Not Applicable.
Not Applicable.
The invention relates to a method and apparatus for casting concrete blocks.
Concrete blocks may be formed with textured sides which may have undercuts. Because of the irregular surfaces, these blocks are not easily released from the form cavity in which they are cast. The shapes of the form cavity walls are such that the cured concrete block is locked within the form, even if the form is inverted. One method for releasing blocks with irregular surfaces from the form cavity is to hinge the side walls of the cavity so that the form walls may be pivoted away from the cast block after the concrete has sufficiently cured. This allows the block to be lifted from the form. Another method is to provide form walls which can be manually disassembled and separated from the block after it has cured, and reassembled for casting another block. The manual labor required to release or move the form sides from the each block so that it can be removed from the form adds to the cost for manufacturing the blocks. It has been particularly difficult to manufacture large concrete blocks having highly irregular surfaces which have the appearance of natural stone. It is desirable to form some surfaces of the blocks with deep undercuts which imitate natural characteristics of stone.
The invention relates method and apparatus for casting concrete blocks in which at least some of the surfaces of the block may be irregular. The cast concrete blocks may simulate natural stone blocks which have sufficiently irregular sides with recesses or shapes which are not easily released from conventional concrete block molds.
The apparatus may include a form having a rigid support frame and a resilient insert which forms a cavity in which the block is cast. The surfaces of the insert which define the cavity are textured to form the surfaced of blocks cast in the cavity, and may include portions which project some distance into the cavity. The frame provides support for the resilient insert when concrete is poured into the insert cavity and while the concrete cures. When the form is turned upside down, a sufficient relief angle is provided between the frame and the insert to allow the insert to fall freely from the frame. Edges or corners of the insert are loosely secured to the frame, for example, with cables, chains, bolts or rods, so that when the frame is inverted, the insert will fall only a short distance from the frame. After a concrete block cast in the mold insert cavity has cured, the support frame is inverted so that the mold insert will fall a short distance from the frame. The weight of the block causes the resilient insert to distort and bend away from sides of the block, allowing the block to fall freely from the insert.
In one embodiment, a forklift is used to invert the form for separating the cured block from the form. The forklift may include a second set of tines or a plate which can be moved to a short distance from the form for catching the block as it falls from the form and for transporting the block either to a storage area or to a vehicle for transportation. It will be appreciated that other equipment may be used to invert the form for removing the block.
In the following description of the invention, certain terminology will be used for the purpose of reference only, and are not intended to be limiting. Terms such as “upper” and “lower” refer to directions in the drawings to which reference is made. Terms such as “top”, “bottom”, “horizontal”, and “vertical” describe the orientation of portions of the component within a consistent but arbitrary frame of reference which is made clear by reference to the text and the associated drawings describing the component under discussion. Such terminology will include the words specifically mentioned above, derivatives thereof, and words of similar import.
If the block cast in the cavity 24 is an imitation of a weathered natural stone, for example, the insert cavity surfaces 25 may be highly irregular with a number of projections for defining erosion grooves on the cast block surface. The cavity 24 has a top opening 26 through which the concrete is poured. Typically, the surface of the block at the top opening 26 will either be the back of a retaining wall block where the back is not visible, or the bottom of a block which is used where both front and back sides will be visible. As shown in
Preferably, the frame 21 is made from steel since it must be rigid and support the weight of the cast block. However, it should be understood that the frame 21 may be made of any other suitable material having the required strength and durability. If the invention is used for casting small blocks, for example, wood or a plastic may be acceptable for the frame 21.
The exemplary frame 21 includes a base 27 having front and rear rails 28 and 29. The front and rear rails 28 and 29 provide longitudinal support and stability to the frame 21. The base 27 includes two spaced, parallel channels 30 and 31 which extend perpendicularly between the front and rear rails 28 and 29. The channels 30 and 31 have a rectangular cross section, closed sides and open ends for receiving the spaced tines of a forklift (not shown) used to transport and to invert the form 20, as is discussed in detail below. It should be appreciated that other constructions configurations may be used.
The exemplary frame 21 is show as including four posts 32-35 which extend generally vertically from the base 27. The posts 32-35 provide vertical support and stability to the frame 21. Each post 32-35 is provided with a flat top 36 and an upwardly and outwardly flared edging 37. The posts 32-35 are sufficiently high to allow the forms 20 to be stacked. The flared edging 37 helps to align the forms 20 as they are stacked. It should be understood, however, that the form 20 may have other configurations which cooperate with any portion of another form to stabilize and support the other from when stacked.
The frame 21 is illustrated as having two spaced, parallel side channels, tubes or rails 40 and two spaced, parallel side channels, tubes or rails 41. The channels 40 and 41 are connected together and to the corner posts 32-35 to form a rectangle which provides lateral support and stability to the frame 21. It should be understood that the frame 21 may include any number of support rails, tubes, channels, etc. in any suitable configuration the frame 21 with the necessary strength.
The rigid support 22 is shown formed from a plurality of steel panels 42 which are welded together. The number and arrangement of panels 42 will depend on the exterior shape of the resilient insert 23 and the amount of support which the insert requires to maintain its shape while an article is cast in the insert. The plates 42 may be secured to the frame 21 rather than to each other and may only support areas of the insert which require support. The support 22 also maybe formed in any other suitable manner, such as a one piece stamping or a mold. If the insert 23 has a low height, as when casting paver blocks, it may be only necessary to support the bottom of the insert 23.
The rigid support 22 is connected to the frame 21 by welding, mechanical fasteners, or any other suitable mechanism that will secure the support 22 to the frame 21. The insert 23 has an outer surface 43 that generally conforms to and is supported by the interior of the support 22 without being retained by the support 22. In other words, there must be a sufficient relief angle where the insert 23 contacts the support 22 to allow the insert 23 to fall freely from the support 22 when the form 20 is inverted.
The resilient insert 23 may be composed of an elastomer, e.g. natural or synthetic rubber. It must be understood, however, that resilient insert 23 may be composed of any material suitable to support concrete during casting and with sufficient resilience to allow the material to be pulled away from the concrete and to return to it original shape when positioned in the support 22.
At least one or more points on the resilient insert 23 are tethered, i.e. moveably connected, to the frame 21 or to the support 22. The tethers may be, for example, in the form of cables, ropes, strings, wires, lose bolts, or any other element suitable to tether the insert 23 to the frame 21 or the support 22. In the illustrated form 20, the tethers are five flexible, plastic coated wire cables 44. At a front side of the form 20, cables 44 are secured between the front corners of the insert 23 and the front channel 40 of the frame 21. Three rear cables 44 are shown secured between the rear corners and the rear center of the insert 23 and a rear bar 45 of the frame 21. The cables 44 or other forms of tethers may be secured by any desired method depending on the type of tether used and the strength required, such as by knots or conventional cable clamps for wire cables or rope, or welding for chain, or nuts for bolts.
The insert 23 may have outwardly extending edges 47 which surround the cavity opening 26. The edges may be rectangular and the cables 44 or other form of tethers may be secured to points adjacent the corners. Preferably, to extend the life of the resilient insert 23 reinforcing members 46 are embedded in the edges 47 of the insert 23 to reduce the risk that the insert will tear when a block is dumped from the form 20. The tether reinforcing members 46 disperse forces exerted between the cables 44 and the insert 23. The members 46 may be made of steel or of high density plastic or of any other material suitably to reinforce the insert 23 without unduly interfering with the resiliency of the insert 16.
Referring to
For large blocks which have a heavy weight, preferably a forklift is used to implement the method of the invention. A preferred type of forklift 50 is illustrated in
Referring to
It should be appreciated that the illustrated components of the frame 21 and of the rigid support 22 may be varied, combined or eliminated, so long as sufficient support is provided for the resilient insert 23 while a block or other article is cast and allowed to cure in the resilient insert, and so long as the resilient insert 23 with a cast block and the support can be inverted and the resilient insert is allowed to at least partially fall from its inverted support and deform to release the cast block. It also will be appreciated that various other modifications and changes may be made to the above described preferred embodiment of without departing from the scope of the following claims.