AU569210B2 – Inertia stop for sudden loads
– Google Patents
AU569210B2 – Inertia stop for sudden loads
– Google Patents
Inertia stop for sudden loads
Info
Publication number
AU569210B2
AU569210B2
AU38872/85A
AU3887285A
AU569210B2
AU 569210 B2
AU569210 B2
AU 569210B2
AU 38872/85 A
AU38872/85 A
AU 38872/85A
AU 3887285 A
AU3887285 A
AU 3887285A
AU 569210 B2
AU569210 B2
AU 569210B2
Authority
AU
Australia
Prior art keywords
shaft
unit
block
relatively
fixed
Prior art date
1984-01-27
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.)
Ceased
Application number
AU38872/85A
Other versions
AU3887285A
(en
Inventor
Luis Santos
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.)
Altrad Babcock Ltd
Original Assignee
Babcock Power 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.)
1984-01-27
Filing date
1985-01-28
Publication date
1988-01-21
1985-01-28
Application filed by Babcock Power Ltd
filed
Critical
Babcock Power Ltd
1985-08-09
Publication of AU3887285A
publication
Critical
patent/AU3887285A/en
1988-01-21
Application granted
granted
Critical
1988-01-21
Publication of AU569210B2
publication
Critical
patent/AU569210B2/en
2005-01-28
Anticipated expiration
legal-status
Critical
Status
Ceased
legal-status
Critical
Current
Links
Espacenet
Global Dossier
Discuss
Classifications
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
F16L3/00—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets
F16L3/16—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets with special provision allowing movement of the pipe
F16L3/20—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets with special provision allowing movement of the pipe allowing movement in transverse direction
F16L3/202—Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets with special provision allowing movement of the pipe allowing movement in transverse direction the transverse movement being converted to a rotational movement
Description
Improvements in or relating to Inertia Stop for Sudden Loads
DESCRIPTION
In means by which pipe work is supported, it may be necessary to accommodate some movement in the pipe work as a result of variations in surrounding conditions. It may also be necessary, though, to ensure that sudden 51oads on the pipe work will not result in intolerable movement of the pipe work and the present invention arose from a consideration of the ways in which appropriate support might be achieved.
According to the present invention, there is pro- lOvided an inertia stop by which excessive movement between two members may be prevented, comprising a unit that may be fixed to one of the members and a further unit that includes a free component and a component that may be fixed to the other of the members, one com-
15ponent being in the form of an externally threaded shaft and the other component being in the form of an intern¬ ally threaded block that is loosely rotatable.on, relatively to, the shaft with the threads engaging so that the free component may rotate relatively to the other 0between a position in which, it is dissociated from the first unit and a position in which it engages with the first unit so that further rotation in that direction is prevented, resilient means being included in the stop to establish a separation between the free component 5and the other unit during acceptable relative movement
of the members but that will be overcome by the inertia of the free component relatively to the fixed component resulting from an unacceptable relative movement of the members to an extent that permits the free component to come into contact with the other unit.
By way of example an embodiment of the invention will now be described with reference to the accompany¬ ing drawings in which:- Figure 1 shows in axial section an inertia stop by which the excessive movement of a pipe or other component, laterally towards a support may be prevented;
Figure 2 is perspective view of the stop that is shown in section in Figure 1; Figure 3 shows in axial section a modification of what is shown in Figure 1 so that excessive rotation of a component relatively to a support may be prevented
Figure 4 shows schematically an ineitia, stop that can be operated by sudden movement of a pipe or other component either towards or away from a support; and
Figure 5 shows in axial section another embodiment of the invention by which sudden axial rotation of a component relatively to a support may be inhibited. The stop shown in Figure 1 includes a-f-irst -unit 1 and a further unit 2.
The further unit 2 includes, as one component, a shaft 10 provided at one end with means 11 by which it may be fixed to a pipe or other component that is to be supported. The end of the shaft 10 remote from
the means 11 is smooth for about half the length of the shaft whilst between the smooth part and the means 11 it is provided with an external thread 12 of high constant pitch. This thread 12 may be envisaged as a parallel sided strip wound round, and fixed to, the shaft rather then being of more usual V-shaped cross- section.
The unit 12 includes a second component that com¬ prises a massive circular block 15 internally threaded so that it can rotate easily and loosely on the threaded part of the shaft 10. At the end remote from the means 11, the block 15 is provided with a central recess 16 that contains an inset 17 mounted on balls 18 so that it can revolve freely within the block 15.
The first unit 1, which serves as an anchor means, comprises essentially a hollow tube 10 having means 21 at one end by which it may be connected to a fixed support. The end of the tube 20 remote from the means 21 receives the smooth end of the shaft 10. The end that receives the shaft is provided with a cylindrical enlargement 24 having, at its outer end, a recess 25. A helical spring 26 lies co-axially around the sha t 10 and is fixed ar one end within the recess 25 and at • other end to the inset 17. The length of the spring 26 is such as normally to maintain a small maximum spacing between the block 15 and the enlargement 24.
As is shown clearly in Figure 2, the part of the enlargement 24 that surrounds the recess 25 is shaped to provide a ring of teeth 27. A ring of similar teeth *2B is provided on the acing end of the block 15, around the inset 17. Each tooth has one side that is parallel to the axis of the shaft 10 and
one other side that slopes from the outer end of one tooth to the inner end of the next. The teeth are such that by winding the block 15 along the shaft 10 with the anchor means, unit 1, stationary, the rings of teeth may be brough into mesh with each other and the disposition of the teeth is such that such movement brings the straight sides of the teeth of one ring into abutment with the straight sides of the teeth of the other ring Now suppose that the stop that has been described is fixed by the means 11 to a pipe and by the means 21 to a fixed support and that in use the pipe moves slowly towards the fixed support. The anchor means, i.e. the unit 1, will move along the shaft 10 and the spring 16, becoming slightly com¬ pressed, will cause the block 15 to roll, guided by the threads 12, along the shaft 10 in correspondence with the movement of the pipe. Suppose, then, that the pipe tends to move more violently towards the fixed support. The sudden movement will not be reflected in a sudden movement of the block 15, which will react more slowly due to its inertia with the result that the anchor means will move, relatively, towards the block 15, compressing the spring 26. If the sudden movement is large enough, the spring will be compressed sufficiently for the rings of teeth 27 and 28 to engage each other so that further relative movement between the units is prevented and the pipe is held against further movement.
When the forces tending to compress the spring 26 have been released, it will expand to establish the normal separation between the block 15 and the unit 1. If the pipe moves further in the opposite sense to that which effected compression the spring will draw the block along the shaft in that direction.
The stop that has been described, which was intended to inhibit excessive lateral movement of a pipe relatively to a support may be modified to provide a support against excessive rotation of one component relatively to a support. The modification consists of providing threads 12a on the part of the sha t 10 that, in the previous embodiment, was not threaded and providing the bore in the tube 20a with co-operating threads. The additional threads 12a may be of the same, or a different, pitch and angle as those previously mentioned. The cylindrical enlarge¬ ment 24a carries a cap 28 mounted on it by means of balls so that the cap 28 can rotate easily relatively to the enlargement 14a. Spring 26 is connected to the cap 28 rather than to the enlargement 14a and the end of the cap 28 that faces the teeth on the block 15 is provided with co-operating teeth.
If the rotation of a component connected to the end 29 of shaft.10 is slow, then the relative rotation between the anchor means and the shaft is slow and the block 15 will correspondingly rotate along the shaft 10 to permit such movement. If, however, there is a sudden tendency to rotation, the shaft will be screwed
more quickly relatively to the anchor means by the sudden movement, but the change in movement will not be reflected in a sudden movement of the block 15. along the sha t 10 which will react more slowly due to its inertia, with the result that the block and the anchor means will move relatively towards each other until the spring 26 is sufficiently com¬ pressed for the teeth to engage and prevent further relative movement. The somewhat schematic illustration in Figure 4 illustrates a modification of what is shown in Figure 1 allowing locking of the inertia stop to be effected in either sense – by compression or tension. In this, there is a single translational unit 30, comparable to the unit 1 of Figure 1, between two rotational units 31, comparable to the block 15 and the threads 12 of Figure 1, with springs 32 inter¬ posed between each unit 31 and the unit 30.
The embodiment shown in Figure 5 is also intended to inhibit sudden and excessive rotational movements.
A sha t 50, threaded at 52 extends through a block 55 that is internally threaded to co-operate with the threads 52. An inset 57 is let into one end (the opposite to that in which the inset is shown in Figure 1) of the block 55 and is rotatable therein on balls 58.
A spring 60.extends between the inset 57 and a flange 61 at the adjacent end of the shaft 50.
The end of the shaft 50 remote from the flange 61 is provided with a massive buffer 64 at the end of which is aringof teeth 65 similar to the ring of teeth 28. The block 55 is integral and concentric with, and about mid-.way along, a tube 70. The end of the tube 70 nearest the flange 61 is provided with means 71 that can be connected to the component in which only moderate rotation is to be allowed. The other end of the
tube 70 extends beyond the buffer 65 and is received in a fixed support 80 acting as anchor means and providing balls 81 that locate, but permit rotation of, the endof the tube.70. Concentric with the tube 70, the support 80 provides a ring of teeth 81 which can engage, in the manner described with reference to Figures 1 and 2, with the teeth 65.
If the tube 70 (and the component that the device is to protect) rotates at a slow speed, then the shaft 50 rotates with it. Should the speed increase, however, the inertia of the shaft 50, and the buffer 64 that it carries, will tend to prevent its rotation so that the effect of the engagement of the thread 52 on the shaft 50 with the thread in the block 55 will cause the shaft 50 to move relatively to the block 55 towards the fixed support 80. Engagement with that will prevent further axial movement of the shaft 50 and prevent rotational movement of the tube 70. It will be realised that the stops that have been described will permit slow movement of whatever is connected to the anchor means but provide restraint against excessive movement that would result from sudden loads. They may be produced cheaply and are not cumbersome or greedy of space. Moreover, once the excessive load has been removed, so too is the locking effect. The load that the stop can accept before locking takes place is dependent upon the inertia.of the block and the anchor means, the angle and pitch of the threads
on the shaft, the stiffness of the spring, and the normal gap between the block and the anchor means. The depth and pitch of the teeth that engage as the block and anchor means approach each other may also be varied.
Whilst the use of the devices that have been described has been related to the positioning of a pipe, they may be more generally used in the restraining of loads resulting from safety/relief valve blow, pipe whip, wind loading, conventional support failure, and other situations in the conven¬ tional and nuclear power industries,perochemical, petroleum and other industries.
Claims (8)
1. An inertia stop by which excessive movement between two members may be prevented, comprising a unit that may be fixed to one of the members and a further unit that includes a free compoment and a component that may be fixed to the other of the members, one component being in the form of an externally threaded shaft and the other component being in the form of an internally threaded block that is loosely rotatable on, relatively to, the shaft with the threads engaging so that the free component may rotate relatively to the other between a position in which it is dissociated from the first unit and a position in which it engages with the first unit so that further rotation in that direction is prevented, resilient means being included in the stop to establish a separation between the free component and the other unit during acceptable relative movement of the members but that will be overcome by the change in inertia of the free component relatively to the fixed component resulting from an unacceptable relative movement of the members to an extent that permits the free component to come into contact with the other unit.
2. An inertia stop as claimed in claim 1 in which the free component and the first unit are each provided with a ring of teeth and it is engagement of the rings of teeth with each other that is effective to prevent further rotation.
3. An inertia stop as claimed in claim 2 in which each of the teeth associated with the first unit has a side that is parallel to the axis and a second side that inclines from an end of the first side of one tooth to the other end of the first side of the next tooth, the teeth of the other ring are similar and such that, when the rings of teeth engage, the first sides of the teeth of one ring abu the first sides of the teeth of the other ring.
4. An inertia stop as claimed in any of the preceding claims in which it is the shaft that may be fixed relatively to one of the members and. the other unit may move relatively to the shaft only with a reciprocat¬ ing motion.
5. An inertia stop as claimed in claim 4 in which the resilient means is a helical spring encircling the shaft, one end of the spring is fixed to the other unit and the other end of the spring is connected to an inset, set into the block that may rotate on the shaft and relatively to which the block can rotate on balls.
6. An inertia stop as claimed in any of claims 1 to 3 in which it is the shaft that may be fixed relatively to one of the members and the other unit may move rotationally along the shaft by engagement with threads on the shaft.
7. An inertia stop as claimed in claim 6 in which the resilient means is a helical spring encircling the shaft and the spring is fixed at one end to an inset set into said other unit and relatively to .which the other unit can rotate on balls, the spring being fixed at the other end to an inset set into the block and relatively to which the block can rotate on balls.
8. An inertia stop as claimed in any of claims 1 to 3 in which the block is fixed within a tube that is co¬ axial with the shaft, one end of the tube is fixed to one of the members and the other end of the tube is mounted to rotate within the other unit, the shaft extends from both ends of the block and the resilient means is in the form of a helical spring that extends around the end of the shaft remote from the other unit, the spring being connected at one end to the shaft and at the other en to an inse set into the block relatively to which the block can rotate on balls
AU38872/85A
1984-01-27
1985-01-28
Inertia stop for sudden loads
Ceased
AU569210B2
(en)
Applications Claiming Priority (2)
Application Number
Priority Date
Filing Date
Title
GB8402189
1984-01-27
GB848402189A
GB8402189D0
(en)
1984-01-27
1984-01-27
Inertia stop for sudden loads
Publications (2)
Publication Number
Publication Date
AU3887285A
AU3887285A
(en)
1985-08-09
AU569210B2
true
AU569210B2
(en)
1988-01-21
Family
ID=10555639
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
AU38872/85A
Ceased
AU569210B2
(en)
1984-01-27
1985-01-28
Inertia stop for sudden loads
Country Status (6)
Country
Link
US
(1)
US4669584A
(en)
EP
(1)
EP0171405B1
(en)
AU
(1)
AU569210B2
(en)
DE
(1)
DE3569807D1
(en)
GB
(1)
GB8402189D0
(en)
WO
(1)
WO1985003335A1
(en)
Families Citing this family (8)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
DE3907251C2
(en)
*
1989-03-07
1994-05-05
Sifa Sitzfabrik Gmbh
Device for preventing unintentional movements with at least one surface that can be tilted about an axis, such as the back of chairs, door flaps on cupboards, etc.
US5558182A
(en)
*
1995-04-25
1996-09-24
The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration
Bending and torsion load alleviator with automatic reset
US20040000456A1
(en)
*
2001-01-16
2004-01-01
Koleda Michael T.
Shaft vibration damping system
US6702076B2
(en)
*
2001-01-16
2004-03-09
Michael T. Koleda
Shaft vibration damping system
DE10214419A1
(en)
*
2002-03-30
2003-10-30
Ennepetaler Schneid Maehtech
Tool with at least one tool that can be driven by a motor and a brake that stops the tool
US8011856B2
(en)
*
2007-08-10
2011-09-06
Mendel Nock
Constant thrust restraint of pipeline walking
TW200918788A
(en)
*
2007-10-26
2009-05-01
Univ Nat Taiwan
Screw-type inerter mechanism
FR3120926B1
(en)
*
2021-03-17
2023-02-24
Reel
MECHANICAL LOCKING DEVICE FOR A LINEAR MOVEMENT BETWEEN TWO STRUCTURES
Family Cites Families (5)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US4094387A
(en)
*
1975-10-08
1978-06-13
International Vibration Engineering
Inertia dependent device for preventing and permitting relative rotation between two members
US4105098A
(en)
*
1977-09-30
1978-08-08
Pacific Scientific Company
Large locking snubber
JPS5481469A
(en)
*
1977-12-13
1979-06-28
Sanwa Tekki Corp
Friction brake type vibration isolator
US4287969A
(en)
*
1979-12-21
1981-09-08
Nhk Spring Co., Ltd.
Motion snubbing device
DE3245081A1
(en)
*
1981-12-07
1983-06-09
Westinghouse Electric Corp., 15222 Pittsburgh, Pa.
SHOCK ABSORBER
1984
1984-01-27
GB
GB848402189A
patent/GB8402189D0/en
active
Pending
1985
1985-01-28
DE
DE8585900711T
patent/DE3569807D1/en
not_active
Expired
1985-01-28
EP
EP85900711A
patent/EP0171405B1/en
not_active
Expired
1985-01-28
US
US06/779,289
patent/US4669584A/en
not_active
Expired – Fee Related
1985-01-28
AU
AU38872/85A
patent/AU569210B2/en
not_active
Ceased
1985-01-28
WO
PCT/GB1985/000039
patent/WO1985003335A1/en
active
IP Right Grant
Also Published As
Publication number
Publication date
DE3569807D1
(en)
1989-06-01
AU3887285A
(en)
1985-08-09
US4669584A
(en)
1987-06-02
GB8402189D0
(en)
1984-02-29
WO1985003335A1
(en)
1985-08-01
EP0171405A1
(en)
1986-02-19
EP0171405B1
(en)
1989-04-26
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