RU93919U1 - VALVE SHUTTER - Google Patents

Abstract

 1. A slide gate, including two interconnected to form a bore of the flange, between which the knife flap is movably fixed, characterized in that it is equipped with sealing and elastic spacer elements, and grooves are made along the perimeter of the flanges on the side of the blade flap placement, which are the sealing elements, pressed to the surface of the knife flap from the bottom of the groove with elastic spacer elements, while the knife flap is made in the form of a plate with a through hole Thieme, which area corresponds to the area of the orifice. ! 2. The slide gate according to claim 1, characterized in that the fasteners are made from opposite sides of the blade of the knife flap. ! 3. The slide gate according to claim 1, characterized in that the through hole in the plate is in the extreme position or is made in the middle part of the plate. ! 4. The slide gate according to claim 1, characterized in that the through hole in the knife blade plate and the through hole of the flanges are made in a rectangular shape. ! 5. The slide gate according to claim 1, characterized in that the sealing elements are made of polymer material, and the elastic spacer elements are made in the form of elastic elastic tubes with a diameter equal to the width of the groove. ! 6. The slide gate according to claim 1, characterized in that the cross-section of the sealing elements and grooves made around the perimeter of the flanges has the shape of a rectangle.

Description

The invention relates to shut-off devices with locking elements making a sliding movement along a saddle surface, namely to valves or slide gate valves with flat saddle surfaces; in particular, to seals for them, and can be used in devices for removing bulk materials from air purification filters.

Known gate valve, which includes a housing consisting of two leaves, in which a through hole for the inlet and outlet pipes is made (see utility model patent No. 23479, IPC F16K 3/02, publ. 06/20/2002). A gate is located in the housing with a translational displacement drive made in the form of a threaded pusher and a rotation handle of the threaded pusher. According to the technical solution, the gate is made of a rectangular shape with a passage opening equal in diameter to the passage opening of the casement flaps, and annular grooves are made on which the sealing elements are located symmetrically to the axis of the passage opening of the flaps.

However, when the sealing elements are worn, the efficiency of the valve decreases.

Known valve and seat for it, used in valve manufacturing, in particular as a locking device for abrasive and aggressive environments (see patent for invention No. 2101590, IPC F16K 3/02, publ. 10.01.1998). The valve comprises two half-bodies with through-through coaxial passage channels, fastened to each other with the formation of a transverse working cavity, in which a shut-off element is placed with the possibility of moving between an open position that provides free passage of the medium through the passage channels, and a closed position corresponding to the location of the shut-off element between the passage channels. The valve seat is made in the form of a sealing axially deformable sleeve of elastomeric material with internal and external end surfaces, uniformly elastic throughout the volume, into which a round stiffening ring is pressed from a material with greater hardness than the hardness of the sleeve material, while the inner diameter of the ring is larger than the internal bushing diameter. Blind axial holes are made in the sleeve, the ring being placed at the bottom of the hole, and an radial arc groove with an arc length of about 120 ° is made on the inner surface of the sleeve.

However, the sleeve clamp is provided by cylindrical coil springs located in blind axial holes, which complicates the design and the manufacturing process.

Known valve main pipelines to block the transported flows of the working environment (see patent for utility model No. 47471, IPC F16K 3/02, publ. 27.08.2005). The valve comprises a housing with a passage channel, a locking element in the form of a steel gate, mainly a knife gate, a bronze seat installed in the sleeve, and a screw spindle with a running nut. The saddle is made in the form of a metal ring and mounted freely in the sleeve with the possibility of movement in the direction of the axis of the passage channel with a gap relative to the end surface of the sleeve, and a wave spring is freely placed in the gap. The sealing effect is enhanced at low pressure of the medium by means of a wave spring freely placed in the groove between the sleeve and the seat. The sealing efficiency is increased when the gate movement is strictly perpendicular to the axis of the passage channel and this condition is maintained in any position. This is served by auxiliary elements of the valve: a pusher in the form of a rod abutting against the frontal plane of the gate, tides on the inner surface of the housing, the inclined surface of which interacts with the inclined edge of the gate, and at least two through screws that interact with the side surface of the gate, which can be fixed and sealed after the initial installation of the gate.

A disadvantage of the known device is the presence of a wave spring, which extends during operation and acquires permanent deformation over time, which leads to a decrease in the compaction efficiency and, as a consequence, inoperability of the device as a whole.

The closest in technical essence to the claimed utility model is the slide gate of the SG series, which is a welded frame design, in one part of which there is a window for the product to flow, and the other serves for mounting the gate (knife) and its control elements. On the outer flange of the housing there are holes designed for mounting the slide gate in the place of operation. To protect the hollow areas of the shutter housing from ingress of product particles, a conical deflector is installed in the zone of its expiration. The gate element of the SG series slide gate is a rectangular plate (gate), which is installed between special support rollers mounted on the sides of the shutter body (http://www.stroymehanika.ru/mix_knifeshuter.php).

The disadvantage of this device for unloading bulk materials is that with frequent use of this device for unloading bulk materials, the synthetic material wears out and the gas density disappears and you have to change the device for unloading bulk materials completely, since it is impossible to apply synthetic sealing material to the working surfaces.

The objective of the proposed technical solution is to create a slide gate for unloading bulk materials with an easily replaceable sealing element, eliminating the ingress of large pieces of bulk material between the gate and the shutter body.

The technical result consists in simplifying the design and increasing the reliability of the slide gate due to the use of an elastic element, pressing the sealing element to the surface of the gate.

The claimed technical result is achieved in that the slide gate, including two interconnected with the formation of the through hole of the flange, between which the knife flap is movably fixed, according to the technical solution, is equipped with sealing and elastic spacers, and around the perimeter of the flanges, from the side of the knife flap, grooves are made in which sealing elements are located, pressed against the surface of the knife flap from the side of the bottom of the groove by elastic spacer elements, while The damper is made in the form of a plate with a through hole, the area of which corresponds to the area of the passage opening. On opposite sides of the knife blade plate, fastenings are made. The through hole in the plate is in the extreme position or is made in the middle part of the plate. In addition, the through hole in the knife blade plate and the through hole of the flanges are made in a rectangular shape. The sealing elements are made of polymeric material, and the elastic spacer elements are made in the form of elastic elastic tubes with a diameter equal to the width of the groove, and the cross-section of the sealing elements and grooves has the shape of a rectangle.

The utility model is illustrated by the following drawings.

Figure 1 presents a General view of the slide gate in the half-open state.

Figure 2 schematically shows a section of a slide gate.

Figure 3 presents the location of the sealing and spacer elements in the grooves of the flange.

The positions in the drawings indicate:

1 - flange;

2 - passage hole of the flange;

3 - clearance;

4 - groove;

5 - sealing element;

6 - spacer element;

7 - knife flap;

8 - hole knife blade;

9 - mount;

10 - connecting bolt.

The inventive gate valve is made with the possibility of full or partial overlapping of the through-hole of the filter or pipe or discharge opening of bulk products, depending on operating conditions. The slide gate can be installed in the bottom opening of the silo. Typically, a slide gate is installed in front of a sector shutter or in front of a vibratory feeder. It is used to adjust the flow of material from the supply hopper, as well as to shut off the supply of material during repair work or in an emergency. It is also possible to install a shutter in the lower part of cement silos, on consumables and intermediate bins of inert materials, in front of screw and belt conveyors, etc. In the food industry, slide gates are used in the transshipment of flour, sugar, starch, as well as in the bunkering of grain and animal feed.

The shutter comprises a pair of flanges 1 located with a gap 3 for accommodating the knife flapper 7. The flanges can be made in the form of a metal disk with a round central passage hole or in the form of a flat rectangular / square frame with a rectangular / square passage hole 2 in the center. Holes are made around the perimeter of the flange to accommodate the connecting bolts 10. In the gap between the flanges, a knife flap 7 is arranged for translational movement, which provides overlapping of the through hole of the flanges. Knife shutter 7 is made in the form of a rectangular plate made of sheet metal. The area of the blade plate is not less than two times the area of the through hole of the flanges. From the end sides of the knife damper, fasteners 9 are made, which are handles, by means of which the knife damper 7 is moved in the gap between the flanges (Figs. 1 and 2), or connecting elements for connecting a pneumatic or hydraulic actuator. The width of the plate corresponds to the width of the bore, the thickness corresponds to the size of the gap. The length of the plate is made protruding beyond the overall dimensions of the bore of the flanges. A through hole 8 is made in the blade plate of the blade, the transverse dimensions of which correspond to the transverse dimensions of the through hole of the flanges. The hole can be made either in the middle part of the plate (not shown in the drawing), or occupy the extreme right or left position. Thus, the blade blade plate consists of two parts: solid, the area of which provides for the passage of the passage through the flange, and parts with the hole, the area of which ensures alignment with the passage of the flange. On the flanges, on the perimeter side of the knife flap, grooves 4 are made in the form of grooves of a rectangular or semicircular section. At the bottom of the grooves are placed elastic spacer elements 6 made of an elastic elastic synthetic material, for example a polymer tube. The diameter of the tube corresponds to the width of the groove. Sealing elements 5 are placed directly above the spacer element in the groove. The sealing elements are made of synthetic material with a low coefficient of friction. The cross-sectional profile of the sealing element is a rectangle. The spacer elements tighten the sealing and provide a snug fit of the knife flap to the sealing elements when it moves in the gap.

The inventive device operates as follows. The slide gate is connected to the lower part of the hopper or silo under the discharge or loading necks. In this case, the knife flap is placed in such a way that its solid part completely covers the passage opening of the flanges. In the closed position, the knife flap plate completely covers the discharge window, holding the bulk product in the hopper (silo). During operation of the hopper, small contaminants are deposited in the inlet pipe on the continuous surface of the blade damper. To remove them with the help of handles or hydraulic or pneumatic drives, move the knife flap in the gap until the passage hole of the flanges and the through hole in the blade plate are completely combined. Sealing elements 5, tightly pressed to the sides of the knife damper 7 by means of spacer elements 6, prevent the penetration of contaminants into the gap 3 between the knife damper 7 and the flanges 1.

After removing contaminants, the knife flap is moved to its original position, moving in the gap for handles or using a drive.

The inventive device provides sufficient gas tightness, eliminating the ingress of large pieces of bulk material between the knife flap and the flanges, as well as the ease of restoration of the seal at the workplace - without replacing the main components of the device.

A slide gate was made, the flanges of which are made of hot rolled equal-angle corners of 50 × 50 × 5 mm GOST 8509-86, two flanges are pulled together by M8 × 50 bolts with the formation of a rectangular frame with dimensions L × W × H 500 × 500 × 126 mm with an opening of 400 × 400 mm. The knife flap is made of hot-rolled carbon steel sheet with a thickness of 8 mm and has a size L × W 1060 × 435 mm. A rectangular hole with dimensions of 400 × 400 mm is made in the damper, which coincides with the dimensions of the opening of the connecting flange from the corner. The sealing element is made of fluoroplastic, which allows you to maintain a certain density at temperatures up to 250 ° C. A hollow silicone tube or silicone cord with a working temperature of up to 300 ° C is used as a spacer element. The mass of the product sample is about 50 kg.

Claims (6)

1. A slide gate, including two interconnected to form a bore of the flange, between which the knife flap is movably fixed, characterized in that it is equipped with sealing and elastic spacer elements, and grooves are made along the perimeter of the flanges on the side of the blade flap placement, which are the sealing elements, pressed to the surface of the knife flap from the bottom of the groove with elastic spacer elements, while the knife flap is made in the form of a plate with a through hole Thieme, which area corresponds to the area of the orifice. 2. The slide gate according to claim 1, characterized in that the fasteners are made from opposite sides of the blade of the knife flap. 3. The slide gate according to claim 1, characterized in that the through hole in the plate is in the extreme position or is made in the middle part of the plate. 4. The slide gate according to claim 1, characterized in that the through hole in the knife blade plate and the through hole of the flanges are made in a rectangular shape. 5. The slide gate according to claim 1, characterized in that the sealing elements are made of polymer material, and the elastic spacer elements are made in the form of elastic elastic tubes with a diameter equal to the width of the groove. 6. The slide gate according to claim 1, characterized in that the cross-section of the sealing elements and grooves made around the perimeter of the flanges has the shape of a rectangle.