RYDER GEORGE RALPH (AU)
| WO1994011587A1 | 1994-05-26 |
| GB1534501A | 1978-12-06 | |||
| US3968615A | 1976-07-13 | |||
| AU2048792A | 1993-01-28 | |||
| DE2452373A1 | 1976-05-06 | |||
| US5715635A | 1998-02-10 | |||
| US4075808A | 1978-02-28 | |||
| CA1197391A | 1985-12-03 |
| 1. | A building block comprising sidewalls endwalls and at least one vertical cavity or slot, at least one first channel in the upper surfaces of the endwalls and at least one second inverted channel in the lower surfaces of the endwalls, the arrangement and construction being such that when blocks are laid one upon another the channels and the said at least one cavity or slot of the blocks can be aligned to provide an internal network of horizontal and vertical infill passages which can be filled with a settable material to seal joints between the blocks and to provide load bearing support between respective courses of blocks. |
| 2. | A building block as claimed in claim 1 wherein the said at least one first channel is substantially UShaped. |
| 3. | A building block as claimed in claim 1 or claim 2 wherein the said at least one second inverted channel is divided by a central ridge. |
| 4. | A building block as claimed in any one of claims 1 to 3 having horizontal ledges at the upper outer edges of the sidewalls with respect to which flanges of sidewalls of an overlaid blocks can be secured. |
| 5. | A building block as claimed in claim 4 having at least one vertical pert groove in the end watts thereof. |
| 6. | A building block as claimed in claim 6 having two spaced vertical pert grooves in the end walls thereof. |
| 7. | A building block as claimed in any one of claims 1 to 6 having keyslots in endwalls thereof. |
| 8. | A wall structure comprising multiple courses of building blocks as claimed in claim 7 in an end to end abutting relationship including keys fixed in the keyslots of the blocks. |
| 9. | A wall structure as claimed in claim 8 including vertical and/or horizontal steel reinforcing members positioned in aligned cavities and channels in the blocks. |
| 10. | A wall structure as claimed in claim 8 or claim 9 wherein horizontally disposed passages and vertically disposed cavities within the structure are grouted. |
| 11. | A wall structure as claimed in 8 or claim 9 wherein the keys each comprise an elongate medial flange and webs positioned on opposite edges of the flange each of said webs including a plurality of ribs which extend from the sides of the flange and which, commencing from the outermost ribs are of diminishing depth. |
| 12. | A wall structure as claimed in claim 11 wherein surfaces of the flanges of the keys are irregular. |
| 13. | A wall structure as claimed in claim 12 wherein the irregularity of the flange surfaces of each key is provided at least in part, by a network of extending knobs. |
| 14. | A wall structure as claimed in claim 12 or claim 13 wherein the irregularity of the surfaces of the flange of each key is provided at least in part, by a network of recesses. |
| 15. | A method of constructing a footing or wall comprising (d) laying a first course of blocks as claimed in any one of claims 1 to 7, (e) inserting keys in adjacent slotted ends of the building elements so that a portion of the keys extends upwardly from the slotted ends, and laying a further course of the building elements on the first course so that the slotted ends of the building elements engage over the extending portion of the keys, and inserting a further set of keys in the slots of said further course of building elements. |
| 16. | The method of claim 15 wherein the keys are approximately the same depth as the building elements and when placed in the slots, approximately half of the total depth of the keys extends from the slots. |
| 17. | A method as claimed in claim 15 or claim 16 including laying horizontal and/or vertical reinforcing members in selected courses of the blocks. |
| 18. | The method of any one of claims 15 to 17 wherein vertically disposed cavities or slots and horizontal disposed passages in multiple layers of blocks are grouted. |
| 19. | A method of forming a building element from a cementitious or other moulable substance comprising the steps forming the element within a mould box, separating a base of the mould box prior to release of the element from the mould box and resupporting the formed element on its release from the mould box. |
| 20. | A method as claimed in claim 19 wherein the base of the mould is separated whilst a tamping plate is engaged with the mould box. |
| 21. | A method as claimed in claims 19 or 20 wherein the upper surface of the base of the mould is provided with a plurality of projections which shape the base of the building element. |
| 22. | A method as claimed in claim 21 wherein the projections form longitudinal and/or lateral channels in the bottom wall of the formed element. |
| 23. | The method claims 19 to 22 wherein the upper surface of the base of the mould can be used to form functional and/or decorative surfaces or shapes on building elements such as blocks, panels, pavers and the like. |
| 24. | A building block substantially as herein described with reference to the accompanying drawings. |
| 25. | A key substantially as herein described with reference to the accompanying drawings. |
| 26. | A wall structure substantially as herein described with reference to the accompanying drawings. |
| 27. | A method of constructing a footing or a wall substantially as herein described with reference to the accompanying drawings. |
| 28. | A method of forming a building element substantially as herein described with reference to the accompanying drawings. |
BACKGROUND ART There have been proposed many different forms of masonry blocks for use in building constructions and these are generally manufactured with a peripheral wall with apertures passing therethrough. The blocks, when built into a wall, are generally laid staggered, that is with the blocks in alternative rows being displaced half a block with from those in the adjacent row and are normally provided with mortar joints.
Such blocks have the advantage of lightness in weight and are less costly than bricks. Additionally, in staggered block constructions a level foundation is required for supporting the blocks to ensure correct alignment between the blocks. Furthermore, the blocks are required to be manufactured to stringent tolerances otherwise staggering of the blocks becomes difficult.
Building blocks are generally manufactured by machinery which tamps a moist mixture of concrete into dies whilst the dies and/or a table beneath the dies are vibrated. As can be readily understood such techniques result in wear and tear to the dies and product which was made from a new die would not necessarily be dimensionally the same as product manufactured subsequently. Difficulties arise when the blocks are laid in multiple courses because of this problem.
Australian patent No. AU-A-24868/95 describes a method for manufacturing walls from masonry blocks having end apertures opening to the exterior of the block, the methodology including the steps of arranging blocks in a substantially end-to-end butting relationship so that the apertures are adjacent and oppose each other, interconnecting blocks by a plug or
dowel adapted to extend through the openings and having portions receivable in the respective apertures so as to hold the blocks in a required position relative to each other and setting further blocks in alignment one above the other.
Whilst the above methodology has proved to be satisfactory we perceive that there are a number of improvements which could be effected to a number of aspects of such systems and it is an object of the present invention to provide same.
Block systems known as"dry-wall"have to date had limited applications because of inherent strength limitations. The systems are generally used only for single storey structures.
An object of the present invention is to provide a dry wall building system with improved structural and loading capabilities.
Further objects and advantages of the present invention will become apparent from the ensuing description which is given by way of example.
DISCLOSURE OF THE INVENTION According to a first aspect of the present invention there is provided a building block comprising sidewalls endwalls and at least one vertical cavity or slot, at least one first channel in the upper surfaces of the endwalls and at least one second inverted channel in the lower surfaces of the endwalls, the arrangement and construction being such that when blocks are laid one upon another the channels and the said at least one cavity or slot of the blocks can be aligned to provide an internal network of horizontal and vertical grouting passages which can be filled with settable material to seal joints between the blocks and to provide load bearing support between respective layers of blocks.
The said at least one first channel can be substantially U- Shaped.
The said at least one second inverted channel can be divided by a central ridge.
Horizontal ledges can be provided at the upper outer edges of
the sidewalls with respect to which flanges of sidewalls of an overlaid blocks can be secured.
The block can have having at least one vertical pert groove in the end walls thereof.
The block can have two spaced vertical pert grooves in the end walls thereof.
The block can have keyslots in endwalls thereof.
According to a further aspect of the present invention there is provided a wall structure comprising multiple courses of building blocks aforesaid in an end to end abutting relationship including keys fixed in the keyslots of the blocks.
The wall structure can include including vertical and/or horizontal steel reinforcing members positioned in aligned cavities and channels in the blocks.
Horizontal disposed passages and vertically disposed cavities within the structure can be grouted.
The keys can each comprise an elongate medial flange and webs positioned on opposite edges of the flange each of said webs including a plurality of ribs which extend from the sides of the flange and which, commencing from the outermost ribs are of diminishing depth.
Surfaces of the flanges of the keys can be irregular.
The irregularity of the flange surfaces of each key can be provided at least in part, by a network of extending knobs.
The irregularity of the surfaces of the flange of each key can be provided at least in part, by a network of recesses.
According to a still further aspect of the present invention there is provided a method of constructing a footing or wall comprising (a) laying a first course of blocks as aforesaid, (b) inserting keys in adjacent slotted ends of the building elements so that a portion of the keys extends upwardly from the slotted ends, and (c) laying a further course of the building elements on the first
course so that the slotted ends of the building elements engage over the extending portion of the keys, and inserting a further set of keys in the slots of said further course of building elements.
The keys can be approximately the same depth as the building elements and when placed in the slots, approximately half of the total depth of the keys extends from the slots.
Horizontal and/or vertical reinforcing members can be laid in selected courses of the blocks.
The vertically disposed cavities or slots and horizontal disposed passages in multiple layers of blocks can be grouted.
According to a still further aspect of the present invention there is provided a method of forming a building element from a cementitious or other moulable substance comprising the steps forming the element within a mould box, separating a base of the mould box prior to release of the element from the mould box and re-supporting the formed element on its release from the mould box.
The base of the mould can be separated whilst a tamping plate is engaged with the mould box.
The upper surface of the base of the mould can be provided with a plurality of projections which shape the base of the building element.
The projections can form longitudinal and/or lateral channels in the bottom wall of the formed element.
The base of the mould can be used to form functional and/or decorative surfaces or shapes on building elements such as blocks, panels, pavers and the like.
BRIEF DESCRIPTION OF THE DRAWINGS Aspects or the present invention will now be described with reference to the accompanying drawings in which; Figure 1 is a top perspective view of a key for joining the ends of building blocks in accordance with one aspect of the present invention, and Figures and 5 are end, cross-sectional side and plan
views respectively of the key of figure 1, and Figure 6 is a perspective view of a key and complementary building elements for a system according to the present invention, and Figure 7 is a perspective view of a building block in accordance with a further aspect of the present invention, and Figures 8 and 8a are perspective and sectional drawings respectively of a wall structure utilising the blocks of figure 7, and Figures 9,10 and 11 are side, end and plan views respectively of a building block in accordance with a further aspect of the present invention, and Figures 12 and 13 are end and plan views of a grouted wall structure utilising the blocks of figures 10,11 and 12, and Figures 14,15,16 and 17 are side and perspective views of building blocks in accordance with further aspects of the present invention, and Figure 18 is a perspective view of a corner or junction block in accordance with further aspects of the present, and Figures 19 to 19e are diagrammatic drawings of a mould, mould box and tamping head arrangement in accordance with further aspects of the present invention.
With respect to figures 1 to 6 of the drawings, a key in accordance with the present invention is indicated by arrow 1. The key 1 comprises an elongate medial flange generally indicated by arrow 2 and webs generally indicated by arrow 3. Each of the webs 3 consists of a plurality of ribs 4 which extend from both sides of the flange 1 and which, commencing from the outermost web, are of diminishing depth.
The surfaces of the flange are irregular such irregularity being provided by a network of knobs 5, recesses 6, apertures 7, and flutes 8.
Whilst some of these aspects assist to minimise material costs, and assist the moulding process from which the keys are made, the elongated knobs 5 have a functional purpose.
A building element generally indicated by arrow 9 of figure 6 is
provided with end walls 10, side walls 10a, a top wall 11 and a bottom wall 12. The building element is similar dimensionally to a standard building block, is rectilinear in shape and can include cavities 13.
The distance between the peaks of the knobs 5 which extend from both sides of the flange 2 of the key 1, is similar to or slightly greater than the width of a first portion 14 of a slot indicated by arrow 15 in the ends and/or sides of the blocks. Staggering of the knobs 5 ensures that if the first portion 14 of the slot 15 is irregular because of the die wear or other manufacturing causes adequate contact is made with the walls of the first portion 14 of the slot 15. Similarly, if divergent walls 16 of a second portion of the slot 15 are irregular, the spaced ribs 4 of each web 3 will ensure adequate contact with walls 12.
The top and bottom walls 11,12 of the blocks 9 can be provided with a tongue 17 and groove 18 respectively so that the blocks key into one another and are readily laid on a level plane. The key 1 assures alignment of the blocks in the vertical plane and the tongue and groove arrangement assures alignment on a horizontal plane.
In the event that branch walls are provided in a structure slots 19 for the plugs 1 can be provided in the side walls of the blocks 9.
The length of each key 1 is approximately the same as the depth of each block 9 and, as mentioned earlier, the keys are set in the slots of abutting blocks so that approximately half the length of each key extends above each course of blocks as they are laid.
With respect to Figures 7 to 8a of the drawings and in accordance with a further aspect of the present invention, there is provided a building element having some similarities with the element of Figure 6 but with further features. The building element illustrated by Figures 7 to 8a generally indicated by arrow 20 is provided with end walls 21, a top wall 22 and a bottom wall 23. The building element 20 is similar dimensionally to standard building blocks, is rectilinear in shape and may include cavities 24.
The element is provided with slots generally indicated by arrow 25 similar to that described in relation to the element illustrated by Figure 6, and in this
instance illustrated by figures 7 to 8a of the drawings, the top wall 22 is provided with two longitudinal tongues 26 and the bottom wall two longitudinal grooves 27. Flanking either side of the slot 25 in top wall 22are further grooves 28 and where the block is provided with a centre partition 29, further grooves 30 in the partition can be provided. The grooves 28,30 allow horizontal reinforcing members to be laid in selected courses of a structure.
Figures 8 and 8a of the drawings illustrate a wall structure in accordance with the present invention including building elements 20 laid in courses, each element having end walls joined by keys such as key 1 previously described with courses of the building elements reinforced by a horizontal reinforcing members 35. The reinforcing members 35 are laid in grooves 28,30 of the keys 1 and can be keyed in using a grout or other moulable materials. A wall structure as illustrated can also include vertical reinforcing and other standard features such as openings, lintels, bond beams and the like.
Figure 8a illustrates a convenient method of joining the ends of horizontal reinforcing members 35 within a cavity in a building element.
Abutting bent ends of reinforcing members can be keyed into the cavity with concrete or grout or other mouldable materials such as hardening resins to ensure continuity between same. The ends may be pre-tied although this is not considered to be essential.
With respect to figures 9 to 13 of the drawings illustrating a further embodiment of a building element according to the present invention, a block generally indicated by arrow 36 can comprise sidewalls and endwalls 37,38 respectively, at least one vertical cavity or slots 39, a first channel 40 in the upper surfaces of the endwalls 38 and an inverted second channel or channels 41 in the lower surfaces of the endwalls. When a wall structure is erected the cavities or slots and channels can be aligned to provide an internal network of horizontal and vertical infill passages generally indicated by arrows 42,43 (see figures 12 and 13).
The first channels 48 can be substantially U-Shaped and second channels 41 can be similarly shaped and be divided by a ridge 44.
The block 36 can be provided with horizontal ledges 45 at upper outer edges of the sidewalls 37 with respect to which flanges 46 of overlaid blocks can be secured.
The block 36 can be provided with a single vertical cavity 47 between the endwalls 38 and pert slots or grooves 48 in endwalls thereof, and in common with previously described embodiments, keyslots 44 in endwalls 38 thereof can be provided.
When a structure is erected and the passages 42,43 filled with grout (figures 12 and 13) all joints 50,51 between the blocks are sealed by same and the grout in the horizontal passages 42 provides load bearing support between respective layers of blocks.
Keys 1 (shown in general outline only in figure 14) can be used to join the ends of the blocks.
A wall structure utilising building blocks and the methodology described in relation to figures 9 through to 18 is greatly superior to conventional dry wall methods and trials and engineering reports to date have indicated superiority under structural loading, wind loading, earth quake resistance and with respect to regulations relating to fires.
It is well known in the construction industry that the integrity of conventional block walls which are grouted can be severely compromised by bad workmanship and the use of mortar mixes which are not of the required standard. The present invention eliminates these problems and provides an opportunity for so called"dry-wall"methodology to be used on multistory buildings and for completed walls to be used as load bearing and cyclone proof structures.
The block configuration of figures 9 to 13 provides for the placement of both horizontal and vertical reinforcement bars 52,53 in accordance with design requirements.
Figures 14 and 15 of the drawings illustrate top and side profiles of a further form of block according to the present invention block generally indicated by arrow 54 which has a single central cavity 55. Top and bottom walls 56,57 are shaped similarly to the block of figures 9 to 13 and in this
case a single U-shaped pert groove 58 is provided in the end walls 59 of the block. A key slot 60 is also provided.
Figures 16 and 17 show the block of figures 14 and 15 with an additional branch wall pert groove 61 and key slot 62 for the joining of a branch wall (not shown) similar to that described in relation to figure 6.
Figure 18 of the drawings illustrates a corner block generally indicated by arrow 63 is provided with key slots and pert grooves 64,65 similar to that described in relation to figures 14 to 17 and top and bottom walls 66,67 also of similar shape to the block of figures 14 to 17. The corner block 63 can be provided as a unit of a block set with the blocks of figures 14 to 17 and the materials of laying courses of blocks, grouting and reinforcing as previously described in relation to figures 9 to 13 similarly adopted.
Most block making machinery throughout the world is very similar in terms of basic componentry and mode of operation in that blocks, pavers and the like are formed within a mould box and a concrete mix from which the blocks or pavers is tampered by tampers to compress the concrete mix. The tampers and mould boxes are then removed leaving the formed blocks on pallets. The pallets and fresh product is then moved away from a mould head for curing. Machinery of this type is manufactured and distributed throughout the world under the names Besser and Columbia.
Conventional block making apparatus has the disadvantage of leaving a timber pallets very worn where direct contact is made. Because of this wear there is a requirement to change pallets regularly. Alternative steel pallets are very expensive and are extremely heavy and the additional weight of steel pallets has not been allowed for in most existing machinery.
The quality of the pallet will always determine the quality of the bottom of the block. If pallet has worn, say 3mm over say 12 months, then the block height will increase accordingly.
According to a still further aspect of the present invention there is provided a method of forming a building element within a mould box comprising the steps of forming the element within the mould box, removing a base for the mould box prior to release of the element from the mould and re-
supporting the element on its release from the mould box.
With respect to figures 19 and 19e of the drawings and in accordance with further aspects of the present invention a mould box generally indicated by arrow 67 can comprise a single or multiple mould casing 68 and may be provided with a polished high tensile steel base plate 69. Rebates 70 can be provided in the base plate 69 which can be hydraulically locked onto the mould casing 68 when required.
The mould box 67 can be filled with a moulable mix 71 and be tamped and vibrated in the conventional manner.
The mould casing 68 can be lifted off the base plate 69 leaving a formed element 72 suspended in the mould. A pallet 73 can then be moved under the mould box 67. The mould box can then be lowered to deposit the element 72 on the pallet 73. The pallet 73 then moves to a curing/drying station or situation. The process is then repeated.
The formed elements 72 stay in the mould casing 68 when it is suspended after the base plate 69 is removed. This allows pallet 73 to replace the base plate 69 of the mould and the formed element is then released. Suction between the top and side walls of the formed element 72 and the sides and a tamping plate 74 of the mould and moisture combine to hold the formed elements in place whilst pallets are being placed.
Elements such as building blocks have substantial depth and a large surface area in contact with the sides of the mould box. Where an element being formed is of lesser depth, e. g. a paver or brick"suction"may be increased by creating a partial pressure headspace in the region above the top wall of the element and the tamping plate 74.
A sequence of operation of the specific apparatus of figures 19 to 19e can be as follows: Figure 19 The mould casing 68 and base plate 69 are united.
Figure 19a An aggregate mix 71 falls into the mould box 67 onto the base plate 69.
Figure 19b A tamping plate 74 stamps out the profile of the top wall of a block and the whole unit is vibrated.
Figure 19c The mould casing 68, tampers 74 moves up with the mix 71 intact and separates from the base plate 69.
Figure 19d A conveyed pallet 73 is inserted on top of the base plate 69 and the mould casing and tampers are withdrawn.
Figure 19e The tamper 74 raise and leave formed blocks on pallets which can then be removed for curing of the formed blocks to take place. The whole process is repeated again.
Apparatus and methodology such as described in relation to figures 19 to 19e has significant advantages, notably: 1. This procedure will allow, not only longitudinal grooves or recesses to be formed in the base of building elements but grooves and recesses at right angles to the longitudinal grooves.
2. A more exact height block, brick or paver will be consistently achieved.
3. Because pallets are only required for the support and removal of formed products wear and tear is minimal. Cheaper timber pallets can be used resulting in substantial savings in manufacturing and plant costs.
Aspects of the present invention have been described by way of example onty and it should be appreciated that modifications and additions may be made thereto without departing from the scope thereof as defined in the appended claims.