RU181890U1 - SWIVEL SHUTTER - Google Patents

Abstract

The utility model relates to pipeline valves, namely, valves designed to shut off the flow of a working medium, including liquid, gaseous, aggressive medium or hot water transported through process pipelines. The butterfly valve comprises a housing having a passage channel with inlet and outlet openings. A saddle mounted with a concave spherical sealing surface is mounted in the outlet of the passage channel of the housing. In the passage channel of the housing there is a locking element made in the form of a spherical segment, the spherical surface of which is located on the side of the inlet of the passage channel of the housing. The edge of the spherical segment is rounded to form a peripheral convex spherical sealing surface, made in the form of a reciprocal concave spherical sealing surface of the saddle, with the possibility of interaction with it in the closed position of the butterfly valve. In this case, the locking element is made with a through hole for placing a rod in it with a gap along the axis of the spherical segment of the locking element with the possibility of moving the locking element relative to the rod in the direction of movement of the working medium. And the rod is installed in the housing perpendicular to the axis of the passage channel and has a sealing element in the upper part of the housing. The butterfly valve seat is preferably made of resilient material. The proposed butterfly valve is more hermetic in the simplicity of its design. 4 ill.

Description

The invention relates to pipeline valves, namely, valves designed to shut off the flow of a working medium, including liquid, gaseous, aggressive media or hot water transported through process pipelines.

Known rotary valve comprising a housing having a passage channel with inlet and outlet openings, a saddle made with a spherical concave sealing surface mounted in the outlet of the passage channel of the housing, and a locking element located in the passage channel of the housing and made with the formation of a peripheral sealing surface, in the form of a reciprocal spherical concave sealing surface of the saddle, with the possibility of interacting with it in the closed position of the rotary shutter, while locking conductive element is formed with a through hole for receiving the rod, a rod mounted in the housing perpendicular to the passageway axis and has a sealing element in the upper housing portion (CN 105090536, F16K 1/22, 25.11.2015). This technical solution is the closest in technical essence to the claimed utility model analogue (prototype).

A technical problem is the lack of tightness of the butterfly valve.

The technical result in the implementation of the utility model is achieved in that the butterfly valve comprises a housing having a passage channel with inlet and outlet openings, a seat made with a concave spherical sealing surface and mounted in the outlet opening of the passage channel of the housing, and a locking element located in the passage channel of the housing and made in the form of a spherical segment, the spherical surface of which is located on the side of the inlet of the housing passage channel, and its edge is rounded off calling a peripheral convex spherical sealing surface made in the form of a response of the concave spherical sealing surface of the saddle, with the possibility of interacting with it in the closed position of the rotary shutter, while the locking element is made with a through hole for placing a rod with a gap S along the axis of the spherical segment of the locking element with the ability to move the locking element relative to the rod in the direction of movement of the medium, and the rod is installed in the housing perpendicular to the axis passage channel and has a sealing element in the upper part of the housing. In this case, the seat is preferably made of an elastic material.

Compared with the closest analogue, the proposed butterfly valve is more hermetic in the simplicity of its design due to the implementation of the locking element in the form of a spherical segment, the spherical surface of which is located on the inlet side of the housing passage channel, and its edge is rounded to form a peripheral sealing surface the shape of the reciprocal spherical concave sealing surface of the saddle, with the possibility of interaction with it in the closed position, turning for creator, while the locking element is made with a through hole for placing the rod in it with a gap along the axis of the spherical segment of the locking element with the possibility of moving the locking element relative to the rod in the direction of movement of the working medium. The locking element is not rigidly connected to the stem; it can slightly move in the housing of the butterfly valve and tighten it closer to the seat under the influence of the working medium pressure, providing additional sealing and increasing the tightness of the butterfly valve.

The above features and advantages of the utility model will be clear from the following description of the preferred example of its implementation with reference to the accompanying drawings, in which the same positions are used to represent the same elements:

in FIG. 1 is a cross-sectional view of a rotary shutter in accordance with this utility model;

in FIG. 2 is the same, section AA of FIG. one;

in FIG. 3 - the same, remote element B of FIG. 2

in FIG. 4 - the same, remote element C of FIG. 2.

The butterfly valve is designed to supply a working fluid flow in one direction (shown in figures 1 and 2 by an arrow) and comprises a housing 1 in which a passage channel 2 is made with an inlet 3 and an outlet 4 openings for the passage of a working fluid flow.

In the outlet 4 of the passage channel 2 of the housing 1, a seat 5 is mounted with a concave spherical sealing surface 6. The seat is preferably made of an elastic material, for example, PTFE, polyurethane, EPDM, FPM.

In the passage channel 2 of the housing 1, a locking element 8 is placed on the rod 7. In this case, the rod 7 is a kinematic element of the rotary shutter associated with the drive of its rotation, and is installed in the housing 1 so that its axis of rotation O-O passes through the axis O ₁ -O ₁ through passage 2, perpendicular to it, and, accordingly, perpendicular to the direction of flow of the working medium. In the upper part of the housing 1, the rod 7 is brought out of the housing 1 to allow control action and is sealed with a sealing element 9. The rod 7 is cylindrical and flats are made along the entire length of the installation of the locking element 8 on it, which are equidistant axis and parallel to each other.

The locking element 8 is made in the form of a spherical segment, a spherical surface 10 of which with a radius R is located on the side of the inlet 3 of the passage channel 2 of the housing 1. The axis of symmetry of the spherical segment of the locking element 7 and the axis of the saddle 5 coincide with the axis O ₁ -O _{1 of the} passage channel 2 The edge of the spherical segment of the locking element 8 is rounded with the formation of a peripheral convex spherical sealing surface 11, which is made in the form corresponding to the concave spherical sealing surface 6 of the saddle 5. At the same time, the locking e ement 8 is disposed so that its peripheral convex spherical sealing surface 11 in the closed position the rotary bolt engages with a concave spherical sealing surface 6 of the saddle 5.

The locking element 8 is made with a through hole for accommodating the rod 7. The specified through hole in the body of the locking element 8 is made in such a way that the rod 7 is placed therein with a gap S along the axis of the spherical segment of the locking element 8. The gap can be made in the size 1- 1.5 mm depending on the size of the rotary shutter. The locking element 8 due to this gap S has the ability to move relative to the rod 7 along the axis O ₁ -O ₁ in the direction of flow of the working medium (shown by an arrow), but the flats 12, made on the rod, are in contact with the inner surfaces of the through hole of the locking element 8, preventing the movement of the rod relative to the locking element 8 in the transverse direction (along the axis O ₂ -O ₂ ).

The butterfly valve operates as follows.

From the open position of the butterfly valve when the rod 7 is rotated by its rotation drive (not shown in the figures), the locking element 8 is rotated to the “closed” position - a position perpendicular to the flow of the working medium, as shown in FIG. 1 and FIG. 2. The peripheral convex spherical sealing surface 11 of the locking element 8 is completely in contact with the concave spherical sealing surface 6 of the seat 5. In this case, in the closed position of the rotary shutter, the fluid flow (shown by the arrow) acts on the spherical surface 10 of the locking element 8. And, thanks to the installation of the locking element 8 on the rod with a gap S in the direction of flow of the medium, the locking element 8 according to the pressure of the medium moves relative to the rod and is tightly pressed by its riferiynoy convex spherical sealing surface 11 to the concave spherical sealing surface 6 of the saddle 5, thereby stopping leakage of the working medium and providing a tight locking of the rotary shutter.

Thus, the proposed butterfly valve is more hermetic in the simplicity of its design

The embodiments described above should in all aspects be considered only as illustrative and not limiting. Therefore, other examples of the implementation of the present utility model and examples of implementation that do not go beyond the essential features described here may be used.

Claims (2)

1. A butterfly valve comprising a housing having a passageway with inlet and outlet openings, a seat made with a concave spherical sealing surface and mounted in the outlet of the passageway of the housing, and a locking element located in the passageway of the housing and made in the form of a spherical segment, a spherical surface of which is located on the inlet side of the housing passage channel, and its edge is rounded to form a peripheral convex spherical sealing surface, made in the form of a reciprocal concave spherical sealing surface of the seat with the possibility of interacting with it in the closed position of the rotary shutter, while the locking element is made with a through hole for placing a rod in it with a gap along the axis of the spherical segment of the locking element with the possibility of moving the locking element relative to the rod in the direction of movement of the medium, and the rod is installed in the housing perpendicular to the axis of the passage channel and has a sealing element in the upper part of the housing. 2. A butterfly valve according to claim 1, characterized in that the seat is made of an elastic material.

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