AU2008207485A1 - Freeing of seized valves - Google Patents

Freeing of seized valves Download PDF

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Publication number
AU2008207485A1
AU2008207485A1 AU2008207485A AU2008207485A AU2008207485A1 AU 2008207485 A1 AU2008207485 A1 AU 2008207485A1 AU 2008207485 A AU2008207485 A AU 2008207485A AU 2008207485 A AU2008207485 A AU 2008207485A AU 2008207485 A1 AU2008207485 A1 AU 2008207485A1
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AU
Australia
Prior art keywords
valve actuating
impact force
valve
stem
actuating stem
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
Application number
AU2008207485A
Inventor
Robert Peter Enston
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ROBERT ENSTON
Original Assignee
ROBERT ENSTON
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 GB0120496A external-priority patent/GB2378997A/en
Priority claimed from AU2002321545A external-priority patent/AU2002321545A1/en
Application filed by ROBERT ENSTON filed Critical ROBERT ENSTON
Publication of AU2008207485A1 publication Critical patent/AU2008207485A1/en
Abandoned legal-status Critical Current

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Description

00 0 WO 03/019057 PCT/GB02/03917 ;1
DESCRIPTION
FREEING OF SEIZED VALVES The present invention relates to the freeing of seized valves and in particular 00 to the freeing of seized valves which are opened and closed by rotating a valve 00 actuating stem projecting out of a valve housing.
00 Flow control valves of all types for controlling the flow of water, gas, oil etc.) are frequently left completely undisturbed in the same position for extended periods of time, sometimes as long as tens of years. The valves may remain in a fully closed or fully open position or in an intermediate position between the two extremes.
When such valves are not regularly actuated it is common for scale to be deposited on the internal components of the valve, particularly on the valve actuating stem which must be rotated in order to change the degree of opening of the valve.
The build up of scale can be so severe that it becomes impossible to actuate the valve, particularly if the valve has not been used for many years.
It is an object of the present invention to provide a method and apparatus which enable such seized valves to be freed.
In accordance with a first aspect of the present invention, a method of freeing a seized valve having an elongate valve actuating stem projecting out of the valve comprises repeatedly applying an impact force to the valve actuating stem along its longitudinal axis.
Preferably, the impact force is applied to the valve actuating stem alternately in opposite directions along its longitudinal axis.
The repeated application of the impact force to the valve actuating stem along 00 WO 03/019057 PCTGB02/03917 2 its longitudinal axis induces vibration and, as a result of the inherent tolerances of the components within the valve, causes movement of those portions of the valve causing O seizure. This dislodges scale and other deposits and enables the valve to be moved.
00 The repeated application of the impact force may occur simultaneously with 00 application of a torque to the valve actuating stem. Alternatively, torque may be 0 applied to the valve stem after repeated application of the impact force.
In accordance with a second aspect of the present invention, an apparatus for freeing a seized valve having an elongate valve actuating stem projecting out of the valve comprises means for repeatedly applying an impact force to the valve actuating stem along its longitudinal axis.
Preferably, the apparatus comprises means for applying the impact force to the valve actuating stem alternately in opposite directions along its longitudinal axis.
The apparatus may comprise gripping means, e.g. a plurality of jaws, for gripping and engaging with a projecting portion of the valve actuating stem when an impact force is applied in a first direction to allow the gripping means to allow an impact force to be applied to the valve actuating stem in the opposite direction.
By way of example only, specific embodiments of the present invention will now be described, with reference to the accompanying drawings, in which:- Fig. 1 is a plan view of the uppermost portion of a typical valve stem; Fig. 2 is a side view of a first embodiment of valve freeing device in accordance with the present invention; Fig. 3 is a side view of a second embodiment of valve freeing mechanism in accordance with the present invention, shown in position on a valve stem; 00 W O 03/019057 PCT/GB02/03917 3 Fig. 4 is a side view of the mechanism of Fig. 3; Fig. 5 is an inverted plan view of the mechanism of Fig. 3; looking in the tn direction of arrow VI-VI in Fig. 4; 00 Fig. 6 is a plan view of a third embodiment of valve freeing mechanism in 00 accordance with the present invention; 00 Fig. 7 is a plan view of the top of a valve stem used in conjunction with the mechanism of Fig. 6; Fig. 8 is a side view of a portion of fourth embodiment of valve freeing mechanism in accordance with the present invention; Fig. 9 is a plan view of the portion of the valve freeing mechanism of Fig. 8; Fig. 10 is a side view of the completed fourth embodiment of valve freeing mechanism in accordance with the present invention; Fig. 11 is a diagrammatic, partly perspective view of a fifth embodiment of a valve freeing mechanism in accordance with the present invention; Fig. 12 is a diagrammatic longitudinal sectional view of the fifth embodiment; and Fig. 13 is a diagrammatic transverse sectional view of a bidirectional torque transfer arrangement of the fifth embodiment.
Referring firstly to Figs. 1 and 2, the uppermost portion of a typical valve stem 10 comprises a boss 12 projecting from an upper planar face 14 of the valve stem. The boss 12 is in the form of a truncated pyramid having an upper planar square face 16 extending parallel to the upper face 14 of the stem 10 and having four identical inclined side faces 18a, 18b 18c 18d. Conventionally, in order to rotate the 00 W O 03/019057 PCT/GB02/03917 4 valve stem, a key which is complementarily-shaped to the boss 12 is placed over and in contact with the boss and is rotated manually be means of a handle.
With reference to Fig. 2, the first embodiment of valve freeing apparatus in 00 accordance with the present invention comprises a central cylindrical shank 20 which 00 is formed into an impact head 22. The lower end of the impact head 22 carries a first 00 collar 23 and two pairs of opposed gripping fingers 24 project downwardly from the collar. The collar 23 and fingers 24 are made from slightly resilient metal so that they can flex slightly, as will be explained.
The shank 20 also carries a further collar 26 which in turn carries four downwardly depending fingers 28, each finger 28 adapted to engage the outer face of a respective one of the fingers 24 of the collar 23. The outer face of each of the fingers 24 is planar and slopes downwardly such that movement of the collar 26 towards the collar 23 causes the fingers 24 of the first collar 23 to flex inwardly.
The inner face of each of the fingers 24 is provided with a plurality of transversely extending upwardly directed teeth or barbs 30 which, as will be explained, are adapted to engage the outer faces 18a to 18d of the boss 12 of the valve stem.
The opposite end of the shank 20 is threaded externally at 32 for connection to a device a pneumatic or electrical power tool) for transmitting angular torque to the shank in a known manner. The uppermost end of the shank 20 is also provided with a threaded recess 34 for receipt of the nose of a vibration device (not illustrated) for applying longitudinal vibration to the shank In use, the apparatus is positioned over the free end of a valve stem 10 such 00 W O 03/019057 PCT/GB02/03917 that each the teeth 30 of each of the fingers 24 of the collar 22 lie in contact with a ¢r3 respective one of the inclined faces 18a to 18d of the valve stem boss 12. The torque- 00 applying device is then attached to the shank 20 as is the vibration device. Normally, 00 the vibration device will be activated first of all, which will cause the shank 20 to 00 vibrate in the longitudinal direction such that it moves to and fro along its 00 longitudinal axis. As the shank 20 moves downwardly, the impact head 22 contacts the upper face 16 of the valve stem boss 12. At the same time, the collar 26 moves downwardly with respect to the collar 23, causing the fingers 28 of the collar 26 to move relative to the fingers 24 of the collar 23, thereby displacing the fingers 24 inwardly, causing the elongate teeth 30 to bite into and engage with the outer faces 18a to 18d of the valve stem boss 12. Thus, as the shank 20 moves upwardly, the valve stem boss 12 and the valve stem 10 are also pulled upwardly.
The rapid upward and downward movement of the valve stem 10 along its longitudinal axis causes deposits, such as scale, on the valve stem to be dislodged, thereby allowing the valve stem to be rotated by means of the pneumatic or other power tool. The vibration may continue as the torque applying device rotates the shank 20 or may cease prior to rotation of the shank The vibration device might typically comprise a powered hammer arrangement whose output is connected via a spring a metal, hydraulic or pneumatic spring) to the apparatus. The powered hammer will provide the impact in the downward direction, whereas the spring will provide the impact in the opposite direction. However, other types of vibration device could be used.
The embodiment illustrated in Figs. 3 to 5 comprises a planar drive plate 00 0WO 03/019057 PCT/GB02/03917 6 from which a cylindrical attachment boss 52 projects perpendicularly from one face.
A guide plate 54 is secured to the undersurface of the drive plate by means of four tn cap screws 56 and two pairs of opposed retainer plates 58 are secured to the guide 00 plate by means of a respective securing pin 60. Each pin 60 also retains a tapered 001 wedge member 62 which is constrained to move vertically by sliding engagement 00 with its associated retainer plate 58.
The guide plate 50 also receives and retains two opposed pairs of jaws 64, the inner face of each jaw being inclined to correspond to the inclination of the faces of the valve stem boss and comprising laterally extending teeth 66, corresponding to the teeth 30 in the first embodiment. The jaws 64 are permitted a small degree of vertical movement, being limited in the downward direction by engagement of an enlarged head 65 against a shoulder 67 in the guide plate and being limited in the upward direction by abutment of the head 65 against the underside of the drive plate 50. The guide plate also receives and retains an impact head 68.
In use, and as illustrated in Fig. 3, the apparatus is placed over a valve stem boss such that the teeth 66 of the inner face of each jaw 64 lie in contact with a respective one of the inclined faces 18a to 18d of the valve stem boss 12. A vibration and torque inducing device is then attached to the boss 52 of the drive plate 50 and the vibration means is actuated, causing the drive plate, guide plate and tapered wedges also to vibrate.
As the drive plate moves downwardly, the impact head 68 engages the upper planar face 16 of the valve stem boss 12. The downward movement of the drive plate also causes the tapered wedges to move downwardly with respect to the jaws, causing 00 0WO 03/019057 PCT/GB02/03917 0 7 the jaws to deflect inwardly and causing the teeth of the jaws to engage the outer faces of the valve stem boss. As the drive plate moves upwardly, the engagement of the teeth of the jaws with the valve stem boss causes the valve stem boss 12 and the 00 valve stem 10 to be moved upwardly, and the upward and downward motion of the 00 valve stem continues as long as the vibration inducing apparatus is actuated. This 00 causes any scale or other deposits on the valve stem to be loosened, thereby facilitating its rotation. The valve stem may then be rotated by actuating the torqueinducing apparatus, either during or after vibration. The vibration device may conveniently be the same as that used for the first embodiment.
The embodiment of Fig.6 and 7 comprises a cuboidal cap 70 having a recess 72 in its lower end which is shaped to receive the projecting boss of the valve stem with each wall of the recess 72 engaging a corresponding one of the inclined faces of the boss 12 of the valve stem 10. It will also be observed that two aligned apertures 74, 76 are provided in two opposed walls of the recess 72. When the cap is placed in position on the boss 12 of the valve stem 10, the apertures 74, 76 are aligned with an aperture 78 drilled horizontally through the boss 12 of the valve stem from one face to another. This allows a securing bolt to be passed through the apertures 74, 78, 76 which effectively secures the cap 70 and the valve stem together.
The upper end of the cap 70 is also provided with a recess for receipt of apparatus for applying a torque and longitudinal vibration to the cap 70, as for the previous embodiment. As for the other embodiment, the cap 70 is first of all vibrated to dislodge scale and other deposits from the valve stem 10 and then the torque 00 0 WO 03/019057 PCT/GB02/03917 8 applying apparatus is actuated to rotate the valve stem. The vibration device may C-q conveniently be the same as that used for the first embodiment.
t0 Figs. 8 to 10 illustrate a wheel handle 90 which is secured to the boss 12 of 00 a valve stem 10. The wheel 90 comprises an outer annulus 92 and four spokes 94 00, arranged at right angles to one another and connected to the boss 12, secured by a nut 00 98.
As shown in Fig. 10, the apparatus for freeing the valve comprises a cylindrical shank 96, one end of which engages the upper end of the nut 98 retaining the wheel 90 in position on the boss 12. Towards the opposite end of the shank 96 a transversely extending cross-piece 100 is provided. Two securing arms 102 are pivotally mounted to the cross-piece 100, one at each end of the cross-piece, the lower ends of the arms 102 being formed into hooks 104 which are arranged to hook under a respective one of two opposed spokes 94. The upper end of the shank 96 is also provided with external threading 106 and a recess 108 for attachment of a torque-inducing device and a vibration device respectively, as for the previous embodiments.
As for the previous embodiments, the vibration-inducing device (which conveniently may be the same as for the previous embodiments) is firstly actuated.
During downward motion of the shank 96, the engagement of the shank 96 with the lug 12 causes the valve stem to move downwardly. Upon movement in the opposite direction, the engagement of the hooked portions 104 of the arms 102 causes the wheel and therefore the boss 12 and valve stem 10 to be moved upwardly.
Continuous upward and downward movement of the valve stem in this way dislodges 00 W O 03/019057 PCT/GB02/03917 9 scale and other deposits and allows the valve stem to be rotated by means of the
C",
rotation inducing device, either during or after vibration.
t The invention is not restricted to the details of the foregoing embodiments.
00 For example, in the first, second and fourth embodiments, the jaws need not be 00, clamped to the boss 12 by means of a clamping force applied as a result of impact 00 from the vibration device. Instead, or in addition, the jaws may be urged into clamping engagement with the boss hydraulically, pneumatically, magnetically, electrically or by any other suitable means.
Referring next to Fig. 11, there is shown highly diagrammatically a fifth embodiment. This differs primarily from the earlier embodiments in that the longitudinally acting impact force is applied manually rather than by a powered vibration mechanism. Tapered jaw arrangement 120 at the lower end of the apparatus is adapted to firmly grip the tapered boss 12 on the end of the valve stem as before, with a tapered interlocking retainer 122 holding the jaws in place, as described further hereinafter in connection with Fig. 12. The jaws are held on ajaw retainer 124 at the lower end of a piston assembly 126 which is itself part of a hydraulic actuator assembly 128. Above the hydraulic actuator assembly is a bidirectional torque transfer device 132 coupled to the hydraulic actuator assembly via a spring 130 and to a hand-bar 134 via a rotatable/reciprocable tubularjar 136. The hand-bar 134 carries a mass 138 that can be varied to suit the application.
For more details of the apparatus of Fig. 1 1, reference is now made to Figs.
12 and 13.
The tapered jaw arrangement 120 comprises four identical jaw members 140 00 0 WO 03/019057 PCT/GB02/03917 corresponding to the four faces of the tapered boss 12 to be gripped. The inner faces (Ni 142 of the jaw members 140 are basically planar but taper inwards towards the upper t ends of these members and carry teeth which are preferably upwardly directed as in 00 the earlier embodiments. The radially outer surfaces of the jaw members 140 are 00, arcuate and received within arcuate depending retainer members 144 of the tapered 00 interlocking retainer 122. The outer faces of the jaw members 140 and the inner members of the depending retainer members 144 carry circumferential threads which act to assist in holding the jaw members in position relative to the container members 144. The upper ends of the jaw members are carried by a ring 146 which is trapped within an annular recess 148 in a piston member 150 of the piston assembly 126. The piston 150 is slidably received within a cylindrical housing 152 which carries at its lower end the jaw retainers 144. The piston member 150 has an outwardly projecting annular flange 154 at its upper end which is received in the housing 152 and carries a first o-ring seal 156. The cylinder has an inwardly projecting annular flange 158 which receives the piston 150 and carries a second oring seal 160. Between the flanges 154, 158 there is defined an annular chamber 162 to which hydraulic fluid can be selectively provided via an inlet bore 164. At a distance above the piston 150 in the cylinder 152 there is fixed to the cylinder by pins 166 an annular stop member 168. Between the stop member 168 and the piston 150 is a coil spring 170, the stop member and piston having respective, mutually engageable anvil portions 168a, 150a.
In use, by applying hydraulic fluid to the chamber 162, the piston can be raised within the cylinder 152, typically by about lcm., to thereby raise the jaw 00 W O 03/019057 PCT/GB02/03917 11 members 140. Raising the jaw members causes them to move inwardly and grip the boss 12, the threads on the outer faces of the jaws cooperating with the threads on the t inner faces of the retainers 144 to hold the jaws in position. By this means the 00 tapered boss 12 is gripped rigidly relative to the cylinder 152. Removal of the oil 00 pressure in chamber 162 enables the jaws to be released, this being assisted by the 00 downward force of the spring 170 to give a quick-release action.
The cylinder 152 and the apparatus of Fig. 12 described thus far are connected to an upwardly extending rod 172 via the bi-directional torque transfer device 132 shown best in Figs. 11 and 13. The lower end of the rod 172 carries a rod portion 174 of smaller diameter to the bottom end of which is attached/formed a paddle-like member 176 which in plan view has the profile shown in Fig. 13, having a first pair of radially extending faces 178a, 178b, which are angularly separated by 1800 but are also coplanar. Fixed relative to the cylinder 152 are two segmental members 182, 184 defining pairs of angular spaced but coplanar faces 182a, 184a and 182b, 184b.
By this arrangement, the paddle part 176 can be moved, preferably by about 700, between two extremes wherein the faces 180a and 182a, and the faces 180b, 184b are in engagement and wherein the faces 178a, 184a and 178b, 182b are in engagement respectively.
The upper end of the rod 172 carries the crossbar/handle bar 134 which itself carries a mass 138 which can be varied to suit the application.
It will be noted from Fig. 11 that the fixed members 182, 184 defining the faces 182a, 182b, 184a, 184b are elongate in the vertical direction and that the paddle member 176 can therefore be displaced vertically from its position shown in Fig. 11, 00 0WO 03/019057 PCT/GB02/03917 12 in practice by several cms., whilst still transferring rotary torque from the rod 172 to the cylinder 152, in either rotational direction. It will also be appreciated that by 00 alternating the direction of rotation of the rod 172, the cylinder 152 can be subjected 00 to a plurality of alternating circumferential jolts/inpacts since the cylinder 152 is 00 stationary in the time that the paddle member is being moved through the 70 where 00 it is not in contact with either set of faces on the fixed members 182, 184.
Furthermore, when the rod 152 is lifted to displace the paddle wheel up the members 182, 184, at the top of the stroke there is an impact of the paddle wheel with a retaining stop on the cylinder 152 in the region 186. On the other hand, when the rod is dropped freely from this upper position, by manual releasing of the crossbar 134, the paddle wheel 176 falls under the weight of the rod 172, the cross member 134 and mass 138 so as to impact on the stop 168 fixed to the cylinder 152. Thus by lifting and dropping the crossbar 134 and variable mass 138, the cylinder 152, and hence the valve spindle when rigidly gripped by the jaws, can be subjected to longitudinal impacts in opposite directions. Furthermore, by alternate clockwise and anti clockwise rotations of the rod 172 by the crossbar 134 (shown displaced by 900 in Fig. 12), the cylinder 152 and hence the boss 12 when gripped by the jaws, can be subjected to torque with alternating circumferential impacts.
From the aforegoing its will be appreciated that: 1) The jaws can grip tapered spindles of various sizes and enable the apparatus to pull upwards against the spindle.
2) The variable mass facilitates the controlled use of the angular momentum to deliver the torque with just the right amount that prevents the spindle from being 00 W O 03/019057 PCT/GB02/03917 13 broken.
3) By altering the shape of the jaw members, the apparatus can be modified 00 easily to grip square spindles, round spindles or indeed spindles of any shape.
00 4) Upward facing serrations cut on the jaw face result in the grip being 00 tightened as the top section is pulled upwards.
00 The mass is variable to deliver more (or less) angular momentum with which to control the impact force.
6) The tapered interlocking retainer serves to lock the jaws when they have been hydraulically engaged.
7) In still other embodiments, the jaws do not need to be engaged hydraulically but could be engaged pneumatically, electrically, mechanically or magnetically induced to engage.
8) In still further embodiments, the manual operation of the fifth embodiment could be achieved by a powered drive, such as an air motor or hydraulic motor.
9) The "paddle member" need not be of the shape illustrated provided it enables a means of breaking/taking up the rotary drive to the cylinder.

Claims (25)

1. Apparatus for freeing a seized valve having an elongate valve actuating tn stem projecting out of the valve, comprising means for enabling the repeated 00 application of an impact force to the valve actuating stem along its longitudinal axis. (1 2. Apparatus as claimed in claim 1, comprising means for enabling the 00 application of the impact force to the valve actuating stem alternately in opposite directions along its longitudinal axis.
3. Apparatus as claimed in claim 2, comprising gripping means for gripping and engaging with a projecting portion of the valve actuating stem.
4. Apparatus as claimed in claim 3, wherein the gripping means comprises a plurality ofjaws. Apparatus as claimed in claim 3 or claim 4, wherein the gripping means is arranged to grip and engage a projecting portion of the valve actuating stem when an impact force is applied in a first direction to allow an impact force to be applied by the gripping means to the projecting portion of the valve actuating stem in the opposite direction.
6. Apparatus as claimed in claim 5, wherein the jaws comprise means for enhancing the engagement of the jaws with the projecting portion of the valve actuating stem.
7. Apparatus as claimed in claim 6, wherein the means for enhancing engagement of the jaws comprises a plurality of teeth members.
8. Apparatus as claimed in claim 7, wherein the teeth members are elongate.
9. Apparatus as claimed in claim 8, wherein the elongate teeth members are 00 0 WO 03/019057 PCT/GB02/03917 aligned substantially perpendicularly to the longitudinal axis of the valve actuating stem. tn 10. Apparatus as claimed in any of claims 5 to 9, comprising a base portion 00 to which the impact force is applied and wherein the gripping means is movable with 00 respect to the base portion in the direction of application of the impact force, the base 00 portion urging the gripping means into engagement with the projecting valve actuating stem upon application of the impact force.
11. Apparatus as claimed in claim 10, comprising camming surfaces on the base portion and on the gripping means for urging the gripping means into engagement with the projecting valve actuating stem upon relative movement of the base portion and the gripping means.
12. Apparatus as claimed in claim 10 or claim 11, wherein the base portion urges the gripping means into engagement with the projecting valve actuating stem upon application of an impact force in one direction.
13. Apparatus as claimed in claim 12, wherein the base portion urges the gripping means into engagement with the projecting valve actuating stem upon application of an impact force towards the stem.
14. Apparatus as claimed in claim 13, wherein the base portion comprises a shank to which the impact force is applied and the gripping means comprises a collar which is slidably disposed on the shank and opposed jaws for engaging opposite sides of a projecting valve actuating stem, the base portion and the opposed jaws comprising camming surfaces for urging the jaws in a gripping direction. Apparatus as claimed in claim 12, wherein the base portion urges the 00 WO 03/019057 PCTGB02/03917 ;16 C€ gripping means into engagement with the projecting valve actuating stem upon application of an impact force away from the stem. t 16. Apparatus as claimed in claim 15, wherein the impact force is applied to 00 the base portion and the gripping means comprises opposed jaws for engaging 00 opposite sides of a projecting valve actuating stem, the base portion and the opposed O jaws comprising camming surfaces for urging the jaws in a gripping direction.
17. Apparatus as claimed in claim 3, comprising a socket for engagement with the projecting portion of the valve actuating stem and means for securing the socket to the projecting portion.
18. Apparatus as claimed in claim 17, comprising a retaining member insertable into aligned apertures in the socket and the projecting portion.
19. Apparatus as claimed in claim 18, wherein the socket comprises aligned apertures in opposed portions and wherein the retaining member passes through one aperture in the socket, through the aligned aperture in the projecting portion and through the further aligned aperture in the socket. Apparatus as claimed in claim 18 or claim 19, wherein the retaining member comprises a retaining pin.
21. Apparatus as claimed in claim 2, comprising engagement means for engaging a handwheel connected to a valve actuating stem.
22. Apparatus as claimed in claim 21, wherein the engagement means comprise hook means for hooking under a portion of the handwheel.
23. Apparatus as claimed in claim 22, wherein the hook means is connected to a portion to which the impact force is applied. 00 0 WO 03/019057 PCT/GB02/03917 17
24. Apparatus as claimed in claim 3 or 4, including means enabling the closed jaws, when gripping the valve actuating stem, to be subjected to impact forces tn in a rotational direction relative to the longitudinal direction of the valve stem. 00 Apparatus as claimed in claim 24, wherein the impact forces in the 00 rotational direction are established by means of a rotary member which can be 00 angularly displaced in opposite directions between engagement with stop members fixed relative to the gripping means.
26. Apparatus as claimed in claim 25, wherein the angular displacement of the rotary member is achievable manually or by means of a powered drive.
27. Apparatus as claimed in claim 25 or 26, wherein said rotary member is displaceable longitudinally relative to said stop members whilst remaining engageable therewith, there being provided to define the extremes of the longitudinal movement of the rotary member respective stop members, engagement of the rotary member with said stop members providing said impact forces along the longitudinal axis of the valve stem.
28. Apparatus as claimed in claim 25, 26 or 27 wherein said rotary member is coupled to a mass which can be varied to suit the application.
29. A method of freeing a seized valve having an elongate valve actuating stem projecting out of the valve, comprising repeatedly applying an impact force to the valve actuating stem along its longitudinal axis. A method as claimed in claim 24, comprising applying the impact force to the valve actuating stem alternately in opposite directions along its longitudinal axis. 00 0 WO 03/019057 PCT/GB02/03917
31. A method as claimed in claim 24 or claim 25, further comprising application of a torque to the valve actuating stem. l
32. A method as claimed in claim 26, wherein the torque is applied 00 simultaneously with the application of the impact force. 0" 33. A method as claimed in claim 26, wherein the torque is applied after the O0 Srepeated application of the impact force.
34. A method as claimed in claim 29, wherein the valve is subjected also to repeated torsional impacts in opposite rotational directions.
AU2008207485A 2001-08-23 2008-08-23 Freeing of seized valves Abandoned AU2008207485A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
GB0120496.5 2001-08-23
GB0120496A GB2378997A (en) 2001-08-23 2001-08-23 Freeing of seized valves
AU2002321545A AU2002321545A1 (en) 2001-08-23 2002-08-23 Freeing of seized valves

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
AU2002321545A Division AU2002321545A1 (en) 2001-08-23 2002-08-23 Freeing of seized valves

Publications (1)

Publication Number Publication Date
AU2008207485A1 true AU2008207485A1 (en) 2008-09-11

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Family Applications (1)

Application Number Title Priority Date Filing Date
AU2008207485A Abandoned AU2008207485A1 (en) 2001-08-23 2008-08-23 Freeing of seized valves

Country Status (1)

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AU (1) AU2008207485A1 (en)

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