[0001] The present invention related to a prefabricated guiding member for use when casting
concrete floors and of the type as described in the introductory part of claim 1.
[0002] In recent years considerably reliefs have taken place when production casted concrete
floors or similar casted surfaces, e.g. outdoors concrete plates on roads and courtyards
by the use of prefabricated guiding members or casting guides. The floor or the courtyars
is divided into suiteable fields by means of longitudinal guiding members being mounted
on a hard base, e.g. of comprimated sand, by applying concrete here and there and
simultaneously an accurate levelling of the guiding members are performed. Then the
casting fields formed by the guiding members as required are provided with reinforcement,
e.g. in the form of prefabricated iron mesh reinforcement, before pouring in the concrete
which is levelled out by means of a vibrator beam the opposite ends of which being
supported on plane top side portions of the guiding members as the vibrator beam during
operation is drawn slowly across the casting field which in this way can be cast with
quite smoot upper surface in a single working operation.
[0003] Such a guiding member is known from the describtion to EP-patent specification No.
54 026. The cross section of this known guiding member has form as a lying H, i.e.
with a rather broad upper support surface for said end protion of the vibrator beam
and with an even broader foot portion. Furthermore this known guiding member is provided
with cross holes in the web protion which by opposite sides have protruding brackets
adapted to support a reinforcement if any.
[0004] However, known guiding members of the type in question including the above mentioned
guiding member are defective. By way of example formation of cracks along the guiding
members is one problem connected to an inexpedient cross section which complicate
a good contact with the casting mixture as this in order to obtain a good result shall
better contain a minumum of water, i.e. be relatively dry. Furthermore uncontrolable
formation of cracks may occur along the guiding members. In fairness it should be
told that some cracks can not be avoid because by way of nature the concrete shrink
during the setting.
[0005] The invention has for its purpose to provide a guiding member of the type mentioned
above and by means of which it in a simple manner is possible to avoid the above mentioned
disadvantages.
[0006] According to the invention the guiding member is characterized in being provided
with corrugated surface at least by one longitudinal side thereof. Hereby it may be
obtained a considerably better connectin between the guiding member and the concrete
plate since a possible shrink crack due to the corrugation gets a very large surface
being able to transmit very considerable displacement forces. Besides the cross section
area of the proper shrink crack becomes much more close than previously known. In
general a much more tight joint between the concrete plates is obtained, whereby the
floor as a whole is able to be proof against larger displacement forces. Curvature
of the concrete plates is minimized if any. The guiding member takes part as an integrated
part of the floor.
[0007] By means of the statement of claim 2 is obtained in a particular simple manner to
make an effective korrugation of the said surface of the guiding member as the exposure
of the stone material of the concrete is easy to carry out in connection with the
demoulding of the guiding members. By way of example the proper exposure may be carried
out by means of high pressure sluicing of said side portions of the guiding member.
And expediently the actuel surfaces of the mould parts corresponding to the guiding
member side portions which are wanted to be exposured can in advance, i.e. before
the casting operation, be applied with a setting impeding agent.
[0008] By the statement of claim 3 is obtained a particular expedient configuration of the
guiding member according to the invention for use between casted concrete plate members
since the upright central portion of the guiding member - without upper sidewards
protruding portions - may result in an improved close fitting of the relative dry
concrete mixture along the casting guide or the guiding member.
[0009] In connection with exceptional heavy loaded concrete floors it may be advantageously
to use a guiding member according to claim 4, i.e. having corrugated surfaces by both
external sides except for short upper side portions which are held smoot in order
to better control the inevitable shrink craks when an exceptional heavy concrete mixture
being used.
[0010] Claim 5 states a particular expedient configuration for a guiding member for use
along wall joints or for use between floor plate members which due to particular conditions
shall be noise isolated, e.g. around fundations for machines, pillars and the like.
Opposite to the protruding foot portion the guiding member in this embodiment according
to claim 6 is shaped with completely plane and smoot side portion which furthermore
according to claim 7 may be provided with a cover of artificial resin foam or another
suiteable insulation material of which an upper longitudinal portion - after the castin
opartion - may be removed and substituted by a suiteable joint material, while the
lower part of the cover may constitute a permanent thermal and/or sound insulation.
Possibly the complete cover may be maintained for constituting a thermal and/or sound
insulation.
[0011] By the statement of claim 8 is obtained a casting guide or a guiding member which
is partucular suited for use in connection with casting concrete floors which shall
be entirely water proof since practical experiments have shown that possible formations
of cracks almost always occurs along the last casted side of the guiding member. By
taking care of that the corrugated side of the guiding member facing the first casted
floor field, possible shrink scracks can be concentrated along the opposite smoot
surface of the guiding member by the later casting of the adjoining floor fields.
When the joint member subsequently is partly removed and is substituted by a permanent
elastic joint material possible shrink cracks along the smoot side of the guiding
member may herby be effectively eliminated.
[0012] According to claim 9 is obtained a particular guiding member for use in cases where
a floor surface is wanted having exceptional large elasticity between the single floor
plate members. In order to avoid shrink scracks both the corrugated longitudinal sides
of the guiding member are dressed with concrete binder, whereby is obtained an extra
good contact between the respective concrete plate members and the guiding members
which comprises an entirely close and elastic joint between the opposite parts of
the guiding member.
[0013] The invention also relates to the method of using the guiding member according to
the invention - as stated in claim 10. In the following the invention is described
in more detail with reference to the accompanying drawing, in which:
Fig. 1 a plane sectional view of an embodiment of the guiding member according to
the invention,
Fig. 2 a plane side view of the guiding member shown in Fig.1,
Fig. 3 a plane sectional view of another embodiment of the guiding member according
to the invention,
Fig. 4 a plane sectional view of a further embodiment of the guiding member according
to the invention,
Fig. 5 a plane sectional view of another further embodiment of the guiding member
according to the invention,
Fig. 6 a perspective part view showing by way of example a casting method by the production
of the guiding member according to the invention,
Fig. 7 a perspective view of a mould end part for use with the casting method shown
in Fig.6,
Fig. 8 a perspective view of the embodiment of the guiding member shown in fig. 1
and 2,
Fig. 9 shows in a plane view a casting plan to illustrate the method according to
the invention, and
Fig. 10 is a plane sectional view of an alternative embodiment of the guiding member
according to the invention.
[0014] In Fig.1 is shown a guiding member or casting guide 2 in almost natural size, since
inpractice the guiding member is produced with hights of 80, 100 and 130 mm and with
lengths of 2400 and 3900 mm. The guiding member 2 is maded with exposured sides 4
and 6, while a top portion 8 has a smoot upper surface 10 and smoot upper side edge
portions 12. A broader foot portion 14 is also maded with exposured side portions
16, while an inclined upper portion 18 of the foot portion 14 normally has only rough
surface. The guiding member 2 is provided with suiteable iron reinforcement 20 and
provided with cross holes 22 which are seen more clearly in Fig. 2 showing the guiding
member 2 just after the demoulding, i.e. before the performing of the proper exposure
of the stone material of the concrete by means of high pressure sluicing. The guiding
member 2 is casted of concrete with a filling materiale containing crushed granite
with a stone size of some 4-8 mm. By the exposure is obtained a correspondingly rough,
corrugated surface structure; but as mentioned it is particularly only the vertical
side portions of the guiding member 2 which are being entirely exposured since it
is not always reguired that the inclined upper side portions 18 of the foot portion
14 in full extent are able to meet the displacement forces during the setting of the
adjoining concrete plate members.
[0015] The guiding member 24 shown in Fig. 3 is produced with a longitudinal side 26 of
which the said stone material is exposured over the full hight thereof while the opposite
longitudinal side 28 is produced quite smoot. The side 28 is after setting and drying
provided with an upper enlongate joint member 30 being secured to the smoot surface
of the side portion 28 by means of a suiteable glue. Preferably the joint member 30
consist of artificial resin foam, e.g. polystyrene, or of another suiteable joint
material which after the casting operation and the setting is adapted to remove and
to substitute by a permanent joint, preferably of an elastic joint material. Alternatively
the joint member 30 may be constituted by a foaming process directly against the smoot
surface side 28 of the guiding member 24.
[0016] The guiding member 32 shown in Fig. 4 is also produced with a longitudinal side portion
34 being entirely exposured, while the opposite longitudinal side portion 36 is quite
plane and smoot as the longitudinal side portion 36 by a subsequent operation is provided
with an entirely covering joint cover 38 of artificial resin foam. The guiding member
32 may also by the casting operation be provided with the joint cover 38 by insertion
of this into the mould; however, the joint cover 38 preferably is secured to the guiding
member 32 after the demoulding and setting. Alternatively, the joint cover 38 may
be constituted by a foaming process directly against the smoot, plane side 36 of the
guiding member 32. After the casting opration and the setting of the adjoining floor
surfaces an upper,longitudinal portion of the joint cover 38 may be removed, and when
the joint is quite dry it may be filled with a suiteable permanent joint material,
while the remaining lower part of the joint cover 38 may constitute a permanent thermal
and/or sound insulation between the adjoining floor surfaces or along adjoining walls
or fundations etc.
[0017] The guiding member 40 shown in Fig. 5 - inprinciple consist of two parts constituted
by two symmetric parts being interconnected by means of a central castes in joint
band 42 of Neoprene-rubber. In return the guiding member 40 by opposite longitudinal
sides 44 provided with corrugated, exposured surface in the entire hight. By furthermore
in advance to the casting operation to preparate the corrugated elongate sides 44
with a suiteable concrete binder it is possible to obtain an extremely close connection
with the adjoining concrete plate members so that shrink cracks can be entirely avoid
along the guiding member 40 since the rubber joint 42 thereof is able to compensate
for all the shrink by the setting of the adjoining concrete plate members.
[0018] By way of example Fig. 6 shows how the guiding member according to the invention
can be produced on a casting plan 46 by means of loose mould parts 48 of metal plate
material since the guiding members are casted in inverted position, i.e. with the
foot portion turned opwards. Besides is used two mould end prats as shown in Fig.
7. The mould parts 48 are provided with lower cross braces 50 and 52 of which the
outermost cross braces 52 are adapted to cooperate with L-shaped distance members
54 on the mould end parts (Fig.7). These may furthermore be provided with holes (not
shown) for supporting longitudinal reinforcement iron 20 in the cavity of the mould.
The mould parts 48 are provided with cross holes 56 through which iron rods or tubes
may be inserted in order to hold together the mould battery and for constituting the
cross holes 22 of the guiding member 2 (Fig. 2). The iron rods or the tubes may be
drawn out of the mould battery already short after the casting opration without the
holes 22 thereby "colapses".
[0019] Fig. 9 illustrates the method of using the guiding members according to the invention
in a schematic manner by casting a larger concrete floor which is divided into 25
fields each of about 25-35 m², where the casting fields are designated with A, B and
C, respectively. In order to produce a larger concrete floor of which the individual
concrete plate members reprecented by the fields A, B and C are allowed to "work"
mutually independent by means of an elastic joint between the single concrete plate
members more conditions have to be taken in consideration.
[0020] The guiding members or casting guides have to be construted with optimal quality,
i.e. with a smoot surface at the joint side and with corrugated surface at the casting
side (opposite to the joint side), i.e. by way of example as shown in Fig. 3 or possibly
in Fig. 4. The guiding member according to the invention meets these requirements
by being entirely smoot at the joint side and by having exposured, corrugated surface
at the casting side, i.e. being able to slip at the joint side and to become an integrated
part of the floor at the casting side. As mentioned it has been found, that shrink
cracks by casting operation with standard guiding members normally occurs as a crack
along the last casted side also such facts have to be considered. Consequently the
casting princip shown in Fig. 9 may be used in the following manner:
[0021] The A-fileds are casted on the first day as the A-fields are mounted with guiding
members 24 and/or 32, where the rough exposured corrugated side faces the A-fields
at all four sides thereof.
[0022] The B-fields at the earliest are casted on the second day as the B-fields are mounted
with guiding members 24 and/or 32, where the exposured corrugated sides of two of
the guiding members facing the B-fields, which at the other two sides are limited
by smoot joint sides of the two other guiding members.
[0023] The C-fields at the earliest are casted on the third day as the C-fields are mounted
with guiding members 24 of which the smoot joint side facing all four sides of the
C-fields.
[0024] In Fig. 9 the smoot joint side of the guiding members are represented by a full line,
while the corrugated side of the guiding members in Fig. 9 are representated by a
dotted line.
[0025] Regarding a possible reinforcement of the respektive floor fields shall be mentioned,
that the reinforcement ought to be ended or at least to be decreased at the joints.
A to heavy reinforcement through the joint may result in that shrink cracks and movements
of the concrete plate members occurs in an uncontrolable manner in the proper fields.
Normally the very best result is obtained if the reinforcement is ended along the
guiding members, i.e. before the joint. In exceptional cases it may happen that reinforcement
connection members are inserted through the guiding members.
[0026] Quite generally it is important that the concrete mixture has a low W/C relation
( liter water/ kg.cement), and that the concrete after the casting operation is protected
against drying up.
[0027] An alternative guiding member 60 is shown in Fig. 10, where an longitudinal side
62 is provided with longitudinal grooves or depressions 64 which may substitute the
exposure of the stone material of the concrete. The depressions 64 requires corresponding
longitudinal protrutions in the mould parts, if the shown guiding member 60 is not
produced by a suiteable extrusion operation.
1. A prefabricated guiding member or casting guide for use when casting concrete floors
or similar casted surfaces and adapted to be permanently mounted along opposite sides
of a casting field with mutually flushing top sides previous to the casting operation,
said guiding member being provided as an elongate casted member with a cross section
comprising a narrow uppermost portion and a broader lowermost foot portion as a top
side respectively a bottom side of the guiding member being plane, preferably mutually
parallel characterized in that at least one longitudinal side of the guiding member being provided with
rough, corrugated surface.
2. Guiding member according to claim 1 characterized in that said corrugated surface of said longitudinal side is constituted by exposure
of stone material contained in the casting mixture.
3. Guiding member according to claim 1 characterized in having a cross section being symmetrical to a vertical longitudinal symmetry plan
through the member and being in general shaped as an inverted T, i.e. with a marked
foot portion and a therefrom upright central portion having approximately mutually
parallel outsides.
4. Guiding member according to claim 1 and 3 characterized in that both of said outsides with exception of narrow upper side edge portions thereof
are provided with corrugated surfaces.
5. Guiding member according to claim 1 characterized in having a generally L-shaped cross section, i.e. with a marked foot portion protruding
only to one side of an upright longitudinal web portion with approximately parallel
outsides.
6. Guiding member according to claim 1 and 5 characterized in that one of said outsides facing the same side as said foot portion being provided
with corrugated surface, while the opposite side of said web portion is provided with
plane approximately smoot surface.
7. Guiding member according to claim 6 characteri zes in that said plane and smoot side is provided with a cover of artificial resin foam
or of another suiteable insulation material.
8. Guiding member according to claim 3 characterized in having one longitudinal outside provided with rough corrugated surface, while
the opposite outside has in genneral smoot surface, and that an uppermost edge portion
of said smoot surface being provided with a joint member being adapted after the casting
operation and setting to be substituted by a permanent joint of an elastic material.
9. Guiding member according to claim 1 and 3 characterized in being provided with corrugated surfaces at both opposite outsides, and that along
said symmetry plan by casting is provided a longitudinal bånd consisting of elastic
materiale and constituting a prefabricated elastic joint between the respective member
portions.
10. A method of using guiding members according to claims 1-8 by casting a floor surface
divided into a number of regtangular casting fields A, B and C (Fig. 9)characterized in that the casting fields A being casted on a first day as the A-fields are mounted
with guiding members of which a corrugated side surface facing all four sides of the
A-fields, that the casting field B at the earliest being casted on the second day
as the B-fields are mounted with guiding members of which two corrugated outsides
are facing two sides of the B-fields the remaining two sides of which being faces
by smoot outsides of the other two guiding members, and that the casting fields C
at the earliest being casted on the third day as the C-fields are mounted with guiding
menbers of which smoot outsides facing all four sides of the C-fields.