The present invention relates to the field of masonry works and installations. More particularly, it concerns panels having horizontal channels adapted to receive bricks so as to form a masonry wall.
Stone masonry and brick masonry facings have been traditionally constructed by skilled workers from individual units, such as bricks, stones, or rocks, set and mortared one after the other into the shape of a wall. This is a very long process which is time consuming.
Different solutions have been proposed in the prior art for reducing the time required for forming or designing a masonry wall, such as a brick work, or for making its construction available to an unskilled person.
Among these prior art solutions, there are the prefabricated artificial facings which consist of panels or form liners with an assemblage of decorative prefabricated moulded bricks or stones giving the appearance of natural brick, stone or other masonry material. These pre-fabricated panels or liners often do not provide an architecturally satisfactory appearance of real brick or stone. Also, they are often very heavy and are thus difficult and cumbersome to transport to the job site and to install on the building structure. Another drawback with many of these pre-fabricated panels is that once installed side by side on a surface, the separation line between the panels is clearly visible which makes those prefabricated panels less attractive for someone researching the appearance of a real natural stonework. Examples of such prior art prefabricated facings are giving in U.S. Pat. Nos. 2,339,489; 3,496,694; 3,350,827; 3,712,825; 3,908,326; 4,510,729; 4,656,722; 5,386,963; 5,632,922; 6,041,567; and 6,164,037.
Also known in the prior art, there are U.S. Pat. Nos. 5,855,075 and 5,894,676, which disclose a brick template for laying a plurality of bricks. This template, which serves as a guide for mounting the rows of bricks, includes a planar and rigid sheet having a plurality of support pins projecting therefrom in a predetermined pattern for supporting a plurality of bricks.
Further known in the prior art, there is U.S. Pat. No. 5,009,387 which discloses a liner made of an elastomeric material with recesses formed therein for receiving bricks. Retaining devices attached to the liner are provided for retaining the pieces of brick into the recesses.
U.S. Pat. No. 5,839,251 discloses a masonry construction aid which allows its user to insert masonry into a pre-determined, pre-formed, soluble pattern that contains within a bonding material. After applying a catalyst to the pattern, the pattern disintegrates, the bonding agent activates and bonds the masonry together and hardens into a permanent structure. The pattern disclosed therein is devised to form a non complex masonry work with respect to the arrangement of the bricks on the wall.
U.S. Pat. No. 5,501,049 discloses a thin brick panel assembly for forming a brick facing on a building structure. The brick panel assembly includes a backing member with a generally uniform cross-section throughout its entire length, providing channels, which allow the thin brick tiles to lay uniformly across each row. The channels are defined by retaining bars which hold the thin brick tiles in place. The retaining bars include mortar lock notches, which are adapted to provide a dovetail connection between the mortar and the backing board, and a path for moisture and water to escape from the brick panel assembly.
Also known in the prior art, there is the panel system disclosed in the CA 2,485,870 in the name of the Applicant which discloses an artificial masonry unit suitable for use with a panel made of a compressible material having masonry unit receiving depressions in a front face thereof and protruding ribs defining and bordering the depressions. The depressions are sized to receive respective artificial masonry units in a close-fitting relationship. The artificial masonry unit comprises a body bounded by a front face, a back face, and a lateral face providing a thickness to the unit, and a back peripheral edge joining the back face and the lateral face. A tooth projection is projecting from the lateral face next to and parallel to the back peripheral edge for thrusting into the protruding rib when the masonry unit is inserted in a respective depression. The tooth projection is thrusting into the rib of a respective depression and helps retain the masonry unit within the depression prior to mortaring the wall. As can be appreciated, this system requires the use of customized masonry units provided with one or more tooth projections. A conventional standard brick available on the market would not be suitable with this system.
Further known in the prior art, U.S. Pat. No. 5,860,261 discloses an apparatus for retaining bricks to a wall structure, without the use of mortar or other binding agents. The disclosed apparatus is also able to be used as a brick laying guide for the construction of a conventional brick and mortar wall. The apparatus includes a base plate which is fixed to a base structure. Two retainer arms extend perpendicularly outward from the base plate and are attached thereto, thus forming a retaining space in between the inner faces of the two opposing arms. Each of the arms have at least one prong that extend into the retaining space. A brick equipped with vertical holes that extend the length if its body allows for the prongs to extend into the holes of the brick when inserted into the retaining space. In other words, once a brick is inserted into a retaining space at a sufficient enough depth, the prongs that extend into the holes hold the brick securely in place at the desired distance from the wall structure.
As well, U.S. Pat. No. 5,634,305 discloses a stone cladding system having a plurality of facing blocks which are arranged into superposed courses. A first block placed into a first course has a first step which defines a lower tread, with a riser, and a top thread which extends along the top surface of the inserted block. A second block inserted into a second course, disposed above the before mentioned first course, is provided with a second step being complementary to the first one which extends along the length of the bottom surface of the block and engages with the first step of the block inserted into the first course. The system is also provided with a plurality of vertically spaced horizontally-extending rails which are attached to the wall to be faced. The rails support the facing blocks by overriding the top tread and riser of blocks placed in the first course and by underlying the bottom surface of blocks placed in the second course.
Also known in the art is the Structural Support Panel System for Brick, Tile or Stone, or the “TABS(tm) II Wall product” manufactured by Tabs Wall System LLC. The disclosed system includes a support panel with an integrated tab & locking system. Integrated support tabs are sized for veneer thickness and adjustable ties are provided for veneer dimensions.
The following prior art documents provide other examples of wall construction using panels and/or masonry units: U.S. Pat. Nos. 3,496,694; 3,712,825; 3,908,326; 4,589,241; 5,228,937; 5,501,049; 5,894,676; 3,813,838; 3,340,660; 3,701,228 and 6,164,037. Also, US application 20060101784 should be mentioned as well.
As described in some of these prior art documents, another possible way of retaining masonry units between the ribs of a channel is to apply an adhesive, such as mortar, on the back face of the units prior to inserting them into the channels. While this solution can be used with conventional clay bricks, it has the disadvantage of introducing extra steps during the installation of the units, and of requiring extra curing time in order to allow the adhesive to dry.
In light of the information above, it would be desirable to have a panel suitable for making a brick masonry wall having channels adapted to receive and retain bricks which are often provided with one or more holes without requiring modifications or alterations in the shape of the brick and without resorting to the use of adhesive or mortar. Finally, it would desirable for the panel to allow for the retention of bricks manufactured with large size variations for a predetermined size of brick.
It is an object of the present invention to provide a masonry panel that satisfies at least one of the above-mentioned needs.
Therefore, in accordance with the present invention and broadly described, that object is achieved with a masonry wall panel assembly suitable for retaining bricks comprising a panel and a plurality of bricks.
The panel has a front face provided with a plurality of horizontally extending contiguous channels. Each channel is bounded by respective upper and a lower protruding rib for fitting a row of bricks in the channel. It is worth mentioning that since the channels are contiguous one another the upper rib of one channel become the lower rib of the next upper channel. A plurality of compressible retaining tabs is positioned along the upper rib of each channel for retaining bricks inserted in the channels. The tabs project from underneath the upper ribs and extend frontward. Each tab is provided by a back portion and a front portion.
The bricks are insertable within the channels of the panel. Each brick, when in place in the panel, has an upper side facing upward, an underside facing downard; a rear side facing the panel and a rear top edge intersecting the upper side and the rear side. Each brick is provided with at least one cavity on its upper side, which at least one cavity opens out onto the rear side via an opened passage extending to the rear side or is closed. Each brick is also provided with at least one compression area located on its upper side in between the at least one cavity and the rear top edge
When in use, that is, when one of the brick is inserted into a channel of the panel, the brick is positioned such that at least one of the cavity on the upper side faces one or more tab on the upper rib of the channel, such that the front portion of the one or more tab protrudes into a corresponding one of said cavity while the back portion compress the compression area of the brick, thereby retaining the brick within the channel.
The depth of the channels is determined by the thickness of the ribs bounding the channels. In a preferred embodiment, the tabs extend substantially over the entire thickness of the ribs. Still preferably, the tabs have a v-shape cross-section and the ribs are provided with deformations shaped on their upper surface, opposite the tabs. Of course, other cross-sectional shapes can be considered. According to this preferred embodiment, there is a groove at the junction of the tabs and the bottom surface of the channels, the deformation and the groove advantageously increasing the flexural capacity of the tabs, and preventing them from breaking when a brick is inserted into a given channel. This preferred embodiment advantageously allows the swift and easy insertion of bricks into the panel. It also allows the insertion of such bricks having large variations in their overall dimensions.
The present invention also provides a kit for building a masonry wall panel assembly, comprising a set of panels and a set of bricks as described above.
It is understood that a brick can be provided with more than one cavity on its upper side and that a cavity can be an open cavity, or in other words, that a cavity can open on the rear side of the brick. In addition, the term “brick” refers to a masonry unit, and is not restricted to designate conventional-sized clay bricks but rather any masonry unit having the above-mentioned characteristics.
By “compression area”, it is understood to mean an area which is located on the upper side of a brick and that is comprised between the cavity and the rear top edge of the brick. The “compression area” is the area that compresses the back portion of the compressible tabs of the ribs, when the brick is inserted in the panel. For bricks having a cavity opening on their rear side, the compression area expends on both sides of the cavity, near the rear side of the brick.
In accordance with yet another aspect of the present invention there is also provided a method for making a masonry wall covering a building surface, comprising the steps of:
As well, another aspect of the present invention provides a method for installing a masonry wall panel assembly comprising:
Other objects, advantages and features of the present invention will become more apparent upon reading the following non-restrictive description of preferred embodiments thereof, given for the purpose of exemplification only, with reference to the accompanying drawings in which:
In the following description, similar features in the drawings have been given similar reference numerals. In order to preserve clarity, certain elements may not be identified in some figures, if they are already identified in a previous figure.
Referring to
The bricks 3 have an upper side 7, a rear side 9 and a rear top edge 12 intersecting the upper side and the rear side, these upper and rear sides 7, 9 being in reference to the orientation of the bricks 3 when they are inserted in a wall panel of the invention. Once inserted, the upper side 7 of a brick 3 faces upwards relative to the ground and its rear side 9 faces the panel.
The bricks 3 are provided with at least one cavity 5 on their upper side 7. As per the different embodiments presented in
Each brick 3 is also provided with a compression area 10, located on its upper side 7, in between the cavity 5 and the top rear edge 12. The function of the compression area 10 will be described later in the description.
Now referring to
As best shown in enlarged
In the preferred embodiment illustrated in
Still referring to
Still preferably, portions of the ribs 17 between two tabs 21 may have a depth that is shorter than the length of the tabs 21. This increases the size of the surface area of the top of the brick that is exposed during the insertion process, which will facilitate the manipulation of the brick 3 if repositioning or adjustment is required. This design also has the benefit of increasing the surface of the brick onto which mortar will eventually be applied, thereby increasing the structural integrity of the masonry wall once completed. Of course, in other embodiments, the thickness of the ribs 17 can correspond to the length lt of the tabs 21 and may even be longer that the length lt of the tabs 21, as long as the thickness of the protruding ribs 17 is shorter than the thickness tb of the bricks to be inserted in the panel 11, for obvious aesthetic reasons. As well, the thickness of the upper ribs can decrease between the tabs.
Referring to
Now referring to
A first type consists of an inverted-V shaped protuberance or rib having its pointed end located opposite the gaps 19 of the protruding ribs 17.
A second type consists of vertical ribs, which are located between the inverted V-shaped ribs and within the V portion of the inverted V-shaped ribs.
Finally, a third type consists of curved or arched ribs, each extending above one rib segment 17 and under one of the inverted V-shaped rib to receive water flowing out from the inverted V-shaped rib, directing it towards the gaps bordering the ribs segment. Each arched rib is also provided with recesses 35, which can be of oblong shape such as in
The combined use of all these protuberances or drainage ribs 37 facilitates water drainage towards the bottom of the panel 11. Also, with respect to the vertical ribs, they are provided with a predetermined width and spacing between each two adjacent vertical ribs so as to guide the installation of the bricks within the channels.
Referring to
Referring to
Referring to
Preferably, the combined thickness of the panel and the bricks inserted in the panel is between 3 and 4 inches (or between 7.6 and 10.2 cm). That is, if the thickness of the panel is equal to 2 inches (5.08 cm), the thickness tb of the brick will vary between 1 and 2 inches (or 2.54 and 5.08 cm). Of course, in other embodiments, the panel can be used with conventional clay bricks having a thickness varying between 3 and 4 inches.
Now referring to
These panels 11 are preferably made of polystyrene or any other material known in the art and which are commonly used in this field. Of course, other materials offering similar compressible characteristics can be used.
Referring to
In this preferred embodiment, apertures or gaps 19 are practiced in the protruding ribs 17, forming rib segments 43, to allow the flow of water that may have seeped to the front face 13 of the panel 5 down the panel to a catch room (not shown in the figures). In use, that is, when bricks 3 are inserted into the channels of the panel, the front portions of the tabs 21 protrude into the respective cavities 5 of the corresponding bricks 3 while the back portions of the tabs 21 compress the compression areas 10 of the bricks 3, thereby retaining the bricks within the panel.
In another preferred embodiment of the present invention, a kit for building a masonry wall panel assembly is provided. This kit and referring to
In accordance with another aspect of the invention, there is provided a method for installing a masonry wall panel assembly including components as described above.
In accordance with this method, and referring to
Bricks 3 are then positioned into each of the channels 15 of the panels 11, forming rows of side by side masonry bricks 3. Each of the masonry bricks 3 is aligned with a corresponding section 43 of the upper protruding rib 17 of a given channel 15, so that the cavities 5 of the bricks are placed on top and so that they are in line with the tabs 21 of the corresponding rib segment 43. The brick 3 is then inserted into the channel 15 by placing the bottom edge of the rear surface 9 of the brick 3 into the channel 15 and resting against the bottom rib 17 bounding the channel 15. The brick 3 is then pivoted on this bottom edge inwardly towards the inside of the channel 15. By doing so, compression area 10 of the brick 3 will compress the back portion 25 of the corresponding retaining tab 21, and the front portion 23 of the tab 21 will expand and protrude into the cavity 5 of the brick 3, the tab 21 thereby securing the brick 3 within the channel 15 of the panel 11. These steps are repeated for each brick, until the channels 15 of the panel 11 are filled with bricks 3. Of course, only one or a few rows of bricks could be filled within a panel.
Once the panel is completely filled with bricks 3, mortar material is inserted in between adjacent masonry bricks 3 to bind the bricks 3 together.
Of course, numerous modifications could be made to the embodiments above without departing from the scope of the present invention.
Number | Date | Country | Kind |
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PCT/CA2009/000118 | Jan 2009 | WO | international |
This application is the U.S. national phase of International Application No. PCT/CA2010/000133 filed on Jan. 29, 2010 and published in English on Aug. 5, 2010 as International Publication No. WO 2010/085894 A1, which application claims priority to U.S. Provisional Application No. 61/222,980 filed on Jul. 3, 2009 and also claims priority to International Application No. PCT/CA2009/000118 filed on Jan. 30, 2009, the contents of all of which are incorporated herein by reference.
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PCT/CA2010/000133 | 1/29/2010 | WO | 00 | 12/20/2011 |
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WO2010/085894 | 8/5/2010 | WO | A |
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