[email protected]WALERS AND STRUTS MGF TECHNICAL FILE 5.3.1 Issue 3 Description Simple to assemble, two sided, hydraulic bracing system designed to be used with steel trench sheets to horizontally brace small trenches for the safe installation of utilities. The range comprises seven types of waler rail and two sizes of hydraulic waler strut together with 0.25m, 0.5m and 1.0m strut extension bars. The system can support trench widths of 0.6m to 3.8m and is normally installed using excavators. MGF also provide Vertishore, a light weight hydraulic system used to brace small trenches vertically. Fabricated from either grade S275/S355/S460 steel profiles or grade 6082T6 alumium profiles, the waler rails are attached to the hydraulic struts using simple pin and retaining clip assemblies. The 250kN hydraulic struts attach to the 152 UC Waler using clamps or cleats. Each strut contains a hydraulic ram with between 300mm and 670mm of stroke. Connecting the rams (via hydraulic hoses) to an MGF hand operated hydraulic pump unit containing hydraulic shoring fluid allows the trench widths to be quickly and easily adjusted to suit the excavation dimensions. Once the trench frames are fully assembled and located at the correct line and level, the rams are pre-loaded against the trench sheets using a hydraulic pump. Pre-loading of the legs ensures the frame cannot slip and minimises the extent of potential ground movements. Self sealing quick release valves and mechanical isolation valves ensure that the hydraulic ram pressure cannot be accidently released once installed. Handling and restraining points are provided on each waler to assist assembly / removal and to allow the brace to be supported off MGF restraining chains attached to the trench sheets by hooks. MGF can supply the systems with a full range of suitable handling and restraining chains, Edgesafe edge protection panels, Endsafe end protection panels and struts, Laddersafe access platforms and pole ladders, Davitsafe retrieval / fall arrest systems, hydraulic pump installation kits (including bio-degradable shoring fluid and hydraulic hoses) and confined spaces regime equipment. Manufactured and designed in accordance with BS EN 14653:2005 PARTS 1 and 2 Manually operated Shoring Systems for Groundwork Support and BS 5975 (2008) Code of Practice for Temporary Works Procedures and the Permissible Stress Design of Falsework. Product Notes 1. Waler and trench strut systems should only be installed and removed by competent persons in accordance with a site specific detailed design & installation sequence and MGF installation guidelines. N.B. Struts can be located at a variety of positions along the length of the waler. The exact location of the struts will determine the strength of the waler system. 2. Installation is normally carried out by lowering the assembled frame to the correct installation level and pre- loading each strut in turn to ensure that the frame is pressed firmly against the trench sheets and cannot slip. Max pre-load pressure of 100Bar (1500psi) must not be exceeded. 3. Restraining chains are hung off the trench sheets and attached to the waler to assist assembly / removal of the frame and ensure vertical support is provided at all times. All the supplied restraining chains should be installed (min 2 per waler) and adjusted to ensure an even vertical load distribution. Restraining chains should never be used for lifting nor solely relied upon to suspend loads above personnel. 4. Ensure all hydraulic ram isolation valves are closed and all strut pins in place and secured using the retaining clips provided prior to commencing works. 5. Individual walers and struts should be visually inspected for damage, excessive deflection or loss of ram pressure prior to entering the excavation. 6. Walers and struts should always be installed square and plumb to the excavation walls ensuring contact with all the inward facing trench sheet pans. If this is not possible any gaps must be securely packed by using hardwood wedges prior to final pre-loading of the hydraulic rams. 7. Safe access/egress, edge protection (for personnel) and barrier protection (for plant) should always be considered. 8. Prior to removal of systems all hydraulic rams must be released and retracted to avoid the need for excessive extraction forces and to avoid damaging the struts. 9. No matter how much care is taken during the installation and removal of waler and strut trench systems some ground movement will occur in the areas immediately surrounding the excavation. Great care must be taken when specifying these systems for use adjacent to existing structures and services. 10. Ends of trench runs should always be battered back at a safe angle or end protection panels/struts installed (see section 6).
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WALERS AND STRUTS MGF TECHNICAL FILE · PDF [email protected] WALERS AND STRUTS MGF TECHNICAL FILE 5.3.3 Issue 3 Restraining Chain Connection Detail There are 2 types
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DescriptionSimple to assemble, two sided, hydraulic bracing system designed to be used with steel trench sheets to horizontally brace small trenches for the safe installation of utilities. The range comprises seven types of waler rail and two sizes of hydraulic waler strut together with 0.25m, 0.5m and 1.0m strut extension bars. The system can support trench widths of 0.6m to 3.8m and is normally installed using excavators. MGF also provide Vertishore, a light weight hydraulic system used to brace small trenches vertically.
Fabricated from either grade S275/S355/S460 steel profiles or grade 6082T6 alumium profiles, the waler rails are attached to the hydraulic struts using simple pin and retaining clip assemblies. The 250kN hydraulic struts attach to the 152 UC Waler using clamps or cleats. Each strut contains a hydraulic ram with between 300mm and 670mm of stroke. Connecting the rams (via hydraulic hoses) to an MGF hand operated hydraulic pump unit containing hydraulic shoring fluid allows the trench widths to be quickly and easily adjusted to suit the excavation dimensions. Once the trench frames are fully assembled and located at the correct line and level, the rams are pre-loaded against the trench sheets using a hydraulic pump. Pre-loading of the legs ensures the frame cannot slip and minimises the extent of potential ground movements. Self sealing quick release valves and mechanical isolation valves ensure that the hydraulic ram pressure cannot be accidently released once installed. Handling and restraining points are provided on each waler to assist assembly / removal and to allow the brace to be supported off MGF restraining chains attached to the trench sheets by hooks.
MGF can supply the systems with a full range of suitable handling and restraining chains, Edgesafe edge protection panels, Endsafe end protection panels and struts, Laddersafe access platforms and pole ladders, Davitsafe retrieval / fall arrest systems, hydraulic pump installation kits (including bio-degradable shoring fluid and hydraulic hoses) and confined spaces regime equipment.
Manufactured and designed in accordance with BS EN 14653:2005 PARTS 1 and 2 Manually operated Shoring Systems for Groundwork Support and BS 5975 (2008) Code of Practice for Temporary Works Procedures and the Permissible Stress Design of Falsework.
Product Notes1. Waler and trench strut systems should only be installed and removed by competent persons in accordance
with a site specific detailed design & installation sequence and MGF installation guidelines. N.B. Struts can be located at a variety of positions along the length of the waler. The exact location of the struts will determine the strength of the waler system.
2. Installation is normally carried out by lowering the assembled frame to the correct installation level and pre-loading each strut in turn to ensure that the frame is pressed firmly against the trench sheets and cannot slip. Max pre-load pressure of 100Bar (1500psi) must not be exceeded.
3. Restraining chains are hung off the trench sheets and attached to the waler to assist assembly / removal of the frame and ensure vertical support is provided at all times. All the supplied restraining chains should be installed (min 2 per waler) and adjusted to ensure an even vertical load distribution. Restraining chains should never be used for lifting nor solely relied upon to suspend loads above personnel.
4. Ensure all hydraulic ram isolation valves are closed and all strut pins in place and secured using the retaining clips provided prior to commencing works.
5. Individual walers and struts should be visually inspected for damage, excessive deflection or loss of ram pressure prior to entering the excavation.
6. Walers and struts should always be installed square and plumb to the excavation walls ensuring contact with all the inward facing trench sheet pans. If this is not possible any gaps must be securely packed by using hardwood wedges prior to final pre-loading of the hydraulic rams.
7. Safe access/egress, edge protection (for personnel) and barrier protection (for plant) should always be considered.
8. Prior to removal of systems all hydraulic rams must be released and retracted to avoid the need for excessive extraction forces and to avoid damaging the struts.
9. No matter how much care is taken during the installation and removal of waler and strut trench systems some ground movement will occur in the areas immediately surrounding the excavation. Great care must be taken when specifying these systems for use adjacent to existing structures and services.
10. Ends of trench runs should always be battered back at a safe angle or end protection panels/struts installed (see section 6).
The pump is used to extend waler strut single acting hydraulic rams. The pumps contain bio-degradable Houghto Safe SF25 shoring fluid. During the Summer months the shoring fluid is diluted with water at a ratio of 3 parts water to 1 part Houghto Safe SF25. In the Winter the mix ratio is 1:1.Maximum recommended installation pressure 1500 psi (100 Bar).
Shoring fluid is pumped into the full bore side of the piston through the male QRV. Single acting cylinders cannot be retracted using a pump unit and have to be physically closed whilst releasing the male QRV.Ensure isolation valve is closed to maintain pre-load pressure and before release/connection of QRV’s.
Hydraulic Cylinder Single ActingMaterial Aluminium
Bore 50.8mmMax .Working Pressure 400 Bar (6000 psi)
Test Pressure 400 Bar (6000 psi)Approx. Working Stroke 350mm/600mm
Axial SWL 80kNMin. FOS (by test) 2
Working Temp Range -20ºC* to +50ºCApprox. Pre-Load 20kN
* Winter mix required for shoring fluid at low temps.
SWL for Heavy Duty Steel Walers at Various Strut Positions
SWL for Aluminium Walers at Various Strut Positions
Tel. 01942 402 704
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5.3.12Issue 3
SWL for 152 UC Steel Waler at Various Strut Positions
MGFs new 152 UC Steel Waler is designed to be used with the 200 Series 250kN Hydraulic Strut in conjunction with 152 UC Waler clamps (4.1.11). The clamps simply bolt to the endplate using 2 No. M20 bolts. Prior to connecting the struts it is recommended to loosely bolt the top 152 UC clamp, and then locate the strut on the waler, once positioned the top clamp can be fully tightened and the bottom clamp can then be installed.
On the 5.0m 152 UC Waler the struts can be positioned anywhere along the waler.
On the 6.0m 152 UC Waler the struts can be positoned anywhere inbetween the min. and max. clearance, as shown above.
When the 200 Series strut is installed in its outer most positions it can also be used as an end protection strut, allowing sheets to be installed up against the strut, enabling 3 or 4 sided excavations.
Safe Working Load for 200 Series Strut as Waler End Protection Struts (kN/m)
Pre-assembled, light weight, two sided hydraulic waler strut system designed to be installed from ground level directly against a soil face in the vertical plane. Suitable for trenches up to 2.0m deep and 1.4m wide. The System can be installed by one person and is usually specified for short term utilities type trench work where the ground is considered self supporting and capable of arching a min. 1.5m between preloaded hydraulic vertical supports for the duration of the works. Backing boards are available to prevent localised pockets of loose material entering the excavation. Personnel should only enter and work in the space between two vertishores. A competent person should always inspect the excavation before allowing access to ensure that all the struts are pre-loaded and bearing directly onto the soil, the exposed soil faces are self supporting with no evidence of water ingress or very loose material. Vertical support must be provided at a max. 1.5m horizontally. Always install and remove the system from ground level and away from any potentially unstable edges. Vertishores are supplied with an installation kit, including a pump unit, lowering hook and valve release tool.
Available hydraulic strutsType A : 550-900mm
Type B1: 850-1375mm
SWL = 20kN/m (on Vertishore)
* Assembled weight (excluding boards) with type A struts
Desc. Product ID Weight* (kg)1500 1.014 282000 1.013 35
Tel. 01942 402 704
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5.3.14Issue 3
Waler End Protection Strut
Waler Hydraulic Strut and EndSafe Strut Connection Pin
Pin Φ16mm bar, 160mm long
Material Grade 080M40 (EN8)Shear SWL 80kN
Inner Material 90x90x4 SHS (S355)Inner Unit Mass 10.5kg/mOuter Material 100x100x4 SHS (S355)
Outer Unit Mass 11.9kg/m
MGF Endsafe Struts are suitable for use in smaller excavations when it is not possible to safely batter the ends of the trench back to ground level. The simple telescopic strut system can be easily installed and removed by one person at the end of a waler run to support trench sheets. The pin connecting the inner and outer sections should always be used for safe handling purposes and can be removed once installed. The minimum overlap between the strut inner and outer is 100mm.