RU32227U1 - Control Valve - Google Patents

Description

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MPKR16K1 / 04

The valve is regulating and locking.

The inventive utility model is intended for use in central heating and individual heating units, ventilation systems of greenhouses and in other areas of the national economy, both for the automatic regulation of thermal processes and as shut-off devices.

Known locking single-seat valve. Containing a housing with a saddle, inlet, outlet nozzles with flanges, a cover with a gland assembly, a drive, a rod connected to a locking body, in the peripheral part of which there is a protrusion in the form of a convex body of revolution and an annular groove with a sealant made of rubber or fluoroplastic (RF patent No. 21116538, IPC F 16 K 1/04, priority from 30/04/97, publ. 27/07 / 98G).

The disadvantages of the known device is that the manufacture of a sealant from rubber or PTFE limits the possibility of using the valve at high temperatures of the coolant. The working medium enters the valve under high pressure, of the order of 1.6 MPa, and under the influence of high pressure of the medium, the sealant can disengage, which leads to valve depressurization. In addition, due to the fact that the pipelines on which the control valves operate have a tendency to rust, salt deposition and the presence of iron oxide, hard particles, passing through the valve duct part, adhere to the soft seal of the valve, and, when the valve is closed, can damage the valve resulting in valve leaks.

The authors were tasked to develop a control and shut-off valve, which ensures operation at high temperatures and pressure of the working medium up to 1.6 MPa or more, and simultaneously performs the functions of a control and shut-off device on untreated media.

body, stuffing box, cover, output element, stem and actuator, seat made of brass LS - 59-1 in the form of a truncated inverse cone, and the locking element is made of chromium-nickel stainless steel in the form of a body of revolution from an increasing number of truncated inverse cones smoothly passing one in another, and the area of the locking contacting surfaces of the saddle and the locking body are correlated as 1: 2 - 1: 3.

The technical result of the claimed utility model lies in the high reliability of the valve shutoff part, in increasing the valve service life, in increasing the temperature of the medium to be passed from 150 ° C to 250 ° C.

The utility model is illustrated by drawings, figure 1 shows a General view of the control-shut-off valve, where 1 is a housing; 2-inlet pipe; 3 outlet pipe; 4 - a saddle; 5 - cover; 6 - stuffing box; 7 - a locking organ; 8 - stock; 9 - output element of the drive; 10 - drive.

The inventive valve operates as follows.

The command signal is supplied to the actuator 10, which reports a reciprocating motion to the output element 9. The output element 9 is connected mechanically with the rod 8. The rod 8, having received the direction of movement from the output element 9, moves the locking member 7 relative to the seat 4 up and down, changing the area of the passage section in shutter, and regulates the flow of the working medium, and if necessary completely blocks its flow.

The advantage of the claimed utility model is that it allows you to save coolant in various control schemes of thermal processes, apply it at higher temperatures and on untreated media. According to expert estimates, the energy savings from the use of this valve design is 15-20% due to the rational use of energy flows and increase equipment reliability.

Claims (1)

The control and locking valve, comprising a housing, inlet and outlet nozzles, a seat, a locking element, an stuffing box, a cover, an output element, a stem and an actuator, characterized in that the seat is made of brass LS-59-1 in the form of a truncated inverse cone, and the locking body is made of chromium-nickel stainless steel in the form of a body of revolution from an increasing number of truncated inverse cones smoothly passing one into another, and the areas of the locking contacting surfaces of the saddle and the locking body are correlated as 1: 2-1: 3.