AU625495B2 - Force applicators - Google Patents

Description

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AL -AI..2 54 03188 AU-Al-25403/88 WORLD INTELLECTUAL PROPERTY ORGAPA^ J PCT International Bureau INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 4 (11) International Publication Number: WO 89/ 02807 29/02 Al (43) International Publication Date: 6 April 1989 (06.04.89) (21) International Application Number: PCT/AU88/00381 HU, IT (European patent), JP, KP, KR, LK, LU, LU (European patent), MC, MG, ML (OAPI patent), MR (22) International Filing Date: 29 September 1988 (29.09.88) (OAPI patent), MW, NL, NL (European patent), NO, RO, SD, SE, SE (European patent), SN (OAPI patent), SU, TD (OAPI patent), TG (OA PI patent), US.

(31) Priority Application Number: PI 4642 (32) Priority Date: 29 September 1987 (29.09.87) Published With international search report.

(33) Priority Country: AU (71)(72) Applicant and Inventor: BUCKNELL, John, Wentworth [AU/AU]; Unit 2, 11 Sevenoaks Street, Taringa, QLD 4068 (AU).

(74) Agent: PIZZEY, John, Pizzey Company, G.P.O.

Box 1374, Brisbane, QLD 4001 (AU).

(81) Designated States: AT, AT (European patent), AU, BB, BE (European patent), BG, BJ (OAPi patent), BR, CF

AUSTRALIAN

(OAPI patent), CG (OAPI patent), CH, CH (European patent), CM (OAPI patent), DE, DE (European 18 APR 1989 patenty( DK, FI, FR (European patent), GA (OAPI patent), GB, GB (European patent), I PATENT OFFICE (54) Title: FORCE APPLICATORS (57) Abstract A hydraulic nut (20) for tensioning a bolt (232) is disclosed having a stepped annular piston (22) slidable within a housing (21) for reducing the complexity of manufacture. The locking collar (27) is threaded to the housing (21) on a buttress thread (28) to minimise distortion due to thread loads and locks against the piston (22) instead of the clamped article for minimising tensile relaxation during transfer of load from the hydraulic tensioner to the locking collar (27).

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Title: "FORCE APPLICATORS" BACKGROUND OF THE INVENTION THIS INVENTION relates to improved force application apparatus.

This invention has particular but not exclusive application to the preloading of mechanical elements, and for illustrative purposes, reference will be made to such application. However, it is to be understood that this invention could be used in other applications, such as the raising of loads.

In the assembly of machinery, it is often difficult to apply the necessary preloads to bolts, studs, shafts and bearings by the use of conventional screwed fasteners, particularly in the case of large 15 machine elements. Hitherto, force applicators of the type using hydraulic pressure to apply preload to machine elements have suffered from a number of drawbacks. They must be pressurised by expensive, specialised pumps and their component shapes render them difficult to construct. Often the configuration of available applicators results in their being inconvenient to use in situations which occur frequently in the assembly and dismantling of machine components.

DESCRIPTION OF THE PRIOR

ART

25 Tensioning nuts for bolts or studs which *i include hydraulic tensioners are known, but their form and constructional features result in high manufacturing costs, rendering them useful only in a limited number of applications where their high cost can be justified.

Further, the constructional features of current tensioning nut designs result in the generation of undesirably high stresses and deflections within the apparatus, requiring the use of expensive materials and rendering the hydraulic seals susceptible to leakage. A further problem with current designs of

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2 tensioning nut is that differential deflections which occur within the apparatus during the transition from hydraulic tension to mechanical locking with a threaded collar or the like result in a relaxation in the applied tension.

The present invention aims to alleviate the above disadvantages and to provide force application means which will be reliable and efficient in use.

Other objects and advantages of this invention will hereinafter become apparent.

SUMMARY OF THE INVENTION With the foregoing and other objects in view, this invention in one aspect resides broadly in an hydraulic nut for applying a load to a threaded tensile member relative to a clamping surface through which the threaded tensile member projects, said hydraulic nut including: an annular housing being annular about an axis, said annular housing having a stepped annular 20 recess extending inwardly from an end face of the annular housing opposite to the clamping surface and .having a diameter thereto, the stepped annular recess defining a central bore for the threaded tensile member and forming a cylinder for a piston member, the annular 25 housing having an exterior threaded peripheral locking surface; a piston having an axial bore therethrough which is threaded to engage, in use, about the threaded tensile member and having a diameter thereto, said piston being of complementary stepped configuration to said stepped annular recess of said housing whereby said piston is slidably engaged in said housing, the diameter of said piston being greater than the diameter of said I housing so as to provide a peripheral flange radially outwardly of the exterior threaded peripheral locking r I v 3 surface of said housing, said flange having a bottom surface which defines a locking face, sealing means provided between the relatively movable surfaces of said housing and said piston, a locking collar having an internal thread engageable with the exterior threaded peripheral locking surface of said housing, said locking collar having an upper end surface engageable with said locking face of said piston when said locking collar is moved upwardly toward said piston following pressure application; said stepped annular recess of said housing and said piston having opposed pressure faces which define therebetween an annular chamber the volume of which depends upon the relative displacement of the piston relative to the annular housing; and to pressure application means communicating o through said piston to said annular chamber whereby i' pressurized fluid may be applied to and expand said 20 annular chamber to displace said piston relative to the said housing and tension said threaded tensile member, whereby, said locking collar can be screwed against said locking face of said piston so that the expansion of the annular chamber can be maintained, thus o 25 maintaining tension in the threaded tensile member when said pressure is released.

The annular housing includes an external thread for engagement with the internally-threaded locking collar. The external thread may be of any desired form, but preferably it is a buttress thread having the thrust face of the thread substantially perpendicular to the axis of the thread such that minimal spreading loads are applied to the collar as a result of axial loading.

The hydraulic nut may be formed with any desired sealing means between the annular housing and Ir riL--,I. j 3a the piston, such as a sealing ring in a U-shaped groove.

It is preferred, however, that a step-like external seal housing groove be formed between the external piston wall and the piston pressure face for supporting the external sealing means such that manufacture of the groove is simplified. The annular housing may also be formed with a step-like internal seal housing groove disposed between its minor bore and its pressure face for supporting the internal sealing means whereby manufacture may be simplified.

The pressure application means may include a hydraulic passage formed between the annular recess and the external surfa.:e of the piston or the annular housing, and the hydraulic passage may terminate externally in a hydraulic connector such as a sealable connector or a grease nipple.

S.The annular housing's pressure face may be formed of any desired size relative to the central passage. In a preferred embodiment, the area of the 20 housing pressure face is a selected multiple of the area of the central passage within the annular housing, the multiple being selected such that a tension appropriate to the rated working load ina bolt passed through the central passage may be generated by the application to 25 the annular recess of grease at a pressure attainable with an automotive grease gun.

BRIEF DESCRIPTION OF THE DRAWINGS S0In order that this invention may be more coo..o easily understood and put into practical effect, reference will now be mfde to the accompanying drawings which illustrate a preferred embodiment of the invention, wherein:- FIG. 1 is a cross-sectional view of a hydraulic nut; and FIG. 2 is a cross-sectional view of a 14C 4 has an annular housing 11 in which a stepped piston 12 slides and to which the stepped piston 12 is sealed by O-rings 13. A locking sleeve 14 is threaded onto the outside of the housing 11 and may be wound down into engagement with a clamping surface after the desired clamping force has been achieved by pressurising the stepped piston 12. A screw thread 15 engages with a bolt passing through the central hole 16, and a hexagon 17 formed on the outside of the housing 11 facilities rotation of the assembly 10 by means of spanners.

The hydraulic nut assembly 20 shown in FIG. 2 has an annular housing 21 in which a stepped piston 22 slides and to which the stepped piston 22 is sealed by S" inner and outer self-energising seal rings 23, 24, the 15 seal rings 23, 24 being located in stepped recesses 26 respectively. A locking sleeve 27 is threaded onto a buttress thread 28 along the outside of the piston 22 ,".and may be wound up into engagement with the flange 29 of the housing 21 to lock the assembly 20 at a 20 particular extension after the desired clamping force I has been achieved by pressurising the chamber 230 between the stepped piston 22 and the housing 21. An s internal screw thread 231 engages with a bolt 232.

A hydraulic passage 233 leads from the chambei 25 234 to a grease nipple 235 in the upper face of the f37 piston 22. The lower section .2-3i of the piston 22 is of a reduced diameter relative to the bulk of the piston 22, increasing the longitudinal flexibility of the lcwer section 237 and thus sharing the load transfer between bolt 232 and internal thread 231 over a great number of threads.

In use, the housing 21 with the locking collar 27 screwed down along the buttress thread 28 is placed around the shank of the bolt 232 and on a clamping surface 236 from which the bolt 232 projects. The seals 1 23, 24 are placed within the housing 21 and the piston 22 is screwed down around the bolt 232 to its maximum depth within the housing 21. Pressurised hydraulic fluid ic pumped into the chamber 230 through the grease nipple 235, forcing the seals 23, 24 into the recesses 24, 25 respectively, and then forcing the piston 22 away from the housing 21, tensioning the bolt 232. When the pressure within the chamber 230 reaches a value giving the desired preload in the bolt 232, the locking collar 27 is screwed up along the buttress thread 28 until it is locked against the flange 29.

As a consequence of their shapes, the deflections of the piston 22 and the housing 21 as a result of the hydraulic pressure within the chamber 230 and the resultant applied loads to the bolt 232 and the clamping surface 236 combine to minimise variations in the clearance between the piston 22 and the housing 21,

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enhancing the sealing efficiency of the seals 23, 24, and minimising loss of tension in the bolt 232 during the transition between hydraulic tensioning and mechanical locking with the locking collar 27. The shape of the housing 21 also provides a tapering conical load path between the load-bearing upper end of the buttress thread 28 and the lower face ;\238 of the housing 21, enhancing the uniformity of load distribution over S"the lower face.

It will, of course, be realised that while the above has been given by way of illustrative example of this invention, all such and other modifications and variations thereto as would be apparent to persons skilled in the art are deemed to fall within the broad scope and ambit of this invention as is herein set forth.

Claims (8)

1. An hydraulic nut for applying a load to a threaded tensile member relative to a clamping surface through which the threaded tensile member projects, said hydraulic nut including: an annular housing being annular about an axis, said annular housing having a stepped annular recess extending inwardly from an end face of the annular housing opposite to the clamping surface and 10 having a diameter thereto, the stepped annular recess defining a central bore for the threaded tensile member and forming a cylinder for a piston member, ,he annular So"' :housing having an exterior threaded peripheral locking surface; a piston having an axial bore therethrough which is threaded to engage, in use, about the threaded tensile member and having a diameter thereto, said piston being of complementary stepped configuration to said stepped annular recess of said housing whereby said piston is slidably engaged in said housing, the diameter of said piston being greater than the diameter of said 1 housing so as to provide a peripheral flange radially outwardly of the exterior threaded peripheral locking surface of said housing, said flange having a bottom surface which defines a locking face, sealing means provided between the relatively movable surfaces of said housing and said piston, a locking collar having an internal thread engageable with the exterior threaded peripheral locking surface of said housing, said locking collar having an upper end surface engageable with said locking face of said piston when said locking collar is moved upwardly toward said piston following pressure application; said stepped annular recess of said housing I" su i 7 and said piston having opposed pressure faces which define therebetween an annular chamber the volume of which depends upon the relative displacement of the piston relative to the annular housing; and pressure application means communicating through said piston to said annular chamber whereby pressurized fluid may be applied to and expand said annular chamber to displace said piston relative to the said housing and tension said threaded tensile member, whereby, said locking collar can be screwed against said locking face of said piston so that the expansion of the annular chamber can be maintained, thus maintaining tension in the threaded tensile member when said pressure is released.

2. The hydraulic nut as claimed in Claim 1 wherein: S. the internal thread of said locking collar and the threaded locking surface of said housing when under load engage at faces which are radially 20 perpendicular to the axis.

3. The hydraulic nut as claimed in either of Claim 1 or Claim 2 wherein: n: the exterior threaded surface of said housing is a buttress thread.

4. The hydraulic nut as defined in any one of Claims 1 to 3 wherein: said annular housing is formed with a step- like groove disposed between its bore and its pressure 0face for supporting an internal sealing means, and said piston is formed with a step-like external seal housing disposed between its external wall and its pressure face for supporting an external sealing means.

The hydraulic nut of Claim 4 wherein: said housing defines a lower stepped portion OIL p d to Kx 3. The hy r u i nut--- as;- cla.~ied in eithe Claim~~~~: 1 rCli 2weri: j 8 adjacent said bore and adapted to receive a lowermost section of said piston prior to application of pressure, said lowermost section of said piston serving to provide a relatively elongated thread surface for more expedient transfer of the load.

6. The hydraulic nut as defined in any one of the preceding claims wherein: said pressure application means includes an hydraulic passage extending between said annular chamber 10 and the external surface of said piston, and a grease nipple mounted on an external surface of said piston.

7. The hydraulic nut as defined in any of the preceding claims wherein: c the central bore has a characteristic cross 15 sectional area and the radial area of said annular chamber is a selected multiple of the cross sectional area of the central bore, said multiple being selected such that the tension in the threaded tensile member may be generated by the application to the annular chamber of grease from an automotive grease gun. e:

8. An hydraulic nut substantially as hereinbefore i described with reference to the accompanying FIGS. 1 and 2. i ;i ft /f -a S^