SU1147112A1 - Shut-off device - Google Patents

Abstract

1. STOPPING DEVICE containing a sealed housing with two fittings mounted coaxially: and perpendicular to the axis of a hose placed between them, characterized in that, in order to increase the reliability of the device, each fitting is provided with an abutment and insert with a hole installed inside the fitting with the possibility reciprocating movement and interaction with the support fixed inside Tutz & 2. The device according to claim 1, characterized in that it is provided with two cups with inserts with holes arranged in them E and stops, with an open end cups attached to the body in one plane with nozzles coaxially to each other and perpendicular to their axis and shlan axis (L n.,.

Description

four; -v | The invention relates to devices for pneumatic and hydrotransporting bulk granular, powdered and piSvidnyh materials and can be used in the chemical and electronic industries. The aim of the invention is to increase the reliability of operation of the device by ensuring that the hose is pinched in a certain place and guaranteed to open. FIG. 1 shows a longitudinal section of the proposed device in the Open position, in FIG. 2 shows a cross-section along the axis of fittings and glasses in the Open position i in FIG. 3 - the same, the moment of the end of the deformation of the hose with the inserts of the fittings (the beginning of the gap); in fig. 4 - the same, the moment of complete clamping of the hose by the control medium, the position Closed, in FIG. .5 is the same as the moment when the hose is deformed by the inserts of the cups (the beginning of the opening). The device consists of a sealed housing 1 with nozzles 2 and 3, respectively, for the input and output of bulk material connected to the housing 1, for example bolted connections, between which a hose 4 is located in the housing 1 (Fig. 1). In the middle of the part, fittings 5 and 6 are attached to housing 1 for supplying a control medium (gas or liquid under pressure, as well as for connection to a vacuum). Fittings 5 and 6 are installed coaxially with each other and perpendicular to the axis of the hose 4 placed between them. Fittings 5 and 6 are provided with inserts 7 and 8, respectively, with openings. Inserts 7 and 8 are installed with a clearance inside fittings 5, 6 to enable reciprocating movement. The movement of inserts 7 and 8 is limited, for example, by ring stops 9 and 10, respectively, which enter the recess of inserts 7 and 8. Shlan 4, in the open state, touches inserts 7 and 8, blocking their openings. Elements 11 and 12, for example, the bellows are installed inside fittings 5 and 6 as sealing elements for sealing. Alternatively, sealing elements can serve, for example, sliding on inserts 7, 8 or any other elements. The housing 1 is equipped with an additional two cups 13, 14, installed perpendicularly to the unions 5, 6 of the axis of the hose 4 placed between them, coaxially with each other and in the same plane with the unions 5 and 6 (Fig. 2). Inside the cups 13 and 14, inserts 15, 16, similar to / inserts 7, 8 with holes, are installed with a gap. The reciprocating movement of the inserts 15, 16. is limited, for example, by ring stops 17, 18 ,. which enter the recess of the inserts 15, 16. Elastic elements 19, 20, for example, bellows, are installed inside the glasses 13 and 14 as sealing elements. The hinge 4 at the time of opening concerns the inserts 16, 15, blocking their openings (Fig. 5). The locking device works as follows. To close the locking device, the fittings 5, 6 are connected to a source of control medium, a gas or a liquid under pressure (the source is not shown in the drawings). The control medium enters the housing 1 through fittings 5, 6 and the openings of the inserts 7, 8. Due to the difference in flow areas of the openings of the connectors 5, 6 and the openings of the inserts 7, 8, a differential pressure of the control medium occurs before the inserts 7, 8 and after them in the housing 1. Due to this differential pressure of the control medium, which can vary depending on the ratio of the diameters of the unions 5, 6 and the openings of the inserts 7, 8 from zero to the pressure of the control medium, the inserts 7, 8 begin to move progressively towards each other friend, move out of fittings 5, 6. Move, in bids 7, 8 mechanically resiliently deform the hose 4, giving it an oval shape. The movement of the inserts 7, 8, and, consequently, the mechanical elastic deformation of the hose 4, ceases as soon as the inserts 7, 8 reach the ring stops 9, 10 (Fig. 3). Further deformation of Ishang 4, up to complete clamping, is carried out only under the action of a control medium. The control environment affects the oval in the future. An oval, as is well known, is unstable in cross-sectional shape and unequal along the perimeter. Under the action of a uniform pressure of the control medium, which stepped into the housing 1 through fittings 5, b and through the openings of the inserts 7, 8 onto the outer surface of the hose 4, an uneven force proportional to the area of the sides is created: on the sides with a larger oval diameter the smaller diameter of the oval is smaller. It is in this place - in cross section along the axis of the nozzles 5, 6, the hose 4 is completely over-driven (Fig. 4). Simultaneously with the impact on the hose 4, the control medium located in the housing 1 acts on the inserts 15, 16 of the cups 13, 14, which is similar to the above-described effect on the inserts 7, 8, only the inserts 15, 16 move in a different direction. In the cups 13, 14, up to the stops 17, 18, it is not interrupted to pinch the hose 4. In order to open the locking device, the nozzles 5, 6 are connected to the atmosphere by releasing the control medium from the housing 1. The control medium flows through the openings of the inserts 7 , 8, 15 and 16 and unions 5 ,. 6 to the atmosphere, as well as from the glasses 13, 14 through the holes of the inserts 15, 16 into the housing 1. This also causes a pressure differential before the inserts 7, 8 and after the inserts 15, 16. The inserts 7, 8 are pushed into the fittings 5, 6 until stops 9, 10, and inserts 15, 16 extend from cups 13, 14 to stops 17, 18. Pushing out glasses 13, 14, inserts 15, 16 elastically deform sleeve 4, causing it to open (figure 5). . The full opening of the hose 4 is due to its elasticity. With a long stay in the closed (clamped) state, hose sticking can occur. In this case, to open the shut-off device, the fittings 5, 6 are connected to a vacuum (after pressure is released from the housing O. Due to the pressure difference that has occurred in the fittings 5, 6 and in the housing 1, inserts 7, 8 are pushed into the fittings 5, 6 to the stops , 10, and due to the resulting pressure drop in the housing 1 and in the cups 13, 14, the inserts 15, 16 are pushed out of the cups 13, 14, elastically deforming the hose 4. At the same time, a pressure differential acts on the perimeter of the hose 4 ( vacuum), returning it to the fully open state. The vacuum in the corus, valve 1 is increased to t s long as the hose 4 is not vernets to its original state and do not block the openings. inserts 7, 8 (Fig. 2).

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Claims (2)

1. The locking device containing a sealed housing with two fittings mounted coaxially I and perpendicular to the axis of the hose between them, characterized * in that, in order to increase the reliability of the device, each nozzle is equipped with a stop and an insert with a hole installed inside the nozzle with the possibility of reciprocating movement and interaction with a stop fixed inside the nozzle. 2. The device according to π. 1, characterized in that it is equipped with two cups with inserts placed in them with holes and stops, and the cups with an open end are fixed on the housing in the same plane with the fittings coaxially to each other in and perpendicular to their axis and axis of the hose. SU,. ,, 1147112> i 1 147112