The invention relates to a masonry block system, more particularly, the invention relates to building blocks having cavities for reinforcing steel bars, insulation and utilities that enable strong and durable assembly of walls and building structures.
Masonry blocks are frequently used for building walls of residential and commercial structures. In a conventional masonry block wall, the blocks are laid on bond, that is, one block covers one half of two blocks below it, so that the vertical joint formed by adjacent blocks in one row does not align with a vertical joint similarly formed in a previous row. Such blocks typically have one or more chambers to allow for the insertion of utilities, insulation, and reinforcing steel bars. Thick layers or mortar are used to seal the connection between one row of blocks the row of blocks above/beneath it.
In general, multiple masonry workers are needed to move the conventional blocks into the proper position. Once a first row of blocks is laid in position a thick layer of mortar is laid on top of the row and a subsequent row of blocks is placed in position. It is typically a tedious and time consuming process. For example, constructing a simple block shed that is approximately 10 feet in length, 8 feet in width and 8 feet in height generally takes a team of four masonry workers two full days of work to construct.
What is needed, therefore, is a masonry block that has the strength to form a wall of a building while having the space for insulation, reinforcing means, and utilities, while also being constructed in a manner that enables a small number of masonry workers to easily and efficiently assemble a building structure.
The invention is a masonry wall system that uses precision ground blocks having interlocking ends to facilitate relatively quick and easy assembly of a building structure. The wall system includes a stretcher block and a half block, with each block having ends that include a male connector and a female connector such that when two blocks are assembled adjacent to one another on a row, the male connector on the first end mates with the female connector on the second end face of the adjacent block. Another row of blocks may be laid on top of a previously laid row of blocks and secured in place by a conventional masonry adhesive, rather than mortar, because the top surface of the blocks are precision ground such that each block has the same dimensions and therefore the height of each block in a row is the same as each other block.
The outer faces of the blocks, being wall faces, form a web around a plurality of inner chambers. The chambers may be used for items such as insulation, reinforcing steel bars (“rebar”), and the installation of utilities. Conventional rebar may be inserted through the chambers in a vertical orientation, and the upper surface of the web may be cut or ground down to insert rebar in a horizontal orientation after which grout is applied to seal the horizontally placed rebar in a secure position. Assuming the base of the wall is horizontally level the design of the blocks allows for quick assembly of a sturdy and durable building structure. For example, constructing a simple block shed that is approximately 10 feet in length, 8 feet in width and 8 feet in height generally takes only two masonry workers a single day of work to construct.
The present invention is described with reference to the accompanying drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. The drawings are not drawn to scale.
The present invention will now be described more fully in detail with reference to the accompanying drawings, in which the preferred embodiments of the invention are shown. This invention should not, however, be construed as limited to the embodiments set forth herein; rather, they are provided so that this disclosure will be complete and will fully convey the scope of the invention to those skilled in the art.
The invention is a masonry block 100 for building masonry block walls. The masonry block 100 is constructed to receive insulation materials, reinforcing materials, and utilities. The insulation material may be in any suitable form, for example, a rigid foam block, batting, or spray foam insulation. The utilities include the types of wires, cables and piping that are common in most building structures. The common reinforcing means are reinforcing bars or “rebar”.
The term “masonry block” 100 is a general term for the block according to the invention and includes a stretcher block 120 and a half block 140 that fit together to form a wall 160. Incorporated into each block 100 are one or more chambers 200 for receiving insulation and reinforcing bars (“rebar”), among other things, as well as a connector means 300 for mating adjacent blocks with each other. The general shape of the blocks 100 is rectangular, whereby the generally rectangular outer perimeter has one or more indentations and/or protrusions on one or more of the faces of the particular block. Each block has two wall faces 102 that form opposite sides of the block and are the faces of the block that are visible on the two faces of a wall, and each block has a first end face 104 and a second end face 106, a top face 110, and a bottom face 112. Elements that are functionally identical in the various blocks 120 and 140 retain the same reference designation.
The stretcher block 120 includes a plurality of chambers 200. More particularly, the block 120 includes two large chambers 220 and two narrow chambers 240, the chambers being bounded by an outer web 260 and separated by an inner web 280. The large chambers 220 are ideal for the insertion of insulation, with chamber notches 207 provided inside of the large chambers 220 to help secure insulation inside of the chambers 220, and well as for the insertion for reinforcing means such as rebar. The narrow chambers are particularly well suited for utilities such as electrical wiring. The wall face 102 that is adjacent to the narrow chamber 240 may also be cut away, after which a conventional electrical box, which typically has a depth of 2⅛ inches or 2¼ inches, may be inserted in the narrow chamber 240 in such a manner that the outer edge of the electrical box is flush with an inside wall of a building.
Small notches 205 are provided in the upper corner of each face 104, 106 of the block 100, which allow for the insertion of line pins (not shown). After a course of blocks 100 has been put in place, and/or during the laying of a course of blocks 100, a range line may be hooked to each pin to ensure the wall is kept straight.
The stretcher block 120 may be constructed in any suitable size, however, a block that is roughly eight inches in width, eight inches in height, and sixteen inches in length is particularly useful for constructing a strong wall with insulation and reinforcing supports. In this example, the large chambers 220 may be approximately 6.5 inches in length and 3 inches in width while the narrow chambers 240 may be approximately 6.5 inches in length and 1 inch in width. This size of block is also particularly suitable for use with other conventional building materials such as conventional siding and insulation.
The stretcher block 120 and the half block 140 are each precision ground, meaning that the top face 110 of each block 120, 140, is ground to precise dimensions so that the height of each block 120, 140, in a set of blocks is the same. For example, a set of stretcher blocks 120 that are to be used for a given building may be ground to the precise height of 8 inches, with a length of 16 inches and a depth of 8 inches, while a set of half blocks 140 may also be ground to a precise height of 8 inches, a length of 8 inches, and a depth of 8 inches.
Ensuring that the blocks 100 have the same height and the same depth, in addition to the connection means 300, allows for easy construction compared to the conventional blocks because a wall may be constructed using conventional masonry adhesive rather than mortar, which is a significantly faster and easier method of adhering one row of blocks to another.
More specifically, the method of constructing a wall using the precision ground block includes the following: 1) leveling the ground where the wall is to be constructed; 2) laying a length of wall, with the connection means 300 interlocking between each adjacent block; 3) laying a line of masonry adhesive along the top face 110 of each block in the line; 4) inserting line pins into the notches 205; 5) running a line through the line pins and checking to see that the line of blocks is straight; 6) repeating the process for each layer of blocks until the desired wall height is achieved. As previously mentioned, it is a good practice to use horizontally laid rebar at various spots along the wall. To do this, a notch is ground into the top face 110 of each block in the layer, often along the inner web 280, the rebar is put in place in the notch and then covered by grout to seal it in. Precast concrete lintels may be incorporated as desired to provide support over openings such as doors and windows. Using the blocks 100 with this method allows, for example, for the construction of a block shed that is approximately 10 feet in length, 8 feet in width and 8 feet in height a single day of work to construct using only two masonry workers. Of course, the blocks are also suitable for use with other structures, but in any case they may be laid and assembled in a safe and reliable manner in significantly less time than with conventional blocks.
It is understood that the embodiments described herein are merely illustrative of the present invention. Variations in the construction of the masonry block system may be contemplated by one skilled in the art without limiting the intended scope of the invention herein disclosed and as defined by the following claims.
Filing Document | Filing Date | Country | Kind |
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PCT/US2018/061192 | 11/15/2018 | WO | 00 |
Number | Date | Country | |
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62587528 | Nov 2017 | US |