RU42607U1 - ROTARY DISK SHUTTER - Google Patents

Abstract

The invention relates to pipeline valves, namely to rotary butterfly valves designed to control the flow of a working medium. The technical result is an increase in the reliability of the shutter, also reducing the torque that occurs when the disk is rotated, as well as expanding the functionality of the shutter. For this purpose, a rotary butterfly valve comprising a housing in which a floating rotary rotary disk offset from the axes is mounted on two axes is provided with a spherical ring fixedly mounted in the housing, a sealing spherical ring mounted on the floating rotary disk, axially movable and coming into contact with a spherical seat located in the housing provided with a seal, the spherical seat made of an elastic material, for example, fluoroplastic, and the seal of the spherical seat made but from the material "graphlex".

Description

The invention relates to pipeline valves, namely to rotary butterfly valves designed to control the flow of a working medium.

Known butterfly valves containing a housing in which on two axes a floating butterfly valve is mounted, offset relative to the axes (GOST 13547-79. Disk valves. - M .: Standards, 1980).

The disadvantages of such shutters are insufficient tightness and high torque that occurs when the disk is rotated.

The purpose of the utility model is to increase the reliability of the shutter, reduce torque during rotation of the disk, as well as expand the functionality of the shutter by providing, in addition to the function of regulating the flow of the working medium, a shut-off function with reliable tightness in class A, for example, like ball valves, without working leakage medium at maximum flow pressure according to the principle of self-locking, that is, the use of the energy of the flow of the working medium.

To achieve this technical result, a rotary butterfly valve comprising a housing in which a two-axis floating rotary rotary disk is mounted, offset from the axes, is provided with a spherical ring fixedly mounted in the housing, a spherical sealing ring mounted on the floating rotary disc, movable in the axial direction and coming into contact with a spherical seat located in the housing, provided with a seal, and the spherical seat is made of an elastic material, for example, fluoroplastic, and The grafting of the spherical saddle is made of graphlex material.

The proposed rotary butterfly valve is illustrated by the drawings shown in figures 1 and 2.

In Fig.1 shows a General view of a rotary disk shutter, Fig.2 - section aa in Fig.1.

The butterfly valve consists of a housing 1 in which a spherical ring 2, axles 3 and 8, a sealing spherical ring 4, a spherical seat 5, a seal of a spherical saddle 6, a floating rotary disk 7 are installed.

Axis 3 is the drive of rotation of the disk 7, and axis 8 is the supporting part of the rotary shutter system. The spherical seat seal is made of graphlex material,

possessing, besides the seal property, also the spring property.

Rotary butterfly valve operates as follows.

When the floating rotary disk 7 is turned to the “closed” position, the spherical sealing ring 4 located on it, movable in the axial direction, completely comes into contact with the spherical surface of the seat 5. Due to the energy of the flow of the working medium, the sealing spherical ring 4 moves in the axial direction, compressing while through the spherical seat 5, the seal of the spherical seat 6, thereby stopping the leakage of the working medium and ensuring reliable locking of the shutter. The spherical ring 2, which is fixedly mounted in the casing, acts as a “janitor”, cleaning in rotation the surface of the sealing spherical ring 4 of the floating rotary disk 7 of the deposited foreign particles that are inevitably present in the working medium and violate the tightness.

The reduction of torque during rotation of the floating rotary disk is achieved as follows. The determining torque depends on the friction force arising between the rubbing spherical surfaces of the sealing spherical ring 4 and the spherical seat 5, which is determined by the force of the influence of the energy of the working fluid flow on the cross section of the moving sealing spherical ring 4, and not the entire section of the floating rotary disk 7, as it takes place in known rotary butterfly valves. The difference in cross-sectional area of the floating rotary disk 7 and the sealing spherical ring 4 determines the amount of reduction in torque.

A feature of the proposed rotary butterfly valve is the use of a spherical seat 5, equipped with a seal 6, which has, in addition to the sealing property, also the springing property.

When the shutter opens, the pressure of the working medium before and after the floating rotary disk tends to equalize and the force acting on the energy of the flow of the working medium on the sealing spherical ring 4, then on the spherical seat 5 and the seal of the spherical saddle 6, practically drops to zero. Therefore, the sealing of the spherical seat 6, due to the spring properties, pushes the spherical seat 5, which, in turn, pushes the sealing spherical ring 4 on the floating rotary disk 7. Due to the fact that the local contact of the spherical saddle 5 and the sealing spherical ring 4 is carried out practically without effort and does not deform the spherical surface of the seat 5, in contrast, for example, to the design of ball valves, which are not used in the flow control mode

may, due to violation of the integrity of the elastic spherical surface of the saddle. There is no such drawback in this design, and therefore, the proposed valve can be successfully operated both in the control mode and in the locking mode, with practically unlimited pressure of the working medium. In the well-known designs of butterfly valves, it is almost impossible to achieve such an advantage, due to the growth in size, weight and the inability to make a reliable seal.

Claims (1)

A butterfly valve comprising a housing in which a two-axis floating rotary disk is mounted, offset from the axes, characterized in that it is provided with a spherical ring fixedly mounted in the housing, a spherical sealing ring mounted on a floating rotary disk, movable in the axial direction and coming into contact with a spherical seat located in the housing provided with a seal, the spherical seat made of an elastic material, such as fluoroplastic, and the seal is spherical edla made of a material "Graphlex".