axis of the channel 2, as well as with a radial hole 6 in the diametrical hole 4 (the ball valve can rotate in the housing collector at 180 angular degrees; the appropriateness of this will be explained below);

- a rod bush 7 mounted with a seal with elastic rings 8 in the housing 1 with the first end 9 exiting the housing 1 outwardly and mating with the second end 10 with a ball valve 3 with the possibility of rotation of the ball valve 3, and the rod sleeve 7 being adapted to mate with means for applying torque to its first end 9 in the form of a handle 11;

- the rod 12 installed in the hole of the stem sleeve 7 with a seal by elastic rings 13 and with the exit from the stem sleeve 7 of the first end 14 of the rod 12, as well as passing through the radial hole 6 of the ball valve 3 of the second end 15 of the rod 12, and the rod 12 is made with means 16 for applying torque to its first end 14 in the form of a socket with side walls in the form of a hexagonal prism;

- pipeline valve element 17 for regulating the flow through the diametrical hole 4 of the ball valve 3, mounted on the second end 15 of the rod 12;

- a separator 18, mounted in the diametrical hole 4 of the ball valve 3 and made with the middle section 19 with the hole 20 located geometrically along the axis of the shock 12, as well as with two overlapping sections 21, 22 located on opposite sides of the middle section 19 and each made the possibility of overlapping half of the diametrical hole 4, one overlapping section 21 in the radial direction of the diametrical hole 4 in the direction of the radial hole 6 of the ball valve 3, and the second 22 in the opposite radially m direction of the diametrical hole 4.

In addition, in all cases of the invention, the rod 12 and the rod sleeve 7 are mated by thread 23 for their relative longitudinal movement during their relative rotation.

In the presented embodiment, as a special case, the pipeline valve element 17 is made in the form of a round strip of elastic material and is arranged to mate with the middle section 19 of the spacer 18 around the perimeter of the hole 20 made in this middle section 19. The pipe valve element 17 in the form a round gasket is dressed on a protrusion 25 with a socket 26 made at the end face of the rod 12 and with a socket 26 and secured by the countersink of this socket 26.

Also in the presented embodiment, as in the particular case, the spacer 18 is made in the form of an elongated plate with a middle section 19 in its middle part and overlapping sections 21, 22 made in the form of sides of the plate bent at right angles, each having a semicircle in plan view, and the separator 18 on a plane perpendicular to the axis of the diametrical hole 4 of the ball valve 3, has a circle shape. The device is equipped with a spacer ring 27, the diametrical hole 4 of the ball valve 3 is made stepwise and with an annular groove 28 in the side wall of the stage 29 of the diametrical hole 4 of larger diameter. The separator 18 is installed with emphasis in the step 30 of the overlapping section 21 and in the spacer ring 27 installed in the annular groove 28 of the overlapping section 22.

Overlapping the channel 2 of the housing 1 by means of the handle 11, the ball valve 3 is rotated, while the diametrical hole 4 is located at an axis at right angles to the axis of the channel 2 in the housing 1.

To regulate the flow through the diametrical hole 4, the rod 12 is rotated, which moves longitudinally along the thread 23 relative to the stem sleeve 7. In this case, the valve manifold 17 in the form of a round gasket approaches the hole 20 in the middle section 19 of the separator 18 (up to the interface with the middle section 19), or is removed from it. In this case, the gap (passage through the diametrical hole 4) between the pipeline valve element 17 in the form of a round gasket and the middle section 19 of the separator 18 is changed.

All parts of the ball valve assembly with an integrated valve, made in accordance with the present invention, are made according to known technologies from materials known for use in structures for this purpose.

The example embodiment of the invention is not exhaustive. Other embodiments of the invention are possible, corresponding to the scope of patent claims.

In particular, as noted above, a ball valve assembly with a built-in valve (we can say that a ball valve with a built-in valve) can be implemented not only in the collector (for reference: an example of the design of the collector can be found in the description of the invention to the RF patent No. 2488031, IPC F16L 41/03, 2013), as shown in the example embodiment of the invention, or be an independent product of pipe fittings in the form of a ball valve with a valve, and be combined in a single casing with a valve with an integrated valve and with a filter, a crane with a built-in valve, with a filter, as well as a pressure reducer and the like.

The separator 18 may be performed otherwise, and not as described above. For example, the separator 18 can be made in the form of a cylindrical part (such an option is not shown in the drawing) with a hole of complex configuration defining the location of the middle 19 and overlapping sections 21, 22, as defined for all cases of the invention. Such a spacer 18 (resembling a sleeve) can be fastened in a diametrical hole 4 by a thread.

Also, the pipeline valve element 17 may have different forms of execution, and not only in the form of a round gasket. This may be a protrusion located on the end face 24 of the rod 12 (not shown in the drawing) with a lateral conical surface that is able to mate with the inner side surface of the hole 20 in the middle section 19 of the separator 18.

For mounting the ball valve 3, the housing 1 is made with a housing sleeve 31.

Regarding the manifold presented in the exemplary embodiment, it is necessary to note a feature that allows the present invention to be implemented in such a collector.

Known collectors with control valves are used in systems for internal water supply or for water heating of buildings and structures for balancing the flow between consumers connected through a collector (in the presented example, the pipeline to the consumer is connected to the housing sleeve 31). Moreover, for water supply systems, distribution manifolds are used, in which water flows from the housing 1 of the distribution manifold to the consumer, that is, through the diametrical opening 4 of the ball valve 3 and further into the housing sleeve 31.

Two types of collectors are used in heating systems: on the supply line, the coolant enters from the collector body 1 to the consumer, as in the water supply system, and a collector is installed on the return line, in which the coolant enters from the consumer (from the outlet) into the collector case 1. Since for quality control it is required that the working medium enters under the valve manifold 17 (specialists also call spool, for round laying), it is necessary to have two types of collectors in the nomenclature - for water supply and for heating. The collector design presented in the exemplary embodiment allows it to be used both on the forward and reverse directions of the working medium. To do this, just turn the ball valve 3 180 degrees. Accordingly, the flow will be supplied under the pipeline valve element 17 in one position of the ball valve 3 from the housing 1 to the consumer, and in the other from the consumer to the housing 1. It is also possible to quickly shut off the flow while maintaining the adjustment position of the pipeline valve element 17 by rotating the ball valve 3 90 angular degrees to block the flow through the diametrical hole 4 of the ball valve 3.

Claims (4)

1. Ball valve assembly with a built-in valve, comprising a housing with a channel, a ball valve with a diametrical hole, mounted with a seal in the channel of the housing with the possibility of rotation to locate the diametrical hole along the channel axis, as well as with a radial hole in the diametrical hole, a rod bush installed with a seal in the housing of the piping device with the exit from the housing to the first end and mating with the second end with a ball valve with the possibility of rotation of the ball valve, and the rod sleeve and made with the possibility of interfacing with a means for applying torque to its first end, a rod installed in the hole of the rod sleeve with a seal and outward from the rod sleeve of the first end of the rod, as well as passing through the radial hole of the ball valve of the second end of the rod, the rod is made with means for applying torque to its first end, a pipeline valve element for regulating the flow through the diametrical hole of the ball valve, mounted on the second end of the pc eye, characterized in that it is equipped with a separator mounted in the diametrical hole of the ball valve and made with the middle section with a hole located geometrically along the axis of the rod, as well as with two overlapping sections located on opposite sides of the middle section and each made with the possibility of overlapping half diameter hole, one overlapping section - in the radial direction of the diameter hole in the direction of the radial hole of the ball valve, and the second - in the counter In the radial direction of the diametrical hole, the stem and the stem sleeve are threaded for their relative longitudinal movement during their relative rotation, and the pipeline valve element is made with a circular cross section transverse to the axis of the rod, and is arranged to mate with the middle portion of the separator, at least at least around the perimeter of the hole made in this section. 2. The ball valve assembly with an integrated valve according to claim 1, characterized in that the pipeline valve element is made in the form of a round gasket mounted on the end of the rod along its axis. 3. Ball valve assembly with a built-in valve according to claim 1 or 2, characterized in that the separator is made in the form of an elongated plate with a middle section in its middle part and overlapping sections made in the form of plate sides bent at right angles, each having a plan a semicircle, and the projection of the separator on a plane perpendicular to the axis of the diametrical hole of the ball valve has a circle shape. 4. The ball valve assembly with an integrated valve according to claim 3, characterized in that it is provided with a spacer ring, the diametrical hole of the ball valve is made stepwise and with an annular groove in the side wall of the step of the diametrical hole of a larger diameter, with the spacer installed with one stop in the step of one the overlapping section and into the spacer ring installed in the annular groove of the second overlapping section.

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