CS248654B1 - Control and stopcock - Google Patents

Abstract

The regulating and closing valve with a conical closure and a through hole in the conical closure consists in the fact that the through hole is in the shape of a slot, and the width of the slot "a" is a * 0.1 mm = 0 b, where 0 b is the diameter of the float and this gate passes through the conical closure, which is rotated by the axis and through the through hole in the axis of the cone. The regulating and closing valve can be very conveniently used in the chemical industry, where it is necessary to regulate the inflow within very low limits and where it is necessary to pay attention to safety against leakage failure.

Description

The invention relates to a regulation and shut-off valve for chemical apparatuses operatively connected in one body.

In common chemical apparatuses it is necessary to regulate the inflow in dependence on the values of the desired variable in large ranges and at the same time to close the inflow very quickly. These functions can be achieved by connecting the control valve and the shut-off valve in the pipeline in series.

The disadvantage of this arrangement is the need to use several devices, i.e. at best one shut-off valve and one control valve with control. The multiplication of the required equipment multiplies the possibility of malfunctions, the possibility of leakage of toxic, annoying and radioactive or expensive fluids increases the complexity of the equipment and function, not only of its own but also of the regulating circuits.

The above-mentioned drawbacks are eliminated by a device according to the invention, which consists of a cone-shaped closure with a slot-shaped aperture, the slot width "a" being in relation to the diameter "b" of the damper passing through the plug axis. 1 mm s b. The shutter made of, for example, pollytetrafluoroethylene, thus, when moving, narrowly blocks the through hole of the cone closure. For constricting or closing of the flow, the cone closure is connected to the control lever via the stem.

Both the shank and the damper are sealed with ferals, which are pushed through the screws. The damper is controlled by a servomechanism allowing the damper to move up and down.

This arrangement of the control and shut-off valve combines the control function, which is ensured by a linearly sliding shutter, a throttle which is

248 854 by turning the plug and thereby closing the through hole and closing, turning the plug by 90 °. The throttling of the passage does not interfere with the regulating function, the throttling characteristic, i.e. the sliding of the slider, remains the same at any degree of rotation of the plug until the passage is closed. It is therefore possible to shift the control characteristics from small amounts up to full flow on the device during operation and vice versa. By being compact, the device can be better normalized. a control and shut-off valve in axial section, with a conical closure where the inflow through the through hole is fully open and the gate in the slight throttle position; and Figure 2 only the conical stop with a through hole in axial section perpendicular to the fluid flow axis.

Figure 1 shows a body 1 in which the housing 13 is inserted so that it does not rotate in the body 1. In this housing 13 there is provided a conical recess, in which a conical closure 2 with a shaft 17 and a lever 14 engages. A slot 8 in width and a conical closure 2 is provided with a diaphragm 6 of diameter b. ^{In the} conical closure 2 towards the axis 18 by means of the inlet 10 and the outlet 11. Both the damper 8 and the stem 12 are sealed by ferrule 8 and 8 which are pressed by screws 6 and 4. Servomeohanism 16, which is only schematically indicated, retracts and extends in the direction of axis 12.

When the slider 2 is fully extended, it runs into the bore 15.

In Figure 2 in accordance with Figure l is shown a conical cap 2 along the axis 12 which is the rotation axis of the conical cap 2, as well as through hole width AA 2 ⁰ £ damper which may run when it is fully closed into the bore of the 15th

-τ248 854

The function of the device is evident from the illustration. The fluid flowing in the direction of the axis 18 from the inlet 10, through the through hole 8 to the circuit 11 or in the opposite direction can be throttled by moving the damper down or close to leakage if the damper 2 runs up to the bore 15. The flow can be throttled by slightly turning the cone closure 2 with the through hole relative to the body 1 by means of a shaft 17 and a lever 14 about the axis 12, fully closed by a 90 ° rotation.

The control and shut-off valve according to the invention can be used particularly well in the chemical industry, where the inflow needs to be controlled at very low limits and where safety must be ensured against leakage failure.

Claims (4)

Control and stopcock with a conical closure and a through hole in a conical closure, characterized in that the through hole (3) is slit-shaped, with a slot width (a) that a + 0.1 mm = b, where b is the diameter of the damper (7) and this damper (7) passes through the tapered closure (2) and through hole (3) in the axis (12), which is the axis of rotation of the tapered closure (2) · Device according to claim 1, characterized in that the damper (7) of diameter (b) is sealed with a ferrule (8) pressed by the screw (6). Device according to Claims 1 and 2, characterized in that the stem (17) of the plug (2) is sealed with a ferrule (9) pressed by the screw (4). Device according to Claims 1 to 3, characterized in that the conical closure (2) is connected to the control lever (14) via a shank (17). 3) Device according to claims 1 to 4, characterized in that the damper (7) is connected to the actuator (16).