RU221806U1 - BALL VALVE WITH LIFTING ROD - Google Patents

Abstract

The utility model relates to pipeline fittings. The technical result of the utility model is the creation of a ball valve with a lifting-rotary rod with increased reliability, due to the removal of the rotary mechanism for moving the rod 5, containing fingers 9 and a running sleeve 8 with a spiral groove 13, beyond the reach of the working environment, namely beyond stuffing box 7, which protects the spiral groove 13 from the effects of impurities contained in the working environment, thereby increasing the reliability of the rotary mechanism and the entire ball valve; and also with smaller dimensions and labor-intensive manufacturing of the crane, due to the use of one rotary mechanism for moving the rod 5, which reduces the required torque on the drive mechanism of the rod 5, while reducing the energy of effort on the drive mechanism, and therefore requires the use of a drive mechanism of lower power , therefore, smaller dimensions and simpler design. 2 salary f-ly, 3 ill.

Description

The utility model relates to pipeline fittings, namely ball valves with a lifting and rotating stem, and is intended to control the flow of a working medium in pipelines with excess pressure.

The closest to the claimed utility model is a ball valve with a lift-and-turn stem, described in patent CN 213017822, containing a body having inlet and outlet openings, between which a ball valve is located, and a seat is installed in one of the body pipes; the ball valve is connected to a rod, which is located inside the cover attached to the body; Pins are installed in the cover below the stuffing box, the free ends of which are located inside the spiral-shaped groove of the running sleeve, which is put on the rod and is configured to move longitudinally along the rod along the longitudinal profiled surface. This ball valve with a lifting-rotating rod was chosen as a prototype of the claimed utility model.

The disadvantages of the prototype crane are as follows. One rotary-rotary mechanism for moving the rod, containing pins and a running sleeve with a spiral groove, is located within reach of the working medium flowing through the valve (up to the stuffing box), so impurities contained in the working medium can lead to clogging and jamming of the mechanism for turning and lifting the rod, which reduces the reliability of the rotating mechanism and the entire ball valve. In addition, the prototype crane uses two rotary mechanisms for moving the rod, which increases the required torque on the drive mechanism of the rod 5, while increasing the force energy on the drive mechanism, and therefore requires the use of a drive mechanism of greater power, which increases the size and labor intensity crane manufacturing.

The technical result of the utility model is the creation of a ball valve with a lifting and rotating rod with increased reliability, due to the removal of the rotating mechanism for moving the rod, containing pins and a running sleeve with a spiral groove, beyond the reach of the working environment, namely outside the stuffing box, which protects the spiral-shaped groove from the effects of impurities contained in the working environment, thereby increasing the reliability of the rotary-swing mechanism and the entire ball valve; and also with smaller dimensions and labor-intensive manufacturing of the crane, due to the use of one rotary mechanism for moving the rod, which reduces the required torque on the drive mechanism of the rod, while reducing the energy of effort on the drive mechanism, and therefore requires the use of a drive mechanism of less power, therefore , smaller dimensions and simpler design.

The stated technical result was achieved by creating a ball valve with a lift-and-turn stem, containing a body 1 having an inlet and outlet openings, between which there is a ball valve 2 mounted on a removable support 3 with a profiled side surface and designed to deviate from the vertical axis when turning , due to movement inside the profiled side surface, and a saddle 4 is installed in one of the nozzles of the housing 1; ball valve 2 is connected to a rod 5, which is located inside the cover 12 attached to the body 1, and is sealed against the working medium and the environment by means of a stuffing box 7, which is located in the cover 12 after the ball valve 2; the drive mechanism And is connected to the rod 5 and is configured to create an axial force on the rod 5; in the cover 12 above the stuffing box 7, fingers 9 are installed, the free ends of which are located inside the spiral-shaped groove 13 of the running sleeve 8, which is put on the rod 5 and is made with the possibility of longitudinal movement along the rod 5 along the longitudinal profiled surface A, as well as with the possibility of spiral movement along fingers 9 along the spiral groove 13, and the axial movement of the rod 5 together with the movements of the running sleeve 8 is designed to create a force in the area of connection of the spiral groove 13 and fingers 9, while the profile of the spiral groove 13 is designed to create first rotational and then axial movements rod 5, which lead first to the rotation of the ball valve 2 by ninety degrees, and then to the translational movement of the ball valve 2 downwards, and as a result to the pressing of the ball valve 2 to the seat 4 and the closing of the valve.

In the preferred embodiment of the valve, in the upper part of the ball valve 2 there is a finger fixation system 6, designed to transmit torque from the rod 5 to the ball valve 2 and create a deflecting force, which ensures that the ball valve 2 is pressed against the seat 4.

In a preferred embodiment of the crane, the connecting coupling 10 of the drive mechanism 11 is configured to transmit translational motion from the drive mechanism 11 to the rod 5, while the rod 5 rotates freely in the coupling 10 and is attached to it in the axial direction.

For a better understanding of the claimed utility model, its detailed description with corresponding graphic materials is provided below.

Fig. 1. Ball valve with a lifting and rotating rod, made according to the utility model:

a) front sectional view;

b) side view.

Fig. 2. General view in an angular section of a ball valve with a lifting-rotating rod, made according to the utility model.

Fig. 3. General view of the rod and bushing with a spiral groove, made according to the utility model.

Elements:

1 - body;

2 - ball valve;

3 - removable support;

4 - saddle;

5 - rod;

6 - finger fixation system;

7 - stuffing box;

8 - running sleeve;

9 - finger;

10 - coupling;

11 - drive mechanism;

12 - cover;

13 - spiral groove.

Let us consider in more detail the embodiment of the claimed ball valve with a lifting and rotating rod (Fig. 1-3). The ball valve contains a body 1 with inlet and outlet holes, a seat 4 with a metal or soft sealing surface, a removable part consisting of a ball valve 2 with a spherical surface and a lower removable support 3, a cover 12 with a stuffing box 7, a rod 5, a running sleeve 8 and drive mechanism 11.

In the body 1 of the ball valve, which has inlet and outlet openings, there is a ball valve 2 mounted on a removable support 3, which has a profiled side surface that allows the vertical axis of the valve to deviate during operation. To create a hermetically sealed shutoff of the flow, into one of the housing pipes

I a seat 4 is installed, which, depending on operating conditions, can be made either in a soft version or in a metal-on-metal version.

In the upper part of the ball valve 2 there is a finger fixation system 6, which transmits torque from the rod 5 to the valve 2 and creates a deflecting force, which ensures that the ball valve 2 is pressed against the seat 4.

A stuffing box 7 is installed in the ball valve cover 12, which ensures sealing along the stem 5 relative to the environment.

To operate the ball valve, a drive mechanism 11 is used, which creates an axial force on the rod 5 and can be made in both linear and multi-turn versions. The coupling 10 of the drive mechanism 11 transmits translational motion from the drive mechanism 11 to the rod 5, while the rod 5 rotates freely in the coupling 10 and is attached to it in the axial direction.

The translational motion of the drive mechanism 11 is converted into rotational motion using the running sleeve 8 and fingers 9 installed in the cover 12.

A ball valve works as follows. The downward translational movement created by the drive mechanism 11 is transmitted through the connecting coupling 10 to the rod 5. In this case, on the rod 5 at the installation site of the running sleeve 8 there is a profiled surface A, which interacts with the inner surface B of the running sleeve 8. The interaction of surfaces A and B is limited rotational movement of the rod 5 relative to the running sleeve 8. On the outer surface of the running sleeve 8 there is a spiral-shaped groove 13 with fingers 9 inserted into it, which are rigidly fixed in the cover post 12.

The axial movement of the rod 5 together with the running sleeve 8 creates a force in the area of connection of the spiral groove 13 and fingers 9. In this case, the profile of the spiral groove 13 creates sequentially first rotational and then axial movement of the rod 5.

The created rotational movement of the rod 5 through the finger fixation system 6 leads to a rotation of the ball valve 2 by ninety degrees, and further movement of the fingers 9 along the spiral groove 13 transmits a downward translational movement to the rod 5.

The translational movement of the rod 5, due to the interaction of the inclined profile in the upper part of the surface G with the finger fixation system 6, creates a pressing force of the ball valve 2 to the seat 4, which ensures the tightness of the seal. Opening the ball valve occurs in the reverse order.

The main advantages of the claimed ball valve is the absence of contact of the sealing surface of the seat 4 with the ball valve 2 when turning the valve 4, which eliminates abrasive wear of the sealing surface of the seat 4 and increases the reliability of the ball valve. Also, due to the use of one seat 4 and a rotary mechanism for moving the rod 5, the required torque on the drive mechanism 11 is reduced, which allows saving energy on the drive mechanism 11, which means using a drive mechanism 11 of lower power.

The rotary-rotary mechanism for moving the rod 5 is removed from the working environment outside the stuffing box 7, which protects the spiral-shaped groove 13 from the influence of the working environment, thereby increasing the reliability of the rotary mechanism and the entire ball valve.

Another advantage of the claimed ball valve is its versatility, due to the possibility of using both linear and multi-turn drive mechanisms 11.

The design of the claimed ball valve allows all its internal elements to be removed through the cover 12, which makes it possible to repair the valve without dismantling the valve body 1 from the pipeline.

The use of a running sleeve 8 with a spiral-shaped groove 13 on the outer surface and fingers 9 on the cover 12 makes it possible to increase the contact area of the spiral-shaped groove 13 and fingers 9 (relative to placement on the rod 5), thereby reducing the stress concentration in this unit and increasing the reliability of this unit.

Carbide surfacing of the surface of the support 3 makes it possible to increase its wear resistance and ensure the positioning accuracy of the shutter 4 for a long time.

Although the above-described embodiment of the claimed utility model was presented for the purpose of illustrating the claimed utility model, it is clear to specialists that various modifications, additions and substitutions are possible without departing from the scope and meaning of the claimed utility model, disclosed in the attached utility model formula.

Claims (3)

1. Ball valve with a lifting rod, containing a body 1 having an inlet and outlet openings, between which a ball valve 2 is located, mounted on a removable support 3 with a profiled side surface and designed to deviate from the vertical axis when turning due to movement inside the profiled side surface, and a saddle 4 is installed in one of the nozzles of the housing 1; ball valve 2 is connected to a rod 5, which is located inside the cover 12 attached to the body 1, and is sealed against the working medium and the environment by means of a stuffing box 7, which is located in the cover 12 after the ball valve 2; the drive mechanism 11 is connected to the rod 5 and is configured to create an axial force on the rod 5; in the cover 12 above the stuffing box 7, fingers 9 are installed, the free ends of which are located inside the spiral-shaped groove 13 of the running sleeve 8, which is put on the rod 5 and is made with the possibility of longitudinal movement along the rod 5 along the longitudinal profiled surface A, as well as with the possibility of spiral movement along fingers 9 along the spiral groove 13, and the axial movement of the rod 5 together with the movements of the running sleeve 8 is designed to create a force in the area of connection of the spiral groove 13 and fingers 9, while the profile of the spiral groove 13 is designed to create first rotational and then axial movements rod 5, which lead first to the rotation of the ball valve 2 by ninety degrees, and then to the translational movement of the ball valve 2 downwards, and as a result, to the pressing of the ball valve 2 to the seat 4 and the closing of the valve. 2. The valve according to claim 1, characterized in that in the upper part of the ball valve 2 there is a finger fixation system 6, designed to transmit torque from the rod 5 to the ball valve 2 and create a deflecting force, which ensures the pressing of the ball valve 2 to the seat 4. 3. The valve according to claim 1, characterized in that the connecting coupling 10 of the drive of the drive mechanism 11 is designed to transmit translational motion from the drive mechanism 11 to the rod 5, while the rod 5 rotates freely in the coupling 10 and is attached to it in the axial direction.