WO2011059368A2

WO2011059368A2 - Stopcock valve

Info

Publication number: WO2011059368A2
Application number: PCT/RU2010/000670
Authority: WO
Inventors: Михаил Викторович ГУСЕВ; Анатолий Васильевич СОРОКИН
Original assignee: Общество С Ограниченной Ответственностью "Научно-Производственное Предприятие "Aпoгeй"
Priority date: 2009-11-16
Filing date: 2010-11-15
Publication date: 2011-05-19
Also published as: WO2011059368A3

Abstract

Use: in a pipe fitting, and specifically in valves having rotatable discs, as a shut-off device in technological pipes in the chemical and food industries and other branches of industry. Essence: the valve comprises a body with a rotatable disc which is arranged in the internal cavity thereof and has a sealing element, wherein the rotatable disc is fastened to a spindle, one end of which is inserted into a blind opening formed in a seat in the internal cavity of the body while a handle is fixed to the other end of the spindle; the rotatable disc consists of two circular stamped plates forming a holder for the sealing element which is in the form of a profiled rubber ring, wherein the circular stamped plates are interconnected upon assembly by means of spot welding, with the formation along the outer edge thereof of an annular groove into which a profiled rubber ring is snugly inserted, ensuring that the seat is completely covered in the closed state of the valve.

Description

CRANE BLOCK

The utility model relates to pipe fittings, namely to valves with rotary disks, and can find application as a locking device in technological pipelines of chemical, food and other industries.

Known disk valve [1], used as a shut-off or control device in pipe fittings. A sealing element and a rotary disk mounted on the half shafts are placed inside the shutter housing. The inner surface of the sealing element is in the form of a straight non-circular cylinder and in cross section is an oval. An oval is formed by pairing three circles. The first circle has a center coinciding with the axis of symmetry of the passage section and forms the lateral sides of the oval. The centers of the other two circles are offset in opposite directions from the axis of symmetry of the passage section along the axis of rotation of the disk by an equal amount. The radius of the first circle is less than the radius of the other two.

The disadvantage of this shutter is the complexity of the configuration of the inner surface of the sealing element.

Closest to the proposed utility model is a crane (disk) shutter [2], comprising a housing with an elastic insert placed therein, a drive shaft with a rotary disk and the locking lever and the clamping element covering the elastic liner, while the clamping element is made in the form of two spiral single-coil springs parallel to each other in planes symmetrical to the cross section of the shutter, the clamped ends of which are located inside the housing, and the free ends are connected to the locking lever, and the springs connected by a loop located in the annular groove of the drive shaft.

The disadvantage of this shutter is the design complexity due to the implementation of the clamping element in the form of two spiral single-coil springs, as well as insufficient reliability during operation of the shutter.

The technical result, which consists in eliminating the aforementioned drawbacks, is achieved in the proposed crane shutter comprising a housing with a rotary disk with a sealing element located in its inner cavity, while the rotary disk is mounted on a spindle, one end of which is inserted into a blind hole made in the saddle of the inner the cavity of the housing, and on the other end of the spindle a handle is fixed, so that the rotary disk consists of two round stamped plates forming a holder for the sealing element one in the form of a profile rubber ring, moreover, round stamped plates are fastened together during assembly by spot welding with the formation on its outer edge of an annular groove into which the profile is firmly inserted a rubber ring providing full overlap of the saddle in the closed state of the shutter.

The essence of the utility model is illustrated by drawings, where:

- in FIG. 1 shows the shutter assembly (in three projections);

- in FIG. 2 shows a rotary disk;

- in FIG. 3 shows an image of a rubber profile ring.

The disk shutter (Fig. 1) comprises a housing 1 with a rotary disk 2 located in its internal cavity and a sealing element 3. The rotary disk 2 is mounted on a spindle 4, one end of which is inserted into a blind hole made in the saddle 5 of the internal cavity of the housing 1. On the other end of the spindle 4 is fixed to the handle using a nut 7.

The rotary disk 2 (Fig. 2) consists of two round stamped plates 8, forming a holder for the sealing element 3, made in the form of a profile rubber ring (Fig. 3). The round stamped plates 8 are bonded to each other during assembly by spot welding (crosses are shown in FIG. 2) to form an annular groove 9 along its outer edge, into which a rubber profile ring 3 is tightly inserted to ensure complete closure of the seat 5 in the closed state of the shutter. The spindle 4 is tightly inserted into the hole in the housing 1 through the sleeve 10 and the sealing element 1 1, providing sealing of the shutter.

The disk shutter is assembled and operates as follows. The body is made by casting and turning the inner surface. The rotary disk 2 is made of two round stamped plates 8, which are fastened together by spot welding with the formation on its outer edge of the annular groove into which the rubber profile ring 3 is inserted.

Then, the spindle 4 is inserted into the hole of the housing 1, the assembled disk 2 is fixed on it with welding or screws, the sealing element 1 1 is inserted, the sleeve 10 is screwed in and the handle 6 is fixed using the nut 7.

The shutter on the right side (Fig. 1) is connected to a water supply system (not shown in the drawings). A hose is screwed to the valve on the left side (not shown in the drawings).

In the initial state, the disk 2 overlaps the bypass hole in the saddle 5.

In this case, the rubber ring tightly contacts along the perimeter with the inner surface of the saddle.

To open the shutter, a force is applied to the handle 6 and the spindle 4 is rotated by turning the disk 2. At the same time, the bypass hole is opened and water from the system flows into the internal cavity of the housing 1 and then to the consumer, for example, a fire hose. Water consumption is set by the angle of rotation of the disk 2.

To replace a worn sealing element 3, it is necessary to unscrew the nut 7 and the sleeve 10 and release the disk 2.

The proposed shutter is manufactured on machine-building enterprise in serial production on universal equipment using materials produced by domestic industry.

For the manufacture of body 1, brass or nickel-plated brass is used. Handle 6 and spindle 4 can be made of stainless steel.

For the sealing element 3, wear-resistant rubber is used.

The proposed design made it possible to simplify the design of the shutter while increasing the reliability of its operation.

Information sources:

1. RF patent JV <> 2146783, IPC F 16 1/226, 04/02/1998

2. RF patent 2030668, IPC F 16K1 / 226, 04.16.1991

Claims

USEFUL MODEL FORMULA

A crane shutter comprising a housing with a rotary disk with a sealing element located in its inner cavity, the rotary disk being mounted on a spindle, one end of which is inserted into a blind hole made in the saddle of the internal cavity of the housing, and a handle is fixed on the other end of the spindle, characterized in that the rotary disk consists of two round stamped plates forming a holder for a sealing element made in the form of a profile rubber ring, and round stamped plates are fastened with each other during assembly by spot welding with the formation on its outer edge of an annular groove in which a rubber profile ring is tightly inserted to ensure complete closure of the seat in the closed state of the shutter.