WO2005080804A1 - Ecrou hydraulique et procede d'utilisation associe - Google Patents

Ecrou hydraulique et procede d'utilisation associe Download PDF

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Publication number
WO2005080804A1
WO2005080804A1 PCT/CA2005/000214 CA2005000214W WO2005080804A1 WO 2005080804 A1 WO2005080804 A1 WO 2005080804A1 CA 2005000214 W CA2005000214 W CA 2005000214W WO 2005080804 A1 WO2005080804 A1 WO 2005080804A1
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WO
WIPO (PCT)
Prior art keywords
hydraulic
inner body
outer body
hydraulic nut
nut
Prior art date
Application number
PCT/CA2005/000214
Other languages
English (en)
Inventor
Gordon Britton
David Hughes
Mark Johnson
Original Assignee
Integra Technologies Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from CA002457968A external-priority patent/CA2457968A1/fr
Application filed by Integra Technologies Ltd filed Critical Integra Technologies Ltd
Publication of WO2005080804A1 publication Critical patent/WO2005080804A1/fr

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B31/00Screwed connections specially modified in view of tensile load; Break-bolts
    • F16B31/04Screwed connections specially modified in view of tensile load; Break-bolts for maintaining a tensile load
    • F16B31/043Prestressed connections tensioned by means of liquid, grease, rubber, explosive charge, or the like
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B2200/00Constructional details of connections not covered for in other groups of this subclass
    • F16B2200/89Use of a hydraulic action

Definitions

  • the present invention generally relates to a hydraulic nut and a method of using same. More specifically, the present invention is concerned with a hydraulic nut which provides a load to a fastener in an assembly.
  • Hydraulic nuts are well known and have been in wide use throughout the industry for many decades.
  • hydraulic nuts are made up of an inner body that is threaded on to the stud to be tightened, an outer body that acts as a piston to generate an axial load to clamp the work pieces being joined and a locking collar to mechanically maintain the axial load generated by the hydraulic pressure in the annual piston created between the inner and outer bodies.
  • the gap between the inner and outer bodies needs to be sealed so that hydraulic pressure is generated. This is achieved by a built-in or added sealing device.
  • Hydraulic huts have been seen to address these concerns.
  • present forms of hydraulic nuts limits their use on a variety of applications.
  • Some of the limitations of present hydraulic nut technology concern the space envelope required to fit the nut, reliable assembly and disassembly of the nut after repeated operating cycles at temperature and the speed to install the nuts.
  • the aim of this invention is to broaden the use of hydraulic nut technology so that a wider number of applications can realize its benefits.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected to the inner body, a locking collar adapted to be mounted on the inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area, with a non-linear cross-section, defined between the inner body, the outer body and the sealing means, the hydraulic nut also includes at least one hydraulic pressure port extending through the hydraulic nut to the pressure area.
  • such non-linear cross-section is either 'S' shaped or 'Z' shaped.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected with said inner body, a locking collar adapted to be mounted on said inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area defined between the inner body, the outer body and the sealing means, and a hydraulic pressure port extending through the hydraulic nut to said pressure area, wherein the inner body includes a groove to secure the sealing means.
  • This groove preferably comprises a radially protruding retaining lip to prevent the sealing means from leaving the groove.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected with the inner body, a locking collar adapted to be mounted on the inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area defined between the inner body, the outer body and the sealing means, and a hydraulic pressure port extending through the hydraulic nut to the pressure area, wherein the sealing means are thin- walled 'C or 'IT shape high pressure resistant seals, preferably made of metal.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected with the inner body, a locking collar adapted to be mounted on the inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area defined between the inner body, the outer body and the sealing means, and a hydraulic pressure port extending through the hydraulic nut to the pressure area, wherein the exterior wall of the locking collar further comprises a plurality of non-symmetrically distributed tommy bar holes.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected with the inner body, a locking collar adapted to be mounted on the inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area defined between the inner body, the outer body and the sealing means, and a hydraulic pressure port extending through the hydraulic nut to the pressure area, wherein the top face of the inner body further includes dowel holes.
  • a hydraulic nut for tensioning an assembly including an inner body, an outer body matingly connected with the inner body, a locking collar adapted to be mounted on the inner body and located adjacent to the outer body, a sealing means located between the inner body and the outer body, an annular pressure area defined between the inner body, the outer body and the sealing means, and a hydraulic pressure port extending through the hydraulic nut to the pressure area, wherein the inner wall of the outer body is tapered.
  • the nut turning device comprises at least a rigid connector, preferably but not exclusively in the form of a rigid plate, dowels located on the underside of the rigid connector and a driving means, preferably in the form of a polygonal or hexagonal nut.
  • the nut turning device could also comprise a plurality of magnets also located on the underside of the rigid connector.
  • a method for installing the hydraulic nut over a stud for tensioning an assembly comprises the following steps: a) threading the hydraulic nut over the stud; b) connecting a hydraulic fluid hose to the hydraulic pressure port; c) injecting hydraulic fluid through the hydraulic pressure port in the annular pressure area thus creating a gap between the locking collar and the outer body; d) threading down the locking collar over the inner body, with the assistance of a tommy bar, until the gap between the locking collar and the outer body is closed; e) removing the hydraulic fluid from the pressure area through the pressure port; f) disconnecting the hydraulic fluid hose from the pressure port.
  • a method for installing the hydraulic nut over a stud for tensioning an assembly comprises the following steps: a) threading the hydraulic nut over the stud, with the assistance of the nut turning device described above; b) connecting a hydraulic fluid hose to the hydraulic pressure port; c) injecting hydraulic fluid through the hydraulic pressure port in the annular pressure area thus creating a gap between the locking collar and the outer body; d) threading down the locking collar over the inner body, until the gap between the locking collar and the outer body is closed; e) removing the hydraulic fluid from the pressure area through the pressure port; f) disconnecting the hydraulic fluid hose from the pressure port.
  • a hydraulic nut comprising an inner body having a top face including a plurality of plugs, an outer body, a locking collar, an annular pressure area and a hydraulic pressure port connected to the pressure area, the hydraulic nut used for tensioning an assembly including a threaded stud, said method comprising the following steps: a. threading the hydraulic nut over the stud with the assistance of a spanner, the spanner fitting on one of the plugs and the spanner handle seating against a second the plug; b. connecting a hydraulic fluid hose to the hydraulic pressure port; c. injecting hydraulic fluid through the hydraulic pressure port in the annular pressure area thus creating a gap between the locking collar and the outer body; d. threading down the locking collar over the inner body until the gap between the locking collar and the outer body is closed; e. removing the hydraulic fluid from the pressure area through the pressure port; f. disconnecting the hydraulic fluid hose from the pressure port.
  • Figure 1 is a side elevation view showing a hydraulic nut assembly according to an embodiment of the present invention
  • Figure 2a is a partial section view showing the 'S' or 'Z' shaped piston of the hydraulic nut assembly of Figure 1 ;
  • Figure 2b is a partial section view showing a hydraulic nut assembly from the prior art
  • Figure 3 is a partial detail view showing the threads of the hydraulic nut assembly of Figure 1 ;
  • Figure 4a is a partial detail view showing the seal of a hydraulic nut assembly from the prior art
  • Figure 4b is a partial detail view showing the seal of a hydraulic nut assembly from the prior art
  • Figure 5 is a partial detail view showing the seal of the hydraulic nut assembly of Figure 1 ;
  • Figure 6 is a partial detail view showing a misalignment of the seal of Figure 5;
  • Figure 7 is a partial detail view showing the elastic movement of the seal of Figure 5;
  • Figure 8 is a partial detail view showing the retaining lip of the hydraulic nut assembly of Figure 1;
  • Figure 9a is a top view showing the uneven number of tommy bars holes in the collar of the hydraulic nut assembly of Figure 1 ;
  • Figure 9b is a side elevation view showing the uneven number of tommy bars of the collar of Figure 9a;
  • Figure 10a is a top view showing the dowel holes of the hydraulic nut of Figure 1 ;
  • Figure 10b is a section view showing the dowel holes of Figure 10a;
  • Figure 11a is a top view showing the nut turning device of the hydraulic nut assembly of Figure 1 ;
  • Figure 11b is a section view taken along line A-A of Figure 11a;
  • Figure 11c is a section view taken along line B-B of Figure 11a;
  • Figure 12 is a top view showing the nut turning nipper of the hydraulic nut assembly of Figure 1 ;
  • Figure 13 is a partial detail view showing the deflection of the tapered wall of the hydraulic nut of Figure 1 ;
  • Figure 14a is top view of a second embodiment of the nut turning device
  • Figure 14b is a section view taken along line A-A of Figure 14a;
  • Figure 14c is a section view taken along line B-B of Figure 14a; Detailed description
  • the present invention relates to hydraulic nuts which may be used to provide a load to a fastener in an assembly.
  • a hydraulic nut generally includes an inner body (6) that is threaded on to the stud (not shown) to be tightened, an outer body (5) that acts as a piston to generate an axial load to clamp the work pieces being joined and a locking collar (1) to mechanically maintain the axial load generated by the hydraulic pressure in the annual piston created between the inner and outer bodies.
  • the gap between the inner and outer bodies generally needs to be sealed so that hydraulic pressure is generated. This is achieved by a built-in or added sealing device.
  • the present invention concerns the following aspects of a hydraulic nut assembly:
  • H 2 H 1 - (b ⁇ - b 2 ) where:
  • H 2 is height of the hydraulic nut assembly in accordance with the invention
  • Hi is height of a hydraulic nut of the prior art
  • bi is axial distance between seals of a hydraulic nut of the prior art
  • b 2 is axial distance between seals of the hydraulic nut assembly in accordance with the invention.
  • a mechanical locking collar is utilized to retain the load generated by the hydraulic pressure. This is achieved by turning down the locking collar (1) while under hydraulic pressure, using the mating threads (4) between the locking collar and inner body (6), until the face of the locking collar (1) is in firm contact with the mating face of the outer body. The hydraulic pressure is then released. A transfer of load then occurs between the mating threads of the locking collar and inner body and the mating face between the locking collar and outer body. The threads of the locking collar and inner body will tend to deflect under the applied load. The angle of the threads cause a radial force exerted by the threads causing a radial deflection of the locking collar.
  • the radial deflection of the locking collar allows the collar to slide down the inclined plane of the thread form.
  • the result of the thread deflection and thread sliding is to cause a loss of preload generated by the hydraulic pressure.
  • higher applied pressures are required to achieve the necessary residual load.
  • a load loss is created due to the thread form and transfer of load. This load loss has to be accounted for in the nut design by designing a nut with higher applied load. This increases the annular piston area and resultant increase in nut dimensions.
  • the hydraulic nut assembly of the present invention utilizes a thread with a broader cross-section such as a stub acme thread which is outlined in Figure 3.
  • the stub acme thread (4) has a broad cross section (4a) as compared to standard thread forms, the increased moment of inertia and low moment arm of the reaction force generally results in low thread deflection under applied load. The load loss is therefore reduced, reducing the annular piston area and over dimensions of the nut making it more compact and able to fit in to a broader number of applications.
  • the shallow angle (4b) of the threads also reduces the radial force generated when the load is transferred to the locking collar. This also generally reduces the hoop stress in the locking collar.
  • the hydraulic nut is generally pressured through a hydraulic port (3).
  • the pressure is applied across the surfaces of the annular piston (2) generating an applied load in proportion to the hydraulic pressure and hydraulic area.
  • the pressure is held between seals (7) that seal off the radial gap between the nut inner (6) and outer bodies (5).
  • the hydraulic nut assembly generally includes a thin-walled curved 'U' or 'C seal as shown in Figure 5.
  • the thin walled (approximately .015") 'U' or 'C seal has excellent elastic capability and can accommodate far greater radial movement than the edged seals.
  • the 'U' or 'C seal may be installed with a slight interference fit. Its flexibility generally allows easy installation, with reduced friction during movement. The interference fit generally maximizes contact with the cylinder walls at lower pressures as well as extreme high pressures.
  • the seal contact is made on a curved surface of the 'U' or 'C seal ( Figure 6).
  • the curved seal surface (7a) maintains contact during misalignment.
  • the curved 'U' or 'C shaped seal acts as an open thin walled cylinder. Pressure acting on the side of the seal deflects the seal in a radial direction.
  • the supported thin wall section allows for enhanced elastic range for the seal to move with radial expansion of the cylinder ((5), Figure 7).
  • a retain lip (8 in Figure 8) may be machined into the nut bodies (5) and (6) to help retain the seal (7) in place.
  • the curved 'U' or 'C shape seal (7) generally has sufficient elastic flexibility to be inserted into the groove of the hydraulic nut and 'snap' into place.
  • the lip (8) then generally prevents the seal from moving in an axial direction under hydraulic operation in the fixed component while it maintains a sliding contact on the cylinder wall of the moving component.
  • the retaining lip (8) may be machined into both the inner and outer bodies (5) and (6) to retain these seals (7) respectively.
  • Locking collars traditionally have tommy bars holes machined radially into the wall of the locking collar. These holes reduce the cross-section of the locking at point, thereby weakening the component. Often, tommy bar holes are machined in even numbers around the locking collar, such that on any given axis, there are two holes opposing each other. This further weakens the locking collar on these axes.
  • the hydraulic nut assembly generally incorporates a non-symmetrically distributed number of tommy bar holes (10) such that on the axis (11) of one hole (10), there is not an opposing tommy bar hole (10) that would further weaken the locking collar (1).
  • an odd number of evenly distributed tommy bar holes generates such a non-symmetrical distribution of the holes.
  • Hydraulic nuts are generally round and are turned onto the stud by hand.
  • tommy bar holes may be drilled in the body of the nut in a radial direction to allow insertion of a tommy to assist in turning the nut on to or off the stud.
  • it can be a slow and awkward process to thread the hydraulic nut on to the stud.
  • It is also difficult to generate a significant turning torque on a round nut to overcome stud thread to nut thread friction. This can hamper and prevent successful removal of the nut that has been in service for some time. Problems such as these impair the successful use of hydraulic nuts.
  • the hydraulic nut assembly may include dowel holes ((12) in Figures 10a and 10b) machined in the end face (13) of the inner body (6) of the hydraulic nut to facilitate the insertion of a special nut turning device.
  • the dowel holes (12) and mating dowels (shown in Figures 11a and 11b) are suitably sized to withstand the torque required to install the nuts rapidly and to remove the nuts, generally overcoming corrosion and increased friction associated with a nut that has been in service for some time.
  • the hydraulic nut assembly may include a rapid nut turning device ((15) in Figures 11a, 11b and 11c and (30) in Figures 14a, 14b and 14c).
  • the rapid nut turning device generally consisting of a rigid plate (16) with dowels (14) suitably positioned and sized to fit into the dowel holes (12) which may be present in the nut body (6) as outlined hereinabove.
  • the nut turning device (30) comprises a rigid connector (31) having a 'U' or a hollow cylinder shape, with an open end.
  • the open end further includes a rigid and preferably annular contour plate (32) under which are located dowels (14) suitably positioned and sized to fit into the dowel holes (12) which may be present in the nut body (6) as outlined hereinabove.
  • magnets (17) may be mounted on the underside (18) of the turning device (15) or (30) to support it onto a magnetic nut during its turning.
  • the nut turning device (15) or (30) may contain a drive (19) to support or allow a connection to an external tool or power source in order to help supply sufficient torque to turn the hydraulic nut on to the stud.
  • the first embodiment (15) of the nut turning device does not allow the stud to pass the upper end of the nut since the plate (16) of the nut turning device (15) blocks this same upper end.
  • the second embodiment (30) of the nut turning device does allow the stud to pass the upper end of the nut since there is space in the rigid connector (31) to receive the exceeding part of the stud.
  • corrosion may result in seizing critical components of the hydraulic nut, preventing a fast and easy disassembly.
  • This problem relates to the inability to loosen the locking collar using the tommy bar due to corrosion of the mating threads of the locking collar and inner body.
  • the hydraulic nut assembly preferably includes an anti-corrosive coating on the locking collar (1) and the inner body (6), such that all mating threads are coated to maximize the resistance to in-service corrosion.
  • round hydraulic nuts can be cumbersome to install on studs and there is a concern over corrosion and seizing of the nut.
  • Traditional round nuts can be difficult to turn on and off a stud.
  • a nut turning spanner ((20) in Figure 12) may be inserted over the hydraulic nipple or plug (21) on the end force of the nut, and using the second nipple or plug (22) on the opposite side of the nut as a reaction point, a clockwise or counter-clockwise movement of the nut turning spanner will easily thread on or thread off the hydraulic nut, which also helps overcome any corrosion bond between the hydraulic nut and its mating stud.
  • the cylinder wall may deflect outwardly in a radial direction, as explained hereinabove.
  • the increased stroke tends to also increase the wall deflection.
  • the seal must move outward with the wall to maintain contact and seal. In certain applications, limits may be imposed on the seal performance due to excessive wall deflection.
  • a tapered wall generally offsets some of the wall (23) deflection that may occur during high pressure and high stroke.
  • the wall (23) of the outer body (5) may be machined with a slight taper (24) in the inside cylinder, such that the inner diameter of the cylinder at the top is slightly smaller than the inside diameter at the bottom, by an amount which is generally similar to the radial deflection experienced by the nut during pressurization.
  • a method for installing a hydraulic nut comprising an inner body (6) having a top face (13), an outer body (5), a locking collar (1) having an exterior wall including a plurality of non-symmetrically distributed tommy bar holes (10), an annular pressure area (2) and a hydraulic pressure port (3) connected to the pressure area, such a hydraulic nut used for tensioning an assembly including a threaded stud, such a method comprising at least the following steps: a) threading the hydraulic nut over the stud; b) connecting a hydraulic fluid hose to the hydraulic pressure port (3); c) injecting hydraulic fluid through the hydraulic pressure port (3) in the annular pressure area (2) thus creating a gap between the locking (1) collar and the outer body (5); d) threading down the locking collar (1) over the inner body (6), preferably with the assistance of a tommy bar, until said gap between the locking collar (1) and the outer body (5) is closed; e) removing the hydraulic fluid from the pressure area (2) through the pressure port (3); f) disconnecting the hydraulic fluid hose from
  • step a) can be done with the assistance of the previously described nut turning device.
  • step a) can be done with the assistance of a spanner (20), such a spanner fitting on one (21) of the plugs and the spanner handle seating against a second plug (22).

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Clamps And Clips (AREA)

Abstract

L'invention concerne un écrou hydraulique pour tendre un ensemble, cet écrou comprenant un collier de fixation mécanique pour minimiser la perte de charge durant le transfert de la charge hydraulique au collier de fixation, un piston annulaire en forme de S' ou de Z' pour minimiser la hauteur de l'écrou hydraulique, une zone de pression annulaire pour générer une charge axiale sous pression hydraulique, une lumière de refoulement hydraulique et des joints métalliques pour maintenir la pression hydraulique à l'intérieur de la zone de pression annulaire qui agit dans une zone élastique et maintient l'effet de la pression hydraulique après des cycles thermiques opérationnels répétés. La présente invention porte également sur des écrous hydrauliques à joint en forme de U' ou de C' en matériau fin et rigide, sur des écrous hydrauliques à filets trapézoïdaux en saillie et sur un procédé pour utiliser ces écrous.
PCT/CA2005/000214 2004-02-19 2005-02-17 Ecrou hydraulique et procede d'utilisation associe WO2005080804A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CA2,457,968 2004-02-19
CA002457968A CA2457968A1 (fr) 2004-02-19 2004-02-19 Ecrou hydraulique
US10/886,959 2004-07-08
US10/886,959 US20050186050A1 (en) 2004-02-19 2004-07-08 Hydraulic nut assembly

Publications (1)

Publication Number Publication Date
WO2005080804A1 true WO2005080804A1 (fr) 2005-09-01

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ID=34888086

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CA2005/000214 WO2005080804A1 (fr) 2004-02-19 2005-02-17 Ecrou hydraulique et procede d'utilisation associe

Country Status (1)

Country Link
WO (1) WO2005080804A1 (fr)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3424080A (en) * 1967-08-23 1969-01-28 Lambros A Pappas Hydraulic tie rod nut
US3463044A (en) * 1967-05-05 1969-08-26 Joseph J Rossman Hydraulic holding devices
US3841193A (en) * 1972-06-02 1974-10-15 Tokyo Shibaura Electric Co Fastening device
US4075923A (en) * 1976-06-17 1978-02-28 Latham Raymond E Fastener tensioning apparatus
US5046906A (en) * 1987-09-29 1991-09-10 Bucknell John W Force applicators
US5285722A (en) * 1992-11-16 1994-02-15 The Minster Machine Company Press shutheight adjustment using hydraulic tie rod assemblies

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3463044A (en) * 1967-05-05 1969-08-26 Joseph J Rossman Hydraulic holding devices
US3424080A (en) * 1967-08-23 1969-01-28 Lambros A Pappas Hydraulic tie rod nut
US3841193A (en) * 1972-06-02 1974-10-15 Tokyo Shibaura Electric Co Fastening device
US4075923A (en) * 1976-06-17 1978-02-28 Latham Raymond E Fastener tensioning apparatus
US5046906A (en) * 1987-09-29 1991-09-10 Bucknell John W Force applicators
US5285722A (en) * 1992-11-16 1994-02-15 The Minster Machine Company Press shutheight adjustment using hydraulic tie rod assemblies

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