The present invention relates generally to concrete structures and floors of buildings and the processes of installing and removing beams and panels or formwork used to form concrete structures and floors of buildings.
Formwork includes temporary or permanent molds or supports into or onto which concrete or similar materials are poured in order to create walls and slabs of buildings. In known building practice, formwork is assembled on a surface or on a lower floor level to form the next level of the building above. Once the concrete slab has sufficiently hardened, the formwork may be removed. Traditional plywood formwork is built on site, with the plywood panels being supported on beams and shoring posts. It is easy to produce but time-consuming and dangerous to build and to remove, particularly for larger structures.
The present invention provides a system or machine for safe and efficient removal of the panels and beams of formwork systems. The machine includes a motorized, wheeled base having a raisable platform that can extend upward toward the formwork to be removed. The machine may be adapted to remove plywood or formwork from the underside of a placed and cured slab or ceiling structure, or the machine may be adapted to remove beams that support the plywood or formwork at the underside of the placed and cured slab or ceiling structure. Optionally, the machine may be adapted or controlled to install or position beams at the support posts or plywood or formwork on the beams.
In accordance with an aspect of the invention, the machine operates to remove plywood formwork from the underside of a concrete slab. The machine includes a formwork-removal apparatus, which is attached to the raisable platform, and which includes an arm, a wedge element, and a formwork-retaining mechanism. The wedge element includes one or more wedges attached to the arm. As the machine is maneuvered, the wedge mechanism engages the formwork, applying a separating force to partially separate or free the formwork from the slab. As the formwork is partially separated or freed, the formwork-retaining mechanism secures the partially separated formwork at the arm for removing the formwork and moving the removed formwork to a targeted location where it can be stacked and/or stored for reuse.
In accordance with another aspect of the present invention, the machine provides a beam-removal apparatus. The beam-removal apparatus includes an arm and a beam-gripping mechanism. The beam-gripping mechanism may comprise a gripper that conforms to and clamps at the central section of an I-beam. Optionally, the beam-removal apparatus may include a rotary actuator so that the gripper may grip the beam and the rotary actuator may twist the beam to free the beam for removal. The machine may reposition the removed beam and may stack the removed beams at a targeted location.
These and other objects, advantages, purposes and features of the present invention will become apparent upon review of the following specification in conjunction with the drawings.
To create poured-concrete slabs of buildings, workers assemble formwork panels to define spaces that are then filled with concrete. The formwork panels, which typically comprise individual sheets of plywood supported on beams, support the poured concrete until the slab or wall has sufficiently hardened, at which time workers remove the formwork as refuse or for reuse. For example, workers may remove the formwork from one level of a multi-level building after the concrete hardens and use the formwork to form the next higher level of the building. Traditionally, workers assemble formwork for upper-level slabs using plywood panels supported from below by a system of beams bearing the weight of the poured concrete as it hardens. The beams, in turn, are supported by shoring posts resting on a firm base, such as a lower-level slab. When the upper-level slab hardens sufficiently, workers manually disassemble and remove the beams that support the plywood panels, then pull or pry the formwork panels free from the bottom or underside of the slab. This process is tedious and time consuming and exposes workers to hazards, such as from falling material. The formwork-removal and/or beam-removal machines of the present disclosure streamline this process, reducing costs while increasing worker safety.
Referring to
The wheeled base 111 has four wheels, which may be independently powered wheels, and which may be independently steered, permitting a high degree of maneuverability on the job site. The four wheels may each be steered by, for example, pivoting around a vertical axis and having independent steering mechanisms. Optionally, the front wheels and/or the rear wheels may be steered in tandem by, for example, both of either the front and/or rear wheels being connected to an axle. Optionally, other wheel configurations may be used such as, for example, a three-wheeled base or a base having more than four wheels, or a base propelled by tracks driven by rotationally driven wheels.
In the illustrated embodiment, the lift mechanism 112 comprises a scissor lift having a plurality of pivotally connected sections that pivot relative to one another to raise and lower the formwork removal device via the extension and retraction of a hydraulic cylinder 112a disposed at the base 111. The scissor lift, when extended or raised, lifts or moves the formwork-removal device 114 from a position near or resting on the base 111 (
As shown in
Referring to
The grasping element 122 is pivotally mounted at the support structure 121 and is pivoted relative to the wedge element 120 between an opened state (
As shown in
Thus, the formwork-removal device 114 is operable to remove a piece of formwork 116 from the underside of a slab of hardened concrete. For example, the formwork removing machine 110 may be positioned substantially underneath a piece of plywood formwork 116 connected to a hardened concrete slab (after the concrete slab has been placed on the plywood and has sufficiently cured and hardened). The lift structure 112 may raise the formwork-removal device 114 to a targeted height to engage the plywood 116, whereby the actuator 119a moves the grasping device 119 and pivots the grasping device 119 upward to engage the wedge element 120 with the piece of plywood formwork 116, with the support arm 123 positioned at the formwork 116 with its distal support end spaced from the wedge element 120.
When positioned with the wedge element 120 at the formwork, the grasping device 119 may be extended to move the wedge element 120 to dislodge the formwork. For example, the boom actuator 115a may extend the boom 115 to apply a force upon the plywood 116 at the wedge element 120, whereby the grasping element 122 is pivoted to grasp or clamp the formwork 116 between the grasping element 122 and the underside of the wedge element 120 or support structure 121, with the support arm 123 supporting a distal portion of the formwork 116. The device 114 (while holding the removed formwork) may be lowered via the lowering of the lift structure 112 and the grasping device 119 may be pivoted downward (such as in
Referring to
In the illustrated embodiment, the raisable structure 212, similar to lift structure 112, comprises a scissor lift having a plurality of pivotally connected sections that pivot relative to one another to raise and lower the structure via extension and retraction of a hydraulic cylinder 212a at the base 211. The scissor lift, when extended or raised, such as shown in
As shown in
When the wedge mechanism 220 has been moved and positioned a sufficient amount into the interface between the plywood 216 and concrete slab, the retaining mechanism 222 operates to clamp or grasp the plywood 216 for removing the plywood 216 from the concrete slab and moving the plywood 216 to a targeted location. The retaining mechanism 222 may include a hydraulically activated jaw that supports and holds the plywood 216 after removal from the slab. For example, and such as best seen in
Thus, the plywood 216 may be carefully lowered from the height of the slab to a suitable or targeted storage location. For example, and such as shown in
Optionally, and such as shown in
The receiving and retaining mechanism 222 includes a shelf or receiving structure located below the wedge mechanism 220 to receive removed or partially removed plywood 216, and a hydraulically activated clamping mechanism 222b to secure the removed plywood 216 at the receiving structure of the arm 218 and retaining mechanism 222, such as by clamping the plywood 216 against a portion of the arm 218 located above the shelf or against the lower part of the receiving structure 222. Each wedge of the wedge mechanism 220 is attached to the leading end of the arm 218 on a structure that allows the wedge to pivot on the structure to conform to the surface of the slab during removal of the plywood. Optionally, the center of gravity of the wedge may cause the wedge to pivot upwards and maintain contact with the bottom of the slab so that, as the wedge system 220 moves forward, the point of the wedge is forced between the slab and the formwork 216. Optionally, and as shown in
As shown in
As shown in
Thus, the formwork removing machine operates to separate the plywood 216 from the underside of a concrete slab or ceiling in an automated and safe and efficient manner, without requiring an operator to manually remove the plywood 216. The machine 210 engages the plywood 216 and pulls the plywood 216 down from the underside of the concrete slab and can readily move the removed plywood 216 to a targeted location, such as the ground surface or a shelf or cart or the like. The removing device 210 includes one or more wedges 220 that function to separate part of the plywood 216 from the concrete slab, whereby a clamping or retaining device 222 is actuated to clamp the plywood 216 for forcibly removing the plywood 216 from the concrete slab.
Optionally, the arm 218, including the wedge 220 at the distal end of the arm from the raisable structure 212, may be pivotally mounted at the raisable structure 212 and may pivot upward from the raisable structure 212, such as shown in
The wheeled machine 210 may be dimensioned to maneuver easily between shoring posts while removing beams and formwork. The wheeled machine 210 may also be compactly stowed when not in operation. During operation, the wheeled machine 210 is remotely controllable, such as via an operator controlling the machine via a hand-held remote controller that is in wireless communication with the wheeled machine 210, further increasing worker safety. Optionally, the wheeled machine 210 may tow a trailer onto which the removed formwork may be stacked and stored, e.g., to permit efficient transportation from the work site.
Optionally, and such as shown in
When the gripper 324 is engaged with the underside of the plywood 316, the gripper 324 may be activated to generate a suction at the plywood 316 to secure the plywood 316 at the gripper element 324a. The gripper 324 is then lowered, for example, by retracting the arm 326 or by lowering the raisable structure, freeing the formwork or plywood 316 from the underside of the concrete slab or ceiling. As shown in
When removing the formwork or plywood from beneath a cured concrete slab or ceiling structure, at least some of the support beams and posts supporting the plywood or holding the plywood in place must be removed before the plywood is removed. Optionally, and now with reference to
As shown in
In the illustrated embodiment of
The gripping mechanism 434 is pivotally mounted at the distal end of the arm 432, which is pivotally mounted at the end of the extendable arm 437, and which is pivotable relative to the arm 437 via a hydraulic actuator 436 or other actuating means. Optionally, and in reference to
Because the beams may be nailed or otherwise affixed to the formwork, the gripping mechanism 434 may also include a rotary actuator 440 that rotates the jaws to apply a twisting force at the beam, when the beam is clamped between the jaws, to free the beam for removal. As can be seen in
Optionally, and such as shown in
Thus, the gripping mechanism 434′ can be moved or maneuvered to any location via moving the wheeled unit and then adjusting the angles and orientation of the rotatable base 437c′ and arms 437a′, 437b′. The gripping mechanism 434′ is rotatably mounted at the distal end of the telescoping arms 437a′ and can rotate about a pivot axis that is normal to the longitudinal axis of the telescoping arms 437a′, such as via a bracket that mounts the gripping mechanism at the distal end of the arm, and the jaws 434a′ of the gripping mechanism can also rotate about another pivot axis that is normal to the pivot axis of the bracket at the end of the arm. Thus, the jaws 434a′ can be maneuvered to position the jaws 434a′ at the beam, whereby the jaws 434a′ may be clamped onto the beam for removing the beam.
Optionally, the base unit or wheeled support may have a raisable/lowerable device or structure, with an attaching portion or head at an upper end of the raisable/lowerable device, which is configured for detachable attachment of either the mechanism and retaining mechanism or the gripping mechanism, such that the machine can be adapted for removing plywood from the underside of the concrete slab or ceiling and for removing the support poles and beams from the underside of the concrete slab or ceiling. Thus, a single machine may be used for both removal processes, with the formwork engaging device or mechanism being switched to adapt the machine for the respective process.
As shown in
During operation of the machine, the controls may limit the propel speed of the wheeled support if the scissor lift mechanism is raised, such as, for example, in response to a sensor at the lift mechanism. The controls may also limit the propel speed of the wheeled support if the machine is on an angled drive or support surface, for example such as in response to a level sensor at the wheeled support. The controls may also limit the raising speed of the lift mechanism as it gets close to the ceiling and approaches its working height, for example such as in response to a distance-sensing sensor (such as an ultrasonic sensor or the like) at an upper part of the lift mechanism or other sensor that determines when the lift mechanism is nearing the appropriate working height. The controls may also disable the raise function of the lift mechanism if the machine is at an angled support surface, for example such as in response to a level sensor at the wheeled support.
After the operator has used the formwork removing machine to remove a formwork element, the operator may actuate a home or return button or switch or input at the control panel 50 (such as at the end of one of the joysticks or elsewhere at the control panel) to cause the machine to automatically return to its initial or home settings to position the head tilt, boom and clamp to their ready positions for the next removal or stripping cycle. For example, the operator may press and hold a reset push button to begin the sequence that (i) drives the head tilt up function for an adjustable time duration, (ii) drives the boom retract function for an adjustable time duration or until the boom limit switch is activated, and (iii) drives the clamp open for an adjustable time duration, whereby the boom will be retracted and the head will be tilted upward with the jaws open, so as to be ready for the next removal or stripping cycle. When the reset sequence is active, the sequence can be stopped by pressing the reset push button again. Actuation of the head tilt, boom or clamp joystick to a degree that is greater than an adjustable threshold will also stop the sequence. Such joystick commands may be ignored below this threshold such that the return or home sequence is not stopped if a slight bump or similar occurs at any of the joysticks.
Optionally, the formwork-removal device or the beam-removal device may be selectively attached to the wheeled, motorized machine or base, and are selectively positioned at an operating position for performing the desired or selected task. That is, the mechanisms may be interchanged at a common or universal base 111 or 211 or 431 and/or raisable/lowerable or extendable/retractable structure 112 or 212 or 433 or 437 at the base. For example, once the slab has hardened, workers may attach the beam-removal device to the raisable structure of the wheeled base to disassemble and remove the beams supporting the formwork. Once the beams have been removed, workers may remove the beam-removal device and attach the formwork-removal device to the raisable structure of the wheeled base to remove the formwork or plywood from the slab. Optionally, the beam removal mechanism may be mounted at one end of the raisable structure and the formwork-removal device may be mounted at the opposite end of the raisable structure, such that a single machine is selectively operated to perform the desired operation.
During operation of the machine, an operator may remotely drive the wheeled base, fitted with beam-removal device, at the worksite, such as via a remote controller that is operable to control driving and steering of the wheels, extension/retraction of the raisable structure, and pivoting/rotating/clamping/unclamping of the gripping device. The operator remotely controls the beam-removal device to sequentially remove each formwork beam by gripping each beam from below, rotating the beam to be free from nails or other attachments and from the plywood, repositioning the beam and releasing the beam at a targeted location, such as onto a trailer towed by the wheeled base. As needed, the operator maneuvers the wheeled, motorized machine between remaining shoring posts to be able to access the next beam in the sequence. Optionally, the beam-removal device may also be used to remove some of the vertical posts by grasping the posts and (such as after the posts are adjusted to be lowered from the beams) lifting and moving the posts to a desired or targeted location.
After the beams are removed, the operator may remotely control the wheeled machine to transport the beams, on the trailer or other storage platform or the like, away from the worksite. Operators may then fit or adapt the wheeled machine with the formwork-removal device and remotely control the wheeled machine and the formwork-removal device to sequentially remove the formwork or plywood from the underside of the concrete slab or ceiling structure. The operator, using the remote controller, may extend the raisable structure so that the wedge mechanism contacts the hardened slab, then drive the wheeled, motorized machine forward, causing the wedge mechanism to engage with the plywood and separate part of the plywood from the concrete slab. As the plywood is freed by the wedge mechanism, the operator remotely controls the gripping mechanism to hold and retain the removed plywood. The operator then remotely operates the wheeled, motorized machine and the formwork-removal device to lower and position the plywood and release the plywood at a targeted location, such as onto the trailer, if applicable.
The operator control of the machine may be achieved via a wireless remote controller, which has multiple controls or inputs to allow the operator to control various motors and actuators of the machines. For example, the machine may have a gasoline powered engine that powers or drives a hydraulic pump for providing pressurized hydraulic fluid to hydraulic motors and hydraulic actuators of the machine. For example, the controller may control the machine to hydraulically drive the steering mechanism and the wheel drive motors to maneuver the base and the machine over the support surface or floor, and may separately control one or more hydraulic actuators to raise/lower or extend/retract the support structure at the base to raise/lower the device, such as the plywood removing device or the beam removing device, attached at the upper end of the support structure. The controller may also control one or more hydraulic actuators to extend or pivot or articulate the device and to operate the device to remove and move the plywood or beam.
Thus, a method for removing formwork from underneath a cured concrete slab in accordance with the present invention includes providing a wheeled base movable on and supported at a support structure, a raisable and lowerable structure disposed on the wheeled base, and a formwork-removal device attached to the raisable and lowerable structure. The formwork-removal device comprises (i) an arm extending from the raisable and lowerable structure, (ii) at least one wedge element disposed at a distal end of the arm, and (iii) a formwork-retaining mechanism. The method includes moving the wheeled base along the support structure to position the machine below or near formwork to be removed from the ceiling above the machine, and adjusting the raisable and lowerable structure adjusted to raise the wedge element and to position the wedge element at and in engagement with the formwork and an underside of the concrete slab. With the raisable and lowerable structure adjusted to raise the wedge element and with the wedge element positioned to engage the formwork and an underside of a concrete slab, the method includes moving the wedge element relative to the formwork to apply a separating force to separate part of the formwork from the underside of the concrete slab. With the wedge element engaged with the formwork and the underside of the concrete slab, the method includes operating the formwork-retaining mechanism to grasp the part of the formwork that is separated from the underside of the concrete slab to retain the formwork at the formwork-removal device. With the formwork grasped by the formwork-retaining mechanism, the method includes lowering the raisable and lowerable structure to remove the formwork from the underside of the concrete slab. The machine may be moved to a drop-off location where the formwork-retaining mechanism is operated to release the part of the formwork to drop the removed formwork at the targeted drop-off location.
Also, a method for removing beams from underneath formwork at an underside of a cured concrete slab in accordance with the present invention includes providing a wheeled base movable on and supported at a support structure, a raisable and lowerable structure disposed on the wheeled base, and a beam-removal device coupled to the raisable and lowerable structure. The beam-removal device comprises a beam-gripping mechanism. The method includes moving the wheeled base along the support structure to position the machine below or near a beam to be removed from the ceiling above the machine, and adjusting the raisable and lowerable structure adjusted to raise the beam-removal device and to position the beam-removal device at the beam at an underside of the concrete slab. With the raisable and lowerable structure raised to position the beam-removal device at the beam that supports the formwork at the underside of the concrete slab, the method includes operating the beam-gripping mechanism to grasp the beam and, with the beam grasped by the beam-gripping mechanism, operating the machine to remove the beam from the formwork (such as by twisting and/or lowering the beam-gripping mechanism with the beam grasped thereat). With the removed beam grasped by the beam-retaining mechanism, the method includes lowering the raisable and lowerable structure. The machine may be moved to a drop-off location where the beam-retaining mechanism is operated to release the removed beam to drop the beam at the targeted drop-off location.
Optionally, the machine may be operated to facilitate installation of formwork, before the concrete is placed and cured. For example, the machine may lift or raise beams into position at the upper ends of the posts, and/or the machine may lift or raise plywood panels into position on top of the beams prior to pouring the concrete slab. The operator may remotely control the beam-removal device to sequentially install each formwork beam by gripping each beam from its stored location and raising/repositioning the beam to engage with previously installed beams or shoring posts, then releasing the gripping mechanism. Similarly, the operator may remotely control the formwork-removal device to hold the plywood formwork in its gripping mechanism and raise/reposition the plywood formwork to its installation point for installation.
The positioning of the beams and/or plywood panels at the upper ends of the posts may be responsive at least in part to a laser leveling device to ensure that the beams and plywood are at the appropriate height and are level. Such laser leveling devices utilize a laser plane generator and laser receivers, which may be disposed at the beam or formwork removal device and/or at the raisable/lowerable structure to determine when the laser receiver(s) is at a particular height or level corresponding to the generated laser plane, which effectively sets the height of the device at an appropriate or selected height for its particular function, and may utilize aspects of the systems described in U.S. Pat. Nos. 4,655,633; 4,930,935; 6,976,805; 7,044,681; 7,121,762; 7,144,191; 7,195,423 and/or 7,396,186, which are hereby incorporated herein by reference in their entireties. Optionally, during the removal process or processes, the positioning of the removal devices may be responsive at least in part to such a laser leveling system.
Changes and modifications to the specifically described embodiments can be carried out without departing from the principles of the present invention, which is intended to be limited only by the scope of the appended claims as interpreted according to the principles of patent law.
The present application claims the filing benefits of U.S. provisional application Ser. No. 63/198,227, filed Oct. 5, 2020, U.S. provisional application Ser. No. 62/705,839, filed Jul. 17, 2020, and U.S. provisional application Ser. No. 62/947,663, filed Dec. 13, 2019, which are all hereby incorporated herein by reference in their entireties.
Number | Name | Date | Kind |
---|---|---|---|
4655633 | Somero | Apr 1987 | A |
4930935 | Quenzi | Jun 1990 | A |
6976805 | Quenzi | Dec 2005 | B2 |
7044681 | Quenzi et al. | May 2006 | B2 |
7121762 | Quenzi | Oct 2006 | B2 |
7144191 | Kieranen | Dec 2006 | B2 |
7195423 | Halonen | Mar 2007 | B2 |
7396186 | Quenzi | Jul 2008 | B2 |
8282067 | Schwoerer | Oct 2012 | B2 |
8651448 | Rosati | Feb 2014 | B2 |
10190268 | Pietila | Jan 2019 | B2 |
Number | Date | Country |
---|---|---|
2781450 | Jun 2011 | CA |
2781450 | May 2017 | CA |
205558288 | Sep 2016 | CN |
205558288 | Sep 2016 | CN |
2754555 | Apr 1998 | FR |
2754555 | Apr 1998 | FR |
1305328 | Jan 1973 | GB |
1305328 | Jan 1973 | GB |
2001082095 | Mar 2001 | JP |
2001082095 | Mar 2001 | JP |
2014124695 | Aug 2014 | WO |
WO-2014124695 | Aug 2014 | WO |
Entry |
---|
International Search Report and Written Opinion dated Apr. 1, 2021 for corresponding PCT Application No. PCT/US2020/070883. |
Number | Date | Country | |
---|---|---|---|
20210180345 A1 | Jun 2021 | US |
Number | Date | Country | |
---|---|---|---|
63198227 | Oct 2020 | US | |
62705839 | Jul 2020 | US | |
62947663 | Dec 2019 | US |