RU2788022C1 - Quick-detachable plug - Google Patents

Abstract

FIELD: pipeline fittings.

SUBSTANCE: invention relates to pipeline fittings and can be used for periodic or emergency testing or repair of pipelines. The plug is made with a constant construction length, which is maintained both in the working position and when changing working positions. The plug consists of two half-shells, a gate assembly with a movable and fixed saddle part, and a gate plate with a through passage and a non-through passage. The plug contains a mechanism for moving the movable part of the gate assembly, guides and positioning elements. The movement mechanism consists of a set of functional bolts: tension, booster and squeezing. Tension type bolt moves the movable part of the valve assembly in the direction of its sealing and depressurization. Booster bolts seal the gate assembly. The forcing bolt compensates for possible distortions in the position of the moving part relative to the fixed part of the gate assembly and is used as the axis of rotation for rotary type gate plates.

EFFECT: possibility is achieved that there is no need to use the energy means of the movement mechanism and ensure the minimum time for transferring the shutter plate from the "open" position to the "closed" position.

5 cl, 10 dwg

Description

The invention relates to the field of construction and operation of pipeline systems, specifically to sealing devices that provide hermetic sealing of pipe passages, and can be used in the oil and gas industry, in the energy sector, in the food industry, in fertilizer production plants, in the pulp and paper industry and practically everywhere where there is a need for periodic or emergency testing or repair of pipelines.

The traditional process of shutting off the pipeline using standard types of rotary plugs, wafer plugs, obturators and other similar products is time consuming and labor intensive, and is associated with possible damage to pipeline valves. However, the main disadvantage of standard plugs is that to change the position of the plug, it is necessary not only to completely loosen the flange connection, but also to push apart the sections of pipelines, which requires significant effort on the part of the operating personnel or the use of special power devices. Most of the technical solutions in this area are aimed at minimizing the process in terms of time and labor intensity, minimizing the necessary efforts to change the distance between the pipeline flanges or change the overall length of the device in the process of changing the position of the plug, or creating devices for quick change of plugs without changing the overall length of the device and compression - pipeline expansion.

Known quick plugs firm "Sammi Machinery", type "tightening bolt" (catalogue "Sammi. Quick change gates", Web site: Sammiw.com). The plug consists of two half-shells with flanges, a gate plate with a double-sided seal installed between the half-shells, tension bolts and lifting nuts installed along the periphery of the half-shells, as well as guide bars to prevent displacement of the lifting nuts, a centering sleeve, alignment pins and a positioning device. The transition of the plug into the open-closed position is carried out by loosening the tension bolts, while the half-body is displaced towards the pipeline, it becomes necessary to apply great efforts to loosen the tension bolts and open the half-body to change the position of the locking plate in a real situation when the plug is connected to two sides with pipeline.

Known utility model "Mechanized plug" according to the patent of the Russian Federation 195331 MPK F16K 3/02, containing two semi-hulls with flanges connected to each other by tie rods and limiters that maintain the constant construction length of the device, a shutter plate, a pressure saddle with an inclined surface mating with the mating surface fork, controlled through a screw booster mechanism by a flywheel. The execution of the booster mechanism using inclined surfaces located at an angle of self-braking requires great effort to create axial pressure on the pressure saddle, which complicates the device and necessitates the use of a power drive to overcome self-braking forces. In addition, it should be noted the lack of manufacturability of the device and the possibility of misalignment of the pressure seat when the angles of self-braking on the mating surfaces do not match, which does not allow achieving a hermetic position of the shutter plate in the device.

Known utility model "Plug with manual control" according to the patent of the Russian Federation 207962 MPK F16K 3/02, containing two semi-hulls with flanges connected to each other by tie rods and a limiter that maintains a constant construction length of the device, a shutter plate, a pressure seat with a self-braking booster mechanism made in the form of an eccentric placed in a groove on the pressure saddle. The disadvantage of the device is that the eccentric located on the periphery of the pressure seat, acting on one side, creates a misalignment of the pressure seat relative to the gate plate and cannot ensure a tight fit of the seat surface to the gate plate. In addition, it should be noted that the use of cams of this type, even if they are operable, ensures that the seat is pressed only to a certain position, depending on the distance from the cam axis to the position of its outermost surface, which requires high manufacturing accuracy of all mating parts of the device.

Known as a prototype quick-release plug firm "Sammi Machinery" "retractable type" (catalog "Sammi Quick Change Valves", pp. 8-9, Web site: Sammiw.com). The plug is made with a constant construction length, includes inlet and outlet half-shells with flanges, a set of connecting elements of half-shells, including nuts, studs and limiters, a gate assembly with movable and fixed saddle parts and a gate plate with through and out-of-pass parts and double-sided sealing fields, a mechanism movement of the moving part of the gate assembly, guides and positioning elements. The movement mechanism is made in the form of a power drive, including a gear with helical teeth connected to the saddle part by a saddle holder, a helical gearbox of the gear drive with a pusher and a flywheel, during the rotation of which the gear is activated to move the saddle part and close it with the shutter plate or release the shutter plate, in addition, the plug contains positioners, a clamping lever, a protective plate with a handle fixed on the shutter plate, and elements for mounting the gearbox on the half-body.

The disadvantages of the given design of a quick-detachable plug include the complexity and lack of manufacturability of the plug sealing mechanism, high material consumption, labor intensity, weight and overall characteristics, and limited use for high-pressure pipeline systems.

The aim of the invention is to create a simple, technologically advanced and versatile design of a quick-release plug. The goal is achieved by a combination of known and new features.

The well-known features are that the plug is quick-detachable with a constant value of the construction length, includes an input half-body with a disk with a saddle part, an output half-body with a support disk with a guide bush, a movable saddle mounted on the guide bush with the possibility of hermetically moving along it, a mechanism for moving the movable actuated seats, half-body connectors including nuts, studs and face-to-face limiters, guiding and positioning elements and a replaceable sealing plate on both sides.

New features are that the movable seat is made in the form of a disc with a saddle part at one end and connection elements with the movement mechanism at the other end in the form of blind holes, the disks of the inlet and outlet half-housings are made with connection elements with the movement mechanism in the form of through threaded holes , the mechanism for moving the movable disk is made in the form of a set of functional bolts, including at least one tension type bolt with the function of moving the disk along the guide sleeve in the direction of sealing and depressurizing the plug, booster bolts with the function of moving the disk in the direction of sealing the plug and, at least at least one squeezing bolt with the function of adjusting the position of the disk when it moves along the guide sleeve, while the tension-type bolts and the booster bolts contain a threaded part installed in the threaded holes of the support disk of the output semi-housing, a guide part installed in the blind holes of the movable di ska, and the bolt head, made between the threaded and guiding parts of the bolt and containing the pressure end and elements of connection with the drive, made mainly in the form of through holes of cylindrical shape, and the guiding part of the tension-type bolt is installed in the blind hole of the movable disk and fixed in it with the possibility rotation and movement together with it, the guide part of the booster bolts is installed in the blind holes of the movable disk with the possibility of rotation and movement in them, and the forcing bolt contains a threaded part installed in the threaded hole made in the disk of the inlet half-body mainly opposite to the tension type bolt. In addition, the length of the limiter is set equal to the total gap between the ends of the guide sleeve and the inlet half-body and the length of the guide sleeve, and the length of the guide sleeve is set equal to the total thickness of the movable disk, the thickness of the head of the tension-type and booster bolts, and the length of the sealing zone on the guide sleeve, with In this case, the gap between the ends of the guide sleeve and the inlet half-body is set to a greater thickness of the shutter plate, mainly by 3-5 mm.

New features also lie in the fact that the limiters are installed between the ends of the half-shells on both sides of the gate plate, while on one side the limiters are installed in contact with it as guiding and positioning elements of the plug, and on the other side the limiters are installed with a gap relative to the gate plate, mainly with a gap of 1-3 mm, in addition, the bolt plate is equipped with positioners for the stroke length of the bolt plate until its passage or non-passage part is set to the “open” or “closed” position of the plug, made in the form of straps, fixed mainly together with the handles on the bolt plate, at the same time, the distance from the contact surfaces of the slats with the limiters to the axis of the passage holes of the half-shells and to the centers of the passage and non-passage parts of the gate plate are made equal. In addition, new features lie in the fact that when using swivel-type shutter plates in the plug, the forcing bolt is provided with a cylindrical part with the possibility of rotating the shutter plate on it, and the forcing bolt is installed in the inlet half-body at a distance between its axis and the axis of the through-holes of the half-body equal to the distance from the axis of rotation of the shutter plate to the centers of its passage and impassable parts, and the limiters installed between the ends of the half-cases in the zone of rotation of the shutter plate are removable and installed in the open grooves of the disk of the input half-body and the supporting disk of the output half-body, while the stops installed in the open grooves, are made mainly in the form of sliding bushings with a threaded connection, mounted on studs connecting the half-shells of the plug.

The proposed implementation of the plug allows you to make the process of changing the position of the shutter plate and changing the sealing elements as simple as possible, and make the plug itself low-cost, both during its operation and during the manufacturing process due to high manufacturability, low labor intensity and metal consumption. This ensures complete tightness, minimum time to change the position of the shutter plate, ease of maintenance and versatility of use, which together will expand the scope of the plugs.

The invention is illustrated by a description of the device and drawings, which shows:

- figure 1 - view of the plug assembly;

- figure 2 - view A in figure 1;

- figure 3 is a longitudinal section of the plug in the working position of the shutter plate pressure type with an open passage;

- figure 4 is a section along B-B in figure 3;

- figure 5 is a longitudinal section of the plug in the depressurized state when changing the position of the shutter plate in figure 3 from an open passage to a closed passage;

- figure 6 - section along B-B in figure 5;

- Fig.7 is a longitudinal section of the plug in the working position with a rotary type gate plate;

- Fig.8 - section along G-D in Fig.7;

- Fig.9 is a longitudinal section of the plug in Fig.7 in the depressurized state when changing the position of the shutter plate with the limiters removed;

- Fig.10 - section D-D in Fig.9.

The quick-detachable plug 1 with a constant building length "L" includes inlet 2 and outlet 3 half-shells with through holes 4, a shutter plate 5, a mechanism for moving 6 sealing and depressurization elements of the plug, connecting elements 7, limiters 8 of the building length, guides 9 and positioning 10 elements and elements 11 of the drive.

The input semi-body 2 includes a flange 12 and a disk 13 connected to it with a saddle part at the end 14. The output semi-body 3 includes a flange 15 and a support disk 16 connected to it with a guide sleeve 17, on which a movable disk 18 is installed with the possibility of hermetic movement along it. saddle part at the end 19. The shutter plate 5 sliding type (figure 1-6) contains a passage 20 and impassable 21 parts, bilateral fields with replaceable seals 22 and 23, respectively, guide ends 24 and 25 and restrictive ends 26 and 27, on which positioners of the stroke length of the shutter plate are installed until its passage or impassable part is occupied in the plug of the “open” or “closed” position in the form of strips 28 and 29. bolts, consisting in the form shown in the figures of the tension type bolt 30 with the function of moving the movable disk 18 along the pressure sleeve 17 with a seal 31 installed on it in the direction of sealing or depressurization of the plug, booster bolts 32 with the function of moving the disk 18 in the direction of sealing the plug, the forcing bolt 33 with the function of adjusting the position of the disk 18 when it moves along the guide sleeve 17. Bolts of tension type and boosters contain a threaded part 34 installed in the threaded holes 35 of the support disk 16, a guide part 36 installed in the blind holes 37 of the movable disk 18, and a head 38 with a pressure end 39 and elements for connecting the movement mechanism with the drive in the form of through cylindrical holes 40. The guide part of the bolt 30 of the tension type contains an annular groove 41, the screws 42 installed in the groove connect the bolt 30 to the movable disk, ensuring their joint movement when the bolt 30 rotates in the direction of sealing or depressurization. The guide part of the booster bolts 32 is installed in the blind holes of the movable disk with the possibility of free rotation and movement in them. The forcing bolt 33 includes a successively made head 43, a threaded part 44 installed in the threaded hole 45 of the disk 13 of the input floor of the body, and a cylindrical part 46. The forcing bolt is installed opposite to the push-type bolt. The input and output semi-hulls are connected to each other with a fixed construction length through connecting elements in the form of studs 47, nuts 48 and limiters 8, mounted on studs between the ends of the disk 13 of the input semi-housing and the supporting disk 16 of the output semi-housing, mainly in the form of bushings, length "L ₁ » which is set (see Fig.5) equal to the total value of the gap "a" between the ends of the guide sleeve 17 and the disk 13 of the input half-body and the length "b" of the guide sleeve, the length of which in turn is equal to the total thickness "c" of the movable disk and thickness “g” of the head of the tension type and booster bolts and the length “g” of the sealing zone on the guide bush. The gap value "a" is set to a greater thickness "d" of the shutter plate with a double-sided seal by 3-5 mm. The limiters are installed between the ends of the disks 13 and 16 on both sides of the guide ends 24 and 25 of the shutter plate. From the side of the end 24, the limiters 49 and 50 are installed with contact with it as guiding and positioning elements, while the distance "h" from the contact surfaces of the shutter plate and the limiters to the axis of the centers of the through holes 4 is made equal, and from the side of the end 25, the limiters 51 and 52 installed with a gap "and" of 1-3 mm. Straps 28 and 29 limit the stroke length of the shutter plate along the guide stops 49 and 50 and contact in the "open" position (Fig.4) with the stops 49 and 51, and in the "closed" position (Fig.6) contact with the stops 50 and 52 , while the distances "k" from the contact surfaces of the limiters and bars to the axes of the through hole of the plug and the through and through parts of the gate plate are set equal.

The operation of the plug 1 with a gate plate sliding type (figure 1-6) is carried out as follows. In the current pipeline, the gate plate 5 is installed in the plug 1 with an open passage 20 (figures 3 and 4), rests on the stops 49 and 50, the strap 28 contacts the stops 49 and 51. surfaces of the disk 13 of the inlet half-body and the movable disk 18. The constancy of the building length "L" is ensured by the connection of the half-hulls through the limiters. To change the position of the shutter plate to "closed" perform the following steps. The connection of the pressure-type bolts and the pressure-type bolts with the movable disk is loosened, using a rod (not shown) as a drive, which is installed alternately in the holes of the bolt heads and the bolts and the movable disk are removed to the distance "a" of the end 14. Then along the guide stops 49 and 50 from the position "open" (figure 3 and 4) move the shutter plate until the strap 29 stops in the stops 50 and 52 (figure 5 and 6), after which, using a tension-type bolt and correcting its position, excluding jamming of the threaded part, the squeezing bolt, the movable disk is brought to contact with the shutter plate, the booster bolts are brought to the contact of their pressure ends with the movable disk, the shutter plate is pressed with all bolts until it is completely hermetically connected to the saddle parts of the disk of the inlet semi-body and the movable disk.

If it is necessary to replace the seals 31 between the movable disk and the guide sleeve, the movable disk is retracted beyond the “g” zone, the positioning bar is removed from the gate plate from one side, for example, the bar 29 and the gate plate is removed from the plug area, after which the seals are replaced, inspection saddle parts of discs and elimination of identified defects. The assembly of the plug and its translation into a sealed state is carried out in the reverse order described above.

Plug 1 without changing its constituent elements can be used both with slide-type gate plates and with rotary-type gate plates, while all actions of the movement mechanism for sealing, depressurization, changing the positions of the gate plate and replacing seals, as well as the movement mechanism itself are preserved unchanged.

The operation of the plug 1 with a rotary type gate plate (Fig.7-10) is carried out as follows. The shutter plate 53 with a Central hole 54 and symmetrically located relative to it through passage 55 and impassable 56 parts is installed on the cylindrical part 46 of the squeezing bolt 33 with the possibility of rotation on it. The squeezing bolt is installed in the disk 13 of the inlet half-body 2 at a distance "m" between its axis and the axis of the through holes 4 of the half-body 2 and 3 equal to the distance between the axis of rotation of the shutter plate and the centers of its passage and impassable parts. Limiters 51 and 52 are made of two sliding sleeves 57 and 58 with a threaded connection. In the working position (Fig.7 and 8) the length "L ₁ " of all bushings on the stops 49, 50, 51 and 52 is set equal, the shutter plate is in contact with the stops 51 and 52 installed in the open grooves 59.

To change the position of the shutter plate 53 to “closed”, the following actions are performed by the movement mechanism, the movable disk 18 is removed to a distance “a” from the disk 13 of the input floor of the body, the bushings 57 and 58 are shifted along the thread, reducing their total length “L ₁ ”, weaken tightening the studs connecting the floor of the body and remove the stops 51 and 52 together with the studs and nuts, freeing the rotation zone 60 of the shutter plate (Fig.9 and 10). Then the shutter plate is rotated 180°, using the squeezing bolt 33 as the axis of rotation, the studs with nuts and stops are installed in the open grooves until the bushings of the limiters come into contact with the side surfaces 61 and 62 of the shutter plate, the bushings 57 and 58 are moved apart until the total length "L ₁ " is restored. » and tighten the connection of the semi-hulls. After that, the movable disk and the shutter plate are moved by the movement mechanism until they are completely hermetically connected to the saddle part of the disk 13 of the inlet half-body.

The replacement of the seals 31 between the movable disk and the guide sleeve is carried out in the same way as with the pressure-type shutter disk, with the movable disk retracted to the distance "g" and the shutter plate removed.

Claims (5)

1. A quick-detachable plug with a constant overall length includes an inlet half-body with a disc with a saddle part, an outlet half-body with a support disc with a guide bush, a movable seat mounted on the guide bush with the possibility of hermetic movement along it, a mechanism for moving the movable seat with a drive, connecting elements semi-bodies, including stud nuts and building length limiters, guiding and positioning elements and a replaceable gate plate with a through passage and a non-passage part with a double-sided seal, characterized in that the movable seat is made in the form of a disk with a saddle part at one end and connection elements with a movement mechanism on at the other end in the form of blind holes, the disks of the input and output half-cases are made with elements for connecting to the movement mechanism in the form of through threaded holes, the mechanism for moving the movable disk is made in the form of a set of functional bolts, including at least at least one tension bolt with the function of moving the disk along the guide sleeve in the direction of sealing and depressurization of the plug, booster bolts with the function of moving the disk in the direction of sealing the plug, and at least one forcing bolt with the function of adjusting the position of the disk when it moves along the guide sleeve , wherein the tension-type bolts and booster bolts contain a threaded part installed in the threaded holes of the support disk of the output half-body, a guide part installed in the blind holes of the movable disk, and a bolt head made between the threaded and guiding parts of the bolt and connecting the pressure end and communication elements with drive, made mainly in the form of through holes of a cylindrical shape, and the guide part of the tension-type bolt is installed in the blind hole of the disk and fixed in it with the possibility of rotation and joint movement with it, the guide part of the booster bolts is installed in the blind holes of the movable about the disk with the possibility of rotation and movement in them, and the squeezing bolt contains a threaded part installed in a through threaded hole made in the disk of the inlet semi-body mainly opposite to the tension type bolt. 2. The quick-detachable plug according to claim 1, characterized in that the length of the stopper is set equal to the total gap between the ends of the guide bushing and the inlet half-body and the length of the guide bushing, and the length of the guide bushing is set equal to the total value of the thickness of the movable disk and the thickness of the head of the tension type bolts and booster and the length of the sealing zone on the guide sleeve, while the gap between the ends of the guide sleeve and the input half-body is set more than the thickness of the gate plate, mainly by 3-5 mm. 3. A quick-detachable plug according to claim 1 or 2, characterized in that the limiters are installed between the ends of the half-shells on both sides of the shutter plate, while on one side the limiters are installed in contact with it as guiding and positioning elements of the plug, and on the other side the limiters are installed with a gap relative to the gate plate, mainly with a gap of 1-3 mm. 4. Plug quick-detachable according to paragraphs. 1, 2 or 3, characterized in that the gate plate is equipped with positioners for the stroke length of the gate plate until its passage or non-passage part is set to the “open” or “closed” position of the plug, made in the form of strips, fixed mainly together with the handles on the gate plate, at the same time, the distance from the contact surfaces of the slats with the limiters to the axis of the passage holes of the half-shells and to the centers of the passage and non-passage parts of the gate plate are made equal. 5. Plug quick-detachable according to paragraphs. 1, 2 or 3, characterized in that the squeezing bolt is provided with a cylindrical part with the possibility of rotation of the gate plate on it, and the squeezing bolt is installed in the disk of the input half-body at a distance between its axis and the axis of the through holes of the half-body equal to the distance from the axis of rotation of the shutter plate to the centers its passage and impassable parts, and the limiters installed between the ends of the half-cases in the zone of rotation of the shutter plate are made removable and installed in the open grooves of the disc of the inlet half-body and the support disk of the output half-body, while the stops installed in the open grooves are made mainly in the form of sliding bushings with threaded connection.

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