schöck isokorb® type rks - haucon a/s · rks schöck isokorb® type rks fig.˚ˆ: schöck...
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RKS
Schöck Isokorb® type RKS
Fig.26: Schöck Isokorb® type RKS
The Schöck Isokorb® type RKS is a load-bearing thermal insulation element for the connection of steel balco-nies to existing reinforced concrete � oors. It transfers negative moments, positive shear forces and horizon-tal forces.
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RKS
Schöck Isokorb® type RKSApprovals / Building materials / Corrosion protection
Approvals
Schöck Isokorb® type RKS: Z-15.7-298
Hilti grouting mortar HIT-RE 500 V3: Z-21.8-2064 and ETA-16/0142
� scher grouting mortar FIS EM: Z-21.8-1874 and ETA-09/0089
PAGEL grouting concrete V1/50: DAfstb Directive "Production and application of cement-bound grouting cement and grouting mortar"
Schöck Isokorb® construction materials
Reinforcing steel approval
Pressure bearing in the grouting concrete
Stainless steel
Load plates
Shims
Insulation material
Connected components
Reinforcing steel
Concrete
Structural steel
B500 B according to DIN 488-1, BSt 500 NR according to general building supervisory
S 235 JRG2 according to DIN EN 10025-2 for pressure plates
Material No.: 1.4401, 1.4404, 1.4362, 1.4462 and 1.4571, S 460 according to approval number.: Z-30.3-6Structural components and fasteners made from stainless steels or BSt 500 NR
Material No.: 1.4404, 1.4362 and 1.4571 or higher quality e.g. 1.4462
Material No.: 1.4401 S 235, thickness 2 mm and 3 mm
Neopor® – This insulation material is polystyrole hard foam and a registered trade-mark of the �rm BASF, λ = 0.031 W/(m·K), Building material classi�cation B1 (�ame resistant)
B500A or B500B according to DIN 488-1, or DIN EN 1992-1-1 (EC2) and DIN EN 1992-1-1/NA
Floors: normal concrete; indicative minimum strength class ≥ C 20/25
Balconies: at least S 235; strength class, static veri� cation and corrosion protection according to structural engineer
Corrosion protection
— The stainless steel used with the Schöck Isokorb® type RKS complies with the Material No.: 1.4362, 1.4401, 1.4404 or 1.4571. Ac-cording to the general building supervisory approval document Z-30.3-6 Annex 1 „Structural components and connecting elements made from stainless steels“ are rated in Resistance Class as III/medium.
— The connection of the Schöck Isokorb® type RKS in conjunction with a galvanised or corrosion protection coated face plate, with regard to contact corrosion resistance, is uncritical (see approval Z-30.3-6, Section 2.1.6.4). With connections using Schöck Isokorb® type the surface of the base metal (face plate made from steel) is signi� cantly greater than that of the stainless steel (bolts, shims and dogs), so that a failure of these connections as a result of contact corrosion is excluded.
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RKS
Schöck Isokorb® type RKSExamples for element con� guration
TypeRKS
TypeRKS
TypeRKS
Type RKS10
Pillar Pillar
Balcony Slab
Balcony Slab
Fig.27: Renewal of an existing balcony using type RKS14, freely cantilevered
Fig.28: Connection of a balcony to an existing floor using type RKS10, sup-ported construction
Fig.29: Balcony freely cantilevered using type RKS14 with renewal of an existing balcony
Fig.30: Connection of a prefabricated balcony to an existing flooor using type RKS10, support construction
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RKS
Schöck Isokorb® type RKS10Product description
Erecting timber
80
66
40
2040
45C oQ
C uQ C u
Z15
120
H Z i45
40
1155
30
40
RKS10
Erecting timber
2ø102ø82ø14
500
e Q 240
340
5050
240
e QR
e QR
510
3028
030
112.5 115 112.5
50 240 50
96
Z i
340
RKS10
Fig.31: Isometric drawing: Schöck Isokorb® type RKS10
Fig.32: Section: Schöck Isokorb® type RKS10
RKS10
Fig.33: Plan view: Schöck Isokorb® type RKS10
Fig.34: Side elevation from outside: Schöck Isokorb® type RKS10
50 50240
112.5 115 112.5
340
z i
Fig.35: Side elevation from inside: Schöck Isokorb® type RKS10
RKS10RKS10
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RKS
112,5 115 112,5
50 240 50
96z i
340
Fig.39: Side elevation from outside: Schöck Isokorb® type RKS14
Schöck Isokorb® type RKS14Product description
Erecting timber
H Z i
80 40
2040
5240
1155
52
C oQ
C uQ C u
Z
30
15
1206645
RKS14
Erecting timber
2⌀14282⌀14
755
e Q 240
340
e QR
e QR
5050
287
3028
030
RKS14
Fig.36: Isometric drawing: Schöck Isokorb® type RKS14
Fig.37: Section: Schöck Isokorb® type RKS14
Fig.38: Plan view: Schöck Isokorb® type RKS14
RKS14
50 50240
112,5 115 112,5340
z i
Fig.40: Side elevation from inside: Schöck Isokorb® type RKS14
RKS14RKS14
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RKS
Schöck Isokorb® type RKSProduct description
Schöck Isokorb® type RKS10 RKS14
Isokorb® height H [mm] 160 180 200 220 160 180 200 220
ProductDescription
Isokorb® length [mm] 340 340
Tension bars (lf,� oorf,� oor in mm) 2 ⌀ 10 (500) 2 ⌀ 14 (755)
Shear force bars (lf,� oorf,� oor in mm) 2 ⌀ 8 (510) 2 ⌀ 8 (287)
Pressure bearing 2 ⌀ 14 2 ⌀ 14
zi [mm] 75 95 115 135 68 88 108 128
CoZ [mm] 45 45 45 45 52 52 52 52
CuZ [mm] 115 135 155 175 108 128 148 168
CoQ [mm] 44 44 64 84 44 64 84 104
CuQ [mm] 116 136 136 136 116 116 116 116
eQ [mm] 104 118 118 118 104 104 104 104
eQR [mm] 118 111 111 111 118 118 118 118
lv settlement depthzi inner lever armCOZ centre-to centre distance tension bars from upper edge Isokorb®CUZ centre-to centre distance tension bars from lower edge Isokorb®(� oor edge)COQ centre-to centre distance shear force bars from upper edge Isokorb® CUQ centre-to-centre distance shear force bars from lower edge Isokorb®(� oor edge)eQ centre distance of shear force bars between each othereQR centre distance of shear force bars from outer edge Isokorb®
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RKS
Schöck Isokorb® type RKSDesign table
Design values are to be referred to the centre of the wall
Schöck Isokorb® type RKS10 RKS14
Design values forConcrete strength ≥ C20/25
Surface � oor front face rough rough
Isokorb® height H [mm]
MRd [kNm]
160 -3.1 -6.3
180 -3.9 -8.1
200 -4.7 -10.0
220 -5.5 -11.8
Shear forceVRd [kN]
160 - 220 +28.0 +15.0
Horizontal force HRd [kN]1)
160 - 220 ±2.5 ±2.5
Deformation factor tan α [%]
160 0.5 0.9
180 0.4 0.7
200 0.3 0.6
220 0.3 0.5
Torsion bar C [kNm/rad]
160 600 700
180 1000 1200
200 1500 1700
220 1800 2400
Max. expansion joint spacing [m]
160 5.1 5.1
180 - 220 5.8 5.1
1) For the acceptance of the existing horizontal force (HEd) parallel to the outside wall a minimum shear force of 2.9 · HEd is to be ensured.
-M Ed +V Ed ±H Ed
H
l k
b/2 b/2
Fig.41: Load case: Downward acting forces
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RKS
Schöck Isokorb® type RKSNotes
The information on the load-bearing structure planning on pages 26 - 29 is to be observed.
Lifting loadsUpwards directed shear forces (e.g. from wind suction) CANNOT be taken up ordinarily by Schöck Isokorb® type RKS.
Verification in the serviceability limit stateFor the veri� cation in the serviceability limit state the spring values of the Schöck Isokorb® are to be taken into account.So far as an investigation of the vibration behaviour of the steel structure to be connected is necessary, the additional deformation resulting from the Schöck Isokorb® is to be taken into account
CamberThe deformation factors given in the table result alone from the elastic steel elongation of the Schöck Isokorb®. The � nal camber of the balcony results from the deformation calculation of the connected balcony structure together with the deformation from the Schöck Isokorb®.
Deformation (wü) as a result of Schöck Isokorb®:wü [mm] = tan α · lk · 10 MEd / MRd
tan α Deformation factor (see table)lk Projection length [m]MEd Relevant bending moment for the calculation of the camber.
The load combination to be applied for this can be made by the structural engineer.MRd Design value bending moment for the Schöck Isokorb®
Note: The given values serve solely as approximation for the estimate for the deformation from Schöck Isokorb®. Further deformation amounts, which have to be considered, can added be to this.
Expansion joint spacingThe determination of the allowable joint spacing is to be based on a balcony slab made from reinforced concrete securely connect-ed using the steel beams. If structural measures have been carried out for the movability of the balcony slab and the individual steel beams, then only the spacing of the immovably con� gured connections are relevant.
Edge and element spacingThe distance of the structural component axis of the Schöck Isokorb® type RKS and type RQS to the edge of the structural compo-nent must be at least 190 mm, the axis-to-axis distance between between each other may not be less than 340 mm.
Installation tolerancesDue to the construction, only tolerances in the vertical direction can be balanced out via the Schöck Isokorb® type RKS/RQS with the assembly of the steel beams. The tolerance is: +10 mm vertical and ±0 mm horizontal. The Isokorb® types RKS/RQS must therefore must be placed according to precise measurement details.
The � rm entrusted with the production of the subsequently mortared-in slab connections is to be informed of the accuracies in the implementation plans by the structural engineer. In order to enable the functionally correct connection of the shell with the steel structure without adjustment and reworking, the observation of the tolerances must be be checked by the building supervision and taken inzo account in the steel structure.
Tip:A start with the fabrication of the new balcony (steel construction or prefabricated component) should � rst take place when the Schöck Isokorb® R types are placed and their � nal position has been determined through an accurate measurements (mm).
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RKS
Schöck Isokorb® type RKSDesign example
Planned: Balcony freely cantilevered using type RKS
Geometry: Cantilever length lk = 1.80 m(lk is to be referred to middle of wall) Floor slab thickness hD = 200 mmCentre-to-centre distance of the Isokorb® connections a = 0.70 m
Design loads: Self-weight with light screed g = 0.6 kN/m²
Imposed load q = 4.0 kN/m²Self-weight balustrade FG = 0.75 kN/mHorizontal load on balustrade (cross beam height 1.0 m) HG = 0.5 kN/m
Designinternal forces: MEd = – [(γG · g + γQ · q) · lk
2/2 · a + γG · FG · lk · a + γQ · ψo · HG · 1.0 · a]MEd = – [(1.35 · 0.6 + 1.5 · 4.0) · 1.8²/2 · 0.7 + 1.35 · 0.75 · 1.8 · 0.7 + 1.5 · 0.7 · 0.5 · 1.0 · 0.7]MEd = – 9.4 kNm
VEd = +(γG · g + γQ · q) · lk · a + γG · FG · aVEd = +(1.35 · 0.6 + 1.5 · 4.0) · 1.8 · 0.7 + 1.35 · 0.75 · 0.7VEd = +9.3 kN
Existing: Reinforced concrete � oor slab
Geometry: Floor slab thickness hD = 200 mm Reinforcement: Avail. tension reinforcement in projection direction R335 Diameter of the mat longitudinal bars 8 mm Concrete cover of the upper tension reinforcement in projection direction cv = 30 mm Minimum concrete quality: inside C20/25 Existing: Concrete quality B25 with existing � oor
TypeRKS
TypeRKS
TypeRKS
Slab
b
l k
Fig.42: Plan view
Balcony Slab
h D
l k
b/2 b/2
Design values are to be referred to middle of wall
Fig.43: Section
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RKS
Schöck Isokorb® type RKSDesign example / Notes
Veri� cation Schöck Isokorb® type
Selected: Schöck Isokorb® type RKS14-V8-H200
MEd = – 9.4 kNm ≤ MRd = – 10.0 kNm √ (M√ (M√ Rd see page 37)VEd = + 9.3 kN ≤ VRd = + 15.0 kN √ (V√ (V√ Rd see page 37)HEd = 0.0 kN ≤ HRd = ± 2.5 kN √ (H√ (H√ Rd see page 37)
Veri� cation of the existing � oor for the existing loading
Required cross-section of the reinforcement in the existing � oor for the further transmission of the tension forces from the bend-ing moment (kd procedure):
d� oor = 200 – 30 – 8/2 = 166 mm (166 cm)MEd = 9.4 kNmb = 0.45 m
The impact width "b" of the � oor reinforcement is determined by the structural engineer, it may not be greater than the cen-tre-to-centre distance "a" of the Isokorb® connections.
kd = d/√ = d/√ = d/ (M√ (M√ Ed / b)kd = 16.6/√ = 16.6/√ = 16.6/ (9.4 / 0.45)√ (9.4 / 0.45)√kd = 3.63ks = 2.39 (from kd table for rectangular sections without compression reinforcement for bending with longitudinal force and concrete strength C20/25)as = ks · MEd / d as = 2.39 · 9.4 / 16.6as = 1.35 cm²/0.45 m
as,req = 1.35 cm²/0.45 m ≤ as,prov = 1.51 cm²/0.45 m → (R335: 3.35 cm²/m · 0.45 m) √In the case as,req > as,prov, reduce loading and / or cantilever length lk reduce to as,req ≤ as,prov.
The available bonding length lv = 755 mm of the tension bars type RKS14 results from taking as a basis the maximum anchoring and/or lap length according to DIN EN 1992-1-1 (EC2) and DIN EN 1992-1-1/NA (NAD to EC2), a concrete cover c1 = 30 mm and stain-less steel thread length on c1 = 60 mm of the front face of the � oor as well as a maximum bar spacing of the tension bars of 8 ⌀s.
lv = l0 + c1 + 4 ⌀s
lv = 639 mm + 60 mm + 4 · 14 mm
With an exceeding of the spacing of the tension bars of 8 ⌀s the lap length of the � oor and Isokorb® reinforcement according to DIN EN 1992-1-1 (EC2), Section 8.7.3 and DIN EN 1992-1-1/NA (NAD to EC2), NCI to 8.7.3 must be checked.
Already during planning, watch out for con� ict between the Isokorb® bars and the existing � oor reinforcement.
The existing � oor cannot be toughened with the Isokorb®.
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RKS
Schöck Isokorb® type RKS10Steel construction / on site face plates
Notes
— The dog (mechanical device for gripping) is absolutely necessary for the transmission of shear forces! See page 43. — Steel grade according to static requirements. Carry out corrosion protection following welding. — Steel construction: Tolerances of the shell have to be checked!
1) According to structural engineer's details.2) Hole size corresponds to a height adjustment of +10mm. Through the enlargement of the hole size the height adjustment can be increased.3) Note free clamp length: 30 mm with RKS10 and RKS14.
RKS10 RKS10
RKS10
Schöck Isokorb® type RKS10-V8
Inner lever arm zi [mm]
Isokorb® heightH [mm]
160 75
180 95
200 115
220 135
H z i
96 70
Free grip length = 30 mm
2 x M122 x M16
Erecting timber
30
Fig.44: Side elavation: Schöck Isokorb® type RKS10
115
240
z i
2 x M12
2 x M16
Fig.45: Front view: Schöck Isokorb® type RKS10
Weld tight
4
4
1)3)
2)
1) 1)
4
4
1) 1)
2)
5
15
t
28
18
17,5
2640
1)
240
120
115
14
24
z i1)
Lower edge insulation element
70
5
Fig.46: On site front plates for Schöck Isokorb® type RKS10
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RKS
Schöck Isokorb® type RKS14Steel construction / On site face plates
Notes
— The dog is absolutely necessary for the transmission of shear forces!! See page 43. — Steel grade according to the static requirements. carry out corrosion protection following welding. — Steel construction: Tolerances of the shell have to be checked!
Erecting timber
96
2 x M162 x M16 z i
70
Free grip length = 30 mm
H30
Fig.47: Side view: Schöck Isokorb® type RKS14
1) According to the structural engineer's details.2) Hole size corresponds to a height adjustment of +10 mm. Through the enlargement of the hole size the height adjustment can be increased.3) Note free clamp length: 30 mm with RKS10 and RKS14.
RKS14
Schöck Isokorb® type RKS14-V8
inner lever arm zi [mm]
Isokorb® height H [mm]
160 68
180 88
200 108
220 128
2 x M16
2 x M16115
240
Z i
Fig.48: Front view: Schöck Isokorb® type RKS14
RKS14
Weld tight
4
4
1)3)
2)
1) 1)
4
4
1) 1)
2)
5
15
t
28
18
17.5
2640
1)
240
120
115
z i1)
Lower edge insulation element
70
5
28
18
Fig.49: On site face plate for Schöck Isokorb® type RKS14
RKS14
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RKS
An in-situ dog (�at steel h=40mm, l= 120mm, t= 15mm), welded on to the face plate is absolutely necessaryfor the safe transmission of shear forces in the Schöck Isokorb® type RKS (or RQS)!
In-situ dog weldedon to face plate
Shear force
Bearing plate
Schöck Isokorb® type RKSSteel construction / On site dog
Fig.50: Absolutely necessary dog on the face plate
The dog is part of the steel structure
An in-situ dog
15
40
Fig.51: Installation of the steel beam on the Schöck Isokorb® renovation
An in-situ dog
After assembly, the dog transmits shear forces in the Schöck Isokorb® type RQS (or RKS)
Fig.52: The dog now sits on the bed plate; for height compensation push supplied shims under the dog
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RKS
Schöck Isokorb® type RKSChecklist
~ Have the internal forces on the Schöck Isokorb® been determined at the design level?
~ Has the system cantilever length been applied with this?
~ Has the concrete quality been analysed and is it the basis for design?
~ Are the maximum expansion joint spacings taken into account?
~ Are the allowable edge and element spacings observed?
~ With the resulting camber details has the drainage direction been taken into account?
~ Is the respective required connection reinforcement available in the existing � oor?
~ Are the position and spacings of the existing reinforcement and of the existing electrical lines and sanitary pipes in the ex-isting � oor known?
~ Have the overall length and overall height of the insulation element been taken into account for the formwork plans?
~ Has the absolutely necessary on site dog been su� ciently well indicated in the implementation plans (page 43)?
~ Are the tightening torques of the screwed connections noted in the implementation plans (see also page 96)? The nuts are to be tightened without regular initial tension using the torque wrench; the following tightening torques ap-ply:
RKS10 Tension bars (Bolts ⌀ 12): Mr = 40 Nm Pressure bearings (Bolts ⌀ 16): Mr = 50 NmRKS14 Tension bars (Bolts ⌀ 16): Mr = 50 Nm Pressure bearing (Bolts ⌀ 16): Mr = 50 Nm
~ Have the system components to be used with Schöck Isokorb® R been pointed out in the implementation plans? Grouting mortar: Hilti HIT-RE 500 V3 or � scher FIS EMGrouting concrete: Pagel V1/50For this see Chapter Building construction (page 85� ).
~ Are the requirements from the Schöck Isokorb® R approval documents Z-15.7-297 and Z-15.7-298 on the engineering drawings observed? (see page 26)
Build
ing
cons
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ion
89
RKS
Schöck Isokorb® type RKS
Fig.125: Schöck Isokorb® type RKS
Build
ing
cons
truct
ion
90
RKS
Schöck Isokorb® type RKSTable for building contractors / Installation information
Schöck Isokorb® type RKS10 RKS14
shear force bars Tension bars shear force bars Tension bars
Number of drill holes 2 2 2 2
Drill hole diameter d0 [mm] 12 14 12 18
Required seating depth lv [mm] 510 500 287 755
Reqd surface � oor front face rough rough rough rough
Quantity grouting mortar (according to setting instruction) [ml]
185 240
Quantity of grouting concrete [l] with Isokorb® height H [mm]
160 1.8
180 2.0
200 2.2
220 2.5
Information on the grouting mortar Hilti HIT-RE 500 V3, � scher FIS EM and grouting concrete Pagel VERGUSS V1/50 see page 87.
Installation details
The installation of the Schöck Isokorb® R should take place in close coordination with the architect and structural engineer.
The Schöck Isokorb® type RKS installation instructions are to be observed.1. Installation instruction without text (available on all Isokorb® R types)2. Installation instruction with written installation details (simply supplied with every delivery)
The position and spacings of the existing reinforcement are to be checked (in case not known).
The position and spacings of the existing electrical lines and sanitary pipelines are to be checked (in case not known).
The front face of the existing � oor in the area of the connection of the Schöck Isokorb® R is to be formed asi rough or toothed (de-pending on Isokorb® type).
The implementation of the reinforcement connections with grouting mortar according to approval document Z- 21.8-2064 or Z-21.8-1874 can take place only through � rms with qualifying examination.
The Hilti HIT-RE 500 V3 setting instruction "Retrospective reinforcement connection using Hilti HIT-RE 500 V3" or the assembly in-struction "Reinforcement connection using � scher FIS EM" are to be observed. (Permitted drilling methods are hammer or diamond drilling, in each case using drilling aid.)
The appropriate Schöck Isokorb® R drilling template is to be used.
If existing reinforcement is met during drilling, the drilling is to be discontinued. The mis-drilling (drill hole diameter d0) is to be grouted using HIT-RE 500 V3 or FIS EM and a new drill hole is to be created with a clear separation of at least 2d0.
With the � lling of the grouting joint with PAGEL VERGUSS V1/50 grouting concrete the DAfStb Directive "production and applica-tion of cement-bound grouting concrete and grouting mortar" is to be observed.
Important:Design-related, with the assembly of the steel girder, only tolerances in the vertical direction can be compensated via the Schöck Isokorb® type RQS. The tolerance is: +10 mm vertical and ±0 mm horizontal. The Isokorb® type RKS therefore must be placed ac-cording to precise measurement details.
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RKS
Schöck Isokorb® type RKSInstallation instructions
The Schöck Isokorb® connection must be planned on an engineering ba-sis; the planning documents must be available on the construction site.
The � rm entrusted with the production of the subsequently mortared in slab connections must possess a valid proof of suitability.
— Check Schöck Isokorb® type for freedom from damage and on agree-ment with the planning documents.
— Check materials' structural properties required for the installation of the Schöck Isokorb® completeness.
1 + 2 The following are required for the installation of the Schöck Isokorb®:
— Schöck Isokorb® type RKS — Schöck installation instruction — Drill template for Schöck Isokorb® — Planning documents of the construction object including that of the
holdings — PAGEL V1/50 grouting concrete — Hilti HIT-RE 500 V3 injection system or � scher FIS EM for reinforce-
ment connections — Approval document Hilti HIT-RE 500 V3 ETA-16/0142 / DIBt Z-21.8-
2064 — Approval document FIS EM ETA-09/0089 / DIBt Z-21.8-1874 — Angle grinder to roughen � oor front face — Sealant to seal grouting frame — Tools for the installation:
3 Installation details for Schöck Isokorb®: The Schöck Isokorb® is to be con� gured with an insulation ≥ 80 mm and 40 mm grouting joint with a total width ≥ 120 mm. Attention is to be paid that the lower edge of the grouting recess of the Schöck Isokorb® closes � ush with the lower edge of the existing � oor.
4 The following must as a minimum be indicated on the construction 4 The following must as a minimum be indicated on the construction 4
drawing: — Concrete strength class of the existing � oor — Hammer drilling process with drilling aid. — Diameter, concrete cover, centre-to-centre distance and seating
depth of the mortared in reinforcement bars depending on the Isokorb® type used.
— Marking lengths dimension lm und lv respectively le,ges on the com-bined elongation for Hilti HIT-RE 500 V3 in accordance with ETA-16/0142, Annex B17, for � scher FIS EM in accordance with ETA-09/0089, Annnex B 9.
— Type of preparation of the front face of the existing structural com-ponent including thickness of the concrete layer which, if necessary, has to be removed, and specifying the surface roughness of the front face.
5 Marking of the installation positionWith regard to the drilling holes to be produced, the position of the existing � oor reinforcement must be known before drilling.
2
5
x
1
x3
x2
x1
4
3A 3B≥ 120 mm ≥ 120 mm
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RKS
Schöck Isokorb® type RKSInstallation instructions
6 Marking of the drill holeWith the aid of the Schöck drill template the position of the drill holes are marked on the front face of the existing � oor according to the details of the construction drawing.
7 The cementing of the Schöck Isokorb® R in the existing � oor is to be carried out using the Hilti HIT-RE 500 V3 or � scher FIS EM injection systems.The handling of the injection systems for Hilti HIT-RE 500 V3 und � s-cher FIS EM reinforcement connections takes place according to the approval documents:
— ETA-16/0142, injection system Hilti HIT-RE 500 V3; ETA-09/0089, injection system � scher FIS EM and
— Z-21.8-2064, Z-21.8-1874, application approvals for the reinforcement connection using grouting mortar Hilti HIT-RE 500 V3 or � scher FIS EM
8 The drill hole diameter and the seating depth are dependent on the Isokorb® type. Please note table:With drilling and with the use of the injection systems for reinforce-ment connections the the person carrying these out must possess a valid proof of suitability
9 With drilling the existing reinforcement as well as the electrical lines 9 With drilling the existing reinforcement as well as the electrical lines 9
and sanitary pipelines in the � oor are to be noted. The drilling must be carried out using the hammer or diamond poring method with drilling aid according to the setting instructions of the ETA-16/0142 for Hilti or ETA-09/0089 for � scher.The drill holes must be placed without damage to the reinforcement. In the case of a reinforcement hit or a mis-drilling, the responsible site manager and, if necessary, the structural engineer are to be in-formed without delay and suitable correction measures are to be agreed.In the case of mis-drillings these are to be professionally � lled with mortar.
Injectionsystem
6
9
lv
⌀ ⌀⌀ ⌀ lv
RKS10a 2 × 8 mm 12 mm 510 mm
b 2 × 10 mm 14 mm 500 mm
RKS14a 2 × 8 mm 12 mm 287 mm
b 2 × 14 mm 18 mm 755 mm
7
ab
bb
8
INJECTION:
Injectionsystem
Injection system
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Schöck Isokorb® type RKSInstallation instructions
0 In the area of the Schöck Isokorb® the front face of the existing � oor 0 In the area of the Schöck Isokorb® the front face of the existing � oor 0
must be worked according to the adjacent sketch or according to DIN EN 1992-1-1 (EC2) and DIN EN 1992-1-1/NA.The surface roughened Rt must be ≥ 1.5 mm.
ß Each drill hole must be cleaned according to the technical instruc-ß Each drill hole must be cleaned according to the technical instruc-ß
tions of the ETA-16/0142, Z-21.8-2064 for Hilti and ETA-09/0089, Z-21.8-1874 for � scher.
“ For control purposes the dry installation of the Schöck Isokorb® takes “ For control purposes the dry installation of the Schöck Isokorb® takes “
place following drill hole cleaning. The Schöck Isokorb® must be ca-pable of being placed without large mechanical e� ort.
„ The appropriate � ush and height position as well as the spacings of „ The appropriate � ush and height position as well as the spacings of „
all Schöck Isokorb® elements to each othe must be checked in ac-cordance with the speci� cations from the construction plan.The maximum allowable measurement tolerances are, without fail, to be observed.
” Following the check of the position of the Schöck Isokorb® the ” Following the check of the position of the Schöck Isokorb® the ”
Schöck Isokorb® is again dismantled.
x3
x2
12
13
x
14
x1
10
30 30 30 30 mmmmmmmmmm
10 mmmmmm10 mmmmmmmm
11
Hilti Hilti HIT / fischer FIS
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Schöck Isokorb® type RKSInstallation instructions
¿ The preparation of the plastic � lm packaging and/or cartridges of ¿ The preparation of the plastic � lm packaging and/or cartridges of ¿
the Hilti HIT-RE 500 V3 or � scher FIS EM injection systems has, for Hiliti, to take place according to the technical instructions of the ETA-16/0142 and Z-21.8-2064. For � scher the ETA-09/0089 and Z-21.8-1874 apply.
¸ The drill hole must be � lled free of air bubbles with Hilti HIT-RE 500 ¸ The drill hole must be � lled free of air bubbles with Hilti HIT-RE 500 ¸
V3 or � scher FIS EM grouting mortar. With this, for HIT-RE 500 V3, the technical instructions of the ETA-16/0142 and the Z-21.8-2064 are to be observed. For FIS EM the instructions of the ETA-09/0089 and Z-21.8-1874 apply.
q Sequence of the installation of the Schöck Isokorb®:q Sequence of the installation of the Schöck Isokorb®:q
— As required set up assembly supprt for the duration of the hardening time of the grouting mortar.
— Fill the drill holes (in each case for one Schöck Isokorb® element on-ly).
— Immediately following this the Schöck Isokorb® must be placed in the prepared drill hole. Attention is to be paid that the lower edge of the grouting recess of the Schöck Isokorb® closes � ush with the lower edge of the existing � oor.
w After expiry of the hardening time "tw After expiry of the hardening time "tw cure" according to the technical instructions of the ETA-16/0142 and the Z-21.8-2064, or the ETA-09/0089 and the Z-21.8-1874, work can continue on the Schöck Isokorb®.The connection joint between the Schöck Isokorb® and the existing facade is to be formed absolutely leakproof, so that with the grout-ing of the joint the grouting concrete cannot run out.
17
16
18
tcure
15
Injection system
Injection system
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RKS
Schöck Isokorb® type RKSInstallation instructions
e The grouting joint must be � lled with grouting concrete PAGEL e The grouting joint must be � lled with grouting concrete PAGEL e
VERGUSS V1/50. Manufacturer's details for the processing are to be observed.Following the hardening of the grouting concrete the connection of the steel structure of the balcony can take place according to the fol-lowing instruction.
r + r + r t With the connection of the in-situ steel structure to the Schöck t With the connection of the in-situ steel structure to the Schöck t
Isokorb® the following is to be noted: — Dismantling of transport protection timber. — Steel girder with welded-on face plate according to static require-
ment. — Position and size of the drill holes in the face plate in accordance
with the general building supervisory approval of the Schöck Isokorb®.
— A � at steel dog, h = 40 mm, l = 120 mm, t = 15 mm, welded on to the face plate is absolutely necessary for the secure transmission of the shear forces in the Schöck Ioskorb®!
z Connect steel girder with the face plate to the 4 threaded bolts of z Connect steel girder with the face plate to the 4 threaded bolts of z
the Schöck Isokorb® using nuts and washers.20
21
22
23
19
1.1.1.
2.2.2.2.
tcure
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Schöck Isokorb® type RKSInstallation instructions
23
26
27
25
24M 16: Mr = 50 NmM 12: Mr = 40 Nm
u Fine adjustment to match the height of the steel girder between u Fine adjustment to match the height of the steel girder between u
bearing plate of the Schöck Isokorb® and the welded-on dog on the face plate of the steel girder using the steel shims provided.
i + i + i o Adjust required camber of the steel girder according to speci� -o Adjust required camber of the steel girder according to speci� -o
cation from planning documents.The nuts of the Schöck Isokorb® are to be tightened, without normal pre-torque, using the torque wrench; The following torques apply:M12: Mr = 40 NmM16: Mr = 50 Nm
p Connection of the in-situ TICS close-packed to the Schöck Isokorb® el-p Connection of the in-situ TICS close-packed to the Schöck Isokorb® el-p
ements.Between the individual Schöck Isokorb® elements the TICS are to be connected equally close-packed to the Schöck Isokorb® elements.
ü The joint between Schöck Isokorb® element and the neighbouring ü The joint between Schöck Isokorb® element and the neighbouring ü
TICS is to be professionally formed using permanently elastic sealant.
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