The present invention relates to building construction and in particular to methods and apparatus for constructing multi-level buildings.
The invention has been developed more particularly as a method for constructing multi-level residential apartment buildings and will be described predominantly in this context. However, it will be appreciated that the invention is not limited to this particular field of use, being potentially applicable in a wide variety of other building types including commercial or industrial facilities, bridges, towers, schools, hospitals, houses, office blocks and the like. While the invention has been developed particularly for use with multi-level building construction, it may also be adapted for use in construction of single-level buildings.
Any discussion of the prior art throughout the specification should in no way be considered as an admission that such prior art is widely known or forms part of common general knowledge in the field.
Construction of multi-level buildings is typically achieved using methods such as system formwork for level-by-level construction of structural works in respect of columns, beams and slabs. This is followed by a staged system of construction in respect of the architectural works such as insertion of windows, external plastering works, external plumbing works etc. During the first stage the building is erected level-by-level using external scaffolding or other means of hoisting building materials, such as apertures for doors and windows, to the required height. To comply with relevant building regulations, for health and safety reasons, the exterior of the building must be screened with a protective material during this stage to prevent debris falling from the upper levels. This protective material is usually flexible in nature, such as netting.
The architectural works can only commence following structural completion of the predetermined number of levels. The architectural works are usually performed stage-by-stage involving the installation of internal walls, external windows, door frames and other architectural requirements. The next stage is completion of concealing and plastering works. Following this, weather proofing of the building is then achieved by installing door and window panels, as well as balcony railings.
The final stage involves installation of drywall, marble, external trellis, ceiling works and painting, as required.
This sequential approach to construction results in a slow overall process, as separate trades groups are required for each stage and must be coordinated along a critical planning path. This results in an inherently high risk to project timelines, as any delay in one operation will then postpone subsequent operations.
It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative. It is an object of the invention in at least one preferred form to provide a method of construction of a multi-level building by integrating construction of architectural works with the construction of structural works thereby completing traditionally sequential construction activities simultaneously on different building levels to improve the process efficiency.
According to a first aspect of the invention there is provided a method of constructing a multi-level building having a predetermined number of levels, the method including the steps of:
Preferably the set of levels in step (c) includes four levels. Preferably the movable protection system encloses the whole of the periphery of the building.
Preferably, step (e) also includes the completion of all internal and external construction and installation tasks of the lowest enclosed level of the set within the time period set in step (a).
Preferably step (e) includes one or more of the sub-steps of completing:
Preferably, step (i) also includes the completion of all internal and external construction and installation tasks of the remaining enclosed levels.
According to a second aspect of the invention there is provided a method of constructing a multi-level building having a pre-determined number of levels, the method including the steps of:
It will be appreciated that construction of the building occurs on a level-by-level basis rather than the conventional stage-by-stage construction method.
According to third aspect of the present invention there is provided a moveable protection system for use in constructing a multi-level building, the moveable protection system including:
In at least one embodiment, the building is a multi-level residential apartment building. However, it should be understood that the term “building” and the like are intended to be inclusive of alternative forms of civil engineering structures, other embodiments including commercial or industrial facilities, bridges, towers, schools, hospitals, houses or office blocks whether in single or multi-level configuration.
In some embodiments, the protection system is custom-made for each building. In other embodiments the protection system may be modular and adaptable to various building types and shapes.
In some embodiments, the moveable protection system includes at least one protective screen for enclosing at least part of the periphery of the building levels. Preferably, a plurality of screens are connected together to form a substantially gap-free enclosure. Preferably the screen height is at least equal to the floor-to-ceiling height of an enclosed level.
Preferably, the protective screens are multi-perforate. In other embodiments, the screens may be solid, wire-frame, mesh or netting. In some embodiments, the screens are made from aluminium sheet, however, it should be appreciated that alternative materials may be used including sheets, panels or wire of metals, polymers, mesh, wood or composite materials, which may be translucent or opaque. Preferably the screens are substantially impermeable to wind.
In embodiments employing perforated panel protective screens, an additional layer of netting screening is optionally attachable to the protection system. Preferably the netting screening is attachable external to the perforated panels.
In some embodiments, the protection system includes shoes for substantially closing a gap between the protective screen and the building. Preferably the shoes are in the form of flip-down panels.
Preferably the method includes an additional step after step (a) of accessing a materials delivery system from an enclosed level of the building through the movable protection system. Preferably the materials delivery system is a materials platform.
Preferably, the materials delivery system is separated from the protection system prior to step (c) to facilitate raising of the protection system. In other embodiments, the protection system may be moveable with the materials delivery system attached. In such embodiments, the materials delivery system may be repositioned after raising or lowering of the protection system.
Preferably the means for raising and lowering the protection system is a hydraulic system. In other embodiments, the protection system is raised or lowered using a crane.
Preferably, the protection system includes at least one openable section for facilitating access to a materials delivery system. Preferably, the materials delivery system is inserted through the openable section. Advantageously, this allows the delivery of building material specific to the stage of construction being carried out on each level.
In one embodiment the openable section is preferably a hinged screen. However, it should be appreciated that the section may be in a different form and open in various other ways including sliding rolling or retracting.
In some embodiments, at least one materials delivery systems is connectable to the protection system. Advantageously, this allows a materials delivery system to be attached at any location along the side of the building In other embodiments the materials delivery system may be connectable to the building. In still further embodiments, the materials may be delivered by crane or other lifting apparatus.
In some embodiments, the method includes the use of at least one crane. Preferably, a crane is positioned on the top level of the building. The crane preferably has a moveable arm. The arm preferably has sufficient length to reach all sides of the building. Advantageously, this allows construction materials to be lifted from the ground to the level currently being worked on from any side of the building. In other embodiments, one or more cranes may be operated from any one or more of ground level, from an intermediate building level, from adjacent buildings or from specially constructed scaffolding or crane towers.
Preferably, in step (c) of the method according to the second aspect, the fixed external barrier may take the form of any desired external wall system or part thereof, such as an infill wall, curtain wall, external façade, or the like. The presence of the fixed external barrier provides a safety barrier allowing the construction of further structural and architectural features to continue on a level without the moveable protection system enclosing that level.
In some embodiments, the protection system includes a supporting surface for bearing the weight of a worker. Preferably, the supporting surface is configured to support at least three workers. Preferably the supporting surface is in the form of weight-bearing flooring. In other embodiments, supporting surfaces may be attached to the protection system or to the building structure. In other embodiments, workers may gain access to the building levels using an elevated work platform.
In some embodiments, the protection system includes an aperture for accommodating passage of a passenger lift.
It will be understood that the protection system may be mounted to the building to enclose more than two levels. In one preferred embodiment, there is provided a system enclosing four adjacent levels. In this embodiment, step (b) of the method is conducted on the uppermost level, step (c) is conducted on the lowest level, and intermediate construction steps are carried out on the levels in between. It should be appreciated, however, that the invention is not limited to this particular embodiment and construction may, for example, be carried out on two, three, four, five or more levels simultaneously. In other embodiments, multiple adjacent levels may be completed simultaneously, and the protection system may accordingly be raised as set out in step (d) by a height substantially corresponding to the number of completed building levels.
According to one embodiment, the cycle time for achieving completion of each level is within the range of 8 to 15 days. However, it will be appreciated that the cycle time is not limited to this range, and may include shorter or longer time periods.
According to a fourth aspect of the invention there is provided a method of constructing a multi-level building having a pre-determined number of levels, the method including the steps of:
d) thereafter raising the moveable protection system by a height substantially corresponding to one level of the building; and
According to a fifth aspect of the invention, there is provided a construction planning method, including the steps of setting dates associated with:
In a preferred embodiment, the dates are set in a project task schedule. Preferably the project task schedule includes substantially all tasks required for project completion. Preferably, the tasks are grouped within the project task schedule into categories according to trade discipline. In some embodiments, the categories may include but are not limited to main building works, architectural works, mechanical and/or electrical works and external works.
Preferably, a core project team is established prior to creating the project task schedule. Preferably, the core project team includes the roles of project engineer, project architect, mechanical engineer, electrical engineer and draughtsman.
Preferably, selection of sub-contractors in step (a) includes award of sub-contracts. Preferably award of sub-contracts occurs within a predetermined period of time from a main building contract award date. Preferably the predetermined period is 3 months. Preferably the project task schedule is communicated to substantially all sub-contractors.
Preferably, terms of the awarded contracts include clauses stipulating strict adherence to the dates set in steps (a)(i) and (a)(ii). Preferably the contract terms include penalties for failure to meet the set dates.
Preferably the length of each stage of construction in step (b) corresponds to the cycle time for achieving completion of each level. Preferably the cycle time is within the range of 8 to 15 days. More preferably, the cycle time is 10 days.
Preferably, materials are delivered in sets. Preferably, each set includes all materials required for construction of one floor. Preferably, the materials delivery dates are set in advance of each construction stage by at least the cycle time. Preferably the materials are delivered with shielding to protect the materials from damage for the duration of construction.
In some embodiments, the project task schedule includes a critical task schedule, including substantially all tasks requiring access to the building facade via the movable protection system. Preferably completion of each stage of construction in step (b) includes completion of all critical tasks for the lowest enclosed level. The critical tasks may include, but are not limited to, completion of: external doors and windows, balcony railings, air-ledge railings, plastering, external trellis, external electrical works, external plumbing works and aluminium formwork.
Preferably the movable protection system is the only means of external access to the building facade for the duration of the project. Advantageously, this substantially eliminates the need for staging or scaffolding, thereby reducing safety hazards.
Preferably step (d) includes setting milestones for each construction step in the project task schedule. Preferably each construction step is allocated to at least one worker or sub-contractor. Preferably, the construction steps are sequenced according to an order of dependency of execution.
Preferably, the start of steps allocated to internal architectural, mechanical and electrical sub-contractors substantially coincide with commencement of structural works on the fourth level of the building.
Preferably sample demonstrations are carried out substantially in advance of construction activities.
According to a sixth aspect of the present invention there is provided a moveable protection system according to the third aspect of the invention for use in the method according to the first, second, fourth or fifth aspects of the invention.
It will be appreciated by those skilled in the art that use of the level-by-level construction and planning method and moveable protection system advantageously results in improvements to safety, a cleaner working environment, reduced health hazards, increased efficiencies and faster completion of the building construction project.
A preferred embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawing in which:
Referring to
As shown, a moveable protection system 7 has been mounted to the exterior of the building, thereby to enclose at least part of the periphery of the four levels 3, 4, 5, 6 of the building on which construction is taking place. The protection system 7 includes a connected plurality of perforated aluminium protective screens 8, and supporting surfaces 9 aligned with each level of the building for supporting the weight of two to three men 10 simultaneously. The protection system also includes an aperture for accommodating passage of a passenger lift.
A materials delivery platform 11 can be inserted through the protection system 7 through an openable panel. The platform may be connected to the protection system or, alternatively, to the building. Construction materials 12 are delivered to the materials platform 11, via a crane on the building site or via another suitable method. One option may be to use a crane mounted on the building which has a moveable arm having sufficient length to reach all sides of the building. This allows construction materials 12 to be lifted from the ground to the level currently being worked on from any side of the building.
With the protection system is place to enclose levels three to six inclusive, formwork 13 is installed on the uppermost enclosed level, level six 6. Simultaneously, a fixed external barrier forming an external wall system is installed around the lowest enclosed level, level three 3. Dependent upon the construction method followed, this external wall system may include an infill wall, curtain wall, external façade or the like. It may also be in the form of a window frame 14, balcony railing 15, air-conditioning ledge and screens. This external wall provides a sufficient safety barrier to allow work to continue on the level without the protection system 7 enclosing that level.
Intermediate construction activities, such as housekeeping 16 in preparation for finishing activities and installing support props 17 are simultaneously carried out on levels four 4 and five 5, respectively.
Once all activities requiring external access to the facade of the lowest enclosed level 3 are completed, the materials platform 11 may be withdrawn from the protection system 7 to facilitate raising of the protection system. Where the material platform is connected to the protection system, it may not be necessary to detach the platform. The moveable protection system 7 is raised by a height corresponding to one level of the building using an hydraulic system. Level four 4 then becomes the lowest level. A new uppermost level is defined on which construction of formwork can now begin.
The construction steps above are then repeated until formwork 13 has been installed for the pre-determined number of levels. All levels are then brought to completion in order to finish construction of the building.
The building construction is planned using a project task schedule. An example project task schedule is shown in the table below, in which “W” refers to project week and “M” refers to project month.
AWARD
WEEKS FROM
WEEKS FROM
Toilet
& CCTV
Screen
wall
/Window shelves
Framework
Supply-Reinforcement
Supply-Reinforcement
Supply-Concrete
Supply-Concrete
Supply-
Works
Door System
Ceiling work
Stutter
Works
Works
Works
indicates data missing or illegible when filed
Number | Date | Country | Kind |
---|---|---|---|
10201800475R | Jan 2018 | SG | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/SG2019/050030 | 1/18/2019 | WO | 00 |