FORM 2
THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENT RULES, 2003
COMPLETE SPECIFICATION
(See Section 10 and Rule 13)
FILLER FOR MOULD ASSEMBLY IN CONSTRUCTION
Applicant:
KNEST MANUFACTURERS LLP
An Indian company having address at
UNIT NO. 801/802, OM CHAMBERS, T-29/31, BHOSARI INDUSTRIAL ESTATE,
TELCO ROAD, NEXT TO TOYOTA SHOWROOM, BHOSARI, PUNE,
MAHARASHTRA, INDIA – 411026
THE FOLLOWING SPECIFICATION PARTICULARLY DESCRIBES THE AND INVENTION THE MANNER IN WHICH IT IS TO BE PERFORMED.

TECHNICAL FIELD
[0001] The present disclosure relates to a filler for mould assembly and more particularly a filler for mould assembly in construction of wall column and beam in residential or commercial activities.
5 BACKGROUND
A mould assembly is used in building construction such as a residential building. The mould assembly comprises panels connected together to form the mould assembly. Concrete in liquid form is poured into the mould assembly, followed by curing the concrete to form a wall or a column or a
10 beam of the building construction. The wall or the column or the beam has
standard sizes. The conventional mould assembly has panels of standard sizes made of aluminum material that facilitate construction of the wall or the beam or the column of standard sizes. However, when dimensions of the mould of wall or column or beam are required to be manufactured of
15 different sizes or non-standard sizes, the panels of standard sizes are
required to be customized. For this, the panels of standard sizes have to be machined separately to make them fit into the desired dimensions. This increases cost of construction of the mould of wall or the beam or the column, and also leads to wastage of natural resources. There is, therefore felt a need
20 for a filler for a mould assembly for building construction that overcomes the
drawbacks mentioned above.
SUMMARY
[0002] This summary is provided to introduce concepts related to filler for
mould assembly in construction of wall or column or beam. This summary is
25 neither intended to identify essential features of the present invention nor
intended to determine or limit the scope of the present invention.

[0003] In an embodiment of the present invention, the mould assembly
comprise a plurality of panels and a fillers configured to be joined together.
The trapezoidal protrusion and cavity is used to join the panels. The panels
are arranged to form a mould into which concrete is poured to finally form
5 the wall or the column or the beam. The wall or the beam or the column is
constructed to have same dimensions as the mould formed of the panels. At least one filler is configured to be attached to the panels. The filler facilitates extension of the width of the wall or the column or the beam of the building that has width other than standard width dimensions. The panels are made
10 of standard sizes which can be configured to construct walls or beams or
columns of standard sizes commonly used. However, when the width of the wall or the beam or the column is different from standard dimension, then the filler can be used to construct the wall or the beam or the column that have width that is different from standard dimensions. The filler has
15 different sizes to meet the desired dimension of the wall or the beam or the
column to be constructed.
[0004] In an embodiment of the present invention, the filler for mould assembly in construction of wall or column or beam comprises a panel and filler. The panel comprises a flat surface and a short surface. The short surface
20 is perpendicular to the flat surfaces. The short surfaces comprise an inner
surface and an outer surface. The outer surface comprises an open trapezoidal cavity and a close trapezoidal cavity at specified distance. The open trapezoidal cavity and the close trapezoidal cavity are extended throughout a height. Also, the filler mould assembly to construct wall or
25 beam or column comprises a filler. The filler is a rectangular structure
comprises a pair of flat side and a pair of long side. The pair of long side comprises a protrusion side and a groove side. The protrusion side comprises a pair of trapezoidal protrusions extended throughout the height.

The pair of trapezoidal protrusions are configured to interlock with the open
of trapezoidal cavity and the closed trapezoidal cavity with a predefined
clearance and the groove side comprises a pair of groves extended
throughout the height. The pair of grooves are configured to provide
5 clearance between the filler and the panel. The filler is interlock with the
panel with snap fit. The filler is configured to provide extension to the flat surfaces of the panel.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
10 [0005] The foregoing detailed description of embodiments is better
understood when read in conjunction with the appended drawings. For the purpose of illustrating the disclosure, there is shown in the present document example constructions of the disclosure; however, the disclosure is not limited to the specific apparatus or method disclosed in the document and
15 the drawings.
[0006] The present disclosure is described in detail with reference to the
accompanying figures. In the figures, the left-most digit(s) of a reference
number identifies the figure in which the reference number first appears. The
same numbers are used throughout the drawings to refer various features of
20 the present subject matter.
[001] Figure 1a illustrates a cross section of C shape panel for mould
assembly in accordance with an embodiment of the present subject matter.
[002] Figure 1b illustrates a cross section of C shape panel for mould
assembly in accordance with an embodiment of the present subject matter.

[003] Figure 1c illustrates a cross section of L shape panel for mould
assembly in accordance with an embodiment of the present subject matter.
[004] Figure 1d illustrates a cross section of open square shape panel for
mould assembly in accordance with an embodiment of the present subject
5 matter.
[005] Figure 2a illustrates a cross section of the filler for mould assembly
in accordance with an embodiment of the present subject matter.
[006] Figure 2b illustrates a cross section of the filler for mould assembly
in accordance with an embodiment of the present subject matter.
10 [007] Figure 3a illustrates a side view of the filler and panel for mould
assembly in accordance with an embodiment of the present subject matter.
[008] Figure 3b illustrates a side view of the filler and panel for mould
assembly in accordance with an embodiment of the present subject matter.
[009] Figure 3c illustrates a top isometric view of the filler and panel for
15 mould assembly in accordance with an embodiment of the present subject
matter.
[0010] Figure 3d illustrates a bottom isometric view of the filler and panel for mould assembly in accordance with an embodiment of the present subject matter.
20 [0011] Figure 4a illustrates a cross section of the 5mm filler for mould
assembly in accordance with an embodiment of the present subject matter.
[0012] Figure 4b illustrates an isometric view of the 5mm filler for mould assembly in accordance with an embodiment of the present subject matter.

[0013] Figure 5a illustrates a cross section of the 10mm filler for mould assembly in accordance with an embodiment of the present subject matter.
[0014] Figure 5b illustrates an isometric view of the 10mm filler for mould assembly in accordance with an embodiment of the present subject matter.
5 [0015] Figure 6a illustrates a cross section of the 15mm filler for mould
assembly in accordance with an embodiment of the present subject matter.
[0016] Figure 6b illustrates an isometric view of the 15mm filler for mould assembly in accordance with an embodiment of the present subject matter.
[0017] Figure 7a illustrates a cross section of the 20mm filler for mould
10 assembly in accordance with an embodiment of the present subject matter.
[0018] Figure 7b illustrates an isometric view of the 20mm filler for mould assembly in accordance with an embodiment of the present subject matter.
[0019] In the above accompanying drawings, a non-underlined number
relates to an item identified by a line linking the non-underlined number to
15 the item. When a number is non-underlined and accompanied by an
associated arrow, the non-underlined number is used to identify a general item at which the arrow is pointing.
[0020] Further, the figures depict various embodiments of the present
subject matter for purposes of illustration only. One skilled in the art will
20 readily recognize from the following discussion that alternative
embodiments of the structures and methods illustrated herein may be employed without departing from the principles of the present subject matter described herein.

DETAILED DESCRIPTION
[0021] Some embodiments of this disclosure, illustrating all its features, will
now be discussed in detail. The words "comprising," "having," "containing,"
5 and "including," and other forms thereof, are intended to be equivalent in
meaning and be open ended in that an item or items following any one of these words is not meant to be an exhaustive listing of such item or items, or meant to be limited to only the listed item or items. It must also be noted that as used herein and in the appended claims, the singular forms "a," "an," and
10 "the" include plural references unless the context clearly dictates otherwise.
Although an apparatus of filler for mould assembly in construction of wall column and beam, similar or equivalent to those described herein can be used in the practice or testing of embodiments of the present disclosure, the exemplary, an apparatus for filler for mould assembly in construction of wall
15 column and beam is now described.
[0022] When an element is referred to as being "mounted on," “engaged to,” "connected to," or "coupled to" another element, it may be directly on, engaged, connected or coupled to the other element. As used herein, the term "and/or" includes any and all combinations of one or more of the associated
20 listed elements. The terms first, second, third, etc., should not be construed
to limit the scope of the present disclosure as the aforementioned terms may be only used to distinguish one element, component, region, layer or section from another component, region, layer or section. Terms such as first, second, third etc., when used herein do not imply a specific sequence or order unless
25 clearly suggested by the present disclosure. Terms such as “inner,” “outer,”
"beneath," "below," "lower," "above," "upper," and the like, may be used in the present disclosure to describe relationships between different elements as depicted from the figures.

[0023] Various modifications to the embodiment will be readily apparent to
those skilled in the art and the generic principles herein may be applied to
other embodiments. For example, although the present disclosure will be
described in the context of a filler for mould assembly, one of ordinary skill
5 in the art will readily recognize that an apparatus can be used to construct
mould of wall, column and beam. Thus, the present disclosure is not intended to be limited to the embodiments illustrated but is to be accorded the widest scope consistent with the principles and features described herein. [0024] The present disclosure provides technical solutions to the technical
10 problems identified in the prior art. In the prior art, various types of methods
were used in the construction of wall, column and beams.
[0025] The present disclosure provides technical solutions to the technical problems identified in the prior art. In the prior art, various types of methods were used in the construction of wall or column or beams. In one of the
15 method, to construct the above mentioned structure wooden moulds are use.
To construct the mould, generally wood panels are used. The panels of wood are joined with the help of nails to form mould of required shape and size. The panels are form by cutting wood panels manually. Then the panels are joined together to form mould cavity. To form a mould of required shape and
20 size required high skilled labor. Also, to construct the wooden mould is a
time consuming task. Also, the wooden mould has the high chances of leakage. Also, by using these mould for multiple time the mould get damaged. Also, the finishing quality of the wall or beam or column is not good for wooden moulds.
25 [0026] To overcome these problems metal panels are used to construct wall
or beam or column. The metal panels in the market are available in standard sizes. But, to construct the wall or beam or column of dimension which are different from standard sizes of panel is difficult task. For example, the wall of the building is needed to be constructed of a width 2000 mm. The panels

available in standard sizes of 600 x 2400 mm i.e. width is 600 mm and height
2400 mm, 200 x 2400 mm i.e. width is 200 mm and height is 2400 mm can be
used to constructed the wall having width 2000 mm. So, to the construct the
wall which is 2000 mm in width three panels of 600 x 2400 mm and one panel
5 of 200 mm x 2400 will be sufficient. However, to construction a wall having
a width of 2010 mm, three panels of 600 x 2400 mm, one panel of 200 x 2400 mm and one filler having a width of 10 mm and height 2400 mm will be used. Since, panels having a width of 10 mm are not available in the market, the filler of the present disclosure facilitates accommodating the desired increase
10 in width of 10 mm of the wall. So, the filler facilitates constructing the wall
or the beam or the column having non-standard sizes. In various other embodiments of the present disclosure, the fillers are available in different sizes to accommodate variability in the non-standard dimensions of the wall. In this way, an entire wall is able to be constructed when the required number
15 of panels having standard dimensions as well the fillers if needed are used.
[0027] The filler mould assembly to construct wall beam and column comprises a panel. The panel comprises a flat surface and a short surface. The short surface is perpendicular to the flat surface. The short surface comprises an inner surface and an outer surface. The outer surface comprises an open
20 trapezoidal cavity and a close trapezoidal cavity at specified distance,
wherein the open trapezoidal cavity and the close trapezoidal cavity are extended throughout a height.
[0028] The filler mould assembly to construct wall beam and column comprises a filler. The filler is a rectangular structure comprises a pair of flat
25 side and a pair of long side. The pair of long side comprises a protrusion side
and a groove side. The protrusion side comprises a pair of trapezoidal protrusions extended throughout the height. The pair of trapezoidal protrusions are configured to interlock with the open of trapezoidal cavity and the closed trapezoidal cavity with a predefined clearance and the groove

side comprises a pair of groves extended throughout the height. The pair of
grooves are configured to provide clearance between the filler and the panel.
The filler is interlock with the panel with snap fit. The filler is configured to
provide extension to the flat surfaces of the panel.
5 [0029] During operation, in the first stage, the flat surface of the panel is in
line with the side panel to form long flat surface. The short surfaces of side panels get in contact with each other, in the second stage to fill up the gap between panels and to extend the length of the flat surface the filler of as required size is selected, in the third stage the flat side of the filler is get in
10 line with the panel. In the fourth stage the filler is interlock with the side
panel with snap fit. In the fifth stage the plurality of panels and fillers are assembles in required mould shape to form a mould cavity.
[0030] In the filler the open trapezoidal cavity comprises a long side, a short side and a base side. The height difference between the long side and the
15 short side is equal to the clearance between filler and panel. The clearance is
maintained between the panel and the filler. The clearance is configured to facilitate the movement of filler into the panel at the time of operation. The panel is made of standard sizes to construct the wall or beam or column. The width of the wall or the beam or the column to be constructed is different
20 from standard dimension of panel. The filler is configured to construct the
wall or the beam or the column that have width that is different from standard dimensions of the panel. The filler comprises different width sizes to meet the desired dimension of the wall or the beam or the column to be constructed. The mould formed of plurality of panels and plurality of fillers
25 have same dimension as the wall or beam or column to be constructed. The
plurality of panels and fillers are arranged to form a mould into which concrete is poured to form the wall or the beam or the column.
[0031] In one embodiment, the one of the pair of flat side of the filler comprises close trapezoidal cavity. The close trapezoidal cavity is configured

to interlock with one of the pair of trapezoidal protrusion of the filler. During
the operation filler can be removed from the panel to convert the panel into
standard dimension. Also, the panel and filler are made up of single unit.
[0032] The above mentioned assembly of panel and mould is used to
5 construct the wall beam and column of required shape. The present
disclosure described hereinabove has several technical advantages including, but not limited to, the realization of a filler for a mould assembly for building construction, that:
• reduces cost of construction;
10 • can be used to construct buildings of non-standard dimensions;
• reduces construction time of the building;
• offers repeatability in construction of the building;
• reduces required inventory at the manufacturer; and
• easy to assemble and dissemble mould.
15 [0033] It should be noted that the above advantages and disadvantages will
be better evident in the subsequent description. Further, in the subsequent section, the present subject is better explained with reference to the figures. In order to maintain consistency and brevity of reading, the all the figures from 1a, 1b, 1c are explained jointly. Further, the following table lists of
20 nomenclature and numberings are used in the figure to illustrate the
invention and the nomenclature is further used to describe in the invention the subsequent paragraph.

Nomenclature Number
Panel 102
Flat surface 104
short surface 106
Inner surface 108
Outer surface 110

open trapezoidal cavities 112
close trapezoidal cavities 114
Width of panel 118
Short side of open cavity 120
base side of open cavity 122
Clearance 124
Long side of open cavity 126
Filler 202
Pair of flat side 204-1,204-2
Pair of long side 206-1,206-2
Flat side 208
Protrusion side 210
Groove side 212
Pair of trapezoidal Protrusion 214-1,214-2
Pair of Grooves 218-1,218-2
Clearance of grooves 220
width of filler 222
Long side of open cavity 224
Height of panel 302
[0034] Figure 1a illustrates the C shaped panel for mould assembly in
construction of wall or column or beam, in accordance with an embodiment
of the present claimed subject matter. A filler 202 mould assembly for
5 construction of wall, column and beam comprises a panel 102. The
panel 102 comprises a flat surface 104 and a pair of short surface 106. The short surface 106 is perpendicular to the flat surfaces 104. The short surfaces 106 comprises an inner surface 108 and an outer surface 110. The outer surface 110 comprises an open trapezoidal cavity 112 and a close trapezoidal

cavity 114 at specified distances. The open trapezoidal cavity 112 and the
close trapezoidal cavity 114 are extended throughout a height 116. The open
trapezoidal cavity 112 comprises a long side 126, a short side 120 and a base
side 122. The height difference between the long side 126 and the short side
5 120 is equal to the clearance 124 between filler 202 and panel 102.
[0035] Figure 1b illustrates the C shaped panel 102 for mould assembly in construction of wall or column or beam, in accordance with an embodiment of the present claimed subject matter. The panel 102 is made of standard sizes for e.g. 50 mm, 100mm 150 mm, 200mm and 300 mm etc.
10 [0036] Figure 1c illustrates the ‘L’ shaped panel for mould assembly in
construction of wall or column or beam, in accordance with an embodiment of the present claimed subject matter. The present panel 102 comprises one flat surface 104 and one short surface 106. The present panel 102 is joined to only one filler 202 as the open trapezoidal cavity 112 and close trapezoidal
15 cavity 114 is present on only one side.
[0037] Figure 1d illustrates the square shaped panel 102 for mould assembly in construction of wall or column or beam, in accordance with an embodiment of the present claimed subject matter. The present panel comprises pair of flat surface 104 and pair of short surfaces 106 perpendicular
20 to each other. The present panel 102 is used at the corner of the mould. The
pair of short surfaces 106 comprises open trapezoidal cavity 112 and closed trapezoidal cavity 114 at the outer surface 110.
[0038] Figure 2a illustrates a filler 202 for mould assembly in construction of wall or column or beam, in accordance with an embodiment of the present
25 claimed subject matter. The filler 202 is a rectangular structure comprises a
pair of flat side 204-1,204-2 and a pair of long side 206-1,206-2. The pair of long side 206-1,206-2 comprises a protrusion side 210 and a groove side 212. The protrusion side 210 comprises a pair of trapezoidal protrusions 214-1,214-2 extended throughout the height 116. The pair of trapezoidal

protrusions 214-1,214-2 are configured to interlock with the open of
trapezoidal cavity 112 and the closed trapezoidal cavity 114 with a
predefined clearance 216 and the groove side 212 comprises a pair of groves
218-1,218-2 extended throughout the height 116. The pair of grooves 218-
5 1,218-2 are configured to provide clearance 220 between the filler 202 and the
panel 102. The filler 202 is interlock with the panel 102 with snap fit. The filler
202 is configured to provide extension to the flat surfaces 104 of the panel
102.
[0039] Figure 2b illustrates the filler for mould assembly in construction of
10 wall or column or beam, in accordance with an embodiment of the present
claimed subject matter.
[0040] Figure 3a illustrates the assembly of panel and filler for mould assembly in construction of wall or column or beam, in accordance with an embodiment of the present claimed subject matter. The panel (102) in the
15 mould assembly is made of standard sizes. The width of the wall or the beam
or the column to be constructed is different from standard dimension of panel 102. The filler 202 is configured to construct the wall or the beam or the column that have width that is different from standard dimensions of the panel 102. The filler 202 comprises different width sizes 222 to meet the
20 desired dimension of the wall or the beam or the column to be constructed.
The mould formed of plurality of panels 102 and plurality of fillers 202 have same dimension as the wall or beam or column to be constructed. The plurality of panels 102 and fillers 202 are arranged to form a mould into which concrete is poured to form the wall or the beam or the column. The
25 panel 102 and filler 202 are made up of single unit. The clearance 216 is
maintained between the panel 102 and the filler 202. The clearance 216 is configured to facilitate the movement of filler 202 into the panel 102 at the time of operation.

[0041] In one embodiment, the one of the pair of flat side 204-1,204-2 of the
filler 202 comprises close trapezoidal cavity 114. The close trapezoidal cavity
114 is configured to interlock with one of the pair of trapezoidal protrusion
214-1,214-2 of the filler 202.
5 [0042] Figure 3b illustrates the assembly of panel 102 and filler 202 for
mould assembly in construction of wall or column or beam, in accordance with an embodiment of the present claimed subject matter.
[0043] Figure 3c illustrates the top isometric view of panel 102 and filler 202
assembly for mould assembly in construction of wall or column or beam, in
10 accordance with an embodiment of the present claimed subject matter.
[0044] Figure 3d illustrates the top isometric view of panel 102 and filler 202 assembly for mould assembly in construction of wall or column or beam, in Figure
[0045] Figure 4a illustrates a cross section of the 5mm filler 202 for mould
15 assembly in accordance with an embodiment of the present subject matter.
[0046] Figure 4b illustrates an isometric view of the 5mm filler 202 for mould assembly in accordance with an embodiment of the present subject matter.
[0047] Figure 5a illustrates a cross section of the 10mm filler 202 for mould
20 assembly in accordance with an embodiment of the present subject matter.
[0048] Figure 5b illustrates an isometric view of the 10mm filler 202 for mould assembly in accordance with an embodiment of the present subject matter.
[0049] Figure 6a illustrates a cross section of the 15mm filler 202 for mould
25 assembly in accordance with an embodiment of the present subject matter.

[0050] Figure 6b illustrates an isometric view of the 15mm filler 202 for mould assembly in accordance with an embodiment of the present subject matter.
[0051] Figure 7a illustrates a cross section of the 20mm filler 202 for mould
5 assembly in accordance with an embodiment of the present subject matter.
[0052] Figure 7b illustrates an isometric view of the 20mm filler 202 for mould assembly in accordance with an embodiment of the present subject matter accordance with an embodiment of the present claimed subject matter.
10 [0053] wherein during operation, in the first stage, the flat surface 104 of the
of panel 102 is get in line with the side panel 102 to form long flat surface. The short surfaces 106 of side panels 102 get in contact with each other, in the second stage to fill up the gap between panels 102 and to extend the length of the flat surface 104 the filler 202 of as required size is selected, in the third
15 stage the flat side 208 of the filler 202 is get in line with the flat surface 104 of
side panel 102. The pair of trapezoidal protrusion 214-1,214-2 of the filler 202 is get in line with the open trapezoidal cavity 112 and the close trapezoidal cavity 114 of side panel 102. In the fourth stage the filler 202 is interlock with the side panel 102 with snap fit, in the fifth stage the plurality of panels 102
20 and fillers 202 are assembles in required mould shape to form a mould cavity.
The filler 202 can be removed from the panel 102 to convert the panel 102 into standard dimension.

We Claim:
1. A filler mould assembly for construction of wall, column and beam comprises; 5
a panel (102), wherein the panel (102) comprises a flat surfaces
(104) and a short surface (106), wherein the short surface (106) is
perpendicular to the flat surfaces (104), wherein the short surfaces (106)
comprises an inner surface (108) and an outer surface (110), wherein
10 the outer surface (110) comprises an open trapezoidal cavity (112) and
a close trapezoidal cavity (114) at specified distance, wherein the open trapezoidal cavity (112) and the close trapezoidal cavity (114) are extended throughout a height (302);
15 a filler (202), wherein the filler (202) is a rectangular structure
comprises a pair of flat side (204-1,204-2) and a pair of long side (206-1,206-2), wherein the pair of long side (206-1,206-2) comprises a protrusion side (210) and a groove side (212), wherein the protrusion side (210) comprises a pair of trapezoidal protrusions (214-1,214-2)
20 extended throughout the height (302), wherein the pair of trapezoidal
protrusions (214-1,214-2) are configured to interlock with the open of trapezoidal cavity (112) and the closed trapezoidal cavity (114) with a predefined clearance (216) and the groove side (212) comprises a pair of groves (218-1,218-2) extended throughout the height (116), wherein
25 the pair of grooves (218-1,218-2) are configured to provide clearance
(220) between the filler (202) and the panel (102), wherein the filler (202) is interlock with the panel (102) with snap fit, wherein the filler

(202) is configured to provide extension to the flat surfaces (104) of the panel (102);
wherein during operation, in the first stage, the flat surface
5 (104) of the of panel (102) is get in line with the side panel (102) to form
long flat surface, wherein the short surfaces (106) of side panels (102) get in contact with each other, in the second stage to fill up the gap between panels (102) and to extend the length of the flat surface (104) the filler (202) of as required size is selected, in the third stage the flat
10 side (208) of the filler (202) is get in line with the flat surface (104) of
side panel (102), wherein the pair of trapezoidal protrusion (214-1,214-2) of the filler (202) is get in line with the open trapezoidal cavity (112) and the close trapezoidal cavity (114) of side panel (102), wherein in the fourth stage the filler (202) is interlock with the side panel (102)
15 with snap fit, in the fifth stage the plurality of panels (102) and fillers
(202) are assembles in required mould shape to form a mould cavity.
2. The filler mould assembly for construction of wall, column and beam as
20 claimed in claim 1, wherein the open trapezoidal cavity (112) comprises a
long side (126), a short side (120) and a base side (122), wherein the height
difference between the long side (126) and the short side (120) is equal to the
clearance (124) between filler (202) and panel (102).
25 3. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein the clearance (216) is maintained between the panel (102) and the filler (202), wherein the clearance (216) is configured to facilitate the movement of filler (202) into the panel (102) at the time of operation.

4. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein the panel (102) is made of standard sizes,
wherein the width of the wall or the beam or the column to be constructed
5 is different from standard dimension of panel (102), wherein the filler (202)
is configured to construct the wall or the beam or the column that have width that is different from standard dimensions of the panel (102), wherein the filler (202) comprises different width sizes (222) to meet the desired dimension of the wall or the beam or the column to be constructed. 10
5. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein the mould formed of plurality of panels (102)
and plurality of fillers (202) have same dimension as the wall or beam or
column to be constructed.
15
6. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein the plurality of panels (102) and fillers (202) are
arranged to form a mould into which concrete is poured to form the wall or
the beam or the column.
20
7. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein the one of the pair of flat side (204-1,204-2) of
the filler (202) comprises close trapezoidal cavity (114), wherein the close
trapezoidal cavity (114) is configured to interlock with one of the pair of
25 trapezoidal protrusion (214-1,214-2) of the filler (202).
8. The filler mould assembly for construction of wall, column and beam as
claimed in claim 1, wherein during the operation filler (202) can be removed
from the panel (102) to convert the panel (102) into standard dimension.

9. The filler mould assembly for construction of wall, column and beam as claimed in claim 1, wherein the panel (102) and filler (202) are made up of single unit.