AU642521B2

AU642521B2 - A strut

Info

Publication number: AU642521B2
Application number: AU82050/91A
Authority: AU
Inventors: James William Walsh
Original assignee: Individual
Current assignee: Individual
Priority date: 1990-07-10
Filing date: 1991-07-10
Publication date: 1993-10-21
Anticipated expiration: 2011-07-10
Also published as: AU8205091A

Description

ANNOUNCEMENT OF THE LATER ri PUBLICATION OF AMENDED CLAIMS (AND, PCT WHERE *APPLICABLE STATEMENT UNDER ARTICLE 19) INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 5 (11) International Publication Number: WO 92/01120 E02D 17/08, E04G 15/06 Al E21D 15/20 (43) International Publication Date: 23 January 1992 (23.01.92) (21) International Application Number: PCT/AU91/00305 (81) Designated States: AT, AT (European patent), AU, BB, BE (European patent), BF (OAPI patent), BG, BJ (OAPI (22) International Filing Date: 10 July 1991 (10.07.91) patent), BR, CA, CF (OAPI patent), CG (OAPI patent), CH, CH (European patent), CI (OAPI patent), CM (OAPI patent), CS, DE, DE (European patent), DK, Priority data: DK (European patent), ES, ES (European patent), FI, PK 6324 10 July 1990 (10.07.90) AU FR (European patent), GA (OAPI patent), GB, GB (European patent), GN (OAPI patent), GR (European patent), HU, IT (European patent), JP, KP, KR, LK, LU, (71(72) Applicant and Inventor: WALSH, James, William [AU/ LU (European patent), MC, MG, ML (OAPI patent), AU]; 239 Scott Parade, Ballarat, VIC 3350 MR (OAPI patent), MW, NL, NL (European patent), NO, PL, RO, SD, SE, SE (European patent), SN (OAPI (74) Agents: HIND, Raymond, Stenton et al.; Davies Collis- patent), SU, TD (OAPI patent), TG (OAPI patent), US.

on, 1 Little Collins Street, Melbourne, VIC 3000 (AU).

Published With international search report.

With amended claims.

Date of publication of the amended claims: February 1992 (20.02.92) 642521 (54) Title: A STRUT lO.

(57) Abstract A strat for use in shoring trenches or tunnels comprises a pair of elongate arms 4) which are linked for pivotal movement about a common pivot axis so that the arms 4) can be moved from a collapsed condition to an extended condition.

When the arms 4) are moved into the extended condition such that they are substantially in the same plane, the arms 4) can be locked, one arm relative to the other arm, by means of a locking arrangement which is mounted on the arms The strut is adapted to be detachably mounted on a pair of panels (22) which line opposed walls (40, 42) of a trench (32) so that, in use, the strut is moved from its collapsed condition into its extended condition to maintain the panels (22) in a fixed spaced relationship.

See back of page WO 92/01120 PCT/AU91/00305 -1- A STRUT The present invention relates to a strut for use in shoring trenches or tunnels.

When a trench or tunnel is excavated, the unsupported side walls of the trench or the roof of the tunnel are susceptible to sudden collapse thereby posing a significant safety risk to personnel who may be working in the trench or tunnel and, in the case of a trench, personnel who may be in close proximity to the edges of the trench. It has been previously proposed to line the opposite side walls of a trench with wooden panels, commonly referred to as soldiers, following the excavation of a section of a trench, and then to insert a number of timber props between opposed panels to thereby keep the panels apart to prevent the walls from collapsing. However, in order to install these timber props it has been necessary for the operator to descend into the unsupported trench to position and mount the props. Further, the operator usually finds it necessary to trim the timber props to a more suitable length so that the soldiers can be better positioned in relation to the walls to match the specific shape of the trench. This method of shoring is inherently unsafe, inefficient and wasteful as the timber props are often discarded after the soldiers have been removed from the trench.

It has also been previously proposed, in an attempt to reduce the risk of injury to personnel working in or near the trench, to construct an assembly, comprising a pair of opposed panels, a number of length adjustable props which are linked to the panels and a threaded rod which engages each of the props. The assembly is lowered into a trench as a single unit and the props are then extended from above the trench by an operator who rotates -2a hand wheel which is fixed to an outer end of the threaded rod. However, such an assembly is very expensive to manufacture and extremely cumbersome and difficult to use.

Further, each strut is not individually length adjustable so that the soldiers cannot be adjusted separately to more closely match the shape of the particular trench after the props have been extended by the operator.

The present invention seeks to provide a strut which is simple in structure, inexpensive to manufacture and lightweight so that it can be installed speedily and efficiently by a single operator. The present invention also seeks to provide a strut which can be collapsed for mounting on a soldier set and which can then be extended, either from inside or outside a trench.

The present invention further seeks to provide a strut which may be used as a component of a shoring assembly which may be preassembled above ground for subsequent installation in a trench and which can be extended from outside the trench.

According to the present invention there is provided a strut for use in shoring trenches or tunnels comprising a pair of elongate members which are linked at adjacent inner ends 25 for relative pivotal movement from an extended condition to a collapsed condition, wherein when the members are in their extended condition the members are substantially co-linear and a free end portion of each member abuts against a respective shoring means whereby to brace the shoring means, and when the members are in their collapsed condition the free end portions of the members are relatively closer together to permit release of the strut from the shoring means, the arrangement !being such 'that the angle through which the members can move relative to each other from the extended condition to the collapsed condition upon application by cooperation between the members is restricted by cooperation between the members whereby a force applied to the strut in a direction opposite 930812p:\oper\mabwvalshcm,2 -3to said onQ direction will cause the members to move from the collapsed condition to the extended condition, and wherein locking means is carried on the members for releasably locking the members, one member relative to the other member, when the strut is substantially in its extended condition.

The members may be pivotable about a common pivot axis for movement from the extended condition to the collapsed condition. Further, the pivot axis may be fixed relative to the members. The locking means may comprise a latching means which is carried on the other one of the members and a receiving means which is carried on one of the members whereby the latching means is engagable with the receiving means to lock the members, one relative to the other, when the members are in their extended condition.

It is preferable that at least one of the members is length adjustable. The adjustable member or members may comprise two elongate arms which are slidable lengthwise relative to each other, for example the arms may be of substantially telescopic form, and each arm may have one or more bores therethrough which are capable of being aligned to receive a fixing element, for example a bolt, to thereby fix the length of the or each adjustable member.

Conveniently, one or both of the members may have an actuating lever which extends from the inner end of the or each member to provide leverage for extending the members.

30 It is envisaged that the strut of the present invention may be adapted for use in other orientations, for example, in the case of an extremely wide trench it may be desirable to shore a wall against the floor, rather than against an opposed wall. Here, the strut would be mounted between the floor and a soldier at an angle.

v 7. 93081 2p:\oper\mab,walskcldn,3 WO 92/01120 PC/AU91/00305 -4- It is also envisaged that the strut of the present invention may find application in the shoring of tunnels in which case the strut would be oriented substantially vertically between the roof and the floor of the tunnel to act as a support for the roof of the tunnel.

The invention will now be further described by way of example only with reference to the accompanyingdrawings in which: Figure 1 shows a side view of an embodiment of a strut in its collapsed condition; Figure 2 shows one panel of a soldier set for use with the strut of Figure 1; Figure 3 shows the strut of Figure 1 in use; Figure 4 shows a soldier set and two of the struts of Figure 1 which have been preassembled for lowering into a trench as a single unit; and Figure 5 shows a detail of Figure 4.

Referring now to Figure i, an embodiment of a strut of the present invention, generally indicated by the numeral i, comprises a pair of elongate arms 2, 4 which are linked for pivotal movement about a common pivot axis 6 so that the arms 2, 4 can be moved from a collapsed condition, as shown in Figure i, to an extended condition as shown in Figure 3. When the arms 2, 4 are extended so that they are substantially in the same plane, the arms 2, 4 can be locked, one arm relative to the other arm, by means of a locking arrangement 8 which is mounted on the arms 2, 4. A pivotal foot 10, 12 is mounted at a respective free end portion 14, 16 of each arm 2, 4 for WO 92/01120 PCT/A U91/00305 pivotal movement relative to its respective arm 2, 4 about an axis 17, and each foot 10, 12 is shaped to enable the strut 1 to detachably engage a soldier set 18, as will be described hereinbelow.

A soldier set 18 comprises a pair of substantially rectangular wooden ply panels 22, or soldiers, one of which is shown in Figure 2, each panel 22 usually-bing taller than it is wide. An elongate U-channel 24 which is fabricated from steel, or other suitable material, is mounted on one face'26 of the panel 22 and extends along the longest dimension of the panel 22 in a central region of the panel 22. The channel 24 has a longitudinal opening 28 which extends outwardly from the panel 22 and a number of steel cleats 30 are mounted, for example by welding or by means of bolts and nuts, at intervals along a web 31 of the channel 24 to receive the feet 10, 12 of the strut 1. The cleats 30 being generally L-shaped to thereby provide a recess for receiving a lower end portion 10a, 12a of the pivotal foot 10, 12 of the strut 1.

In use, for example in the shoring of a trench 32, after a section of the trench 32 has been excavated by shovelling or by operation of a back hoe, an operator measures the width and depth of the trench 32 to be shored and selects an appropriate soldier set 18 and lowers the soldier set 18 into the trench 32 until the bottom end 34 of the U-channel 24 of each panel 22 contacts the floor 36 of the trench 32. The operator, when selecting the soldier set 18 ensures that the soldier set 18 is sufficiently tall that a top end portidh 36 of the U-channel 24 will extend upwardly out of the trench 32 in accordance with standard practice. A wooden face 38 of each panel 22 is abutted against the mutually opposed earthen side walls 40, 42 of the trench WO 92/01120 PCT/AU91/00305 -6- 32 so that the openings 28 of the respective panels 22 face each other and a collapsed strut 1 is then lowered into the trench 32 and the feet 10, 12 of the strut 1 are inserted into the openings 28 of the U-channels 24 of the soldier set 18 and the collapsed strut 1 is permitted to slide downwardly until each foot 10, 12 comes to rest on a cleat 30. It is most preferable that the pair of cleats on which the feet 10, 12 of the strut 1 are to be mounted are substantially in the same horizontal plane so that when the arms 2, 4 of the strut 1 are ultimately moved to extend the strut 1, the extended strut 1 is then substantially horizontal. This ensures that the support strength of the strut 1 and soldier set 18 combination is maximised.

When the strut 1 has been mounted on the soldier set 18, the operator pushes downwardly on the arms 2, 4 to move the strut 1 into its extended condition, as shown in Figure 3. When the arms 2, 4 are sufficiently extended so that they are substantially in the same plane, the operator slides a lock bolt 44 of the locking arrangement 8 into a corresponding recess 46 which is welded onto the top face 48 of the arm 2. In the process of extending each strut 1 the earthen side walls 40, 42 will be slightly compacted. Therefore, to facilitate the movement of one arm relative to the other arm to extend the strut i, one arm 4 has an extension 50 which is welded onto the top face 51 of the arm 4 to give the operator sufficient leverage to extend the strut 1 against the reactive force of the trench walls 40, 42.

The operator usually fits more than one strut 1 to each soldier set 18, the number of struts 1 depending on the depth of the trench 32, generally the deeper the trench 32 the more struts 1 that are required. It is preferable, as a matter of safe working practice, to mount the first strut 1 near the top 52 of the trench 32 and then work downwardly into the trench 32 to mount the remainder of the struts i. After the operator has mounted the first strut i, a ladder (not shown) may be lowered into the trench 32 and, after the ladder has been secured, the operator can descend into the trench and mount the remaining struts 1 on the soldier set 18.

An additional safety feature of the present invention is that the members 2, 4 are unable to collapse completely so that if the walls of the trench 40, 42 were to suddenly give way, the soldier set 18 would still be kept apart, even if the distance between them is somewhat reduced. This is achieved by restricting the pivotal movement of one member 2, 4 relative to the other member, for example, by welding an abutment (not shown) on one member 2, 4 which prevents further pivotal movement of the other member 2, 4 relative to it.

In the embodiment of the strut 1 shown in Figure 1. both of the arms 2, 4 are of telescopic form to allow the length of each arm 2, 4 to be varied. Each arm 2, 4 comprising an outer arm 2a, 4a and an inner arm 2b, 4b the inner arms 2b, 4b being partially disposed within its respective outer arm 2a, 4a to allow lengthwise movement of the inner arms 2b, 4b relative to the outer arms 2a, 4a. Further, the arms 2a, 2b and 4a, 4b each have a series of transverse holes 54a, 54b bored therethrough which can be aligned, after the arm 2, 4 has been adjusted to a suitable length, to enable the operator "to insert a pin 56 to temporarily fix the length of the arms 30 2, 4. After all of the struts 1 for a particular soldier set 18 have been mounted, and each strut 1 has been extended, the operator may then safely work within the trench 32 to readjust, or fine tune, the length of each strut 1, one at a time, to adjust the panels 22 to more 930813,p:\oper\mab,washclhnm7 WO 92/01120 PCT/AU91/00305 -8closely match the specific shape of the side walls 42 of the trench 32. It may be determined, prior to mounting the struts on the soldier set 18, that a particular strut 1 is either too long, or not long enough, to safely span a freshly excavated trench 32. In such a situation, the operator can simply remove one or both of the telescopic arms 2b, 4b and substitute therefor another arm or arms 2b, 4b which are of a suitable length.

Alternatively, a shoring assembly 58 which comprises the soldier set 18 and the required number of struts 1, can be preassembled as a single unit at ground level for subsequent installation in the trench 32. This preassembly operation comprises, first of all, laying the soleier set 18 on the ground, so that each panel 22 rests on its longitudinal edge with each panel 22 having the longitudinal opening 28 of its U-channel 24 facing the corresponding opening 28 of the other panel 22 of the soldier set 18. Each strut 1 is then adjusted for length to suit the previously measured width of the trench 32 and all of the struts 1 are then mounted, in their collapsed condition, on the soldier set 18 in corresponding cleats 30. A lifting chain 60 is then connected to the top end portion 36 of each soldier 18 and the shoring assembly 58 is then lifted from the ground and lowered into the trench 32, as shown in Figure 4, by a back hoe, for example.

As the struts 1 are likely to extend under their own weight when the shoring assembly 58 is being lowered into the trench 32, respective lower end portions 61 of the face 26 of each panel 22 are linked by a chain 62 to prevent the struts 1 from extending. This being achieved by way of the chain 62 being shorter than an extended strut 1. As shown in Figure 5, the chain 62 is shackled WO 92/01120 PCT/AU91/00305 -9at one end 64 to the lower end portion 61 of the face 26 of one of the panels 22 and is detachably connected at its other end 66 to a corresponding lower end portion 61 of the corresponding panel 22 of the soldier set 18. The other end 66 of the chain 62 is connected to the panel 22 by means of a connecting arrangement 68 which comprises a slide bolt 70 which extends downwardly from the top of the soldier through a pair of spaced apart keepers 72, 74 which have a bore (not shown) to slidably receive the slide bolt 70. When preassembling the shoring assembly 58, prior to installing it into the trench 32, the slide bolt 70 is retracted from the connecting arrangement 68 and a link 76 of the chain 62 is inserted between the keepers 72, 74, the slide bolt 70 is then moved downwardly through the link 76 to thereby retain the chain 62. After the shoring assembly 58 has been lowered into the trench 32, the slide bolt 70 is again retracted to release the link 76 of the chain 62. The struts 1 can then be extended by the operator from outside the trench 32 by using a suitable probe (not shown) to press downwardly on the extension 50 of the arm 4 of each strut i.

The operator may then safely enter the trench 32 and engage the locking arrangement 8 for each strut 1 and, if required, fit a padlock (not shown) to each strut i.

When it is subsequently required to remove the shoring assembly 58 from the trench 32, the operator lowers a ladder (not shown) into the trench 32 and, after the ladder has been secured, the operator then enters the trench 32 and disengages each locking arrangement 8. The operator then climbs out of the trench 32 and, while standing on a pair of planks (not shown) which span the trench 32, uses an elongate probe (not shown) which has a hook at one end to engage the extension 50 of the arm 4.

WO 92/01120 PCT/AU91/00305 By pulling upwardly on the hooked probe, each strut 1 is collapsed in succession, preferably commencing with the bottom-most strut 1 and working upwardly towards the top 46 of the trench 32. The shoring assembly 58 is then removed from the trench by connecting the lifting chain to the back hoe, as before, and the shoring assembly 58 is lifted out of the trench 32 for subsequent dismantling.

The invention has been described by way of example only and modifications are possible within the scope of the inve'ntion.

Claims

2. A strut as claimed in claim i, wherein the members are pivotable about a common pivot axis for movement from ;he extended condition to the collapsed condition.
3. A strut as claimed in claim 2, wherein the pivot axis is fixed relative to the members.
4. A strut as claimed in any preceding claim, wherein the locking means comprises a latching means which is carried on one of the members and a receiving means which is carried on the other one of the members whereby the latching means is engagable with the receiving means to thereby lock the S members, one relative to the other, when the members are in 93081Zp:\oper\mab,walshclm,11 -12- their extended condition. A strut as claimed in any precedir claim, wherein each member has a pivotal foot mounted at a respective free end portion of the member, the pivotal foot being engagable with the shoring means.
6. A strut as claimed in any preceding claim, wherein at least one of the members is length adjustable.
7. A strut as claimed in claim 6, wherein the or each length adjustable member comprises at least two elongate arms which are slidable lengthwise relative to each other, each arm having one or more bores therethrough which are capable of being aligned to receive a fixing element to thereby fix the length of the or each adjustable member.
8. A strut as claimed in claim 7, wherein the or each adjustable member is of a substantially telescopic form.
9. A strut as claimed in any preceding claim, wherein at least one of the members comprises an actuating lever which extends from the inner end of the or each member to provide leverage for moving the members into the extended condition.
10. A strut substantially as hereinbefore described with reference to the drawings. DATED this 13th day of August, 1993 JAMES WILLIAM WALSH By his Patent Attorneys: S'DAVIES COLLISON CAVE 930812,p:\oper\mab,walsh.lm,12