ITGE20100021A1 - "QUICK CLOSURE SYSTEM FOR TANKS, PIPES OR OTHER PARTS OF PRESSURE PLANTS, SUCH AS GAS PIPELINES, OIL PIPELINES OR THE LIKE". - Google Patents

Description

DESCRIPTION of the patent for industrial invention entitled: "Quick closing system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like",

TEXT OF THE DESCRIPTION

The present invention relates to a rapid closing system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like.

As is known, in pressurized systems, for example gas pipelines located in desert areas or on oil platforms, rapid closing devices are provided for the pressurized parts of the system, generally comprising an access ring which is fixed to the part of the system under pressure. and a door adapted to open or close this access ring. The means for opening or closing the door in these known devices often comprise servomechanisms or electro-pneumatic actuators and are very complex both in their construction and in the eventuality it is necessary to disassemble them in order to carry out maintenance and repair operations. Furthermore, in order to proceed with the normal operations of opening or closing the doors, it is often necessary the intervention of several operators equipped with numerous and complex equipment.

The purpose of the present invention is therefore a rapid closure system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like, which is structurally simple, so as to be used in complete safety even for systems located in areas desert or on oil platforms, which is fully maneuverable for its opening or closing even by a single operator and which has a high resistance to pressure in the system and to any corrosion phenomena.

This object is achieved by the present invention by means of a quick closing system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like, comprising an access ring to be fixed to a part of the pressurized system and a door suitable for to be housed in this ring to open or close the access to this part of the system, characterized by the fact that this door comprises a main body and a disk that can be rotated with respect to the main body by means of a relative handle element and a annular seat adapted to house a plurality of movable wings positioned between said disc and said main body; these wings are connected to said main body by means of rotation and to said disc by means of cam means; the rotation in one direction or the other of said disc is able to cause, thanks to the combined action of said rotation means and said cam means, the radial movement of said wings for their insertion in said annular seat obtained in the ring, for closing and tightening the door, or for their exit from this annular seat to open the door.

Advantageously, the present system, through the use of a movable disk and wings protruding or re-entering the annular seat of the ring, makes the locking and opening operation of the door to the ring simple and efficient, even for doors of considerable size. , without requiring the aid of complicated levers, kinematics or electro-pneumatic actuators. This system is also very simple to disassemble in order to carry out maintenance and / or repair operations since said disc, said wings, said cam means and said rotation means are located externally to the pressurized fluid, which is in contact with the inner surface of the main body of the tailgate.

Further characteristics and advantages of the present invention will be better understood in the course of the following description, considered by way of non-limiting example and referring to the attached drawings, in which:

- fig. 1 illustrates a front view and in open position of a quick closing system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like, according to the present invention;

- fig. 2 shows a cross-sectional view along the line II-II of fig. 1 of this system;

- fig. 3 shows a front view of the main body of a closing door of the present system and of a series of annular circular sectors shown in the open position;

- fig. 4 shows a front view of the present system in which the door has been positioned in a relative ring fixed to the part of the system under pressure to which the system is applied;

- fig. 5 shows a cross-sectional view along the line V-V of fig. 4;

- fig. 6 illustrates a front view of the present system in which the door is positioned in the ring and the annular disc is rotated to clamp said door to the ring;

- fig. 7 shows a cross-sectional view along the line VII-VII of fig. 5;

- fig. 8 shows a front view of the main body of the door with the annular circular sectors shown in the closed and clamped position.

With reference to these accompanying drawings and with particular reference to fig. 1 of the same, 1 indicates a steel ring to be welded to a tank, a pipe or other part of a pressurized system, such as a gas pipeline, an oil pipeline or the like. Said ring 1 centrally comprises an opening 2 to allow the personnel to have access to the part of the system under pressure which is closed by means of the present system. Positioned on one side of the ring 1 is a plate 3 which supports a first hinge 4, provided with a fixed pin 5. A first tubular element 6 is positioned around this fixed pin 5, connected by means of an arm 7 to a second element tubular 9, see fig. 2, positioned around the pin 11 of a second movable hinge 10, supported by a plate 12 fixed to a closing steel door 13 able to engage in the ring 1. This door 13 comprises a fixed main body 14 and an annular disk 15, with an external diameter equal to that of the main body 14 and able to rotate at a certain angle with respect to this main body 14 around a central pin not shown. The steel ring 1 comprises an internal part 101 to be welded to the tank or to the part of the system under pressure in which to apply the present quick closing system, and a suitably shaped annular seat 201, the function of which will be described below.

A series of wings 16 formed by annular circular sectors are positioned between this annular disc 15 and the main body 14 of the door, in this case four of them have been illustrated by way of example, see fig. 3 of the attached drawings. These sectors 16 are positioned at regular intervals around the main body 14 of the door 13 schematically illustrated in broken lines. Each of these annular circular sectors 16 is engaged at one end on a first rotation pin 17 fixed to the main body 14 of the door and comprises, near the other end, a second pin 18 housed in a corresponding cam 19, see Fig. . 4 of the attached drawings, obtained in the annular disc 15. The four rotation pins 17 are positioned on the main body 14 of the door at approximately 90 ° from each other and also the four pins 18 housed in the corresponding four cams 19 are positioned at about 90 ° relative to each other. The number and shape of these annular circular sectors 16 may be different from what is illustrated as a function of parameters such as the sizing of the system, that is to say substantially the diameter of the disc and of the main body of the door, of the operating pressures at which the present locking system is subjected or other.

Each of the four cams 19 illustrated in FIG. 4 is formed by a slot that crosses the surface of the annular disc and comprises a first portion 11 of relatively small length which substantially follows the external profile of the annular disc 15 and a second portion 219 of greater length connected to said first portion and such whereby from the point of connection with said first section 19, its distance from the edge of the annular disc 15 increases up to a maximum distance corresponding to the final end opposite to said connection point. The pins 18 illustrated in the figure are positioned near this end of the second portion 219 of the cam 19 located at the maximum distance from the edge of the annular disc 15. A head 20 with a diameter greater than the width of the cam 19 is fixed to each of these pins 18. , so as to prevent any axial translations of the annular disc 15 with respect to the main body 14 of the door 13.

Each of these annular circular sectors 16, see the cross section of fig. 5 of the accompanying drawings, is formed by a first part 1 16 adjacent to the annular disk 15 and adapted to be inserted in the annular seat 201 obtained in the ring 1 and a second part 216 comprising a step substantially in the shape of an inverted "L" suitable to be inserted interlocking in a relative annular bracket 21 obtained in the main body 14 of the door 13. In this main body 14 of the door 13 there is also longitudinally obtained a threaded through hole 22, able to house, when the door 13 has been closed, a corresponding pin threaded 24, see fig. 7 of the attached drawings. This through hole 22 connects the inside of the part under pressure to which the present closure system is applied with the atmosphere outside the plant.

The annular disc 15 externally has a lever 23, see Figures 1, 4 and 6 of the attached drawings, fixed to the external surface of the same and adapted to allow the rotation of this annular disc 15 and the rotation of the door 13 around the hinge 4 for opening or closing the tank or the part of the system under pressure to which this system is applied.

As regards the operation of the present quick closing system, consider the situation illustrated in Figures 1 and 2, in which the door 13 is open, for example for the purpose of inspecting the part of the system under pressure to which the present system is applied. The present rapid closing system can be advantageously maneuvered without the aid of complex servomechanisms and by a single operator, who to close the door 13 holds the lever 23 and rotates this door around the hinge 4, by about 180 °, so that which is housed in the relative ring 1 as illustrated in figures 4 and 5. At this point it is sufficient to rotate the lever 23 by a limited angle between about 30 ° and about 45 °, in the direction of the arrow C, see fig. 4, so that the annular disk 15, integral with the lever 23, rotates to the same extent. The rotation of the annular disc 15 determines the sliding of each of the pins 18 from the end of the second portion 219 of the relative cam 19 to the end of the first portion 19 of this cam 19. Each of the pins 18 therefore, thanks to the relative cam 19, it passes from the point of greatest distance from the edge of the annular disc 15 to the point of least distance from it. This sliding of each of the pins 18 causes a rotation around the relative pin 17 of each of the annular circular sectors 16, see fig. 3, in the direction of the arrow U, therefore essentially a movement in a radial and outward direction of each of said sectors or wings 16, compare figures 3 and 8 in this regard. When the rotation of the annular disk 15 is completed that is, when the pins 18 have reached the end of the first section 19 of the relative cam 19, the circular annular sectors 16 will be in the closing and tightening position illustrated in figures 7 and 8. In particular, see fig. 7, it should be noted that the first part 11 16 of each of these sectors 16 is inserted in the relative annular seat 201 obtained in the ring 1, while the second step part 216 is inserted by interlocking in the relative annular bracket 21 obtained in this ring 1 . The tightening of the door 13 to the ring 1 is now completed, the last operation to be carried out is the screwing of the threaded pin 24 into the corresponding through hole 22: this threaded pin 24 has the function of allowing venting from the system under pressure before proceeding with a new opening of the door to have access to this part and furthermore, when it is inserted, it prevents rotation of the annular disc 15 with respect to the main body 14 of the door 13.

It should be noted that inside the part of the system to which this system is applied, the pressures involved are considerable and tend to push the door 13 in the direction of its opening: this thrust from the inside of the pressurized fluid on the door is advantageously opposed by the constraint reactions of the step part 216 of each of the annular circular sectors 16 housed interlocking in the annular bracket 21 and of the first part 116 of said sectors in the annular seat 201, thus making these sectors 16 very efficient in tightening and contrasting of the forces at play.

To open the part of the system under pressure to which the present system is applied, it is sufficient for the operator assigned to this task to carry out the operations described above in reverse order. First of all it is necessary to vent the part of the system under pressure, then the pin 24 is removed from the threaded hole 22. Subsequently, the lever 23 is rotated in the direction of the arrow A of fig. 6, so that the annular disc 15 rotates and the pins 18 of the sectors 16 travel along the cams 19 so as to pass from the situation of fig. 6 again to the situation of fig. 4. This sliding of the pins causes the sectors 16 to retract, which pass from the position illustrated in Figures 7 and 8 to the position illustrated in Figures 3 and 5. At this point the door 13 is no longer tightened to the ring 1, therefore to open it it is sufficient to rotate it, by means of the lever 23, around the hinge 4 so as to return to the situation of figure 1.

Claims (11)

CLAIMS 1. Quick closing system for tanks, pipes or other parts of pressurized systems, such as gas pipelines, oil pipelines or the like, comprising an access ring (1) to be fixed to a part of the pressurized system and a door (13) suitable for be housed in said ring (1) to open or close access to said system part, characterized in that said door (13) comprises a main body (14) and a disk (15) rotatable with respect to the main body (14 ) by means of a relative handle element (23) and in said ring (1) an annular seat (201) is formed, suitable for housing a plurality of movable wings (16) positioned between said disk (15) and said main body (14) , said wings (16) being connected to said main body (14) by means of rotation means (17) and to said disc (15) by means of cam means (18, 19), being rotation in one direction or the other of said disk (15) able to determine, thanks to the combined action of said means ( 17) of rotation and of said cam means (18, 19), the radial movement of said wings (16) for their insertion in said annular seat (201) obtained in the ring (1), for closing and the tightening of the door (13), or for their exit from said annular seat (201) to open the door (13). 2. System according to claim 1, characterized in that each of said wings (16) is positioned in proximity to one end on at least a first rotation pin (17) fixed to said main body (14) and is provided, in proximity of the other end, of a second pin (18) able to slide in suitable cam paths (19) obtained on said disk (15). 3. System according to claim 1, characterized in that said wings (16) are formed by annular circular sectors and are positioned at regular intervals near the periphery of said main body (14). 4. System according to claim 2, characterized in that each of said cam paths (19) comprises a first section (19) which substantially follows the external profile of the disc (15) and a second section (219) connected to said first section and such that from the point of connection with said first section (119) its distance from the edge of the disc (15) increases up to a maximum distance corresponding to the final end opposite to said connection point. 5. System according to claim 1, characterized in that each of said wings (16) comprises a first part (116) adjacent to the disc (15) and able to fit into the annular seat (201) obtained in the ring (1) and a second part (216) comprising a protruding element able to fit into a relative annular bracket (21) formed in the main body (14) of the door (13). 6. System according to claim 5, characterized in that said first part (1 16) of each of said wings (16) is adjacent to the disc (15) and said second part (216) is adjacent to the main body (14) of the tailgate (13). 7. System according to claim 1, characterized in that in said main body (14) of the door (13) there is obtained at least one longitudinal through hole (22) for communicating with the inside of the system part under pressure and able to house a corresponding pin (24). 8. System according to claim 1, characterized in that it comprises a first rotation hinge (4) connected to the fixed ring (1) and a second rotation hinge (11) connected to said door (13), being said hinges (4, 1 1) connected to each other by means of a relative arm (7). System according to claim 2, characterized in that a head (20) with a diameter greater than the width of the cam path (19) is fixed on each of said second pins (18). 10. System according to claim 1, characterized in that said grip element is a lever (23) protruding radially from the door. 11. System according to claim 10, characterized in that said lever (23) allows to rotate said disk (15) by an angle comprised between about 30 ° and about 45 °.