RU102239U1 - ROTARY DISK SHUTTER - Google Patents

Abstract

 A rotary butterfly valve comprising a housing in which a bi-axially arranged radially floating rotary valve is installed on two axes, characterized in that the rotary valve has an outer spherical surface at its periphery that comes into contact with an inner spherical surface of the seat located and sealed in the housing, mobile in the direction of flow of the working medium, and both spherical surfaces have sufficient hardness and wear resistance, and in the groove of the housing there is an ogre nickel and elastic element made of Graflex material with spring properties.

Description

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

Known rotary butterfly valve comprising a housing in which on two axes mounted floating rotary disk, offset relative to the axes, provided with a spherical ring with a seal mounted on a floating rotary disk, axially movable and coming into contact with a spherical seat located in the housing, provided a seal, the spherical seat made of an elastic material, for example, fluoroplastic, and the seal of the spherical seat made of graflex material (RF patent for utility model No. 42607, F16K 1/16, 2004).

This shutter has the following disadvantages. The spherical seat is made of an elastic material, for example, fluoroplastic, and therefore this valve has limited use, both in temperature parameters of the working medium and in pressure, because the elastic material of the saddle is not able to withstand increased pressure of the working medium, for example, over 100 atmospheres . The shutter does not provide reliable fixation of the stable position of the saddle when the disc is rotated to the "Open" position. The shutter body is not technologically advanced enough and has a somewhat sophisticated manufacturing technology.

The purpose of the utility model is to increase the reliability of a butterfly valve, simplifying the design and technology of its manufacture.

To achieve this technical result, in a rotary butterfly valve comprising a housing in which on two axes an offset is located radially floating rotary damper, characterized in that the rotary damper has on its periphery an outer spherical surface that comes into contact with the inner spherical surface located and sealed in the body of the seat, movable in the direction of flow of the medium, both spherical surfaces have sufficient hardness and wear stability, and in the groove of the housing there is a limiter and an elastic element made of Graphlex material with springing properties. For technological reasons, it is permissible to install a rigidly fixed ring on the periphery of the rotary damper with an external spherical surface that comes into contact with an external spherical surface located in the housing by a seat, the movement of which along the flow of the working medium is limited by a split ring-limiter located in the groove of the housing with an elastic an element made of a material, for example, “Graflex”, and these spherical surfaces of the seat and the rotary damper have sufficient hardness l and hardiness. This resilient element made of Graflex material, which has springing properties, provides no gap contact between the spherical surfaces of the seat and the rotary damper, thereby performing technological tightness of the shutter in the “Closed” position. The proposed rotary disk shutter is illustrated in the drawing.

The butterfly valve consists of a housing 1, in which are installed: a spindle-lead 2 and an axis 8; displacement located on them floating in the direction perpendicular to the flow of the working medium rotary damper 4 with a spherical surface made on its periphery or a ring with an external spherical surface made on its periphery fixed for technological reasons; a saddle 3 with an internal spherical surface provided with a seal 5; a limiter 7 located in the groove of the housing 1, providing limited movement of the saddle 3 in the direction of flow of the working medium and an elastic element 6 made of a material, for example, "Graflex" with spring properties.

The spherical surfaces of the seat 3 and the rotary damper 4 have sufficient hardness and wear resistance, without a gap contact in the “closed” position, it can provide a tight shut-off of the working fluid at high temperatures and pressures, for example, over 100 atmospheres, as well as at low. The spherical surfaces of the saddle 3 and the rotary damper 4 can possess such properties, for example, as a result of hardening by the process “oxycarbonitration”. Rotary butterfly valve operates as follows. When the rotary damper 4 is turned to the “Closed” position (the position perpendicular to the flow of the working fluid), the spherical surface of the seat 3 is mated. The flow of the working fluid acts on the seat 3 located in the housing 1, which, under its influence, overcomes the friction force of the seal 5, moves towards the spherical surface of the rotary damper 4. Additionally, this movement is also provided by the springy properties of the elastic element 6 made of the material "Graflex" located under the limit Lemma 7 in the groove of the housing 1 and together with the force developed by the energy of the flow of the working medium between contacting spherical surfaces provides clearance-free coupling of the spherical surfaces, thereby achieving technological tightness of the shutter. The rotary valve 4 is kept from axial movement along the flow of the working medium by the contact surfaces of the spindle-lead 2 and axis 8, but by means of these contacting surfaces, due to the guaranteed radial clearances, radial movement (swimming) in the direction perpendicular to the flow of the working medium is ensured. Thus, the shutter is not locked mechanically, as is the case with all types of pipe fittings, but only by the force developed by the energy of the flow medium.

When regulating the flow of the working medium (opening - the position of the rotary damper is not perpendicular to the flow of the working medium), the force developed by the spring properties of the elastic element 6 from the material "Graphlex", placed under the restrictor 7 in the groove of the housing 1, through contact spherical surfaces, due to the radial gaps of the contacting surfaces spindle-leash 2, axis 8 and rotary damper 4 moves the latter within these radial clearances along the flow of the working medium. The load on the saddle 3 during this “opening” decreases sharply, since the pressure of the working fluid flow is balanced and the friction spherical surfaces slide with each other with a slight effort, a force that determines only the spring properties of the elastic element 6 made of Graphlex material and the friction force of the seal 5.

Guaranteed radial clearances during “locking” (when mating contacting spherical surfaces) enable the rotary damper 4 to “float” and self-install, therefore, the shutter design does not require high manufacturing accuracy, manufacturing technology is simplified, and therefore the shutter cost is also reduced.

Claims (1)

A rotary butterfly valve comprising a housing in which a bi-axially arranged radially floating rotary valve is installed on two axes, characterized in that the rotary valve has an outer spherical surface at its periphery that comes into contact with an inner spherical surface of the seat located and sealed in the housing, movable in the direction of flow of the working medium, and both spherical surfaces have sufficient hardness and wear resistance, and an ogre is located in the groove of the housing nickel and elastic element made of Graflex material with spring properties.