THERMAL INSULATION FIXINGS – FACADE
General information for correct design, installation and use of facade thermal
insulation systems
TFIX-8ST – A versatile screw-in facade
fastener with self-embedding features
338
ELL342
IVEHC AL
SNOITCNOFITLUM NOLYN
TFIX-8S – A versatile screw-in facade
fastener
344
TFIX-8M – A versatile hammer-in facade
fastener
346
KI-10 – Insulation fixing with standard
expansion zone and plastic nail
348
KI-10M – Insulation fixing with standard
expansion zone and metal nail
350
KI-10N – Insulation fixing with long
expansion zone
352
KI-10NS – Insulation fixing with long
expansion zone and screw
354
MKI+MKC – Fireproof connector
for EPS and mineral wool installation
356
MKI-A2+MKC – Stainless steel fireproof
connector for EPS and mineral wool
installation
458
KC+UC – Holding flange with screw
for insulation fixed to timber
360
KC+WB – Holding flange with screw
for insulation fixed to steel
362
KIK – Single fixing for insulation
installed in zones without wind forces
364
KWL – Insulation holding flange
for KI, TFIX & KC fixings
365
F
337
THERMAL INSULATION FIXINGS – FACADE
GENERAL INFORMATION FOR CORRECT DESIGN, INSTALLATION AND USE
OF FACADE THERMAL INSULATION SYSTEMS
1. Reasons for mechanical fixing application in case of wall insulation
There is a requirement for mechanical fixing application during wall insulation using an adhesive
layer.
The external building facade is subject to suction – caused by wind and shear loads. Wind suction
NYLON MULTIFONCTIONS
force is the most common cause of insulation detachment from substrate. Distortion of the whole
facade surface causes internal cracking of the adhesive structure and, consequently, appearance
of cracks in rendering. Use of mechanical fixings can effectively reduce these effects.
LA CHEVILLE
2. The most commonly made mistakes are:
• Improper surface preparation:
•
•
•
•
•
- no surface cleaning (removal of dust and oil)
-failure to remove old or loose paint, plaster or rendering elements
-failure to prepare a level surface and improper preparation of strongly absorbent substrates
- insufficient substrate resistance
Mistakes made during preparation and application of adhesive (failure to follow recommended proportions, ‘thinning’ and improper adhesive layer distribution)
Failure to observe required hardening time for adhesive
Failure to work within recommended ambient temperature range (most commonly from +5°C
up to +25°C)
Work carried out in adverse weather conditions (precipitation, strong winds, direct exposure to
sun)
Leaving unfinished work during winter
3. Failure load causing removal of insulation material from substrate
The force magnitude causing insulation material to tear away from the substrate (over the clamping flange) depends on the strength and thickness of the thermal insulation material applied.
In structural calculations the maximum value of this force cannot be greater than the tensile
load design resistance of the fixings. The tensile performance of the fixing is dependent upon the
friction between the connector’s expansion sleeve and the internal surface of the pre-drilled hole
Thermal insulation materials:
F
ełna mineralna
Expanded polystyrene (EPS) Mineral wool Lamella wool Styropian
Wełna lamelowa
338
A
Wood
wool
Wełna drzewna
Wełna mineralna
Cork
Korek
Wełna lamelowa
Light panels made
Płyty z lekkich
of recycled
materials
materiałów
z recyklingu
Trapezoidal
sheet
Wełna drzewna
Blacha
trapezowa
Korek
Płyty z lekki
materiałów
z recykling
THERMAL INSULATION FIXINGS – FACADE
in the substrate. This load bearing capacity depends on substrate type and connector anchoring
depth. Overall length and flange diameter of the connector do not influence performance. The fixing design, when expanded, possesses a greater diameter at the frictional interface (approximately
1-2 mm) than at the connector’s core diameter.
4. Connector anchoring depth
ELLIVEHC AL
For connector application in base materials such as concrete or solid brickwork, the minimum
NOITCNblock,
OFITLUM NOLYN
anchoring depth is 25mm. In the case of materials like hollow brickwork, structural Sclay
lightweight concrete and aerated concrete blocks, fasteners require an anchoring depth of 60 mm.
Drilling depth should exceed anchorage depth (usually by 10 mm in case of 8-10 mm drill diameter)
in order to ensure debris is sufficiently cleared and full embedment can be achieved.
5. Required connector length
When selecting the length of connector the following should be considered:
A – thickness of insulation material,
B – anchoring depth in load-bearing substrate,
C – thickness of existing render (if applicable),
D – thickness of adhesive,
E – surface roughness,
F – tolerance for work inaccuracy
L=A+B+C+D+E+F
6. Heat transfer coefficient and thermal bridge formation
Application of connectors with a metal insert pin causes formation of thermal bridges, caused
by the relatively high thermal conductivity of steel. Any resultant limitation on thermal insulation
efficiency is practically eliminated thanks to a special plastic overmoulding on the head of the nail.
Heat loss through the nail is therefore below the admissible limit. Furthermore, the plastic head
component has the additional benefit of enhanced corrosion protection.
Alternatively, connectors with a plastic pin can in some cases be applied. However this application is limited due to significantly reduced mechanical resistance.
7. Edge zone determination
The facade’s edge zone is defined by the external building dimensions. The narrowest span of the
building should be taken into account.
The edge zone value equates to 1/8 of that span (A) and is constrained in the range of 1 to 2 m.
1m ≤ A/8 ≤ 2m
The quantity of fixings applied in the edge zone must be
increased by 20%-50%.
In some cases – especially for particularly high buildings
– a detailed scheme of the spacing and quantity of fixings
should be prepared in collaboration with the thermal insulation
system manufacturer.
339
F
THERMAL INSULATION FIXINGS – FACADE
8. Connector quantity and spacing
Quantity and spacing are important parameters which determine the durability and safety of a facade.
Laboratory research has shown that connector spacing depends on:
• Weight of the insulation material (including adhesive, mesh and plaster)
• Load-bearing substrate material
• Height of insulated building
LA CHEVILLE
NYLON MULTIFONCTIONS
Fixing type
TFIX-8M
TFIX-8S
TFIX-8ST
KI-10
KI-8M
KI-10N
KC
KWL *
Polystyrene
Mineral wool
ü
ü
ü
ü
ü
ü
ü
û
ü
ü
ü
û
ü
ü
ü
ü
Number of anchors per m2, depending on the height
of the building
H<8m
8 m < H < 20 m
H > 20 m
4-5/6-8 pcs
6-8/8-10 pcs
4-5/6-8 pcs
6-8/8-10 pcs
4-5/6-8 pcs
6-8/8-10 pcs
û/10-12 pcs
û/10-12 pcs
û/10-12 pcs
û
û/10-12 pcs
û/10-12 pcs
û
û
4-5 pcs
6-8 pcs
4-5/6-8 pcs
6-8/8-10 pcs
4-5/6-8 pcs
6-8/8-10 pcs
4-5/6-8 pcs
û
3-5 pcs
3-5 pcs
üapplicable
û not applicable
* KWL type flanges are used with KI fixings with steel pin
Example of mechanical fixings spacing
F
example of fixings spacing in case of mineral wool
example of fixings spacing in case of polystyrene
340
A
THERMAL INSULATION FIXINGS – FACADE
9. Installation of insulation layer
The mechanical installation of insulation panels should take place after adhesion, taking into
consideration the manufacturer’s recommended curing time (not earlier than after 24 hours).
Fixings quantity and spacing should be specified in technical drawings or specified by thermal
insulation system-provider. The quantity should not be less than 4 pcs/m2.
In concrete and solid brickwork substrates drilling should be performed perpendicular to the
surface, through pre-applied polystyrene foam or mineral wool insulation panels. Holes should
SNOITCNOFITLUM NOLYN
possess a diameter equal to the connector’s sleeve diameter (with tolerances of +0.1 and -0.3 mm)
and be drilled according to the quantity and spacing specified in point 8.
When drilling holes in concrete, a rotary percussion drilling machine should be used with sintered
carbide-tipped drills.
Holes in hollow brickwork and aerated concrete should be drilled using a rotary drilling machine
without hammer action.
Depth of drilled holes must be 10 mm deeper than anchoring depth.
To avoid damage at the reverse of the substrate, the wall thickness must be minimum 20 mm,
(30-40 mm in case of concrete) greater than the drilled hole depth.
In situations when repeat drilling is required due to error, the distance from the original hole location must be at least equal to actual hole depth.
Before installing the connector holes should be cleaned - debris and dust can be removed using
an air pump, round brush or vacuum.
Subsequently fixings can be placed in the hole and lightly hammered.
During installation proper clamping of insulation panels to the substrate must be ensured. The
expansion nail is then hammered through the connector until the head is flush with the facade.
Permanent fixing in the substrate is thus achieved.
Proper fixing of the connector can be assumed when it is fastened tightly in the substrate.
When using products with a screw-in nail, further screwing will not be possible.
Note: insulation fixings with a plastic pin are intended only for fastening light thermo-insulation
materials, for example polystyrene foam.
Connectors with a steel pin are also suitable for fastening polystyrene foam, but are intended
for heavy insulation materials (for example mineral wool, when only this type of fixing should be
applied). This is due to the requirement for high shear and bending resistance, which is provided in
this case by the zinc-plated steel pin component. An additional advantage of the connector with
steel pin is the added safety in the case of fire exposure where, after the plastic sleeve has melted,
the connector nail continues to transmit shear and bending loads.
The high quality of these insulation fixings is proven by ITB technical recommendation RT ITB
1028/2005.
ELLIVEHC AL
341
F
tfix-8st
THERMAL INSULATION FIXINGS – FACADE
TFIX-8ST – Screw-in facade fastener with self-embedding features
PRODUC T INFORMATION
LA CHEVILLE
NYLON MULTIFONCTIONS
TFIX-8ST
TFIX-PERFORATOR
Base Material:
•
•
•
•
•
•
•
•
Concrete (A) C12/15 - C50/60 acc. EN 206-1
Clay brick MZ (B) min 12MPa acc. EN 771-1
Sand-lime solid brick KS (B) min 12MPa acc. DIN 106
Sand-lime perforated brick KSL (C) min 12MPa acc.
DIN 106
NYLON
MULTIFONCTIONS
Vertically perforated clay brick HLz (C) acc. DIN V 105
Lightweight concrete hollow block HBl (D) min 2MPa acc. DIN 18151
Lightweight concrete solid brick V (D) min 4MPa acc. DIN 18151
Prefabricated reinforced components of lightweight aggregate
concrete (LAC) 4MPa, 6MPa
• Autoclaved aerated concrete AAC (E) 4MPa, 6MPa acc. DIN V 4165
LA CHEVILLE
Features:
PLASTIC SLEEVE:
• Polypropylene
FOAM PAD:
• Cross-linked polyolefin
STEEL SCREW:
• Zinc electroplated carbon steel
• Coating thickness min 5µm
• Nylon head piece with TORX 40 drive
APPROVALS AND REPORTS:
• ETA-11/0144
Fixing
Size
F
Ø8
Product Code
Fixture
Diameter
Length
Plate diameter
Min. thickness
d
L
D
tfix A, B, C, D
tfix E
tfix A, B, C, D
tfix E
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
60
TFIX-8ST-115
8
115
60
80
40
100
TFIX-8ST--135
8
135
60
100
60
120
80
TFIX-8ST-155
8
155
60
120
80
140
100
TFIX-8ST-175
8
175
60
140
100
160
120
TFIX-8ST-195
8
195
60
160
120
180
140
TFIX-8ST-215
8
215
60
180
140
200
160
TFIX-8ST-235
8
235
60
200
160
220
180
TFIX-8ST-255
8
255
60
220
180
240
200
TFIX-8ST-275
8
275
60
240
200
260
220
TFIX-8ST-295
8
295
60
260
220
280
240
TFIX-8ST-335
8
335
60
300
260
320
280
INSTALL ATION DATA
342
A
Max. thickness
LA CHEVILLE
NYLON MULTIFONCTIONS
tfix-8st
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
A, B, C, D
E
Fixing diameter
d
[mm]
8
8
Hole diameter in substrate
d0
[mm]
8
8
80
h0
[mm]
40
Installation depth
Min. hole depth in substrate
hnom
[mm]
25
65
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Tighten screw until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
Lightweight concrete hollow block
HBL 4MPa
Lightweight concrete hollow block
HBL 6MPa
Prefabricated reinforced components
of lightweight aggregate concrete
4MPa
Prefabricated reinforced components
of lightweight aggregate concrete
6MPa
Autoclaved aerated concrete AAC
4MPa
Autoclaved aerated concrete AAC
6MPa
Lightweight concrete solid brick V
Solid brickMz
Sand-lime perforated brickKSL
Concrete C50/60
Sand-lime solid brick KS
Concrete ≥ C16/20
Embedment
[mm]
depth hef
Concrete C12/15
Substrate
Vertically perforated clay brick HLz
Performance data for single anchor in tension without influence of edge distance and spacing
25
25
25
25 SNO25IT CNO
25FITLU
25M NO25
LYN 25
ELLIVEHC AL
25
25
25
65
65
0.71
0.66
0.99
1.08
1.61
0.40
0.60
0.40
0.60
0.90
1.20
0.20
0.30
0.20
0.30
0.45
0.60
0.21
0.14
0.21
0.32
0.43
F
Mean ultimate load NRu,m
TFIX-8ST
[kN]
1.64
2.03
1.74
1.68
0.94
1.32
1.15
0.64
0.48
Characteristic load NRk
TFIX-8ST
[kN]
1.20
1.50
1.20
1.20
0.75
0.90
0.90
0.50
Design load NRd
TFIX-8ST
[kN]
0.60
0.75
0.60
0.60
0.38
0.45
0.45
0.25
Recommended load Nrec*
TFIX-8ST
[kN]
0.43
0.54
0.43
0.43
0.27
0.32
0.32
0.18
0.14
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
TFIX-8ST
[kN]
2.04
[kN/mm]
0.60
W/K
0.002
343
tfix-8s
THERMAL INSULATION FIXINGS – FACADE
TFIX-8S – A versatile screw-in facade fastener
PRODUC T INFORMATION
LA CHEVILLE
NYLON MULTIFONCTIONS
TFIX-8S
Base Material:
Features:
•
•
•
•
•
•
Concrete (A) C12/15 - C50/60 acc. EN 206-1
PLASTIC SLEEVE:
Clay brick MZ (B) min 12MPa acc. EN 771-1
• Polypropylene
Sand-lime solid brick KS (B) min 12MPa acc. DIN 106
STEEL SCREW:
Sand-lime perforated brick KSL (C) min 12MPa acc. DIN 106
• Zinc electroplated carbon steel
Vertically perforated clay brick HLz (C) acc. DIN VNYLON
105 MULTIFONCTIONS
• Coating thickness min 5µm
Lightweight concrete hollow block HBl (D) min 2MPa
• Nylon head piece with TORX 40 drive
acc. DIN 18151
APPROVALS AND REPORTS:
• Lightweight concrete solid brick V (D) min 4MPa acc. DIN 18151
• ETA-11/0144
• Prefabricated reinforced components of lightweight aggregate
concrete (LAC) 4MPa, 6MPa
• Autoclaved aerated concrete AAC (E) 4MPa, 6MPa
acc. DIN V 4165
LA CHEVILLE
Fixing
Size
F
Ø8
Product Code
Fixture
d
L
Plate
diameter
D
[mm]
[mm]
[mm]
Diameter
Length
Min. thickness
tfix A, B, C, D
tfix E
tfix A, B, C, D
tfix E
[mm]
[mm]
[mm]
[mm]
60
TFIX-8S-115
8
115
60
80
40
100
TFIX-8S-135
8
135
60
100
60
120
80
TFIX-8S-155
8
155
60
120
80
140
100
TFIX-8S-175
8
175
60
140
100
160
120
TFIX-8S-195
8
195
60
160
120
180
140
TFIX-8S-215
8
215
60
180
140
200
160
TFIX-8S-235
8
235
60
200
160
220
180
TFIX-8S-255
8
255
60
220
180
240
200
TFIX-8S-275
8
275
60
240
200
260
220
TFIX-8S-295
8
295
60
260
220
280
240
TFIX-8S-335
8
335
60
300
260
320
280
INSTALL ATION DATA
344
A
Max. thickness
LA CHEVILLE
NYLON MULTIFONCTIONS
tfix-8s
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
A, B, C, D
E
Fixing diameter
d
[mm]
8
8
Hole diameter in substrate
d0
[mm]
8
8
80
h0
[mm]
40
Installation depth
Min. hole depth in substrate
hnom
[mm]
25
65
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Tighten screw until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
Autoclaved aerated concrete AAC
4MPa
Autoclaved aerated concrete AAC
6MPa
S25
NOITC25NOF25
ITLUM25NOLY25N
25
25
25
65
65
0.71
0.66
0.99
1.08
1.61
0.60
0.40
0.60
0.90
1.20
0.30
0.20
0.30
0.45
0.60
0.21
0.14
0.21
0.32
0.43
Prefabricated reinforced
components of lightweight
aggregate concrete 4MPa
Prefabricated reinforced
components of lightweight aggregate concrete 6MPa
ELLIVEHC AL
Lightweight concrete hollow block
HBL 6MPa
25
Lightweight concrete hollow block
HBL 4MPa
Solid brickMz
25
Lightweight concrete solid brick V
Concrete C50/60
25
Sand-lime perforated brick KSL
Concrete ≥ C16/20
Embedment
[mm] 25
depth hef
Sand-lime solid brick KS
Concrete C12/15
Substrate
Vertically perforated clay brick HLz
Performance data for single anchor in tension without influence of edge distance and spacing
F
Mean ultimate load NRu,m
TFIX-8S
[kN] 1.64 2.03 1.74 1.68 0.94 1.32 1.15 0.64
0.48
Characteristic load NRk
TFIX-8S
[kN] 1.20 1.50 1.20 1.20 0.75 0.90 0.90 0.50
0.40
Design load NRd
TFIX-8S
[kN] 0.60 0.75 0.60 0.60 0.38 0.45 0.45 0.25
0.20
Recommended load Nrec*
TFIX-8S
[kN] 0.43 0.54 0.43 0.43 0.27 0.32 0.32 0.18
0.14
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
TFIX-8S
[kN]
2.04
[kN/mm]
0.60
W/K
0.002
345
Tfix-8M THERMAL INSULATION FIXINGS – FACADE
TFIX-8M – A versatile hammer-in facade fastener
PRODUC T INFORMATION
LA CHEVILLETFIX-8M
NYLON MULTIFONCTIONS
Features:
Base Material:
•
•
•
•
•
•
•
Concrete (A) C12/15 - C50/60 acc. EN 206-1
Clay brick Mz (B) 12MPa acc. DIN V 105
Sand-lime solid brick KS (B) 12MPa acc. DIN V 106
Sand-lime perforated brick KSL (C) 12MPa acc. DIN 106
NYLON MULTIFONCTIONS
Perforated clay brick HLz (C) 12MPa acc. DIN V 105
Lightweight concrete solid block VBl (D) 4MPa acc. DIN 18152
Lightweight concrete hollow blocks HBl (D) 2MPa acc. DIN
18151
• Lightweight concrete solid brick (D) 6MPa acc. DIN 18152 V
LA CHEVILLE
PLASTIC SLEEVE:
• Polypropylene
STEEL NAIL:
• Zinc electroplated carbon steel
• Coating thickness min 5µm
• Nylon head piece
APPROVALS AND REPORTS:
• ETA-07/0336
Fixing
Size
Ø8
F
Fixture
Diameter
Length
Plate diameter
Min. thickness
Max. thickness
d
L
D
tfix A, B, C, D
tfix A, B, C, D
[mm]
[mm]
[mm]
[mm]
[mm]
TFIX-8M-095
8
95
60
40
80
TFIX-8M-115
8
115
60
80
100
TFIX-8M-135
8
135
60
100
120
TFIX-8M-155
8
155
60
120
140
TFIX-8M-175
8
175
60
140
160
TFIX-8M-195
8
195
60
160
180
TFIX-8M-215
8
215
60
180
200
TFIX-8M-235
8
235
60
200
220
TFIX-8M-255
8
255
60
220
240
TFIX-8M-275
8
275
60
240
260
TFIX-8M-295
8
295
60
260
280
Product Code
INSTALL ATION DATA
346
A
LA CHEVILLE
NYLON MULTIFONCTIONS
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
Tfix-8M
A, B, C, D
Fixing diameter
d
[mm]
8
Hole diameter in substrate
d0
[mm]
8
35
h0
[mm]
Installation depth
Min. hole depth in substrate
hnom
[mm]
25
Min. substrate thickness
hmin
[mm]
100
Min. spacing
smin
[mm]
100
Min. edge distance
cmin
[mm]
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Hammer the nail into the plastic sleeve until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
1.54
Sand-lime solid brick KS
25
25
25
Lightweight concrete solid V
[kN]
ELLIVEHC AL
Lightweight concrete hollow
block HBl
25
Lightweight concrete solid
block VBl
[mm]
Perforated clay brick HLz
Embedment depth hef
Solid brick Mz
Concrete
Substrate
Sand-lime perforated brickKSL
Performance data for single anchor in tension without influence of edge distance and spacing
25
25
25
25
0.68
0.51
0.53
0.54
0.60
0.30
0.50
0.50
0.30
0.15
0.25
0.25
0.21
0.11
0.18
0.18
Mean ultimate load NRu,m
TFIX-8M
SNOITCNOFITLUM NOLYN
1.72
1.47
1.00
F
Characteristic load NRk
TFIX-8M
[kN]
1.20
1.20
1.20
0.90
Design load NRd
TFIX-8M
[kN]
0.60
0.60
0.60
0.45
Recommended load Nrec*
TFIX-8M
[kN]
0.43
0.43
0.43
0.32
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
TFIX-8M
[kN]
1.75
[kN/mm]
1.00
[W/K]
0.002
347
KI-10
THERMAL INSULATION FIXINGS – FACADE
KI-10 – Insulation fixing with standard expansion zone and plastic nail
PRODUC T INFORMATION
LA CHEVILLEKI-10
NYLON MULTIFONCTIONS
Base Material:
•
•
•
•
•
•
•
•
•
•
Features:
Concrete (A) C20/25 - C50/60 acc. EN 206-1
• Polypropylene
Solid brick (B) min 30MPa acc. EN 771-1
PLASTIC NAIL:
Sand-lime solid brick (B) min 20MPa acc. DIN 106 (EN 771-2)
• Polypropylene or polyamide PA6
Sand-lime hollow brick (C) min 12MPa acc. DIN 106
APPROVALS AND REPORTS:
(EN 771-2)
NYLON MULTIFONCTIONS
• ETA-07/0291
Perforated ceramic brick (C) min12MPa acc. DIN 105 (EN 771-1)
Vertical perforated block Porotherm 25 (C) min 15MPa acc. EN
771-1
Vertical perforated ceramic block MEGA MAX 250 (C) min 15MPa
acc. EN 771-1
Lightweight concrete hollow block (D) min 2MPa acc. DIN 18151
(EN 771-3)
Lightweight concrete solid blocks (D) min 20MPa acc. EN 771-3
Autoclaved aerated concrete block (E) min 2MPa acc. EN 771-4
LA CHEVILLE
Fixing
Size
F
Ø10
Product
Code
Diameter
Length
Fixture
Plate
diameter
Min. thickness
d
L
D
tfix A, B, C
tfix D
tfix E
tfix A, B, C
tfix D
tfix E
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
KI-070
10
70
60
35
20
-
55
40
20
KI-090
10
90
60
55
40
20
75
60
40
KI-120
10
120
60
85
70
50
105
90
70
KI-140
10
140
60
105
90
70
125
110
90
KI-160
10
160
60
125
110
90
145
130
110
KI-180
10
180
60
145
130
110
165
150
130
KI-200
10
200
60
165
150
130
185
170
150
KI-220
10
220
60
185
170
150
205
190
170
INSTALL ATION DATA
348
A
Max. thickness
LA CHEVILLE
NYLON MULTIFONCTIONS
KI-10
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
A, B, C
D
E
Fixing diameter
d
[mm]
10
10
10
Hole diameter in substrate
d0
[mm]
10
10
10
Min. hole depth in substrate
h0
[mm]
35
50
70
Installation depth
hnom
[mm]
25
40
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
60
EL100
LIVEHC AL
SNOITCNOFITLUM NOLYN
100
100
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Lightly tap the plastic nail into the plastic sleeve until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
Solid brick
Sand-lime solid brick
Sand-lime hollow brick
Perforated ceramic brick
Perforated ceramic brick
(i.e. Porotherm)
MEGA MAX
Lightweight concrete hollow
block
Lightweight concrete solid
blocks
Aerated concrete
Concrete C12/15
Substrate
Concrete ≥ C16/20
Performance data for single anchor in tension without influence of edge distance and spacing
25
25
25
25
40
40
40
40
60
60
ELLIVEHC AL
Embedment depth hef
[mm]
25
KI-10
[kN]
0.78
0.7
KI-10
[kN]
0.50
0.50
F
SNMean
OITCNultimate
OFITLUMload
NOLYNNRu,m
0.72
0.89
0.96
0.74
0.57
0.67
0.75
0.78
0.25
0.40
0.40
0.30
0.40
0.50
0.10
0.20
0.20
0.15
0.20
0.25
0.05
0.14
0.14
0.11
0.14
0.18
0.04
Characteristic load NRk
0.50
0.60
0.60
Design load NRd
KI-10
[kN]
0.25
0.25
0.25
0.30
0.30
Recommended load Nrec*
KI-10
[kN]
0.18
0.18
0.18
0.21
0.21
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
KI-10
[kN]
0.86
[kN/mm]
0.60
[W/K]
–
349
KI-10M
THERMAL INSULATION FIXINGS – FACADE
KI-10M – Insulation fixing with standard expansion zone and metal nail
PRODUC T INFORMATION
LA CHEVILLEKI-10M
KES
NYLON MULTIFONCTIONS
BASE MATERIAL:
Features:
•
•
•
•
•
•
Concrete (A) C20/25 - C50/60 acc. EN 206-1
KI-10 M
Solid brick (B) min 30MPa acc. EN 771-1
PLASTIC SLEEVE
Sand-lime solid brick (B) min 20MPa acc. DIN 106 (EN 771-2)
• Polypropylene
Sand-lime hollow brick (C) min 12MPa acc. DIN 106 (EN 771-2)
NYLON MULTIFONCTIONS METAL NAIL
Perforated ceramic brick (C) min12MPa acc. DIN 105 (EN 771-1)
• Zinc electroplated carbon steel
Vertical perforated block Porotherm 25 (C) min 15MPa • Coating thickness min 5µm
acc. EN 771-1
KES
• Vertical perforated ceramic block MEGA MAX 250 (C) min 15MPa • Polystyrene cap
acc. EN 771-1
APPROVALS AND REPORTS:
• Lightweight concrete hollow block (D) min 2MPa acc. DIN 18151 • ETA-07/0291
(EN 771-3)
• AT-15-8091/2009
• Lightweight concrete solid blocks (D) min 20MPa acc. EN 771-3
• Autoclaved aerated concrete block (E) min 2MPa acc. EN 771-4
LA CHEVILLE
Fixing
Size
F
Ø10
Product
Code
Diameter
Length
Fixture
Plate
diameter
Min. thickness
d
L
D
tfix A, B, C
tfix D
tfix E
tfix A, B, C
tfix D
tfix E
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
KI-090M
10
90
60
55
40
20
75
60
40
KI-120M
10
120
60
85
70
50
105
90
70
KI-140M
10
140
60
105
90
70
125
110
90
KI-160M
10
160
60
125
110
90
145
130
110
KI-180M
10
180
60
145
130
110
165
150
130
KI-200M
10
200
60
165
150
130
185
170
150
KI-220M
10
220
60
185
170
150
205
190
170
KI-240M
10
240
60
205
190
170
225
210
190
KI-260M
10
260
60
225
210
190
245
230
210
INSTALL ATION DATA
350
A
Max. thickness
LA CHEVILLE
NYLON MULTIFONCTIONS
KI-10M
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
A, B, C
D
E
Fixing diameter
d
[mm]
10
10
10
Hole diameter in substrate
d0
[mm]
10
10
10
Min. hole depth in substrate
h0
[mm]
35
50
70
Installation depth
hnom
[mm]
25
40
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
60
EL100
LIVEHC AL
SNOITCNOFITLUM NOLYN
100
100
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Hammer the steel nail into the plastic sleeve until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
25
25
Aerated concrete
25
Lightweight concrete solid
blocks
25
Lightweight concrete hollow
block
Sand-lime hollow brick
Sand-lime solid brick
Solid brick
ELLIVEHC AL
MEGA MAX
25
Perforated ceramic brick
(i.e. Porotherm)
[mm]
Perforated ceramic brick
Embedment depth hef
Concrete C12/15
Substrate
Concrete ≥ C16/20
Performance data for single anchor in tension without influence of edge distance and spacing
40
40
40
40
60
60
0.74
0.57
0.67
0.75
0.98
0.17
0.40
0.30
0.30
0.40
0.60
0.10
0.20
0.15
0.15
0.20
0.30
0.05
0.14
0.11
0.11
0.14
0.21
0.04
F
Mean ultimate load NRu,m
SNOITCNOFITLUM NOLYN
KI-10M
[kN]
0.92
0.97
0.77
KI-10M
[kN]
0.50
0.50
0.40
KI-10M
[kN]
0.25
0.25
0.20
1.11
1.01
Characteristic load NRk
0.60
0.50
Design load NRd
0.30
0.25
Recommended load Nrec*
KI-10M
[kN]
0.18
0.18
0.14
0.21
0.18
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
KI-10M
[kN]
0.86
[kN/mm]
0.6
[W/K]
–
351
Ki-10N
THERMAL INSULATION FIXINGS – FACADE
KI-10N – Insulation fixing with long expansion zone
PRODUC T INFORMATION
LA CHEVILLEKI-10N
NYLON MULTIFONCTIONS
Base Material:
Features:
• Solid brick (B) min 20MPa acc. EN 771-1
PLASTIC SLEEVE
• Vertically perforated blocks (C) acc. PN-B-12069:1998
• Polypropylene
• Lightweight aggregate concrete hollow blocks (D) 10MPa STEEL NAIL
acc. EN 771-3
• Zinc electroplated carbon steel
NYLON MULTIFONCTIONS
• Autoclaved aerated concrete blocks (E) 600 mark V • Coating thickness min 5µm
acc. EN 771-4
• Nylon head piece
LA CHEVILLE
APPROVALS AND REPORTS:
• ETA-07/0221
Fixing
Size
Ø10
F
Fixture
Diameter
Length
Plate diameter
Min. thickness
Max. thickness
d
L
D
tfix B, C, D, E
tfix B, C, D, E
[mm]
[mm]
[mm]
[mm]
[mm]
KI-120N
10
120
60
50
70
KI-140N
10
140
60
70
90
KI-160N
10
160
60
90
110
KI-180N
10
180
60
110
130
KI-200N
10
200
60
130
150
KI-220N
10
220
60
150
170
KI-240N
10
240
60
170
190
KI-260N
10
260
60
190
210
KI-300N
10
300
60
210
250
Product Code
INSTALL ATION DATA
352
A
LA CHEVILLE
NYLON MULTIFONCTIONS
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
Ki-10N
B, C, D, E
Fixing diameter
d
[mm]
10
Hole diameter in substrate
d0
[mm]
10
70
Min. hole depth in substrate
h0
[mm]
Installation depth
hnom
[mm]
60
Min. substrate thickness
hmin
[mm]
100
Min. spacing
smin
[mm]
100
Min. edge distance
cmin
[mm]
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Hammer the nail into the plastic sleeve until fixing is secure and flush with insulation material.
Dane uproszczone dla pojedynczego zamocowania
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Solid brick
Embedment depth hef
[mm]
60
KI-10N
[kN]
1.57
Lightweight Vertically perforated
aggregate concrete
blocks
hollow blocks
60
Autoclaved aerated
concrete blocks
60
60
0.88
1.54
0.30
0.90
0.15
0.45
0.11
0.32
Mean ultimate load NRu,m
0.82
Characteristic load NRk
KI-10N
[kN]
0.90
0.40
ELLIVEHC AL
Design load NRd
KI-10N
[kN]
0.45
SNOITCNOFITLUM0.20
NOLYN
F
Recommended load Nrec*
KI-10N
[kN]
0.32
0.14
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
KI-10N
[kN]
1.04
[kN/mm]
0.50
[W/K]
–
353
Ki-10NS
THERMAL INSULATION FIXINGS – FACADE
KI-10NS – Insulation fixing with long expansion zone and screw
PRODUC T INFORMATION
LA CHEVILLEKI-10NS
NYLON MULTIFONCTIONS
Base Material:
Features:
• Solid brick (B) min 20MPa acc. EN 771-1
PLASTIC SLEEVE
• Vertically perforated blocks (C) • Polypropylene
acc. PN-B-12069:1998
STEEL NAIL
• Lightweight aggregate concrete hollow • Zinc electroplated carbon steel
blocks (D) 10MPa acc. EN 771-3
• Coating thickness min 5µm
NYLON MULTIFONCTIONS
• Autoclaved aerated concrete blocks (E) 600 mark
• Nylon head piece with hex drive
V acc. EN 771-4
LA CHEVILLE
APPROVALS AND REPORTS:
• ETA-07/0221
Fixing
Size
Ø10
F
Fixture
Diameter
Length
Plate diameter
Min. thickness
Max. thickness
d
L
D
tfix B, C, D, E
tfix B, C, D, E
[mm]
[mm]
[mm]
[mm]
[mm]
KI-120NS
10
120
60
50
70
KI-140NS
10
140
60
70
90
KI-160NS
10
160
60
90
110
KI-180NS
10
180
60
110
130
KI-200NS
10
200
60
130
150
KI-220NS
10
220
60
150
170
KI-260NS
10
260
60
190
210
KI-300NS
10
300
60
230
250
Product Code
INSTALL ATION DATA
LA CHEVILLE
354
A
NYLON MULTIFONCTIONS
THERMAL INSULATION FIXINGS – FACADE
Type of substrate (acc. ETAG)
KI-10NS
B, C, D, E
Fixing diameter
d
[mm]
10
Hole diameter in substrate
d0
[mm]
10
Min. hole depth in substrate
h0
[mm]
70
Installation depth
hnom
[mm]
60
Min. substrate thickness
hmin
[mm]
100
Min. spacing
smin
[mm]
100
Min. edge distance
cmin
[mm]
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve through the insulation material into hole with a hammer, until fixing depth is reached.
3. Tighten screw until fixing is secure and flush with insulation material.
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Solid brick
Embedment depth hef
[mm]
60
KI-10NS
[kN]
1.86
Lightweight Vertically perforated
aggregate concrete
blocks
hollow blocks
60
Autoclaved aerated
concrete blocks
60
60
0.53
0.89
0.30
0.75
0.15
0.38
0.11
0.27
Mean ultimate load NRu,m
0.71
Characteristic load NRk
KI-10NS
[kN]
1.20
0.40
ELLIVEHC AL
Design load NRd
KI-10NS
[kN]
0.60
0.20
SNOITCNOFITLUM NOLYN
F
Recommended load Nrec*
KI-10NS
[kN]
0.43
0.14
* partial safety factor 1.4
Fixing type
Plate resistance
Plate stiffness
Point thermal transmittance λ
KI-10N
[kN]
1.04
[kN/mm]
0.50
[W/K]
–
355
MKI+MKC
THERMAL INSULATION FIXINGS – FACADE
MKI+MKC – Fireproof connector for EPS and mineral wool installation
PRODUC T INFORMATION
MKI
LA CHEVILLE
MKC
NYLON MULTIFONCTIONS
Base Material:
• Concrete (A) min C20/25 acc. PN-EN 206-1:2003
• Clay brick (B) min 15MPa acc. PN-EN 771-1:2006
• Sand-lime solid brick (B) min 15MPa acc. PN-EN
771-2:2006
• Aerated concrete (E) 600 Mark V acc. PN-EN
771-4:2004
Features:
On the basis of European Comission Decision No. 96/603/EC,
2000/605/EC and 2003/424/EC KOELNER MKI steel connectors are
classified in Class A1 of reaction to fire, and on the basis of instructions ITB No 401/2004 have been classified as non-combustible.
FIXING:
• Carbon steel, grade S235JRG2
Coating thickness min 8µm
NYLON •MULTIFONCTIONS
LA CHEVILLE
APPROVALS AND REPORTS:
• AT-15-8092/2009
Fixing
Size
Ø8
F
Product Code
Diameter
Length
Fixture
Plate diameter MKC
d
L
D
tfix
[mm]
[mm]
[mm]
[mm]
MKI-060/8
8
60
80
10
MKI-090/8
8
90
80
40
MKI-110/8
8
110
80
60
MKI-130/8
8
130
80
80
MKI-140/8
8
140
80
90
MKI-150/8
8
150
80
100
MKI-170/8
8
170
80
120
MKI-190/8
8
190
80
140
MKI-200/8
8
200
80
150
MKI-210/8
8
210
80
160
MKI-230/8
8
230
80
180
MKI-250/8
8
250
80
200
MKI-270/8
8
270
80
220
MKI-300/8
8
300
80
250
INSTALL ATION DATA
356
A
Max. thickness
LA CHEVILLE
NYLON MULTIFONCTIONS
THERMAL INSULATION FIXINGS – FACADE
Substrate
MKI+MKC
A, B
E
Fixing diameter
d
[mm]
8
8
Hole diameter in substrate
d0
[mm]
8
-
Min. hole depth in substrate
h0
[mm]
60
-
Installation depth
hnom
[mm]
50
50
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap MKI fixing, with MKC washer, through the insulation material into hole with a hammer, until fixing depth is reached.
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Embedment depth hhef
[mm]
Concrete
Solid brick
Sand-lime solid brick
Autoclaved aerated
concrete
50
50
50
50
0.85
1.05
0.80
0.90
0.32
0.26
0.23
0.19
Mean ultimate load NRu,m
MKI + MKC
[kN]
1.05
0.85
Characteristic load NRk
MKI + MKC
[kN]
0.85
0.65
ELLIVEHC AL
Design load NRd
MKI + MKC
[kN]
0.34
MKI + MKC
[kN]
0.24
0.22
SNOITCNOFITLUM NOLYN
F
Recommended load Nrec*
0.16
* partial safety factor 1.4
Fixing type
Pull the fixing plate through the insulation material with thickness 50 mm. Acc. ETAG 004
MKI+MKC-80
[kN]
0.32*
* characteristic load
357
mki-a2
+mkc
THERMAL INSULATION FIXINGS – FACADE
MKI-A2+MKC – Stainless steel fireproof connector for EPS and mineral wool installation
PRODUC T INFORMATION
LA CHEVILLE
NYLON MULTIFONCTIONS
MKI-A2
MKC
Base Material:
•
•
•
•
Features:
Concrete (A) min C20/25 acc. PN-EN 206-1:2003
Clay brick (B) min 15MPa acc. PN-EN 771-1:2006
Sand-lime solid brick (B) min 15MPa acc. PN-EN 771-2:2006
Aerated concrete (E) 600 Mark V acc. PN-EN 771-4:2004
On the basis of European Comission Decision No.
96/603/EC, 2000/605/EC and 2003/424/EC KOELNER MKI -A2 steel connectors are classified in Class A1 of reaction
to fire, and on the basis of instructions ITB No 401/2004
have been classified as non-combustible.
FIXING:
NYLON MULTIFONCTIONS
• Stainless steel class A2 grade 1.4301
LA CHEVILLE
APPROVALS AND REPORTS:
• AT-15-8092/2009
Fixing
Size
Ø8
Product Code
Diameter
Length
Fixture
Plate diameter MKC
Max. thickness
d
L
D
tfix
[mm]
[mm]
[mm]
[mm]
MKI-A2-070/8
8
70
80
20
MKI-A2-090/8
8
90
80
40
INSTALL ATION DATA
F
Substrate
Fixing diameter
Hole diameter in substrate
Min. hole depth in substrate
358
A
LA CHEVILLE
d
[mm]
NYLON
d0 MULTIFONCTIONS
[mm]
A
E
8
8
8
-
h0
[mm]
60
-
Installation depth
hnom
[mm]
50
50
Min. substrate thickness
hmin
[mm]
100
100
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
THERMAL INSULATION FIXINGS – FACADE
mki-a2
+mkc
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap MKI-A2 fixing, with MKC washer, through the insulation material into hole with a hammer, until fixing depth is reached.
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Concrete
Solid brick
Sand-lime solid brick
Autoclaved aerated
concrete
50
50
50
0.90
1.10
0.85
0.90
0.30
0.29
0.21
0.21
Embedment depth hef
[mm]
50
MKI-A2 + MKC
[kN]
1.10
Mean ultimate load NRu,m
0.85
Characteristic load NRk
MKI-A2 + MKC
[kN]
0.95
0.75
ELLIVEHC AL
Design load NRd
MKI-A2 + MKC
[kN]
SNOITCNOFITLUM 0.26
NOLYN
0.37
Recommended load Nrec*
MKI-A2 + MKC
[kN]
0.26
0.19
* partial safety factor 1.4
Fixing type
Pull the fixing plate through the insulation material with thickness 50 mm. Acc. ETAG 004
MKI-A2+MKC-80
[kN]
0.32*
F
* characteristic load
359
KC+UC
THERMAL INSULATION FIXINGS – FACADE
KC+UC – Holding flange with screw for insulation fixed to timber
PRODUC T INFORMATION
Base Material:
• Timber class C24 acc. PN-EN 338:2004
LA CHEVILLE
Features:
NYLON MULTIFONCTIONS
FLANGE
• Impact resistant polypropylene PP copolymer
SCREW
• Zinc electroplated carbon steel
• Coating thickness min 5µm
KC + UC
APPROVALS AND REPORTS:
LA CHEVILLE
• AT-15-4627/2012
NYLON MULTIFONCTIONS
Fixing
Screw
Size
Ø5.0
Ø6.0
F
Product Code
Diameter
Length
Fixture
Plate diameter
Max. thickness
d
L
D
tfix
[mm]
[mm]
[mm]
[mm]
KC + UC-5050
5
50
60
30
KC + UC-5060
5
60
60
40
KC + UC-5070
5
70
60
50
KC + UC-5080
5
80
60
60
KC + UC-5090
5
90
60
70
KC + UC-50100
5
100
60
80
KC + UC-60100
6
100
60
75
KC + UC-60120
6
120
60
95
KC + UC-60140
6
140
60
115
KC + UC-60160
6
160
60
135
KC + UC-60200
6
200
60
175
INSTALL ATION DATA
Substrate
d
[mm]
5
6
Hole diameter in substrate
d0
[mm]
–
–
Min. hole depth in substrate
h0
[mm]
–
–
Installation depth
hnom
[mm]
20
25
Min. substrate thickness
hmin
[mm]
20
25
Min. spacing
smin
[mm]
100
100
Min. edge distance
cmin
[mm]
100
100
LA CHEVILLE
NYLON MULTIFONCTIONS
360
A
Timber
Fixing diameter
KC+UC
THERMAL INSULATION FIXINGS – FACADE
INSTALLATION GUIDE
1. Lightly insert KC plate into insulation material and drill the UC screw into substrate, until fixing depth is reached.
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Embedment depth hef
Timber
[mm]
20
25
Mean ultimate load NRu,m
KC+UC Ø5.0
[kN]
0.78
–
KC+UC Ø6.0
[kN]
–
0.98
Characteristic load NRk
KC+UC Ø5.0
[kN]
KC+UC Ø6.0
[kN]
0.73
ELLIVEHC AL
–
–
0.91
Design load NRd
KC+UC Ø5.0
[kN]
KC+UC Ø6.0
[kN]
SNOITCNO0.24
FITLUM NOLYN
–
–
0.30
Recommended load Nrec*
KC+UC Ø5.0
[kN]
0.17
–
KC+UC Ø6.0
[kN]
–
0.22
* partial safety factor 1.4
screw pulls through flange
F
361
KC+WB
THERMAL INSULATION FIXINGS – FACADE
KC+WB – Holding flange with screw for insulation fixed to steel
PRODUC T INFORMATION
Base Material:
LA CHEVILLE
NYLON MULTIFONCTIONS
• Steel 0.75-2.00mm thickness, grade S280GD
acc. PN-EN 10346:2011
KC + UC
Features:
FLANGE
• Impact-resistant polypropylene PP copolymer
SCREW
• Zinc electroplated carbon steel
• Coating thickness min 5µm
• Self-tapping
LA CHEVILLE
NYLON MULTIFONCTIONS
APPROVALS AND REPORTS:
• AT-15-4627/2012
Fixing
Screw
Size
Ø5.0
F
Product Code
Diameter
Length
Fixture
Plate diameter
Max. thickness
d
L
D
tfix
[mm]
[mm]
[mm]
[mm]
KC + WB-48100
4.8
100
60
90
KC + WB-48120
4.8
120
60
110
KC + WB-48140
4.8
140
60
130
KC + WB-48160
4.8
160
60
150
KC + WB-48170*
4.8
170
60
160
KC + WB-48180
4.8
180
60
170
KC + WB-48200
4.8
200
60
190
KC + WB-48220
4.8
220
60
210
* not covered by approval
INSTALL ATION DATA
Substrate
d
[mm]
4.8
Hole diameter in substrate
d0
[mm]
–
Min. hole depth in substrate
h0
[mm]
–
Installation depth
hnom
[mm]
0.75
Min. substrate thickness
hmin
[mm]
0.75
Min. spacing
smin
[mm]
100
Min. edge distance
cmin
[mm]
100
LA CHEVILLE
NYLON MULTIFONCTIONS
362
A
Steel
Fixing diameter
THERMAL INSULATION FIXINGS – FACADE
KC+WB
INSTALLATION GUIDE
1. Lightly insert KC plate into insulation material and drill the WB screw into substrate, until fixing depth is reached.
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
BASIC PERFORMANCE DATA
Performance data for single anchor in tension without influence of edge distance and spacing
Substrate
Embedment depth hef
Steel
[mm]
0.75
Mean ultimate load NRu,m
KC + WB
[kN]
KC + WB
[kN]
0.86
Characteristic load NRk
0.81
Design load NRd
KC + WB
[kN]
ELLIVEHC AL
0.44
Recommended load Nrec*
KC + WB
[kN]
SNOITCNOFITLUM NOLYN
0.31
* partial safety factor 1.4
F
363
KIK
THERMAL INSULATION FIXINGS – FACADE
KIK – Single fixing for insulation installed in zones without wind forces
PRODUC T INFORMATION
LA CHEVILLE KIK
NYLON MULTIFONCTIONS
Base Material:
Features:
• Concrete
• Solid brick
FIXING
• Impact-resistant polypropylene copolymer
LA CHEVILLE
Fixing
Size
Product Code
Diameter
d
[mm]
Ø10
Length
Plate diameter
NYLON MULTIFONCTIONS
Fixture
Max. thickness
L
D
tfix
[mm]
[mm]
[mm]
KIK-070
8
70
35
30
KIK-090
8
90
35
50
INSTALL ATION DATA
Size
d
[mm]
8
Hole diameter in substrate
d0
[mm]
8
40
Min. hole depth in substrate
F
INSTALLATION GUIDE
h0
[mm]
Installation depth
hnom
[mm]
30
Min. substrate thickness
hmin
[mm]
100
Min. spacing
smin
[mm]
100
Min. edge distance
cmin
[mm]
100
LA CHEVILLE
NYLON MULTIFONCTIONS
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic fixing through the insulation material into hole with a hammer, until fixing depth is reached.
364
A
Ø8
Fixing diameter
KWL
THERMAL INSULATION FIXINGS – FACADE
KWL – Insulation holding flange for KI, TFIX & KC fixings
PRODUC T INFORMATION
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
KWL-140
KWL-110
KWL-090
ELLIVEHC AL
Size
Product
Code
Diameter
d
[mm]
Features:
FixingSNOIT CNOFITLUM NOLY
N
USED IN CONJUNCTION WITH TFIX, KI, KC
Plate
•
Polyamide PA 6.0 reinforced with fibre glass
Length
diameter
• Impact resistant copolymer of polypropylene PP
• Installations of lamella wool to substrate
L
D
[mm]
[mm]
Ø90
KWL-090
90
−
60
Ø110
KWL-110
110
−
60
Ø120
KWL-140
140
−
60
APPROVALS AND REPORTS:
•
•
•
•
•
ETA-07/0221
ETA-07/0291
ETA-07/0336
ETA-11/0144
AT-15-4627/2012
INSTALL ATION DATA
F
INSTALLATION GUIDE
1. Drill a hole of required diameter and depth.
2. Lightly tap the plastic sleeve with additional KWL flange through the insulation material into hole with a hammer, until fixing depth is reached.
3. Lightly hammer the nail into the plastic sleeve (or tighten screw) until fixing is secure and flush with insulation material.
ELLIVEHC AL
SNOITCNOFITLUM NOLYN
365
NOTES
LA CHEVILLE
NYLON MULTIFONCTIONS
F
366
A
THERMAL INSULATION FIXINGS – FACADE