This disclosure relates to concrete blocks that can be arranged into a free-standing wall. This disclosure also relates to the resulting free-standing wall, methods of constructing the wall, and the blocks used to construct the wall.
Concrete blocks can be used to create free-standing walls for landscaping or similar purposes. The blocks can be arranged to create the look of traditional stone walls. In some implementations, there will also be retaining walls made from blocks, and it is desirable to match the appearance of the free-standing walls with the retaining walls.
What is desired is blocks that can be used to form free-standing walls and that have a quick and simple installation with no cuts for making curved walls. It is also desired to have an attractive appearance on both sides of the wall.
A free-standing wall arrangement is provided including a plurality of concrete base blocks arranged adjacent to each other to form a base course; a first plurality of concrete wall blocks stacked on the base course and on each other to form a first wall face having at least 2 courses; and a second plurality of concrete wall blocks stacked on the base course and on each other to form a second wall face that faces the opposite direction from the first wall face and that has the same number of courses as the first plurality of wall blocks.
In one example, each base block has first and second sides and first and second ends between the sides and a uniform first depth D1 extending between the first and second sides. Each block of the first plurality of wall blocks has a uniform depth D2 that is no greater than half of the first depth of D1. The first plurality of wall blocks has at least one exposure face arranged to be along the first side of the base blocks to form the first wall face. Each block of the second plurality of wall blocks has the uniform second depth D2 and at least one exposure face arranged to be along the second side of the base blocks to form the second wall face.
In another aspect, a method of building a free-standing wall is provided. The method includes laying a base course of concrete base blocks on a ground surface with the base blocks being arranged next to each other end to end. Next, there is a step of laying a plurality of courses of a first plurality of concrete wall blocks by stacking individual blocks of the first plurality on the base course and then on each other to form a first wall face. The first wall face is being formed by exposure faces of each block of the first plurality of wall blocks. There is also a step of laying a plurality of courses of a second plurality of concrete wall blocks by stacking individual blocks of the second plurality on the base course and then on each other to form a second wall face that faces the opposite direction from the first wall face. The second wall face is formed by exposure faces of each block of the second plurality of wall blocks.
In another aspect, a concrete base block is provided. The base block includes a first rounded convex end and an opposite second rounded concave end having the same radius of curvature as the first end. First and second sides extend between the first and second ends. There is a top face and an opposite bottom face between the first and second ends and the first and second sides. A through-core arrangement extends completely through the block from the top face to the bottom face. The through-core arrangement has first and second edges parallel to the first and second sides. A plurality of recessed pockets are in the bottom face. First and second hand-receiving indents are in the bottom face and along the first and second sides and are sized to accommodate at least a few fingers of a human hand.
A. Overview
A free-standing wall constructed in accordance with the principles of this disclosure is shown in
The free-standing wall 30 includes a plurality of base blocks 42. The base blocks 42 are provided to form the foundation of the wall 30. As such, the base blocks 42 are placed on the ground upon which the wall 30 is being constructed. The base blocks 42 are arranged adjacent to each other, end to end, to form a base course 44 of the wall 30. It is upon the base course 44 that the first plurality of wall blocks 38 and the second plurality of wall blocks 40 are stacked to form the respective first wall face 34 and second wall face 36.
As can be seen in
B. Embodiment of Base Blocks 42
Referring now to
Between the first and second sides 51, 52 are first and second ends 54, 55. In preferred embodiments, the first end 54 is a rounded convex end 56, while the second end 55 is a rounded concave end 57. In preferred embodiments, the convex end 56 and concave end 57 have the same radius of curvature, such that the base blocks 42 may be arranged next to each other with the first rounded convex end 56 fitting within the second rounded concave end 57. An example is shown in
The shape of the first end 54 and second end 55 allows for the base blocks 42 to be arranged in a curved or serpentine pattern, as well as in a straight line. As such, the wall 30 can be formed to be straight, curved, or serpentine. In preferred embodiments, the radius of curvature of the convex end 56 and the concave end 57 is at least 5 inches, no greater than 6 inches, and preferably about 5.5 inches.
Between the first and second ends 54, 55 and the first and second sides, 51, 52 are the top face 46 and an opposite bottom face 47. In general, the top face 46 is flat forming a platform 60 to receive the first plurality of wall blocks 38 and the second plurality of wall blocks 40. The bottom face 47 faces and is against the ground.
In the preferred embodiment, the bottom face 47 includes a plurality of recessed pockets 62. The pockets 62 permit the ground to be received within the pockets 62 and help to anchor or secure the base block 42 to the ground.
While a variety of implementations are possible, in the example shown, the pockets 62 include 4 cavities 64, each cavity 64 being in one quadrant of the base block 42. The cavities 64 have a circular shape, but could be any shape. The cavities 64 have a depth of about 0.375 inches, and will generally be greater than 0.25 inch and no greater than 0.5 inch. The cavity 64 allows for gravel or sand from the ground to embed and help to lock and secure the base block 42 to the ground.
Preferably, the base block 42 further includes at least one hand-receiving indent 66 in the bottom face 47. The hand-receiving indent 66 is sized to accommodate at least a few fingers of a human hand and is provided to assist the user in movement and manipulation of the base block 42. While a number of variations are contemplated, in the embodiment shown, there are 2 hand receiving indents 66, one located along each of the first and second sides 51, 52 and generally centered between the first end 54 and second end 55. The hand-receiving indents 66 allow a user to insert his fingers underneath the base block 42 when it is face down on the ground. The user's fingers can slide into the space provided by the indent 66, and the user then can move the base block 42 around. The hand-receiving indent 66 may have a height of about 0.625 inches, and be at least 0.5 inches and no greater than 2 inches.
Referring now to
The core arrangement 68 including the first core 70 and second core 72 have first and second edges 76, 77 that are preferably parallel to the first and second sides 51, 52, respectively. Between the first and second edges 76, 77 are third and fourth edges 79, 80, such that each of the first core 70 and second core 72 is generally rectangular in shape. The third and fourth edges 79, 80 need not be straight, but can be a variety of shapes; they are just shown straight in this embodiment as an example. The first and second edges 76, 77 being parallel to the first and second sides 51, 52 is helpful in forming a guide for the arrangement of the first plurality of wall blocks 38 and second plurality of wall blocks 40 on the base blocks 42. This is explained more fully below.
Still referring to
While a variety of shapes and dimensions can be used, in one preferred embodiment, the base block 42 has a length between the tips 82, 83 and center bight 90 of the convex end 56 of about 17.5 inches, at least 6 inches, and no greater than 38 inches. The width of the base block 42 between first side edge 51 and second side edge 52 is about 11 inches, at least 8 inches and no greater than 36 inches. The width of each of the cores of the through core arrangement 68 between the first and second edges 76 and 77 is about 2 inches, at least about 1 inch, and no greater than 6 inches. The length of each of the cores of the through core arrangement 68 between the third edge 79 and fourth edge 80 is about 3 inches, at least one inch, and no greater than 6 inches. Each of the hand receiving indents 66 has an overall length in the direction from the block second end 55 to the block first end 54 of about 4 inches, at least about 2 inches, and no greater than 10 inches. The width of each of the hand receiving indents 66 from each of the respective first and second sides 51, 52 is about 1 inch, at least 0.5 inches, and no greater than 3 inches. In general, the hand receiving indents 66 have a generally rectangular shape in appearance, except where the indents 88, 89 protrude within the hand receiving indents 66.
In the embodiment shown, the base block 42 can be divided into 2 regions, 92, 93. The regions 92, 93 are divided by the side indents 88, 89. Region 92 is the region between the side indents 88, 89 and the first end 54. In the embodiment shown, region 92 has a general shape from the top or bottom view of a truncated circle; that is, a circle that has been cut off in a region below the diameter. The region 93 is the region between the side indents 88, 89 and the second end 55. Region 93 has an appearance of a rectangle with a pair of jutting tails formed by the tips 82, 83.
C. Embodiments of First and Second Wall Faces 34, 36
Referring again to
In general, each block of the first plurality of wall blocks 38 has at least one exposure face 96 that is arranged to be along the first side 51 of the base block 42. Each of the exposure faces 96 of the first plurality of wall blocks 38 forms the first wall face 34. By the term “exposure face” it is meant the portion of the first plurality of wall blocks 38 that is not covered by or directly against another block forming the wall 30. In general, the exposure face 96 would be a portion of the wall 30 that is openly visible. In many preferred implementations, the exposure face 96 is textured, patterned, or otherwise molded with a topographical definition (3-dimensional pattern). The relief on the exposure face 96, measured from the lowest point to the highest point, is preferably at least 0.5 inches, and more preferably at least 1.0 inch. The greatest relief at any place across the exposure face 96 is the maximum relief, and the maximum relief of the exposure face 96 is at least about 0.5 inches.
Similarly, each block of the second plurality of wall blocks 40 has at least one exposure face 98 arranged to be along the second side 52 of the base blocks 42 to form the second wall face 36.
As can be seen in the embodiment of
When the blocks of the first plurality of wall blocks 38 is stacked on the top face 46 of the base blocks 42, the through-core arrangement 68 functions as a guide. Specifically, the rear face 100 of each of the blocks of the first plurality of wall blocks 38 is aligned with one of the first edges 76 of either the first core 70 or second core 72. This helps to arrange the first plurality of wall blocks 38 into the same alignment as the base blocks 42. Similarly, the rear face 102 of each of the second plurality of wall blocks is aligned with one of the second edges 77 of the first core 70 or second core 72 of the base blocks 42 to help guide the location of the second plurality of wall blocks 40 properly on the base course 44.
When forming the wall 30, adhesive is applied between the courses of the first plurality of wall blocks 38 and the second plurality of wall blocks 40. The adhesive secures each individual block in the wall 30. The adhesive can be a concrete adhesive such as PL Premium, a polyurethane construction adhesive.
D. Cap Blocks
As can be seen in
In preferred embodiments, each cap block 110 has opposite front and rear faces 112, 113; opposite first and second sides 115, 116 between the front and rear faces 112, 113; and opposite top and bottom faces 118, 119 between the front and rear faces 112, 113 and first and second sides 115, 116.
The cap blocks 110 are arranged adjacent to each other along the first and second sides 115, 116 and on top of the first and second plurality of wall blocks 38, 40 such that each cap block 110 has its bottom face 119 against respective top faces of the blocks in the top course of the first plurality of wall blocks 38 and second plurality of wall blocks 40. This also results in the front face 112 of each cap block being along the first wall face 34, and the rear face 113 of each cap block 110 being along the second wall face 36.
In preferred embodiments, the front face 112 and rear face 113 are textured, patterned, have a topographical definition, or a three-dimensional pattern. In addition, the cap blocks can be formed such that when they are side by side, they have a seamless appearance in that each profile 122, 123 of the front face 112 and rear face 113 is a mirror image of the next adjacent cap block 110. As such, these cap blocks can be formed as described in commonly assigned and co-pending U.S. patent application Ser. No. 12/105,902, filed Apr. 18, 2008, incorporated herein by reference.
E. Blocks Used to Form Wall 30
In preferred embodiments, the wall 30 will provide an attractive appearance, utilizing a variety of blocks. In addition to the base block 42 and the cap blocks 110, one preferred implementation includes using six different block sized for constructing the first and second wall faces 34, 36. Of course, other embodiments can use more or fewer block sizes.
In
Each of the blocks 130 includes a rear face 134 that is on the opposite side of the block 130 from the exposure face. In
In preferred embodiments, at least some of the blocks 130 include at least one of the first and second sides 138, 139 is at a non-orthogonal angle relative to the exposure face 132 and rear face 134. In these embodiments, the rear face 134 is shorter than the exposure face 132. This shape, including the shorter length of the rear face 134 than the exposure face 132 allows the blocks 130 to be arranged relative to each other in a way that allows them to be formed into curves or serpentine shapes. For example, the blocks 130 shown in
One useful block is shown in
Another useful block is shown in
Another useful block is shown in
A second useful block is shown at 142 in
In reference now to
The third block 144 includes a third length L3 between the first side 138 and second side 139 that is three-times the first length L1. That is, the length of the third block 144 is three-times the length L1 of the blocks 180, 182.
The third block 144 includes height H1, which is between the top face 136 and bottom face 137. The height H1 is the same first height as the height of the first block 140, and it is half of the height H2 of the second block 142.
In
The fourth block 146 has third length L3 between the first side 138 and second side 139, which is three-times the length L1. Thus, the fourth block 146 has a length that is the same as the third block 144 and three-times the length of block 182 and block 182.
The fourth block 146 has height H2, which is twice the height of first height H1, which is the same as the second block 142 and twice that of the first block 140 and third block 144 and block 180.
F. End Construction,
Referring now to
An embodiment of an end construction is shown in
In the embodiment illustrated in
A third end block is shown at 170. The third end block 170 has the first depth D3 and the first length L1. That is, the third end block 170 is half the length of the first end block 166 and second end block 168. The depth D3 of third end block 170 is the same as the depth of the first end block 166.
A fourth end block 172 has the first length L1 and the depth D4. As such, the third and fourth end blocks 170, 172 are of the same length, and their respective depths add up to a total depth that covers the ends of the first and second wall faces 134, 136 as well as the gap 48.
In the arrangement shown in
The blocks 166, 168 are oriented back to back. On top of the first and second end blocks 166, 168 are the third and fourth end blocks 170, 172. The third and fourth end blocks 170, 172 are oriented back to back. On top of the third and fourth end blocks 170, 172 are the first and second end blocks 166, 168, oriented back to back.
As can be seen in
The blocks 162 can all be blocks of identical dimensions that are then cut to shape for use in the wall 30. For example, the third and fourth end blocks 170, 172 can be cut to the first length L1 by taking a block 162 and cutting it in half. The depth D3 and D4 can be formed by taking a block and then cutting it to the desired depth of either D3 or D4. In some embodiments, there will be score marks on either the top face or bottom face of the blocks 162 to show the depth D3 and the depth D4 for ease of cutting by the installer of the wall.
In one example embodiment, the depth D3 is 6 inches, while the depth D4 is 3.5 inches. The length L1 is 8 inches, while the length L2 is 16 inches.
After forming the end construction 160, one or more cap blocks 110 may be placed on top of the end construction 160 to finish the appearance. Adhesive can be used between the blocks 162 of the end construction 160.
G. Method of Constructing Wall 30
A method of building a free-standing wall, such as wall 30, can utilize the blocks and principles described above.
First, the base course 44 is laid on the ground. This is done by using base blocks 42 and lining them up or arranging them next to each other end to end. The first end 54 of one base block 42 is placed next to the second end 55 of another of the base block 42. Specifically, the rounded convex end 56 of the first end 54 is placed within the rounded concave end 57 of the adjacent base block 42. The base blocks 42 can be arranged in curves or serpentine patterns, such as shown in
After the base course 44 is placed, a plurality of courses of the first plurality of wall blocks 38 is laid. The plurality of courses are laid by stacking individual blocks 130 of the first plurality of wall blocks 38 on the base course 44 and then on each other to form the first wall face 34. One example of a first wall face 34 is shown in
In
The method also includes forming a plurality of courses of the second plurality of wall blocks 40 by stacking individual blocks 130 of the second plurality 40 on the base course 44 and then on each other to form the second wall face 36. The second wall face 36 will face a direction that is opposite of the first wall face 34, such as shown in
The step of laying a plurality of courses of the first plurality of wall blocks 38 and laying a plurality of courses of the second plurality of wall blocks 40 may be done “simultaneously.” By the term “simultaneously,” it is meant that one block 130 can be laid to form the first wall face 34, and then the second block 130 can be laid to form the second wall face 36, before the next block is laid to form the first wall face 34. Of course, this applies vice-versa, in that the first block 130 to be laid can be a block for the second wall face 36 followed by a block 130 for the first wall face 34. The blocks 130 can be laid as a complete first course for either of the first and second wall faces 34, 36, followed by a complete course for the other of the first and second wall faces 34, 36. Alternatively, multiple courses, or an entire wall face can be formed for one of the first and second wall faces 34, 36, followed by multiple courses or an entire wall face for the other of the wall faces. In other words, the step of laying a plurality of courses of the first plurality of wall blocks 38 and second plurality of wall blocks 40 may be done sequentially as well as simultaneously.
While laying the initial course of the first plurality of wall blocks 38 on the base course 44, preferably, there is a step of aligning the rear face 134 of the individual blocks 130 with the first edges 76 of the cores 70, 72 of the base blocks 42. Similarly, while stacking the first course of the second plurality of wall blocks 40 on the base course 44, the rear faces 134 of the individual blocks 130 of the second plurality of wall blocks 40 is aligned with the second edges 77 of the cores 70, 72 of the base blocks 42. This helps to lay the initial courses of the first plurality of wall blocks 38 and second plurality of wall blocks 40 in the desired pattern on the base blocks 42.
While laying the plurality of courses of the first plurality of wall blocks 38 and the plurality of courses of the second plurality of wall blocks 40, preferably there is a step of forming the gap 48 between the rear faces 134 of the first plurality of wall blocks 38 and the second plurality of wall blocks 40. After the gap 48 is formed and the first and second wall faces 34, 36 are complete, there may be a step of filling the gap 48 with aggregate filler 104.
After the first wall face 34 and the second wall face 36 are formed, there may be a step of laying a layer of cap blocks 110 so that each cap block 110 covers the top face 136 of a top one of the first plurality of wall blocks 38 and the top face 136 of the top one of the second plurality of wall blocks 40, as well as the gap 48.
Rather than filling the gap 48 with aggregate filler 104, it may be desirable to run wires, cables, lighting, or irrigation, or other desired equipment through the gap 48. After that, the gap 48 can still be filled with aggregate filler 104.
In preferred embodiments, the blocks 130, cap blocks 110, and end construction blocks 162 may be made from dry cast concrete.
In the example first wall face 34 shown in
The above are examples. Many embodiments may be made according to the principles provided herein.
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