CA2935829A1 - Closure for pressure vessel or pipeline - Google Patents
Closure for pressure vessel or pipeline Download PDFInfo
- Publication number
- CA2935829A1 CA2935829A1 CA2935829A CA2935829A CA2935829A1 CA 2935829 A1 CA2935829 A1 CA 2935829A1 CA 2935829 A CA2935829 A CA 2935829A CA 2935829 A CA2935829 A CA 2935829A CA 2935829 A1 CA2935829 A1 CA 2935829A1
- Authority
- CA
- Canada
- Prior art keywords
- hub
- locking pin
- stem
- door
- disposed
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J13/00—Covers or similar closure members for pressure vessels in general
- F16J13/16—Pivoted closures
- F16J13/18—Pivoted closures pivoted directly on the frame
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J13/00—Covers or similar closure members for pressure vessels in general
- F16J13/02—Detachable closure members; Means for tightening closures
- F16J13/06—Detachable closure members; Means for tightening closures attached only by clamps along the circumference
- F16J13/065—Detachable closure members; Means for tightening closures attached only by clamps along the circumference the clamp comprising a ring encircling the flange
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J13/00—Covers or similar closure members for pressure vessels in general
- F16J13/24—Covers or similar closure members for pressure vessels in general with safety devices, e.g. to prevent opening prior to pressure release
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L55/00—Devices or appurtenances for use in, or in connection with, pipes or pipe systems
- F16L55/10—Means for stopping flow from or in pipes or hoses
- F16L55/115—Caps
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C1/00—Pressure vessels, e.g. gas cylinder, gas tank, replaceable cartridge
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C2205/00—Vessel construction, in particular mounting arrangements, attachments or identifications means
- F17C2205/03—Fluid connections, filters, valves, closure means or other attachments
- F17C2205/0302—Fittings, valves, filters, or components in connection with the gas storage device
- F17C2205/0311—Closure means
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Pressure Vessels And Lids Thereof (AREA)
Abstract
A closure is provided for a pressure vessel or pipelines that can provide quick and easy access to the interior of a pressure vessel or pipeline, and means for a pressure tight seal between the hub and door. The closure can incorporate means for mechanically fastening the door to the hub using an external split clamp ring actuated by a toggle mechanism. A locking mechanism can be provided to safeguard against unintended closure actuation, and provides a layer of redundancy to the holding characteristics of the toggle mechanism. The locking mechanism can be interlocked to a pressure alert system to ensure any differential pressure condition contained within the closure is detected prior to disengaging the locking mechanism and actuating the toggle mechanism.
Description
TITLE: CLOSURE FOR PRESSURE VESSEL OR PIPELINE
TECHNICAL FIELD:
[0001] The present disclosure is related to the field of quick actuating closures for providing rapid access to, and sealing the end of, a pressure vessel or pipeline, in particular, to clamp-style closures with an improved means of safeguarding against unintentional operation and providing an element of redundancy in retaining the holding elements.
BACKGROUND:
TECHNICAL FIELD:
[0001] The present disclosure is related to the field of quick actuating closures for providing rapid access to, and sealing the end of, a pressure vessel or pipeline, in particular, to clamp-style closures with an improved means of safeguarding against unintentional operation and providing an element of redundancy in retaining the holding elements.
BACKGROUND:
[0002] There have been many variations in the design of quick actuating closures over the last many decades. Most provide a means for rapid access to a pressure vessel or pipeline as compared to bolted flange connections. They employ various means to seal and support the end load created by internal and external pressures including screw threads whereby external threads on a hub interconnect with the internal threads of the door, conical bands whereby a split or segmented band is actuated into an annular groove between the hub and door, bayonet connections whereby interlocking segments of the hub are engaged with mating segments of the door by partial rotation and clamps whereby a split clamp ring is engaged on raised collar on the hub and door and are held together by toggles, bolts or other mechanisms.
[0003] It is, therefore, desirable to provide a quick clamping mechanism that overcomes the shortcomings of the prior art.
SUMMARY:
SUMMARY:
[0004] The present disclosure deals with the clamp ring style of closure. In some embodiments, an annular hub can be attached to the mating pressure vessel or 22524728_1 I NATDOCS
pipeline, and can function as an access port to the interior of the pressure chamber. A
door can be sized to match the mating dimensions of the hub and provides a means to close access to the pressure vessel or pipeline. In some embodiments, both the hub and door can have a raised annular collar located at each end of their respective contacting surfaces. A hinge arrangement can be attached to both the hub and door to allow for pivoting the contact surfaces of the door to align with the contact surfaces of the stationary hub. After the surfaces are drawn together in opposition, two halves of a split annular ring can be rotated via hinge arrangement over the hub/door flange, with the ends drawn together with a toggle mechanism.
pipeline, and can function as an access port to the interior of the pressure chamber. A
door can be sized to match the mating dimensions of the hub and provides a means to close access to the pressure vessel or pipeline. In some embodiments, both the hub and door can have a raised annular collar located at each end of their respective contacting surfaces. A hinge arrangement can be attached to both the hub and door to allow for pivoting the contact surfaces of the door to align with the contact surfaces of the stationary hub. After the surfaces are drawn together in opposition, two halves of a split annular ring can be rotated via hinge arrangement over the hub/door flange, with the ends drawn together with a toggle mechanism.
[0005] Once the toggle mechanism has been fully actuated, circular openings contained within the toggle linkages, and circular openings within the blocks attaching the toggle mechanism to the split annular ring, can align linearly. This linear arrangement can allow the passage of a locking pin of largely round cross section to pass axially through the circular openings, thereby locking the split annular rings and toggle mechanism in the closed position.
[0006] The locking pin described above can contain a circular radial hole offset from one end of the locking pin opposite the portion enclosed by the linearly arranged holes contained within the toggle linkages and blocks. This hole can be aligned perpendicular to the axis of the hub by means of a planar surfaces located at the top and bottom of the locking pin orientated parallel to the axis of the hub that pass through a hole contained in a stem housing that is attached radially to the hub. The stem housing can contain a circular hole orientated radially with the hub axis and is concentric to a tapped hole passing completely through the hub wall. A threaded bushing can be installed into the 22524728_11 NATDOCS
tapped hole and can further contain a centrally located tapped hole to accept a pressure alert stem.
tapped hole and can further contain a centrally located tapped hole to accept a pressure alert stem.
[0007] In some embodiments, the pressure alert stem can be sealed against the threaded bushing by means of an elastomer o-ring. The threaded portion of the pressure alert stem can be interrupted by an axial slot extended the entire length of the thread to a depth below the minor diameter of the thread. This can act as a safety feature in that if the interior portion of the hub is under differential pressure, and if an attempt is made to remove the pressure alert stem from the threaded bushing, the seal created by the o-ring would be compromised and the interior pressure contained within the hub would pass unobstructed through the thread groove, alerting the operator of a differential pressure situation with the closure assembly.
[0008] When fully assembled, the pressure alert stem can pass through the radial circular hole in the locking pin and the threaded bushing installed in the hub wall. In this position, the pressure alert stem can extend fully through the locking pin, preventing the locking pin from translating linearly through the toggle assembly and subsequently locking the toggle and split annular rings in the closed position. As a consequence, in order to operate the toggle mechanism to open the closure door, the pressure alert stem must be removed completely from the closure assembly in order for the locking pin to be translated linearly out of the toggle hole alignment. This embodiment constitutes a safety feature of the closure in that the pressure alert stem must be removed, thus alerting the operator of differential pressure within the closure hub, before the locking pin can be removed to allow the toggle mechanism to function and, thus, opening the closure door. With the locking pin in the extended position, the locking pin can create 22524728_1INATDOCS
an interference within the stem housing preventing the pressure alert stem from being installed into the threaded bushing until the locking pin and toggle assembly are fully engaged in the closed position.
an interference within the stem housing preventing the pressure alert stem from being installed into the threaded bushing until the locking pin and toggle assembly are fully engaged in the closed position.
[0009] A better understanding of these features can be obtained from the description of the drawings and detailed description of the embodiments that follow.
[0010] Broadly stated, in some embodiments, a closure device can be provided for a pressure vessel or a pipeline, the closure device comprising: a hub comprising a central opening configured to correspond to an opening in the pressure vessel or pipeline; a door configured to contact the hub and close access to the hub central opening; a hinge assembly operatively coupling the door to the hub; a split annular ring assembly operatively coupled attached to the hub and further comprising opposing ring sections configured to move between an open position to a closed position, the opposing ring sections each comprising an inner channel configured to engage corresponding flange elements disposed on both the door and the hub; an actuating mechanism configured to cause the split annular ring assembly to engage the flange elements thereby fastening the door to the hub; a locking pin configured to inhibit movement of the actuating mechanism when the actuating mechanism is in a locked position; and a pressure alert assembly operatively coupled to the hub, the pressure alert assembly configured to inhibit movement of the locking pin when the actuating mechanism is in the locked position.
[0011] Broadly stated, in some embodiments, the closure device can further comprise a seal disposed between the door and hub.
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[0012] Broadly stated, in some embodiments, the hub can be configured to be welded or bolted to the pressure vessel or the pipeline.
[0013] Broadly stated, in some embodiments, the hinge assembly can further comprise:
upper and lower blocks operatively coupled to the door, further comprising a plain pin and a threaded adjustment pin arrangement configured to manipulate a vertical location of the door in relation to the central opening; upper and lower flange plates operatively coupled to the upper and lower blocks on the door, and further comprising a gusset body disposed between the upper and lower flange plates; a hinge shaft; and a hinge adjustment assembly operatively coupling the upper and lower flange plates to the hinge shaft, the hinge adjustment assembly configured to manipulate a position of the door relative to the hub, wherein the hinge assembly can support the door and allow rotation of the door about the hinge shaft.
upper and lower blocks operatively coupled to the door, further comprising a plain pin and a threaded adjustment pin arrangement configured to manipulate a vertical location of the door in relation to the central opening; upper and lower flange plates operatively coupled to the upper and lower blocks on the door, and further comprising a gusset body disposed between the upper and lower flange plates; a hinge shaft; and a hinge adjustment assembly operatively coupling the upper and lower flange plates to the hinge shaft, the hinge adjustment assembly configured to manipulate a position of the door relative to the hub, wherein the hinge assembly can support the door and allow rotation of the door about the hinge shaft.
[0014] Broadly stated, in some embodiments, the hinge shaft can comprise an axis that ranges from being substantially vertical to substantially horizontal.
[0015] Broadly stated, in some embodiments, the actuating mechanism can further comprise: blocks attached to each of the opposing ring sections, each block comprising a longitudinal through-hole comprising an axis substantially parallel with a plane defined by the split annular ring assembly, wherein the longitudinal through-holes of the blocks substantially align with each other when the opposing ring sections are in the closed position; toggle linkages disposed on anterior and posterior sides of a first of the blocks operatively coupling the first of the blocks to a toggle handle, the toggle handle operatively coupling a second of the blocks to the toggle linkages, the toggle handle configured to move the opposing ring sections between the open and closed positions;
22524728_1INATDOCS
and wherein the toggle linkages further comprise second longitudinal through-holes configured to align with the longitudinal through-holes of the blocks when the opposing ring sections are in the closed position.
22524728_1INATDOCS
and wherein the toggle linkages further comprise second longitudinal through-holes configured to align with the longitudinal through-holes of the blocks when the opposing ring sections are in the closed position.
[0016] Broadly stated, in some embodiments, the locking pin can further comprise: a cylindrical member comprising a diameter substantially corresponding to the longitudinal through-holes of the blocks and the toggle linkages, the cylindrical member comprising a largely circular cross-section further comprising two opposing planar surfaces configured to inhibit rotation of the locking pin when disposed in a supporting housing comprising an opening disposed therethrough having a similar cross-section as the locking pin; a bolt hole disposed through the locking pin, the axis of the bolt hole substantially perpendicular to the axis of the locking pin, the bolt hole disposed at a location offset from a first end of the locking pin; a lip of circular cross section disposed at a second end of the locking pin; and a radial handle extending substantially perpendicular from the locking pin near the first end thereof, the radial handle extending along a plane substantially parallel to the planar surfaces.
[0017] Broadly stated, in some embodiments, the bolt hole can be configured for allowing a locking bolt to pass therethrough and prevent the locking pin from moving within the supporting housing.
[0018] Broadly stated, in some embodiments, the locking bolt can comprise a pressure alert stem operatively coupled to the hub.
[0019] Broadly stated, in some embodiments, the closure device can further comprise a pressure alert assembly comprising: stem housing operatively coupled to the hub, the stem housing further enclosing a radial hole disposed through the hub to provide 22524728_1INATDOCS
communication with an interior of the pressure vessel or the pipeline; a threaded bushing disposed in the radial hole, the threaded bushing configured to threadably receive an interrupted thread of a pressure alert stem, the threaded bushing further comprising a sealing surface to contact an o-ring seal disposed on the pressure alert stem; and a third longitudinal through-hole disposed through the annular external housing, the third longitudinal through-hole substantially aligned with the longitudinal through-holes of the blocks and with the second longitudinal through-hole when the opposing ring sections are in the closed position.
communication with an interior of the pressure vessel or the pipeline; a threaded bushing disposed in the radial hole, the threaded bushing configured to threadably receive an interrupted thread of a pressure alert stem, the threaded bushing further comprising a sealing surface to contact an o-ring seal disposed on the pressure alert stem; and a third longitudinal through-hole disposed through the annular external housing, the third longitudinal through-hole substantially aligned with the longitudinal through-holes of the blocks and with the second longitudinal through-hole when the opposing ring sections are in the closed position.
[0020] Broadly stated, in some embodiments, the closure device can further comprise the locking pin disposed in the longitudinal through-holes when the opposing ring sections are in the closed position, the locking pin further comprising a stem hole disposed through the locking pin, the axis of the stem hole substantially perpendicular to the axis of the locking pin, the stem hole disposed at a location offset from a first end of the locking pin and configured to have the pressure alert stem pass therethrough when the pressure alert stem is threaded into the threaded bushing thereby preventing the locking pin from being removed from the longitudinal through-holes without first removing the pressure alert stem from the threaded bushing.
[0021] Broadly stated, in some embodiments, the interrupted thread can be configured to close off communication to the interior of the pressure vessel or the pipeline when the pressure alert stem is fully threaded and seated in the threaded bushing, and to provide communication to the interior of the pressure vessel or the pipeline when the pressure alert stem is at least partially unthreaded from the threaded bushing.
22524728_11NATDOCS
BRIEF DESCRIPTION OF THE DRAWINGS:
22524728_11NATDOCS
BRIEF DESCRIPTION OF THE DRAWINGS:
[0022] Figure 1 is a front elevation view depicting one embodiment of a closure assembly in its locked and closed position.
[0023] Figure 2 is a side elevation cross-section view depicting the closure assembly of Figure 1 along section lines 1-1.
[0024] Figure 3 is a front perspective view depicting the closure assembly of Figure 1 in a locked and closed position.
[0025] Figure 4 is a front perspective view depicting the closure assembly of Figure 1 in an unlocked and open position.
[0026] Figure 5 is a top plan view depicting the closure assembly of Figure 1 in its locked and closed position.
[0027] Figure 6 is a top plan view depicting the closure assembly of Figure 1 in an unlocked and open position.
[0028] Figure 7 is a side elevation cross-section view depicting a hinge of the closure assembly of Figure 1 along section lines 2-2.
[0029] Figure 8 is a top plan cross-section view depicting the hinge of Figure 7 along section lines 5-5.
[0030] Figure 9 is a close-up perspective view depicting the toggle mechanism/locking pin arrangement of the closure assembly of Figure 1 in a closed and locked position, as viewed from the anterior end.
[0031] Figure 10 is a close-up perspective view depicting the toggle mechanism/locking pin arrangement of the closure assembly of Figure 1 in an open and unlocked position, as viewed from the anterior end.
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22524728_1INATDOCS
[0032] Figure 11 is a close-up perspective view depicting the toggle mechanism/locking pin arrangement of the closure assembly of Figure 1 in a closed and locked position, as viewed from the posterior end.
[0033] Figure 12 is a close-up perspective view depicting the toggle mechanism/locking pin arrangement of the closure assembly of Figure 1 in an open and unlocked position, as viewed from the posterior end.
[0034] Figure 13 is a close-up side elevation cross-section view of the closure assembly of Figure 5 along section lines 3-3.
[0035] Figure 14 is a close-up side elevation cross-section view of the closure assembly of Figure 6 along section lines 4-4.
[0036] Figure 15 is a perspective view depicting a pressure alert stem for use with the closure assembly of Figure 1.
[0037] Figure 16 is a perspective view depicting a locking pin for use with the closure assembly of Figure 1.
DETAILED DESCRIPTION OF EMBODIMENTS:
DETAILED DESCRIPTION OF EMBODIMENTS:
[0038] Referring to Figures 1 and 2, a clamp style closure device for a pressure vessel or pipeline is shown. In some embodiments, closure assembly 10 can comprise hub 11, which can be adapted to be attached to pressure vessel opening (not shown) or end of pipe (not shown) by welding with use of an appropriately sized bevel 13 located on the posterior portion of hub 11 matching that of the pressure vessel opening or pipe end.
On the anterior end of hub 11, male flange 14 can be provided extending outwardly from the body and circumferentially around the hub edge. Hub 11 can comprise circular bore 12, which can define the central axis of the closure assembly.
22524728_1INATDOCS
On the anterior end of hub 11, male flange 14 can be provided extending outwardly from the body and circumferentially around the hub edge. Hub 11 can comprise circular bore 12, which can define the central axis of the closure assembly.
22524728_1INATDOCS
[0039] In some embodiments, door 21 can be pivotally attached to hub 11 via hinge mechanism 31 for opening and closing closure assembly 10. In some embodiments, door 21 can be circular in configuration with male flange 22 that is matched dimensionally with male flange 14 of hub 11. Anterior end 23 and posterior end 24 of door 21 can be planar and parallel. Door 21 can comprise groove 127 offset from posterior end 24 of door 21 in a gland-type configuration that can accept elastomer seal 25 in the form of an o-ring or other configuration that can create a pressure tight seal between hub 11 and door 21. In some embodiments, the axis of sealing surface 27 of hub 11 can be concentric with that of hub 11, and can be inclined between zero degrees (parallel to hub bore 12) and fifteen degrees to better accept the seal contained within door 21.
[0040] Figures 1 to 6 illustrate two halves of split annular ring 41 and 42 that can be split equally with a vertical plane passing through the axis of hub 11. Pivot blocks 43 and 44 can be attached to the bottom portion of split annular ring 41 and 42, which can contain through holes 49 and 50, respectively. In some embodiments, hub pivot block 46 can be attached to the bottom of the outer surface of hub 11 with circular hole 51 parallel to the axis of hub 11. In some embodiments, the alignment of holes 49, 50 and 51 can be such that pivot pin 150 can pass axially through all holes and allow the two halves of split annular ring 41 and 42 to rotate about the axis of pivot pin 150. Pivot pin 150 can comprise external threads for installation of jam nuts 48 and 49 to secure the split annular ring assembly in place. In some embodiments, spacer cylinder 47 can be installed between pivot block 44 and hub pivot block 46 to maintain alignment of split annular ring 41 and 42, mating hub flange 14 and door flange 22.
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22524728_1INATDOCS
[0041] To maintain planar movement of split annular ring 41 and 42 about hub contact face 28, guide bar 240 can attach to the outer periphery of hub 11 and can be captured within a slot created by the attachment of guide bar 241 and the posterior face of split annular ring 41 and 42. As split annular ring 41 and 42 advances to the open position, surfaces 242 and 243 can come into contact and limit the movement of split annular ring 41 and 42 about pivot pin 150. In some embodiments, one set of guide bars 240, can be mirrored about hub 11 vertical plane for each split annular ring 41 and
42.
[0042] Referring to Figures 3 and 4, in some embodiments, split annular ring 41 and 42 can act as a means for drawing hub male flange 14 and door male flange 22 together to facilitate contact between hub contact face 28 and door contact face 29 when rotated into the closed position about pivot pin 150. Split annular ring 41 and 42 can comprise inner channel 143 concentric to hub bore 12 that is wide enough to accept both the axial width of hub male flange 14 and door male flange 22. In some embodiments, the sides of inner channel 143, and the corresponding contact sides of hub male flange 14 and door male flange 22 can be parallel. The included contact angle between opposing sides of inner channel 143 can vary from zero degrees to 10 degrees. In some embodiments, split annular ring 41 and 42 can comprise clearance arcs 51 and 52, which can further comprise of circular sectors of a diameter exceeding the outer diameter of door male flange 22 as they are projected on split annular ring 41 and 42 in the open position. In some embodiments, arcs 51 and 52 can extend through the anterior outer surface of split annular ring 41 and 42 up to inner channel 143, which can contact male flange 22.
22524728_11 NATDOCS
[0042] Referring to Figures 3 and 4, in some embodiments, split annular ring 41 and 42 can act as a means for drawing hub male flange 14 and door male flange 22 together to facilitate contact between hub contact face 28 and door contact face 29 when rotated into the closed position about pivot pin 150. Split annular ring 41 and 42 can comprise inner channel 143 concentric to hub bore 12 that is wide enough to accept both the axial width of hub male flange 14 and door male flange 22. In some embodiments, the sides of inner channel 143, and the corresponding contact sides of hub male flange 14 and door male flange 22 can be parallel. The included contact angle between opposing sides of inner channel 143 can vary from zero degrees to 10 degrees. In some embodiments, split annular ring 41 and 42 can comprise clearance arcs 51 and 52, which can further comprise of circular sectors of a diameter exceeding the outer diameter of door male flange 22 as they are projected on split annular ring 41 and 42 in the open position. In some embodiments, arcs 51 and 52 can extend through the anterior outer surface of split annular ring 41 and 42 up to inner channel 143, which can contact male flange 22.
22524728_11 NATDOCS
[0043] Referring to Figures 1, 7 and 8, in some embodiments, hinge assembly 31 can be provided as a means to support the weight of door 21 during opening and closing operations and, additionally, to allow door 21 to be pivoted about the vertical axis of hinge shaft 134 to facilitate access to hub bore 12 by employing use of door handle 120.
Hinge assembly 31 can comprise upper and lower bearing blocks 33 and 34, respectively, that can be affixed to the exterior of mounting plates 35 and 36, respectively. In some embodiments, mounting plates 35 and 36 can be affixed by cross member 37 to maintain parallelism between the two plates. Mounting plates 35 and 36 can comprise two opposing and axial holes that can accept adjustment pin 38 into upper mounting plate 35, and adjustment bolt 39 into lower mounting plate 36.
In some embodiments, adjustment pin 38 and adjustment bolt 39 can be installed into holes of adjustment blocks 130 and 131, respectively. Door 21 positioning within the vertical plane can be achieved by raising or lowering adjustment bolt 39 by rotating jam nuts 132 and 133.
Hinge assembly 31 can comprise upper and lower bearing blocks 33 and 34, respectively, that can be affixed to the exterior of mounting plates 35 and 36, respectively. In some embodiments, mounting plates 35 and 36 can be affixed by cross member 37 to maintain parallelism between the two plates. Mounting plates 35 and 36 can comprise two opposing and axial holes that can accept adjustment pin 38 into upper mounting plate 35, and adjustment bolt 39 into lower mounting plate 36.
In some embodiments, adjustment pin 38 and adjustment bolt 39 can be installed into holes of adjustment blocks 130 and 131, respectively. Door 21 positioning within the vertical plane can be achieved by raising or lowering adjustment bolt 39 by rotating jam nuts 132 and 133.
[0044] With reference to Figures 7 and 8, upper and lower bearing blocks 33 and 34, respectively (lower bearing block 34 not shown), can be attached to mounting plates 35 and 36 (mounting plate 36 not shown), and can pivot about the axis of hinge shaft 134.
Hinge shaft 134 can be supported by means of circular upper and lower bearings and 136 (lower bearing 136 not shown). In some embodiments, the bearings can comprise plain bearings or mechanical bearings, such as roller bearings, ball bearings or tapered bearings. The bearings can be supported axially within the circular center cavity of bearing carrier 149. The outside of bearing carrier 149 can comprise of oppositely arranged planar edges 137, 138, 139 and 140. In some embodiments, upper 22524728_1INATDOCS
and lower bearing blocks 33 and 34 can comprise oppositely arranged screws 141, 142, 143 and 144 located with threaded holes arranged radially with hinge shaft 134 axis that can contact edges 137, 138, 139 and 140. By loosening and alternately tightening opposing screws 141, 142, 143 and 144, axis hinge shaft 134 and, by extension, door contact face 29, can be tilted in minute increments to achieve parallelism between hub contact face 28 and door contact face 29, and concentricity between the circular outer edges of hub male flange 14 and door male flange 22. In some embodiments, circular dished cap 145 can be installed over upper and lower bearing blocks 33 and 34 and be retained by a plurality of screws 146. In some embodiments, hinge shaft 134 can be retained within hinge 147. Hinge 147 can be attached to hinge block 148, which can also be attached to the outer periphery of hub 11, parallel to the horizontal plane cutting the axis of hub 11.
Hinge shaft 134 can be supported by means of circular upper and lower bearings and 136 (lower bearing 136 not shown). In some embodiments, the bearings can comprise plain bearings or mechanical bearings, such as roller bearings, ball bearings or tapered bearings. The bearings can be supported axially within the circular center cavity of bearing carrier 149. The outside of bearing carrier 149 can comprise of oppositely arranged planar edges 137, 138, 139 and 140. In some embodiments, upper 22524728_1INATDOCS
and lower bearing blocks 33 and 34 can comprise oppositely arranged screws 141, 142, 143 and 144 located with threaded holes arranged radially with hinge shaft 134 axis that can contact edges 137, 138, 139 and 140. By loosening and alternately tightening opposing screws 141, 142, 143 and 144, axis hinge shaft 134 and, by extension, door contact face 29, can be tilted in minute increments to achieve parallelism between hub contact face 28 and door contact face 29, and concentricity between the circular outer edges of hub male flange 14 and door male flange 22. In some embodiments, circular dished cap 145 can be installed over upper and lower bearing blocks 33 and 34 and be retained by a plurality of screws 146. In some embodiments, hinge shaft 134 can be retained within hinge 147. Hinge 147 can be attached to hinge block 148, which can also be attached to the outer periphery of hub 11, parallel to the horizontal plane cutting the axis of hub 11.
[0045] Figures 9 to 12 illustrate, in some embodiments, an over-center toggle mechanism attached to the top of split annular ring 41 and 42, which can function to move split annular ring 41 and 42 into its locked position, and to expand split annular ring 41 and 42 into the unlocked position through rotation about pivot pin 150. Toggle block 61 can be mounted radially on one half of split annular ring 41 on the end opposite pivot block 43. Likewise, toggle block 62 can be mounted radially on one half of the annular ring 42 on the end opposite pivot block 44. In some embodiments, toggle block 61 can comprise two tines 63 that can accept the body of toggle block 62 during the locking operation, as shown in Figure 9. Toggle blocks 61, 62 can further comprise through hole 164 that can align axially when split annular ring 41 and 42 are in the closed and locked position, and parallel with the axis of hub 11. In some embodiments, 22524728_1INATDOCS
toggle handle 66 can comprise tines 160 that can span toggle block 62. Toggle linkages 64, 65 can be installed on either side of toggle blocks 61, 62. In some embodiments, toggle pin 67 can be inserted through holes provided by toggle linkage 64, 65 and toggle block 61. Toggle pin 68 can be inserted through holes provided by toggle linkage 64, 65 and toggle handle 66. Toggle pin 69 can be inserted through holes provided by toggle block 62 and toggle handle 66. During the action of pivoting toggle handle 66 about the axis of toggle pin 69, toggle linkages 64, 65 can, subsequently, pivot about toggle pins 67, 68 forcing the split annular ring 41 and 42 to pivot about pivot pin 150. Toggle linkages 64, 65 can comprise through hole 161 that can align axially with hole 164 on toggle blocks 61, 62 when split annular ring 41 and 42 are in the closed and locked position and is parallel with the axis of hub 11.
toggle handle 66 can comprise tines 160 that can span toggle block 62. Toggle linkages 64, 65 can be installed on either side of toggle blocks 61, 62. In some embodiments, toggle pin 67 can be inserted through holes provided by toggle linkage 64, 65 and toggle block 61. Toggle pin 68 can be inserted through holes provided by toggle linkage 64, 65 and toggle handle 66. Toggle pin 69 can be inserted through holes provided by toggle block 62 and toggle handle 66. During the action of pivoting toggle handle 66 about the axis of toggle pin 69, toggle linkages 64, 65 can, subsequently, pivot about toggle pins 67, 68 forcing the split annular ring 41 and 42 to pivot about pivot pin 150. Toggle linkages 64, 65 can comprise through hole 161 that can align axially with hole 164 on toggle blocks 61, 62 when split annular ring 41 and 42 are in the closed and locked position and is parallel with the axis of hub 11.
[0046] Referring to Figure 15, in some embodiments, closure assembly 10 can comprise pressure alert stem 70, further comprising of hexagonal body 71 sized to accept industry standard imperial wrench sizes, cylindrical extension 72 and threaded body 73 on the end opposite hexagonal body 71. In some embodiments, threaded body 73 can comprise longitudinal groove 74 parallel with pressure alert stem 70 axis.
Longitudinal groove 74 can extend from threaded body end 75 to o-ring seal groove 77 at a depth equal to or greater than the root diameter of the thread. An appropriately sized o-ring 76 can be passed over threaded body 73 and installed into o-ring groove 77.
Longitudinal groove 74 can extend from threaded body end 75 to o-ring seal groove 77 at a depth equal to or greater than the root diameter of the thread. An appropriately sized o-ring 76 can be passed over threaded body 73 and installed into o-ring groove 77.
[0047] Referring to Figure 16, closure assembly 10 can comprise locking pin 80, further comprising of a cylindrical body provided with two planar and parallel surfaces 81, 82 extending the length of locking pin 80 up to stop lip 84. Pin end 86 can remain circular.
In some embodiments, through hole 83 can be provided towards the end opposite stop 22524728_1INATDOCS
lip 84, and can be sized to accept the passage of pressure alert stem 70.
Locking pin handle 85 can be attached to the cylindrical surface of locking pin 80 parallel to surfaces 81, 82 towards the end opposite stop lip 84.
In some embodiments, through hole 83 can be provided towards the end opposite stop 22524728_1INATDOCS
lip 84, and can be sized to accept the passage of pressure alert stem 70.
Locking pin handle 85 can be attached to the cylindrical surface of locking pin 80 parallel to surfaces 81, 82 towards the end opposite stop lip 84.
[0048] Referring to Figure 13, in some embodiments, radial hole 90 can be provided in hub 11 having taper thread 91 located towards outer surface 92 of hub 11.
Threaded bushing 94, comprising an external tapered thread matching tapered thread 91 and straight thread 95 matching the size of threaded body 73 of pressure alert stem 70, can be installed into radial hole 90. Stem housing 96 can be attached radially to outer surface 92 of hub 11 with longitudinal hole 97 concentric to radial hole 90.
In some embodiments, stem housing 96 can comprise radial hole 98 relative to longitudinal hole 97 that can further comprise a profile identical to end profile 87 of lock pin 80, and can be parallel to the axis of hub 11. In some embodiments, slot 99 (as shown in Figures 11 and 2) can be perpendicular to radial hole 98 and longitudinal hole 97, and can further extend into longitudinal hole 97 and be sized to accept locking pin handle 85.
Threaded bushing 94, comprising an external tapered thread matching tapered thread 91 and straight thread 95 matching the size of threaded body 73 of pressure alert stem 70, can be installed into radial hole 90. Stem housing 96 can be attached radially to outer surface 92 of hub 11 with longitudinal hole 97 concentric to radial hole 90.
In some embodiments, stem housing 96 can comprise radial hole 98 relative to longitudinal hole 97 that can further comprise a profile identical to end profile 87 of lock pin 80, and can be parallel to the axis of hub 11. In some embodiments, slot 99 (as shown in Figures 11 and 2) can be perpendicular to radial hole 98 and longitudinal hole 97, and can further extend into longitudinal hole 97 and be sized to accept locking pin handle 85.
[0049] Referring to Figures 13 and 14, the safety features and characteristics of closure assembly 10 are shown. With toggle mechanism 60, split annular ring 41 and 42 and door 21 in the closed position, toggle linkage hole 161, toggle block hole 164 and stem housing radial hole 98 can align along a common axis and, thus, allow locking pin 80 to be installed until locking pin handle 85 contacts the end of slot 99 (as shown in Figures 11 and 12) of pressure alert stem housing 96, thus inhibiting the movement and function of toggle mechanism 60 and split annular ring 41 and 42. Pressure alert stem 70 can be inserted through longitudinal hole 97, through locking pin hole 83, up to threaded bushing 94. Pressure alert stem 70 can then be threaded into threaded bushing 94 until 22524728_1INATDOCS
stem surface 78 contacts threaded bushing 94 and pressure alert stem o-ring 76 is confined within threaded bushing 94 effecting a seal.
stem surface 78 contacts threaded bushing 94 and pressure alert stem o-ring 76 is confined within threaded bushing 94 effecting a seal.
[0050] With the embodiments in the foregoing fully engaged, closure actuation is prevented until it can be verified no differential pressure exists within hub bore 12. To accomplish this, pressure alert stem 70 is rotated counter clockwise until o-ring seal 76 backs out of threaded bushing 94. If differential pressure exists within hub bore 12, the media (liquid and/or gas) present within hub 11 would expel through longitudinal groove 74, alerting the operator of a differential pressure condition within hub 11.
With o-ring seal 76 broken and media venting, threaded body 73 would still be sufficiently engaged to prevent pressure alert stem 70 from being expelled out of longitudinal hole 97, thus preventing harm to the operator. When alerted to a differential pressure situation within hub 11, the operator can then rotate pressure alert stem 70 clockwise to re-seal o-ring 76 within threaded bushing 94 and follow procedures to reduce the differential pressure to zero.
With o-ring seal 76 broken and media venting, threaded body 73 would still be sufficiently engaged to prevent pressure alert stem 70 from being expelled out of longitudinal hole 97, thus preventing harm to the operator. When alerted to a differential pressure situation within hub 11, the operator can then rotate pressure alert stem 70 clockwise to re-seal o-ring 76 within threaded bushing 94 and follow procedures to reduce the differential pressure to zero.
[0051] If, during the counter clockwise rotation of pressure alert stem 70 and breaking of o-ring seal 76, that no differential pressure is observed, pressure alert stem 70 may be fully extracted from threaded bushing 94 as well as from locking pin hole 83 and finally out of stem housing 96. Only then can locking pin 80 be disengaged by sliding the pin longitudinally through toggle linkage hole 161, toggle block hole 164 and stem housing radial hole 98 until stop lip 84 enters circular recess 190 within stem housing 96 effecting cessation of locking pin 80 movement. Toggle mechanism 60 can then be actuated causing split annular ring 41 and 42 to rotate around pivot pin 150 and allow door 21 to rotate about hinge shaft 134 axis.
22524728_1INATDOCS
22524728_1INATDOCS
[0052] In some embodiments, locking pin 70 can provide an additional advantage over the prior art in that it can incorporate an extra layer of redundancy to the holding characteristics of toggle mechanism 60. If, in the event that a failure should occur in one or more features of toggle mechanism 60, locking pin 70 would remain engaged within toggle blocks 61 and 62, thereby reducing the possibility of split annular ring 41 and 42 movement and door 21 opening while hub 11 contains differential pressure.
[0053] Although a few embodiments have been shown and described, it will be appreciated by those skilled in the art that various changes and modifications can be made to these embodiments without changing or departing from their scope, intent or functionality. The terms and expressions used in the preceding specification have been used herein as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding equivalents of the features shown and described or portions thereof, it being recognized that the invention is defined and limited only by the claims that follow.
22524728_1INATDOCS
22524728_1INATDOCS
Claims (12)
1. A closure device for a pressure vessel or a pipeline, the closure device comprising:
a) a hub comprising a central opening configured to correspond to an opening in the pressure vessel or pipeline;
b) a door configured to contact the hub and close access to the hub central opening;
c) a hinge assembly operatively coupling the door to the hub;
d) a split annular ring assembly operatively coupled attached to the hub and further comprising opposing ring sections configured to move between an open position to a closed position, the opposing ring sections each comprising an inner channel configured to engage corresponding flange elements disposed on both the door and the hub;
e) an actuating mechanism configured to cause the split annular ring assembly to engage the flange elements thereby fastening the door to the hub;
f) a locking pin configured to inhibit movement of the actuating mechanism when the actuating mechanism is in a locked position; and g) a pressure alert assembly operatively coupled to the hub, the pressure alert assembly configured to inhibit movement of the locking pin when the actuating mechanism is in the locked position.
a) a hub comprising a central opening configured to correspond to an opening in the pressure vessel or pipeline;
b) a door configured to contact the hub and close access to the hub central opening;
c) a hinge assembly operatively coupling the door to the hub;
d) a split annular ring assembly operatively coupled attached to the hub and further comprising opposing ring sections configured to move between an open position to a closed position, the opposing ring sections each comprising an inner channel configured to engage corresponding flange elements disposed on both the door and the hub;
e) an actuating mechanism configured to cause the split annular ring assembly to engage the flange elements thereby fastening the door to the hub;
f) a locking pin configured to inhibit movement of the actuating mechanism when the actuating mechanism is in a locked position; and g) a pressure alert assembly operatively coupled to the hub, the pressure alert assembly configured to inhibit movement of the locking pin when the actuating mechanism is in the locked position.
2. The closure device as set forth in claim 1, further comprising a seal disposed between the door and hub.
3. The closure device as set forth in claim 1 or in claim 2, wherein the hub is configured to be welded or bolted to the pressure vessel or the pipeline.
4. The closure device as set forth in any one of claims 1 to 3, wherein the hinge assembly further comprises:
a) upper and lower blocks operatively coupled to the door, further comprising a plain pin and a threaded adjustment pin arrangement configured to manipulate a vertical location of the door in relation to the central opening;
b) upper and lower flange plates operatively coupled to the upper and lower blocks on the door, and further comprising a gusset body disposed between the upper and lower flange plates;
c) a hinge shaft; and d) a hinge adjustment assembly operatively coupling the upper and lower flange plates to the hinge shaft, the hinge adjustment assembly configured to manipulate a position of the door relative to the hub, wherein the hinge assembly can support the door and allow rotation of the door about the hinge shaft.
a) upper and lower blocks operatively coupled to the door, further comprising a plain pin and a threaded adjustment pin arrangement configured to manipulate a vertical location of the door in relation to the central opening;
b) upper and lower flange plates operatively coupled to the upper and lower blocks on the door, and further comprising a gusset body disposed between the upper and lower flange plates;
c) a hinge shaft; and d) a hinge adjustment assembly operatively coupling the upper and lower flange plates to the hinge shaft, the hinge adjustment assembly configured to manipulate a position of the door relative to the hub, wherein the hinge assembly can support the door and allow rotation of the door about the hinge shaft.
5. The closure device as set forth in claim 4, wherein the hinge shaft comprises an axis that ranges from being substantially vertical to substantially horizontal.
6. The closure device as set forth in any one of claims 1 to 5, wherein the actuating mechanism further comprises:
a) blocks attached to each of the opposing ring sections, each block comprising a longitudinal through-hole comprising an axis substantially parallel with a plane defined by the split annular ring assembly, wherein the longitudinal through-holes of the blocks substantially align with each other when the opposing ring sections are in the closed position;
b) toggle linkages disposed on anterior and posterior sides of a first of the blocks operatively coupling the first of the blocks to a toggle handle, the toggle handle operatively coupling a second of the blocks to the toggle linkages, the toggle handle configured to move the opposing ring sections between the open and closed positions; and c) wherein the toggle linkages further comprise second longitudinal through-holes configured to align with the longitudinal through-holes of the blocks when the opposing ring sections are in the closed position.
a) blocks attached to each of the opposing ring sections, each block comprising a longitudinal through-hole comprising an axis substantially parallel with a plane defined by the split annular ring assembly, wherein the longitudinal through-holes of the blocks substantially align with each other when the opposing ring sections are in the closed position;
b) toggle linkages disposed on anterior and posterior sides of a first of the blocks operatively coupling the first of the blocks to a toggle handle, the toggle handle operatively coupling a second of the blocks to the toggle linkages, the toggle handle configured to move the opposing ring sections between the open and closed positions; and c) wherein the toggle linkages further comprise second longitudinal through-holes configured to align with the longitudinal through-holes of the blocks when the opposing ring sections are in the closed position.
7. The closure device as set forth in claim 6, wherein the locking pin further comprises:
a) a cylindrical member comprising a diameter substantially corresponding to the longitudinal through-holes of the blocks and the toggle linkages, the cylindrical member comprising a largely circular cross-section further comprising two opposing planar surfaces configured to inhibit rotation of the locking pin when disposed in a supporting housing comprising an opening disposed therethrough having a similar cross-section as the locking pin;
b) a bolt hole disposed through the locking pin, the axis of the bolt hole substantially perpendicular to the axis of the locking pin, the bolt hole disposed at a location offset from a first end of the locking pin;
c) a lip of circular cross section disposed at a second end of the locking pin;
and d) a radial handle extending substantially perpendicular from the locking pin near the first end thereof, the radial handle extending along a plane substantially parallel to the planar surfaces.
a) a cylindrical member comprising a diameter substantially corresponding to the longitudinal through-holes of the blocks and the toggle linkages, the cylindrical member comprising a largely circular cross-section further comprising two opposing planar surfaces configured to inhibit rotation of the locking pin when disposed in a supporting housing comprising an opening disposed therethrough having a similar cross-section as the locking pin;
b) a bolt hole disposed through the locking pin, the axis of the bolt hole substantially perpendicular to the axis of the locking pin, the bolt hole disposed at a location offset from a first end of the locking pin;
c) a lip of circular cross section disposed at a second end of the locking pin;
and d) a radial handle extending substantially perpendicular from the locking pin near the first end thereof, the radial handle extending along a plane substantially parallel to the planar surfaces.
8. The closure device as set forth in claim 7, wherein the bolt hole is configured for allowing a locking bolt to pass therethrough and prevent the locking pin from moving within the supporting housing.
9. The closure device as set forth in claim 8, wherein the locking bolt comprises a pressure alert stem operatively coupled to the hub.
10. The closure device as set forth in any one of claims 6 to 9, further comprising a pressure alert assembly comprising:
a) a stem housing operatively coupled to the hub, the stem housing further enclosing a radial hole disposed through the hub to provide communication with an interior of the pressure vessel or the pipeline;
b) a threaded bushing disposed in the radial hole, the threaded bushing configured to threadably receive an interrupted thread of a pressure alert stem, the threaded bushing further comprising a sealing surface to contact an o-ring seal disposed on the pressure alert stem; and c) a third longitudinal through-hole disposed through the annular external housing, the third longitudinal through-hole substantially aligned with the longitudinal through-holes of the blocks and with the second longitudinal through-hole when the opposing ring sections are in the closed position.
a) a stem housing operatively coupled to the hub, the stem housing further enclosing a radial hole disposed through the hub to provide communication with an interior of the pressure vessel or the pipeline;
b) a threaded bushing disposed in the radial hole, the threaded bushing configured to threadably receive an interrupted thread of a pressure alert stem, the threaded bushing further comprising a sealing surface to contact an o-ring seal disposed on the pressure alert stem; and c) a third longitudinal through-hole disposed through the annular external housing, the third longitudinal through-hole substantially aligned with the longitudinal through-holes of the blocks and with the second longitudinal through-hole when the opposing ring sections are in the closed position.
11. The closure device as set forth in claim 10, further comprising the locking pin disposed in the longitudinal through-holes when the opposing ring sections are in the closed position, the locking pin further comprising a stem hole disposed through the locking pin, the axis of the stem hole substantially perpendicular to the axis of the locking pin, the stem hole disposed at a location offset from a first end of the locking pin and configured to have the pressure alert stem pass therethrough when the pressure alert stem is threaded into the threaded bushing thereby preventing the locking pin from being removed from the longitudinal through-holes without first removing the pressure alert stem from the threaded bushing.
12. The closure device as set forth in claim 11, wherein the interrupted thread is configured to close off communication to the interior of the pressure vessel or the pipeline when the pressure alert stem is fully threaded and seated in the threaded bushing, and to provide communication to the interior of the pressure vessel or the pipeline when the pressure alert stem is at least partially unthreaded from the threaded bushing.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA2935829A CA2935829A1 (en) | 2016-07-11 | 2016-07-11 | Closure for pressure vessel or pipeline |
CA2973149A CA2973149C (en) | 2016-07-11 | 2017-07-11 | Closure for pressure vessel or pipeline |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA2935829A CA2935829A1 (en) | 2016-07-11 | 2016-07-11 | Closure for pressure vessel or pipeline |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2935829A1 true CA2935829A1 (en) | 2018-01-11 |
Family
ID=60940370
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA2935829A Abandoned CA2935829A1 (en) | 2016-07-11 | 2016-07-11 | Closure for pressure vessel or pipeline |
CA2973149A Active CA2973149C (en) | 2016-07-11 | 2017-07-11 | Closure for pressure vessel or pipeline |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA2973149A Active CA2973149C (en) | 2016-07-11 | 2017-07-11 | Closure for pressure vessel or pipeline |
Country Status (1)
Country | Link |
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CA (2) | CA2935829A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022077842A1 (en) * | 2021-02-28 | 2022-04-21 | 苏州鱼得水电气科技有限公司 | Strong magneto-mechanical reaction device for industrial production |
-
2016
- 2016-07-11 CA CA2935829A patent/CA2935829A1/en not_active Abandoned
-
2017
- 2017-07-11 CA CA2973149A patent/CA2973149C/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022077842A1 (en) * | 2021-02-28 | 2022-04-21 | 苏州鱼得水电气科技有限公司 | Strong magneto-mechanical reaction device for industrial production |
Also Published As
Publication number | Publication date |
---|---|
CA2973149A1 (en) | 2018-01-11 |
CA2973149C (en) | 2020-01-28 |
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