Title of Invention

"A METHOD FOR CONSTRUCTING A GLASS OR OTHER BLOCK PANEL"

Abstract A construction system and method for constructing a glass or other block panel (51). The construction system involves creating a composite moulding from interlocking moulding modules (15) each of which have a gasket 19 fitted into a groove (39) thereon. The glass blocks (23) are: subsequently laid on lop of the moldings (15) with the gaskets (19) forming a seal around the periphery of the planar faces (23b) of the glass blocks (23). The mouldings (15) have outwardly flared circumferential walls (31) from their supporting faces (33) to create interstices (25) between the glass blocks and circumferential walls (33) within which a concrete binder (27) can be poured and reinforcing rods (29) laid to create a composite panel (11). After curing, the mouldings (15) are released from the panel composite (11), together with the gaskets (19) to expose the planar face (23b) of the glass blocks (23) free from incursions of the binder (27) by virtue of the sealing nature of the gaskets (19).A moulding (15) and gasket (19) are also described.
Full Text "The present relates to a method for constructing a glass or other block panel”
Field of the Invention
This invention relates to a construction system and method for glass or other block panels, components thereof and a glass or other block panel formed thereby, which has particular utility in the construction industry. The invention has particular, although not exclusive, application for the construction of pre-fabricated glass or other bjock panels that may be used as flooring, ceilings or wall panels in building construction either in situ or remote of the construction site, especially those that are required to meet a prescribed fire rating standard.
Throughout the specification, unless the context requires otherwise, the word "comprise" or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated integer or group of integers but not the exclusion of any other integer or group of integers.
Background Art
The construction of pre-fabricated glass or other block panels is known and is relatively straightforward. The construction of glass or other block panels, however, that are required to meet a prescribed fire rating standard is a little more complex, where a mean thickness of the panel needs to be achieved with a magnitude that is marginally greater than the thickness of a standard size glass or other block.
The methods and systems of known construction for glass or other block panels of the latter type generally involve the building of removable formwork to create a planar substrate on which mouldings of substantially commensurate size and shape to the blocks forming the panel are fixedly attached. The mouldings typically comprise blocks made from wood, nylon or other suitable material and


are arranged in a matrix corresponding to the intended arrangement of the blocks forming the panel, suitably spaced apart from each other to define interstices corresponding to the intended spacing between the blocks.
Blocks are then individually disposed in juxtaposition with the outer planar surface of each moulding so that the outer face of one side of a block confronts the outer planar surface of a corresponding moulding and the outer edge of the block is contiguous with the upstanding edge of a moulding defining the circumscribing interstice around the moulding. In this manner the interstices around the mouldings are carried through to define spaces between adjacent blocks for filling with a binder whilst the mouldings hold the blocks in a matrix that becomes the panel.
Once the blocks are in position, a binding mixture such as concrete is poured into the interstices between the mouldings and the blocks in layers and reinforcing rods are laid within the spaces at discrete intervals and levels to be embedded within the mixture until the interstices are completely filled with the binder. The binder may be agitated by a vibrator or other means to ensure that all of the spaces forming the interstices are filled with the binding mixture to complete the construction of the panel composite.
The panel composite is then left for the binding mixture to set or cure, which in the case of concrete may be some 18 hours. Following setting or curing, the formwork and mouldings are dismantled and released from the block panel composite leaving-an-integral and self-supporting glass block panel structure that has grid-like protrusions formed by the binder projecting outwardly and contiguously from the spaces between the blocks on the side of the panel where the moulding and formwork were previously disposed.
The resultant block panel can be used as a building element in the formation of Nails, floors or ceilings within a building structure, which in the case of glass clocks is also translucent.

A problem with this known form of construction is that the mouldings have to be positioned precisely upon the formwork surface to ensure proper location and formation of the interstices and the outer planar surfaces of the mouldings for correct location of the blocks. This can be very time consuming and laborious and thus adds significantly to the construction costs involved with manufacturing a block panel in this manner.
Another problem is that due to imperfections in the block side faces and the mouldings themselves, the junction between the confronting side faces of the blocks and the outer planar surface of the mouldings provides a gap in some places where the binding mixture can penetrate, particularly during vibration of the binder. This migration of the binder onto the surface of the blocks can deface the blocks after the formwork and mouldings are removed and can be difficult and costly to remove. This causes additional cleaning requirements in places that are difficult to access in the finished panel, given that these incursions onto the block surface occur adjacent a binder protrusion. Accordingly, the defaced region of the block surface is oftentimes simply left, resulting in an appearance of the panel that is unattractive and which, in the case of glass block panels detracts from the primary purpose of the panel which is to allow light to pass through.
Disclosure of the Invention
It is an object of the present invention to overcome some if not all of the problems described above with the construction of glass or other block panels, or to at least mitigate some if not all of these problems.
In accordance with one aspect of the present invention, there is provided an improvement in a method for constructing a glass or other block panel comprising laying blocks on a corresponding moulding having a series of coplanar outer surfaces for supporting the blocks in a matrix with interstices between the adjacent outer edges of the blocks and filling the interstices with a binder, the improvement comprising:

disposing a gasket formed of resilient material fixedly around the periphery of the planar outer surfaces of the moulding so that the gasket projects marginally proud of the outer surface;
and positioning the blocks so that periphery of the side face confronting the outer surface of the moulding is brought into sealing relationship with the gasket to prevent binder from penetrating through the junction between the gasket and the confronting side face of the block.
In accordance with another aspect of the present invention, there is provided an improvement in the construction system of a block panel comprising a moulding having a series of coplanar outer surfaces for supporting the blocks in a matrix with interstices between the adjacent outer edges of the blocks to be filled with a binder, the improvement comprising a gasket formed of resilient material fixedly attached to the periphery of each planar outer surface of the moulding and having a portion extending marginally proud of the surface for supporting the face of a block thereon in sealing engagement therewith.
In accordance with a further aspect of the invention, there is provided a gasket formed of resilient material for fixed attachment to a moulding having a planar outer surface formed with a groove, the gasket including: an inner shank portion for positive and retained location within the groove and an outer projecting portion obliquely oppositely disposed relative to the inner shank portion, the distal end of the outer projecting portion forming a planar locus disposed proudly of the planar outer surface of the moulding when fixedly attached thereto to sealing engage a planar surface of block disposed thereon.
In accordance with another aspect of the invention, there is provided a modular moulding for constructing a block panel, the moulding comprising:
a circumferential wall, a planar outer surface surmounting the wall, and a radial flange projecting outwardly of the wall, oppositely disposed of the planar outer surface in generally parallel, spaced relationship therewith,

the radial flange being uniformly disposed around the wall of constant radial extent and being provided with a stepped edge to enable overlapping engagement with an adjacent moulding to form a regular matrix with interstices defined by the wall and flanges of adjoining mouldings disposed between a series of coplanar outer surfaces on which glass blocks may be disposed.
In accordance with a still further aspect of the invention, there is provided an improvement in a method for constructing a glass or other block panel comprising laying blocks on a series of coplanar outer surfaces for supporting the blocks in a matrix with interstices between the adjacent outer edges of the blocks and filling the interstices between the outer surfaces with a binder, the improvement comprising:
fixedly locating a series of discrete modular mouldings of the type described in the preceding aspect of the invention to a substrate in adjacent and overlapping relationship to each other to form a matrix of planar outer surfaces having uniformly spaced interstices disposed therebetween; and
laying the blocks upon the surfaces in corresponding relationship therewith to continue and maintain the interstices between the blocks before filling the interstices with binder.
In accordance with another aspect of the invention, there is provided a construction system for a glass or other block panel formed of a matrix of blocks bound together by a binder, comprising:
a plurality of mouldings of the type defined in the penultimate preceding aspect of the invention fixedly disposed to a substrate in adjacent and overlapping relationship with each other to form a matrix with regularly spaced interstices therebetween and a series of coplanar outer surfaces on which the blocks may be disposed prior to filling the interstices with a binder.

In accordance with a further aspect of the invention, there is provided a glass or other block panel formed in accordance with any one of the preceding aspects of the method or system defined therein.
Brief Description of the Drawings
The invention will be better understood in the light of the following description of one specific embodiment. The description is made with reference to the following drawings, wherein:
Figure 1a is a perspective view of the topside of a moulding; Figure 1b is a perspective view of the underside of the moulding in Figure 1a; Figure 1c is a side elevation of the moulding in Figures 1a and 1b; Figure 2a is a perspective view of a gasket;
Figure 2b is a fragmentary perspective view through a cross section of the gasket in Figure 2a;
Figure 3 is cross-sectional view taken through the junction between the circumferential wall and outer surface of the moulding;
Figure 4 is a cross sectional view showing the overlapping relationship between adjacently disposed mouldings;
Figure 5 is a cross-sectfonal view of a composite glass block panel construction system with the moulding and formwork in place;
Figure 6a is a fragmentary cross-sectional view of the junction between the circumferential wall and the outer surface of a moulding with the gasket in position, showing its relative position within Figure 5;

Figure 6b is a corresponding fragmentary view of Figure 4, showing its relative position within Figure 5
Figure 7 is a plan view of a completed glass block panel;
Figure 8 is a cross-sectional view of the panel of Figure 7 taken through section C-C; and
Figure 9 is a cross-sectional view of the panel of Figure 7 taken through section D-D.
Best Mode(s) for Carrying Out the Invention
The preferred embodiment of the best mode of the invention is directed towards a construction system and method for a glass block panel that is able to meet a prescribed fire rating standard requiring the mean of the panel thickness to be greater than the individual thickness of each glass block forming the panel. The embodiment also describes a modular moulding and gasket used in the construction of the panel and the resultant panel so formed.
The construction system 11 is best shown in Figure 5 of the drawings, where timber formwork 13 forms a substrate on which plastic mouldings 15 are fixedly disposed by screw fasteners 17 to form a moulding composite. Gaskets 19 are affixed to the mouldings and glass blocks 23 are disposed thereon, defining interstices 25 therebetween. The interstices 25 are filled with a binder in the form of concrete 27 and steel reinforcing rod 29 to complete the formation of a composite block panel construction system.
Describing each of the components of the system in more detail, the formwork 13 and glass blocks 23 are of standard design. The formwork is simply a sheet of timber, such as thick plywood. The glass blocks are rectangular and each comprise a pair of parallel side faces 23a and a peripheral edge 23b.

The concrete 27 is also of a standard binding mix to meet the requisite fire rating and structural strength requirements for binding the glass blocks together to form the panel. Similarly, the steel reinforcing rod 29 is of a prescribed gauge and sized to locate within the interstices.
The mouldings 15 are modular, the design of each being more particularly shown in Figures 1a to 1c. Each moulding is specially designed comprising an upstanding and outwardly flared circumferential wall 31, a planar outer surface 33 surmounting the wall, and a radial flange 35 projecting outwardly of the wall. The flange is oppositely disposed of the planar outar surface 33 and is in generally parallel, spaced relationship therewith.
The radial flange 35 is divided into two symmetrical stepped edge configurations, one being complementary to the other, where one stepped edge configuration is formed along two adjacent terminal edges of the circumferential wall 31, and the other stepped edge configuation is formed along the two remaining terminal edges of the circumferential wall. The one stepped edge configuration is arranged so that an upper recessed portion of the radial flange is provided to form a lower radial flange 37a and the other stepped edge configuration is arranged so that a lower recessed portion of the radial flange is provided to form an upper radial flange 37b. The lower radial flange 37a is provided with a medial slot 38a in each adjacent terminal edge thereof, and the upper radial flange is provided with a medial tongue 38b to locate within a correspondingly aligned slot 38a of an adjoining moulding. The symmetrical and complimentary configuration of the stepped edges allows for overlapping and positive engagement-with an adjacent moulding 15 as shown in Figures 4 and 6b of the drawings. In this manner a regular matrix of coplanar outer surfaces 33 is formed with interstices 25 defined by the wall 31 and flanges 35 of adjoining mouldings.
The junction between the planar outer surface 33 and the circumferential wall 31 is formed with a continuous groove 39 for accommodating the gasket 19. The distal end of the outer side wail 39a of the groove 39 juxtaposed with the circumferential wall 31 terminates short of the distal end of the inner side wall 39b of the groove juxtaposed with the planar outer surface 33.

The gasket 19, as shown in Figures 2 and 6a of the drawings, is formed of resilient material, such as rubber, and comprises an inner shank portion 19a for positive and retained location within the groove 39 and an outer projecting portion 19b obliquely oppositely disposed relative to the inner shank portion at an incidental angle of approximately 135°. The gasket forms a ring so that the distal end 41 of the outer projecting portion 19b defines a planar locus disposed proudly of the planar outer surface 33 of the moulding 15 when fixedly attached thereto within the groove to sealing engage a planar surface of a block disposed thereon. The angular orientation of the outer projecting portion 19b is biased outwardly from the transverse axis of the planar locus formed thereby and the junction as shown in Figure 6a of the drawings to provide for the best sealing engagement of the side face 23b of a glass block and impede the incursion of concrete into the junction between the outer face 33 of the moulding and the confronting side face of the block 23.
The moulding 15 is also provided with a pair of cylindrical bosses 43 projecting transversely of the planar outer surface, inwardly of the moulding and having central apertures 45 that open to the surface to facilitate the location of the screw fasteners 17. The apertures are countersunk at the surface to accommodate the heads of the fasteners.
The resiliency of the gaskets 19 facilitates fixing the glass blocks 23 in position when locating them on the mouldings in a planar array, as shown in Figures 5 and 7 of the drawings, and helps in retaining the blocks in position.
Once the formwork 13 and the mouldings 15 are precisely positioned with the gaskets 19 in place, the glass blocks are carefully laid in position and the interstices 25 filled with concrete. The space defining the interstices between the mouldings is filled initially with concrete before a first layer of reinforcing rods is disposed upon the concrete to create a mesh. Once the reinforcing rods are in position, concrete is poured into the remaining space of the interstices between the glass blocks until approximately the two-thirds level of the blocks. A second layer of reinforcing rods is then positioned to create a second mesh layer and the

remainder of the concrete is poured to level off at the outer side face of the glass blocks, embedding the reinforcing rods therein.
The composite panel structure is then left to set or cure, which in the case of concrete can take up to 18 hours.
After the curing process is complete, the formwork and the mouldings can be dismantled and released from the composite, leaving an integral and self-supporting glass block panel 51 as shown in Figures 7 to 9, having outwardly protruding concrete formations 53 contiguous with the spacing between the blocks 23. As can be seen, the circumferential wall 31 of the moulding is tapered outwardly to facilitate releasing the moulding 15 from the composite.
It should be appreciated that the scope of the invention is not limited to the particular embodiment described herein and that the invention has utility with forming panels from other type of block material.




We Claim:
1. A method for constructing a glass or other block panel characterised in that it
comprises:
laying blocks (23) on a corresponding moulding (15) having a series of coplanar outer surfaces (33) for supporting the blocks (23) in a matrix with interstices (25) between adjacent outer edges (23b) of the blocks (23) and filling the interstices (25) with a binder (27);
disposing a gasket (19) formed of resilient material fixedly around the periphery of the planar outer surfaces (33) of the moulding (15) so that the gasket (19) projects marginally from the planar outer surface (33); and
positioning the blocks (23) so that periphery of a side face (23a) thereof confronting the planar outer surface (33) of the moulding (15) is brought into sealing relationship with the gasket (19) to prevent the binder (27) from penetrating through a junction between the planar outer surface (33) of the moulding (15) and the confronting side face (23a) of the block (23).
2. A method as claimed in claim 1, wherein the projection of the gasket (19) is also biased outwardly from the junction towards an adjacent interstice (25).
3. A construction system (11) for a block panel, comprising:
a moulding composite (13,15,17) having a series of coplanar outer surfaces (33) for supporting blocks in a matrix with interstices (25) between adjacent outer edges (23b) of the blocks (23) to be filled with a binder (27), and
a gasket (19) formed of resilient material fixedly attached to the periphery of each planar outer surface (33) of the moulding (15) and having a portion (19b) extending marginally from the planar outer surface (33) of the
moulding (15) for supporting a face (23a) of the block (23) thereon in sealing engagement therewith.
4. A construction system as claimed in claim 3, wherein said portion (19b) is also biased outwardly from the junction towards an adjacent interstice (25).
5. A gasket (19) formed of resilient material for fixed attachment to a moulding (15) for supporting a block (23), the moulding (15) having a planar outer surface (33) formed with a groove (39), the gasket (19) comprising:
an inner shank portion (19a) for positive and retained location within the groove (39) and an outer projecting portion (19b) obliquely oppositely disposed relative to the inner shank portion (19a), a distal end of the
outer projecting portion (19b) forming a planar locus projecting from the planar outer surface (33) of the moulding (15) when fixedly attached thereto to sealing engage a planar surface (23a) of the block disposed thereon.
6. A gasket (19) as claimed in claim 5, wherein the oblique disposition of said outer projecting portion (19b) is biased outwardly from the transverse axis of the planar locus formed thereby.
7. A glass or other block panel formed in accordance with the method or system as claimed in anyone of the preceding claims.



Documents:

1477-delnp-2003-abstract.pdf

1477-delnp-2003-assignment.pdf

1477-delnp-2003-claims-(15-09-2008).pdf

1477-delnp-2003-claims.pdf

1477-delnp-2003-correspondence others.pdf

1477-DELNP-2003-Correspondence-Others-(12-09-2008).pdf

1477-delnp-2003-correspondence-others-(15-09-2008).pdf

1477-DELNP-2003-Correspondence-Others-(25-08-2008).pdf

1477-delnp-2003-description (complete)-(15-09-2008).pdf

1477-delnp-2003-description (complete).pdf

1477-delnp-2003-drawings.pdf

1477-delnp-2003-form-1-(15-09-2008).pdf

1477-DELNP-2003-Form-1-(25-08-2008).pdf

1477-delnp-2003-form-1.pdf

1477-delnp-2003-form-18.pdf

1477-delnp-2003-form-2-(15-09-2008).pdf

1477-delnp-2003-form-2.pdf

1477-delnp-2003-form-3-(15-09-2008).pdf

1477-DELNP-2003-Form-3-(25-08-2008).pdf

1477-delnp-2003-form-3.pdf

1477-DELNP-2003-Form-5-(25-08-2008).pdf

1477-delnp-2003-form-5.pdf

1477-delnp-2003-gpa-(15-09-2008).pdf

1477-delnp-2003-gpa.pdf

1477-delnp-2003-pct-210.pdf

1477-delnp-2003-petition others.pdf

1477-DELNP-2003-Petition-137-(12-09-2008).pdf

abstract.jpg


Patent Number 223729
Indian Patent Application Number 01477/DELNP/2003
PG Journal Number 40/2008
Publication Date 03-Oct-2008
Grant Date 19-Sep-2008
Date of Filing 15-Sep-2003
Name of Patentee W. LOFTUS & CO. PTY LTD.
Applicant Address 62 MCCOY STREET, MYAREE, WESTERN AUSTRALIAN 6154, AUSTRALIA.
Inventors:
# Inventor's Name Inventor's Address
1 LOFTUS ROY 62 MCCOY STREET, MYAREE, WESTERN AUSTRALIA 6154, AUSTRALIA.
2 BURKE WILLIAM HUGH 19 EXCHANGE ROAD, MALAGA, WESTERN AUSTRALIA 6945, AUSTRALIA.
PCT International Classification Number E04C 1/40
PCT International Application Number PCT/AU02/00148
PCT International Filing date 2002-02-13
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 PR 3065 2001-02-13 Australia