The modern construction environment and growing requirements for workplace safety and workload limits are becoming increasingly inconsistent with the standardized pre-cast-concrete building block. This prior art block is of generally rectangular outline and includes a trio of webs connecting the inner and outer faces. Modern construction is also tending towards high-speed operations which limit construction time and take advantage of just-in time availability of labour and materials. The individual standard pre-cast standard block remains awkward and overly heavy for manual work particularly at high rates of construction speed. The construction worker is required to handle these heavy blocks increasingly rapidly and over obstacles and other hindrances. Solutions are apparent which require automation of the delivery and setup operation within the construction site but such machinery is capital intensive, cumbersome and difficult to use. Consequently residential construction is tending to prefer poured-in-place foundations despite the tendency of such foundations to structural cracks and the difficulty in effecting repairs despite the relative inflexibility of such approaches.
Efforts have been directed towards automated handling machines which are extremely expensive, require skilled labour for installation, operation and use and also towards lighter materials which are inappropriate for many building types and conditions.
Many builders prefer a pre-cast concrete block foundation and rely upon a ready supply of inventory standard blocks for successful construction. Such inventory allows supplies to build at a consistent or determined rate and achieve economies of operation and, thus, acceptable prices.
According to the present invention, a pre-cast-concrete building block is provided which conveniently provides a building element readily used on a building site which is both lighter in weight and considerably less stressful to manipulate to the site of use, in setup and in installation in either a 3-web or a 2-web configuration. Its strength is not compromised and the block may be readily and rapidly formed on conventional concrete block forming machinery.
Additionally, the invention provides a method of manufacture of pre-cast blocks in either a 3-web or a 2-web configuration including means for ready and efficient candling.
In particular, the invention provides a pre-cast symmetrical concrete construction block of generally rectangular outline with an upper and a lower surface, a pair of opposing generally planar spaced-apart first webs adapted to support a structure and provide an interior and an exterior foundation or wall surface, a plurality of spaced-apart transverse webs interconnecting said first webs extending from said lower to said upper surface and providing at least one void between said first webs, wherein a pair of said transverse webs are spaced in from a respective end extremity of said block, and wherein said pair of said transverse webs include lifting means adjacent said upper surface.
The invention also provides a handle laterally extending from said transverse web, and, in another embodiment, a handle void in said transverse web, adjacent the upper surface of the block.
A method of production of pre-cast symmetrical concrete construction blocks of generally rectangular outline is also provided comprising the steps of providing a two-part cavity mold, including a base portion and a shaped mold portion, with a generally T-shaped core adjacent said base portion, filling said mold, allowing said concrete to partially or completely set up, removing said core laterally from said mold, removing said shaped portion, and removing said setup concrete block from said base for further cure.
In the drawings, like element designations refer to like parts throughout, and:
As illustrated herein, the invention may be practiced in accordance with a first embodiment of
The building block in accordance with the subject invention is generally identified by the reference numeral 1. It comprises a pair of planar vertical surfaces 2 which typically form the spaced-apart inner and outer walls of the structure being built. Outer surfaces 2 are connected by 3 transverse webs as at 17. Upper and lower block surfaces 3 and 4 extend between outer surfaces 2 respectively and provide the structural bearing surfaces.
Webs 17 are spaced apart and provide internal voids as at 5 and 6 in
In
Later step 8 includes lateral vertical surfaces 10 and 11, inset surface 8a and web extensions as at 12 in
Handle 9 is integrally formed with and into lateral web 17 during casting and includes horizontal surface 13, generally vertical surface 14, inclined surface 15.
Preferably, surface 13 is formed into and provides an extension of block upper surface 3.
Further preferably, inclined surface 15 provides a gripping surface for manual or other lifting of the finished block and its installation at a construction site. Further, since the block 1 would typically be formed in an inverse mold, inclined surface 15 would provide for plastic flow of molding material into a corresponding mold cavity so as to effectively form handle 9.
Handle 9 may include gaps 16 between it and the vertical surface 12 as shown in
In
In
In the preferred embodiment shown in
In this embodiment the handle 9″ (
Inclined surfaces 21 provide for smooth and ready casting of the block 1 in high-speed operations in an inverted mold (as with the block of
Due to the instep provided by surfaces 12 and the handle 9″ a workman's hands or other equipment may carry and place the blocks of
In
In
In manufacture, the handle 9″ of
The present invention includes a preferred method of molding of a pre-cast concrete construction block including the steps of preparing an inverted mold having at least 2 web spaces providing at least 1 void and lateral insteps, providing a generally T-shaped core insert 25 extending laterally along the base 26 of the mold inverted so as to bear upon the narrow portion of the T as at 27 and including generally inclined surfaces 28 so as to facilitate plastic flow of molding material or concrete in a high-speed manufacturing operation, adding concrete casting material to the mold cavity, ensuring cavity fill with vibration or other compaction means, setting up the casting material, lateral withdrawal of the insert 25, removal of the mold and curing the finished product.
Although the preferred embodiments of the invention have been illustrated and described herein, it is intended to be understood by those skilled in the art that various modifications and omissions in form and detail may be made without departing from the spirit and scope of the invention as defined by the following claims.
Number | Date | Country | Kind |
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2501808 | Mar 2005 | CA | national |
2505070 | Mar 2005 | CA | national |