itb technical approval at 15- 6103/2013 · this itb technical approval at-15-6103/2013 is a...
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Series: TECHNICAL APPROVALS
ITB TECHNICALAPPROVAL AT-15-
6103/2013
Based on the Regulation of the Minister of Infrastructure of 8 November 2004 ontechnical approvals and organisational units authorised to issue them (Journal of Laws no.249, item 2497), in consequence of the approval procedure conducted at the BuildingResearch Institute at the request of:
THE MANUFACTURERS
listed on pages 2 ÷ 4 of this document
we confirm the fitness of the products called:
for construction purposes in the scope and on the principles specified in the Annex constituting an integral part of this ITB Technical Approval.
Expiry date: 29 March 2018
Annex:
General and Technical Provisions
DIRECTORp.p.
Deputy Directorfor Cooperation with
Business Entities
Marek Kaproń
Warszawa, 29 March 2013This ITB Technical Approval AT-15-6103/2013 is a revision of ITB Technical Approval AT-15-6103/2010. Thedocument of this ITB Technical Approval AT-15-6103/2013 consists of 68 pages. The text of this document may becopied in its entirety only. The publication or distribution of any fragments of the text of this Technical Approval inany other form requires a written arrangement with the Building Research Institute.
ITB TECHNICAL APPROVAL
AT-15-6103/2013
has been granted at the request of the following businessentities:
# Name
Address1 Adam Sworczuk, ECO-
TRADEul. Gospodarska 10A, 81-068 Gdynia
2ART Form s.c. Grzegorz Malak, Józef Para
Hermanowa nr 96, 36-020 Tyczyn
3AP-Drzwi Sp.j. Andrzej Pawlik, Daniel Pawlik i KamilPawlik
Kobylice, ul. Raciborska 45, 47-253 Cisek
4 “BEM” Sp. z o.o. Mirosław 26A, 09-472 Słupno
5 BKT SYSTEM Sp. z o.o. ul. Elektronowa 1/3, 94-103 Łódź
6 BB System Sp. z o.o. Sarnów 20, 96-514 Rybno
7 CENTURION-R Sp. z o.o. ul. Łany 1, 38-500 Sanok
8 CLASSEN-POL S.A. Zwonowice, ul. Wyzwolenia, 44-292 Rybnik 13
9Centrum Stolarki Nietypowej Sp. z o.o.
ul. Gospodarska 10/1, 81-068 Gdynia
10 “DEWRO” WRÓBEL Sp. j. ul. Braci Dudów 42, 43-512 Bestwinka
11 DOORS E.R.J. Kubiak Sp. j. ul. Poznańska 171, 62-052 Komorniki
12D.R.E. Spółka z ograniczoną odpowiedzialnością
ul. Nefrytowa 4, Gronowo Górne, 82-300 Elbląg
13 DOMIDOR Sp. z o.o. ul. Siewna 18, 31-231 Kraków
14 Entra Sp. z o.o. Juszkowo, ul. Zdrowa 10, 83-000 Pruszcz Gdański15 “ERBUD” Ryszard Ziółkowski ul. Kuropatwy 26, 02-892 Warszawa
16Okrętowych FAMOS Sp.z o.o.
ul. Gdańska 37, 83-200 Starogard Gdański
17Fabryka Okien i Drzwi“DZIADEK” Sp. z o.o.
Bielice, 13-330 Krotoszyny
18Paweł Paruch, Artur Paruch s.c.
Książnice 42, 32-013 Niegowić k/Bochni
19 SĘKPOL Jan Kowal Sp.j. Gręboszów 160, 33-260 Gręboszów
20Fabryka Okien i Drzwi BAS Sp. z o.o.
ul. Smoluchowskiego 1, 20-474 Lublin
21 GORAN Sp. z o.o. Biała Niżna 441, 33-330 Grybów
22 HALSPAN LimitedMuirhouses, Bo`ness, Edinburgh EH51 9SS, United Kingdom
23HALUPCZOK-STOLARSTWORyszard Halupczok, Edyta Halupczok s.c.
Węgry, ul. Kotorska 19, 46-023 Osowiec
24 HIPAR Sp. z o.o. Wola Rafałowska 191A, 36-017 Błędowa Tyczyńska
25 INTERDREX Sp. z o.o. Bieszkowice 45, 84-206 Nowy Dwór Wejherowski
26 INVADO Sp. z o.o. Dzielna, ul. Leśna 2, 42-793 Ciasna
27 JUWENT Sp. z o.o. ul. Budowlana 3, 08-500 Ryki
28KADIMEX Augustyn – Dusiński Sp. j.
ul. Drewnicka 3A, 05-091 Ząbki
29 K&P Fabryka Drzwi Sp. z o.o. Manasterz 71, 37-522 Wiązownica
30 LEBO DRZWI Sp. z o.o. ul. Transportowa 2, 68-300 Lubsko
31 LIBOR J. Lica Sp.j. ul. Harcerska 25, 84-240 Reda
32 LIS-MEBLE Bogusław Lis ul. Konstancińska 9/42, 02-942 Warszawa
33 LUTOSTAŃSKI Sp. z o.o. ul. Wojska Polskiego 118 D, 16-400 Suwałki
34 LIGNUS Sp. z o.o. ul. Sucha 25, 80-531 Gdańsk
35 MAZUREK Sp. z o.o. Studzianki 19A, 97-320 Wolbórz
36 MERCOR S.A. ul.Grzegorza z Sanoka 2, 80-408 Gdańsk
37 MYSTAN Mysza Janusz Łętowe 200, 34-733 Mszana Górna
38 OMEGA Sp. z o.o. ul. Zawiła 56, 30-390 Kraków
39 POL-SKONE Sp. z o.o. ul. Lucyny Herc 8, 20-328 Lublin
40Porta KMI Poland Spółka z ograniczonąodpowiedzialnością S.K.A.
ul. Szkolna 26, 84-239 Bolszewo
41PPU BUDREX, Włodzimierz Pęczakowski
ul. Południowa 3/5, 97-310 Srock
42 PPHU “PROMED” Roman Pąśko
Borysław 59, 96-130 Głuchów
43Wielobranżowe BIOSERWIS Sp. z o.o.
ul. Św. Teresy od Dzieciątka Jezus 105, 91-222 Łódź
44Przedsiębiorstwo WielobranżoweCelebański
ul. Marcinkowskiego 20, 64-600 Oborniki
45Rykaczewski Zdzisław Przedsiębiorstwo Wielobranżowe MIDAR
ul. Mickiewicza 53 E, 67-200 Głogów
46P.P.H.U. JAGDOR Janusz Gierada
Piskrzyn 20, 27-552 Baćkowice
47P.S.D. MARKOP Sp. j. Ignacy Barański i Zbigniew Barański
Babięty Wielkie 54, 14-240 Susz
48PPU “KOMPLEX DOM”Zmyślony Tadeusz
Czarne Błoto 84, 87-134 Zławieś Wielka
49 POZBUD T&R S.A.Wysogotowo, ul. Bukowska 10A, 62-081 Przeźmierowo
50Producent Stolarki Budowlanej“KORZEKWA” Andrzej
Wilkowiecko, ul. Długosza 12, 42-152 Opatów
51 P.H.U. PROMESA Sp. z o.o. ul. Batalionów Chłopskich 77, 25-671 Kielce
52 POL-PANEL Sp. z o.o. ul. Mitkowskiego 8, 38-480 Rymanów
53 Prestige Art Design Sp. z o.o. ul. Armii Krajowej 88, 05-075 Warszawa
54RAMS s.c. Firma Stolarska, Stanisław Łach,Paweł Łach, Tomasz Łach, Anna Łach
Bielawa 30A, 55-095 Mirków
55SPUH “DRZEW-MAR” MariuszSukiennik
ul. Huculska 87B, 42-200 Częstochowa
56STOLARSTWO IMPORT- EXPORT DUDEK H & H Sp. j.
ul. Opolska 48, 46-045 Kotórz Mały
57 STOLARSTWO SYGUDA s.c.
ul. Ks. Skorupki 52, 42-100 Kłobuck
58STOLBUD WARSZAWASp. z o.o.
ul. Postępu 25, 02-676 Warszawa
59 STOLMAT Paweł Łątka ul. Okólna 8, 33-170 Tuchów
60“MORIC DRZWI” s.c.Moric Celina, Moric Kazimierz
ul. Nowa 28d, 44-352 Czyżowice
61 STOLBUD Włoszczowa S.A. ul. Jędrzejowska 74, 29-100 Włoszczowa
62 STOLMIR Marek Łukasiak Dubów 33, 21-532 Łomazy
63“WESTO” Zakład Produkcji Drzewnej Stanisław Wyszyński
Naterki, ul. Diamentowa 50, 11-036 Gietrzwałd
64Zakład Stolarki Budowlanej“SOSNOWICZ” s.c. Ryszard, Jolanta, Jakub Sosnowicz
ul. Lubelska 37D, 10-408 Olsztyn
65 Zakład Stolarski Tomasz Oniśko
ul. Bawełniana 19/21, 97-300 Piotrków Trybunalski
66Zakład Stolarski WOLBEL Józef Belica, Michał Belica sp. j.
ul. Spacerowa 2A, Słupno, 05-250 Radzymin
67Zakład Stolarsko-Budowlany Zdzisław Serhej
ul. Cmentarna 9, 21-532 Łomazy
68 ZPU “MEBLUX” Piotr Piotrowski Gorzków 31, 32-700 Bochnia
69Z.U.P. STOLCHO Krzysztof Chodorowski
ul. Kwiatowa 13, 63-600 Kępno
70 ERKADO Zbigniew Kozłowski Chwałowice 156, 37-455 Radomyśl nad Sanem
71Zakład Stolarski STOL-BIR, Andrzej Bir
ul. Leśna 28, 83-340 Sierakowice
72Konserwacja Drewna Jan Pęcek
Krzczonów 330, 32-435 Krzczonów
73 DECOPLAST Hubert Piętka Maliszew, ul. Wspólna 72, 05-300 Mińsk Mazowiecki
74Firma Produkcyjno-Handlowo- Usługowa “SOSNA”Sosiński Józef
Wola Mielecka 227, 39-300 Mielec
75KOSPAN Marek Kąpała Spółka jawna
ul. Lubliniecka 28, 42-793 Ciasna
ANNEX
GENERAL AND TECHNICAL PROVISIONS
TABLE OF CONTENTS
1. SUBJECT MATTER OF THE APPROVAL.................................................................................6
1.1. General...............................................................................................................................6
1.2. HALSPAN EI 30 door ....................................................................................................... 7
1.3..........................................................................................................HALSPAN EI 60 door 11
2. INTENDED USE, SCOPE AND CONDITIONS OF USE..........................................................15
3. TECHNICAL FEATURES. REQUIREMENTS..........................................................................16
3.1..............................................................................................................................Materials16
3.2.............................................................................................................Hardware and locks19
3.3.......................................................................................................................Workmanship19
3.4................................................................................................................Technical features19
4. PACKING, STORAGE AND TRANSPORT........................................................................... 22
5. CONFORMITY ASSESSMENT .............................................................................................. 22
5.1.......................................................................................................................General rules 22
5.2..............................................................................................Preliminary type examination 23
5.3...................................................................................................Production control system 23
5.4..................................................................................................Tests of finished products 24
5.5....................................................................................................................Test frequency 25
5.6......................................................................................................................Test methods 25
5.7............................................................................................................Taking test samples 25
5.8................................................................................................Assessment of test results 25
6. FORMAL AND LEGAL ARRANGEMENTS ............................................................................26
7. EXPIRY DATE .......................................................................................................................27
ADDITIONAL INFORMATION ....................................................................................................27
DRAWINGS ................................................................................................................................31
1. SUBJECT MATTER OF THE APPROVAL
1.1. Genera
The subject matter of this ITB Technical Approval is HALSPAN wooden interior entrance
doors made of Halspan Prima three-layer particle boards manufactured by firmy Halspan Limited
Muirhouses, Bo΄ness Edinburgh, EH 51 9SS, Scotland. The owner of the construction and
technological solution applied in HALSPAN doors is the company Halspan Limited Muirhouses,
whose authorised representative in Poland is the company Kadimex Augustyn - Dusiński sp. j., ul.
Drewnicka 3A, 05-091 Ząbki.
HALSPAN doors are manufactured by the business entities listed on pages 2 ÷ 4 of this
Technical Approval. They have obtained authorisation to manufacture HALSPAN doors from
either Halspan Limited Muirhouses or Kadimex Augustyn - Dusiński sp. j.
This Technical Approval comprises fire doors as well as fire and smoke control doors of the
following types:
a) HALSPAN EI 30 (Fig. 1 ÷ 20) with a leaf thickness of 43 ÷ 85 mm, single leaf or double
leaf, solid or glazed, with a three-sided rebate or without a rebate, with a threshold or
without a threshold and with a dropping seal, left hand or right hand, with a wooden or
metal door frame, with a non-transparent transom.
The dimensions of the particular door elements are as follows:
- leaf width: 300 ÷ 1226 mm,
- leaf height: 400 ÷ 2750 mm – in the case of single leaf solid doors,
- leaf height: 400 ÷ 2513 mm – in the case of single leaf glazed doors,
- leaf height: 1000 ÷ 2513 mm – in the case of double leaf solid or glazed doors,
- non-transparent transom width: 300 ÷ 1226 mm,
- non-transparent transom height: not more than 800 mm.
b) HALSPAN EI 60 (Fig. 21 ÷ 42) with a leaf thickness of 53 ÷ 85 mm, single leaf or double
leaf, solid or glazed, with a three-sided rebate or without a rebate, with a threshold or
without a threshold and with a dropping seal, left hand or right hand, with a wooden or
metal door frame, with transparent or non-transparent sidelights and/or transoms.
The dimensions of the particular door elements are as follows:
- leaf width: 300 ÷ 1226 mm,
- leaf height: 400 ÷ 2513 mm – in the case of single leaf solid or glazed doors and double
leaf solid doors,
- leaf height: 1000 ÷ 2313 mm – in the case of double leaf glazed doors,
- transparent or non-transparent sidelight width: 500 ÷ 1000 mm; height: not more than
2350 mm,
- rounded transparent transom width: 300 ÷ 2860 mm; height at the highest point: not
more than 1300 mm,
- rectangular transparent or non-transparent transom width: 300 ÷ 2860 mm; height: not
more than 1300 mm (glass pane dimensions: not more than 2520 x 940 mm).
The required technical features of HALSPAN doors are specified in item 3.
1.2. HALSPAN EI 30 door
A HALSPAN EI 30 door leaf is made of a Halspan Prima three-layer particle board, without a
stile, with a wooden trim strip glued along the perimeter, such a strip being made of coniferous wood
with a density of not less than 350 kg/m3
or deciduous wood with a density of not less than 500
kg/m3, and a thickness of not less than 7 mm. A Halspan Prima particle board manufactured by
Halspan Ltd is a layered board with an average density of 630 ± 63 kg/m3
; its external layers have a
thickness of 6 mm and a density of not less than 780 kg/m3
, while the middle layer has a thickness of
32 mm and a density of not less than 530 kg/m3. A Halspan Prima board can be covered on both
sides with HDF boards with a thickness of 3 mm and a density of not less than 800 kg/m3
.
The elements of a door leaf are joined by means of an adhesive with a durability class of at
least D3 according to PN- EN 204:2002.
The surface of a door leaf can be finished with natural or modified veneer, laminate, aluminium
foil with a thickness of 0.5 mm, flat or profiled MDF boards, HDF boards (with a possibility of attaching
decorative elements to the board) with a thickness of 1 ÷ 6 mm or plywood with a thickness of not
more than 6 mm, wooden strips with a thickness of not more than 20 mm, varnish or acrylic coating,
paper foil, HPL, CPL or PVC.
In the case of a fire door with a wooden door frame, according to Fig. 8, intumescent door
seals are placed in the door leaf or in the door frame: along the upper and vertical edges in single leaf
doors or along the upper edge and the vertical hinge-side edge in double leaf doors. These can be
Fire Seal Plain seals manufactured by Halspan Ltd or Lorient 617 seals manufactured by LORIENT –
two seals
with a cross section of 10 x 4 mm or one seal with a cross section of 20 x 4 mm or PROMASEAL® -
PL intumescent seals manufactured by Promat or Palstop P seals manufactured by BRANDDEX –
two seals with a cross section of 10 x 2 mm or one seal with a cross section of 20 x 2 mm, or one of
the aforementioned seals in the leaf and one in the door frame. In the case of a door with a steel door
frame, according to Fig. 8, intumescent door seals are placed in the door leaf or in the door frame:
along the upper and vertical edges in single leaf doors or along the upper edge and the vertical hinge-side
edge in double leaf doors. The door leaf is fitted with Fire Seal Plain seals manufactured by Halspan Ltd or
Lorient 617 seals manufactured by LORIENT – two seals with a cross section of 10 x 4 mm or one seal
with a cross section of 20 x 4 mm or
PROMASEAL®
- PL seals manufactured by Promat or Palstop P seals manufactured by BRANDDEX - twoseals with a cross section of 10 x 2 mm or
one seal with a cross section of 20 x 2 mm, while the door frame is fitted with PROMASEAL®
- PL seals
manufactured by Promat or Palstop P seals manufactured by BRANDDEX – two seals with a cross section
of 10 x 2 mm or one seal with a cross section of 20 x 2 mm, or one of the aforementioned seals in the leaf
and one in the door frame.
In the case of a fire and smoke control door with a wooden door frame, intumescent door seals are
placed in the leaf or in the door frame, and in the case of a fire and smoke control door with a steel door
frame, intumescent door seals are placed in a door leaf, according to Fig. 8: along the upper and vertical
edges in single leaf doors or along the upper edge and the vertical hinge-side edge in double leaf doors. It
is one intumescent Fire Seal Plain seal manufactured by Halspan Ltd or Lorient 617 seal manufactured by
LORIENT, with a cross section of 10 x 4 mm, and one intumescent and smoke Fire Seal Twin Fin seal
manufactured by Halspan Ltd or Lorient 617 seal with a double stub manufactured by LORIENT, with a
cross section of 10 x 4 mm (or two seals being both intumescent and smoke seals) or one of the
aforementioned seals in the leaf and one in the door frame.
According to Fig. 9, in the meeting stile of a double leaf fire door there are two Fire Seal Plain
intumescent seals manufactured by Halspan Ltd or Lorient 617 seals manufactured by LORIENT, with a
cross section of 10 x 4 mm, or PROMASEAL®
- PL intumescent seals manufactured by Promat or Palstop
P intumescent seals manufactured by BRANDDEX, with a cross section of 10 x 2 mm, a fire and smoke
control door is fitted with the following seals:
one Fire Seal Plain intumescent seal manufactured by Halspan Ltd or Lorient 617 intumescent seal
manufactured by LORIENT, with a cross section of 10 x 4 mm and one Seal Twin Fin intumescent and
smoke seal manufactured by Halspan Ltd, Lorient 617 seal with a double stub manufactured by LORIENT
or Pyroplex seal, type SF or TF, manufactured by Pyroplex Ltd, with a cross section of 10 x 4 mm.
The rebate of a door leaf can be fitted with a TPE S 6512/O rebate seal manufactured by Inter
Deventer.
A smoke control door with or without a threshold and with a threshold seal is fitted in the lower part
of the leaf, according to Fig. 4 ÷ 6, with a drop seal: Threshold Drop Seal manufactured by Halspan Ltd.,
Lorient series 8000 manufactured by LORIENT, Schall – Ex P28 manufactured by Athmer, Planet FT or
Planet HS manufactured by Planet GDZ AG, Deventer Bodenturdichtung DRS 1528 SL, DRS 1530 SL,
DBB 1530 or DSD 1530 manufactured by Inter Deventer, ELLEN - MATIC Universal RD or ELLEN - MATIC
- SPECJAL 2 manufactured by ELLEN, UD-CH 2P manufactured by PPH Jasiński, Gallaxplus
or Imacoplus manufactured by GATENAL or UNIFIRE 30 15 x 28 mm manufactured by C.C.E. srl.
In the case of a door with a non-transparent transom, according to Fig. 2 and 6, the rabbets and
joints between the frame and the elements of the transom are fitted with Fire Seal Plain intumescent seals
manufactured by Halspan Ltd or Lorient 617 intumescent seals manufactured by LORIENT, with a cross
section of 10 x 4 mm or PROMASEAL®
- PL intumescent seals manufactured by Promat or Palstop P
intumescent seals manufactured by BRANDDEX, with a cross section of 10 x
2 mm. Non-transparent transoms are made, according to Fig. 2 and 6, of a Halspan Prima board
placed in a stile with a cross section of not less than 54 x 90 mm, made of glued laminated coniferous
wood with a density of not less than 350 kg/m3
or deciduous wood with a density of not less than 500
kg/m3.
Door leaves can be glazed with the following types of glass panes: Promaglas with a thickness
of 17 mm manufactured by Promat, Pyrostop with a thickness of 15 mm manufactured by Pilklington,
Swissflame with a thickness of 16 mm manufactured by Saint Gobain Glass, Fireswiss Foam with a
thickness of 15 mm manufactured by CGI International Ltd, Pyrobel with a thickness of 17 mm
manufactured by AGC, in the shape of a rectangle with dimensions of not more than 796 x 1896 mm
(width x height) or a circle with a diameter of not more than 320 mm; the widths of the solid sections of
a leaf, along the upper and vertical edges of the glazing, cannot be shorter than 200 mm, while along
the lower edge of the glazing, they cannot be shorter than 390 mm; or panes made of Polflam EI30
glass with a thickness of 20 mm manufactured by Glass-Team, in the shape of a rectangle with
dimensions of not more than 658 x 1658 mm (width x height) or a circle with a diameter of not more
than 320 mm; the widths of the solid sections of a leaf, along the upper and vertical edges of the
glazing, cannot be shorter than 150 mm, while along the lower edge of the glazing, they cannot be
shorter than 390 mm.
The glazing of door leaves is fixed, according to Fig. 10 and 11, by means of wooden or MDF
glazing beads and sealed with ceramic seals: 8 x 4 mm manufactured by CGI International Ltd, 20 x 3
mm manufactured by Jansen, 20 x 4 mm Keramikpapier or Fibrefax, KERAFIX 2000 with a cross
section of 8 x 4 mm manufactured by Gluske, 8 x 4 mm Promat Glaf-HTI manufactured by Promat,
modified rubber 36/23 manufactured by Odice or sealing compound with a thickness of 2 mm
manufactured by Sealmaster Fireglaze. In the opening along the perimeter of the pane there is an
intumescent seal:
PROMASEAL®
- HT with a thickness of 1.6 mm manufactured by Promat, Glazing Seals or a K sheetwith a thickness of 3 mm
manufactured by Halspan Ltd, Therm-A Line with a thickness of 2 mm manufactured by Intumescent
Seals Ltd or KERAFIX FXL 200 with a thickness of 1 mm manufactured by Gluske.
HALSPAN EI 30 doors are used with the following frames:
- steel door frames with a cross section consistent with Fig. 17, made of metal sheets with a
thickness of 1.5 mm, manufactured by BKT (according to AT-15-8304/2010), Porta KMI
Poland (according to AT-15-7122/2011), Stalprodukt (according to AT-15- 7123/2006), Zakpol
(according to AT-15-7506/2010), REMUS (according to AT-15-8663/2011), Domoferm
(according to AT-15-4389/2008), Rapid Frame Split, Easy, Standard manufactured by
Halspan Ltd, manufactured by Witkowski sp. z o.o (according to AT-15-8617/2011),
- wooden door frames with cross sections consistent with Fig. 15, made of solid or glued
laminated coniferous wood with a density of not less than 350 kg/m3 or deciduous wood with a
density of not less than 500 kg/m
3.
In the rabbet of a steel door frame there is a Batwing seal manufactured by LORIENT, S
7234/O, S 6586/O, S 6845/O, S 7243/O, S 8544/O, S 6692/O, S 9814/O, S 8449/O or S 7038/O
- made of TPE and manufactured by Inter Deventer, while in the rabbet of of a wooden
frame there is a Batwing seal manufactured by LORIENT, SP 6850, S 6577/O, S 6512/O or S
6612/O manufactured by Inter Deventer.
The pockets of hidden hinges, according to Fig. 13, and hidden door closers, according to Fig.
12, are secured with a seal made of intumescent sheet with a thickness of 1 mm, manufactured by
Halspan Ltd. or Lorient, with a thickness of 1.6 mm manufactured by Promat or a layer with a
thickness of not less than 1 mm and made of PROMASTOP – Coating firestop sealant or
PROMASEAL – MASTIC firestop sealant manufactured by Promat, SILCADUR-U 95 firestop sealant
manufactured by Silca or FIREPROOFING + sand manufactured by NORGPOL.
The surfaces of door frames can be finished with natural or modified veneer, laminate, varnish
or acrylic coating, paper foil, HPL, CPL or PVC. Door frames can be fitted with trim strips made of
wood or wood-based materials.
The door frame mounting methods are presented in Fig. 16
and 18. A door is fitted with the following:
a) three or four hinges (hidden, leaf or pintle), fulfilling the requirements of PN- EN
1935:2003/AC:2005, manufactured by: Halspan Ltd, ANMARK, SimonsWerk, SFS, ASSA
ABLOY, Cairney, OTLAV, Eco Schulte, HÄFELE, BaSys or Koblenz,
b) mortice sash locks, main or additional, with or without a door terminal, fulfilling the
requirements of PN-EN 12209:2005/AC:2006, manufactured by: Halspan Ltd, BKS, GU
Polska, ASSA ABLOY, Nemef, Eco Schulte, HOBES, VingCard, HÄFELE, KFV, GEGE,
BODA, SAB, TESA, KABA ILCO, LOB S.A., BH WANDEX, MAXBAT, Metalplast
Częstochowa, GERDA, Schlage, AJM, Zhoongshan Yangge Look Industry Co. Ltd. or
DORMA; locks are fitted with lock cylinders fulfilling the requirements of PN-EN
1303:2007/AC:2008,
c) lever handles made of plastic with a steel core, made of aluminium, brass or stainless steel,
with an oblong or divided escutcheon, fulfilling the requirements of PN-EN 1906:2003,
d) closers fulfilling the requirements of PN-EN 1154:1999/A1:2004, manufactured by: Halspan
Ltd, ASSA ABLOY, GEZE, DORMA, Eco Schulte, GROOM, NHN, Mitron, VACHETTE,
HÄFELE or NORGPOL,
e) a locking bolt of a fixed leaf manufactured by NOVET, ASSA ABLOY, Eco Schulte, Nemef or
AMIG, or a door sequence selector for double leaf doors fulfilling the requirements of PN-EN
1158:2007, A door can be fitted with:
a) panic bars fulfilling the requirements of PN-EN 1125:2009, manufactured by: ASSA ABLOY,
JPM, BKS, GU Polska, VACHETTE, DORMA, Eco Schulte, ISEO or Nemef,
b) electric door strikes of the following types: ELP-001 ÷ ELP-018 manufactured by ZPH
Biratronik, 71, 571, 114, 14, 5114 manufactured by ASSA ABLOY, effeff series: 131, 141, 142,
142U or 143 manufactured by EFF- EFF, series 441, 442, 447 or 117RS manufactured by
DORMA, or series 1700 manufactured by LOCKPOL,
c) an electric bolt of the following types: 150U, 150M,150DU, 150DM, 300U, 300M, 300DU or 300DM
manufactured by SATIE,
d) an access control system manufactured by ASSA ABLOY or DIAX with cable sleeves or electrical
contacts manufactured by NOVET, LOCKPOL or Winkhaus,
e) electromagnetic door holders manufactured by DORMA, ASSA ABLOY EFF-EFF, NONES or
STUMET,
f) a door viewer of the following types: PANORAMA 200 manufactured by CYKLOP, W16 C (N or P)
manufactured by COMIT Srl, H331 manufactured by LOB S.A. or PEDRET F3 01014-CS (011)
manufactured by Mirillas Opticas, s.l.,
g) a door grille, type LVV 40, manufactured by Lorient,
h) hinge bolts or an anti-burglery strip with bolts manufactured by Metalplast Częstochowa.
With respect to fire doors, the use of hardware other than that specified above, but of the same
type, is possible if such hardware is marketed with CE marking or B construction marking and their fitness
for application in such doors has been confirmed with the digit 1 in the fourth place of the classification
code indicated in a relevant standard or approval, which means that particular tests required under a
relevant standards have been conducted.
Applied alternative hardware should be adjusted to the weight of a leaf and
its operational loads; they should not cause any changes in the structure of a door.
1.3. HALSPAN EI 60 door
A HALSPAN EI 60 door leaf is made of a Halspan Prima three-layer particle board, without a stile,
with a wooden trim strip glued along the perimeter, such a strip being made of coniferous wood with a
density of not less than 350 kg/m3
or deciduous wood with a density of not less than 500 kg/m3, and a
thickness of not less than 7 mm. A Halspan Prima particle board manufactured by Halspan Ltd is a layered
board with an average density of 630 ± 63 kg/m3
; its external layers have a thickness of 6 mm and a
density of not less than 780 kg/m3
, while the middle layer has a thickness of 42 mm and a density of not
less than 530 kg/m3. According to Fig. 33, the pockets of hinges, a lock and hidden door closers should be
lined with Hinge/Lock Protection sheets manufactured by Halspan, Interdens sheets manufactured by
Lorient, Palstop sheets manufactured by BRANDDEX or Promaseal PL sheets manufactured by Promat.
Alternatively, the pockets of hidden door closers, according to Fig. 34, and hidden hinges, according to Fig.
35, can be secured with at least a 1 mm layer of PROMASTOP – Coating firestop sealant or lub
PROMASEAL – MASTIC firestop sealant manufactured by Promat, SILCADUR-U 95 firestop sealant
manufacutred by Silca or FIREPROOFING + sand manufactured by NORGPOL.
A Halspan Prima board can be covered on both sides with HDF boards with a thickness
of 3 mm and a density of not less than 800 kg/m3
.
The surface of a door leaf can be finished with natural or modified veneer, laminate, aluminium foil
with a thickness of 0.5 mm, flat or profiled MDF boards, HDF boards (with a possibility of attaching
decorative elements to the board) with a thickness of 1 ÷ 6 mm or plywood with a thickness of not more
than 6 mm, wooden strips with a thickness of not more than 20 mm, varnish or acrylic coating, paper foil,
HPL, CPL or PVC.
The elements of a door leaf are joined by means of an adhesive with a durability class of at least
D3 according to PN- EN 204:2002.
In the case of a fire door with a wooden door frame, according to Fig. 30, intumescent door seals
are placed in the door leaf or in the door frame: along the upper and vertical edges in single leaf doors or
along the upper edge and the vertical hinge-side edge in double leaf doors.
These can be Fire Seal Plain seals manufactured by Halspan Ltd or Lorient 617 seals manufactured by
LORIENT – two seals with a cross section of 15 x 4 mm or PROMASEAL®
- PL intumescent seals
manufactured by Promat or Palstop P intumescent seals manufactured by BRANDDEX – two seals with a
cross section of 15 x 2 mm, or one of the aforementioned seals in the leaf and one in the door frame. In
the case of a door with a steel door frame, according to Fig. 30, intumescent door seals are placed in the
door leaf or in the door frame:
along the upper and vertical edges in single leaf doors or along the upper edge and the vertical hinge-side
edge in double leaf doors. The door leaf is fitted with Fire Seal Plain intumescent seals manufactured by
Halspan Ltd or Lorient 617 intumescent seals manufactured by LORIENT – two seals with a cross section
of 15 x 4 mm or
PROMASEAL®
- PL intumescent seals manufactured by Promat or Palstop P intumescent sealsmanufactured by BRANDDEX - two seals with a cross section
of 15 x 2 mm, while the door frame is fitted with PROMASEAL®
- PL seals manufactured by Promat or
Palstop P seals manufactured by BRANDDEX – two seals with a cross section of 15 x 2 mm or one of the
aforementioned seals in the leaf and one in the door frame.
In the case of a fire and smoke control door with a wooden door frame, intumescent door seals are
placed in the leaf or in the door frame, and in the case of a fire and smoke control door with a steel door
frame, intumescent door seals are placed in a door leaf, according to Fig. 30: along the upper and vertical
edges in single leaf doors or along the upper edge and the vertical hinge-side edge in double leaf doors. It
is one intumescent Fire Seal Plain seal manufactured by Halspan Ltd or Lorient 617 seal manufactured by
LORIENT, with a cross section of 15 x 4 mm, and one intumescent and smoke Fire Seal Twin Fin seal
manufactured by Halspan Ltd or Lorient 617 seal with a double stub manufactured by LORIENT, with a
cross section of 15 x 4 mm (or two seals being both intumescent and smoke seals) or one of the
aforementioned seals in the leaf and one in the door frame.
According to Fig. 30, in the meeting stile of a double leaf fire door there are two Fire Seal Plain
intumescent seals manufactured by Halspan Ltd or Lorient 617 seals manufactured by LORIENT, with a
cross section of 15 x 4 mm, or PROMASEAL®
- PL intumescent seals manufactured by Promat or Palstop
P
manufactured by BRANDDEX, with a cross section of 15 x 2 mm; in the case of a fire and smoke control
door there are two seals: one Fire Seal Plain intumescent seal manufactured by Halspan Ltd or Lorient
617 intumescent seal manufactured by LORIENT, with a cross section of 15 x 4 mm and one Fire Seal
Twin Fin both intumescent and smoke seal manufactured by
Halspan Ltd, Lorient 617 both intumescent and smoke seal with a double stub manufactured by LORIENT
or Pyroplex both intumescent and smoke seal, type SF or TF manufactured by Pyroplex Ltd, with a cross
section of 15 x 4 mm.
The rebate of a door leaf can be fitted with a TPE S 6512/O rebate seal manufactured by Inter
Deventer.
A smoke control door with or without a threshold and with a threshold seal is fitted in the lower part
of the leaf, according to Fig. 25 ÷ 27, with a drop seal: Threshold Drop Seal manufactured by Halspan Ltd.,
Lorient series 8000 manufactured by LORIENT, Schall – Ex P28 manufactured by Athmer, Planet FT or
Planet HS manufactured by Planet GDZ AG, Deventer Bodenturdichtung DRS 1528 SL, DRS 1530 SL,
DBB 1530 or DSD 1530 manufactured by Inter Deventer, ELLEN - MATIC Universal RD or ELLEN - MATIC
SPECJAL 2 manufactured by ELLEN, UD-CH 2P manufactured by PPH Jasiński, Gallaxplus or Imacoplus
manufactured by GATENAL or UNIFIRE 30 15 x 28 mm manufactured by C.C.E. srl.
In the case of a door with a non-transparent or transparent transom or transparent or non-
transparent sidelights, according to Fig. 30, the rabbets and joints between the frame and the elements of
the transom and sidelights are fitted with Fire Seal Plain intumescent seals manufactured by Halspan Ltd or
Lorient 617 intumescent seals manufactured by LORIENT, with a cross section of 15 x 4 mm or
PROMASEAL® - PL intumescent seals manufactured by Promat or Palstop P intumescent seals
manufactured by BRANDDEX, with a cross section of 15 x 2 mm. Non-transparent transoms are made,
according to Fig. 22,
27, of a Halspan Prima board placed in a stile with a cross section of not less than 54 x 90 mm, made of
glued laminated coniferous wood with a density of not less than 350 kg/m3 or deciduous wood with a
density of not less than 500 kg/m3; transparent transoms and sidelights, according to Fig. 27 and 29, have
a stile made of glued laminated wood, as above.
The glazing of door leaves in the shape of a rectangular with dimensions of not more than 671 x
1171 mm (width x height) or a circle with a diameter of not more than 320 mm as well as the glazing of
transparent transoms and sidelights is made of the following types of glass: Promaglas with a thickness of
23 mm manufactured by Promat, Pyrostop with a thickness of 23 mm manufactured by Pilklington,
Swissflame with a thickness of 23 mm manufactured by Saint Gobain Glass, Fireswiss Foam with a
thickness of 23 mm manufactured by CGI International Ltd, Pyrobel 25 manufactured by AGC. The widths
of the solid sections, made of a Halspan board, of a leaf, sidelights or a transom, along the upper and
vertical edges of the glazing, cannot be shorter than 200 mm, while along the lower edge of the glazing,
they cannot be shorter than 200 mm in the case of transoms, and 905 mm in the case of door leaves and
sidelights.
The glazing placed in a Halspan board is fixed, according to Fig. 31 and 32, by means of wooden
or MDF glazing beads and sealed with ceramic seals: 8 x 4 mm manufactured by CGI International Ltd, 20
x 4 mm manufactured by Jansen, Keramikpapier, Fibrefax, Promat Glaf-HTI manufactured by Promat or
KERAFIX 2000 manufactured by Gluske, with a cross section of 8 x 4 mm, modified rubber 36/23
manufactured by Odice or sealing compound with a thickness of 2 mm manufactured by Sealmaster
Fireglaze.
In the opening along the perimeter of the pane there is an intumescent seal: PROMATECT®
-HT
with a thickness of 1.6 mm - manufactured by Promat, Glazing Seals or a K sheet with a thickness of 3 mm,manufactured by Halspan Ltd,
Therm-A Line with a thickness of 2 mm manufactured by Intumescent Seals Ltd or KERAFIX
FXL 200 with a thickness of 1 mm manufactured by Gluske.
HALSPAN EI 60 doors are used with the following frames:
- steel door frames with a cross section consistent with Fig. 39, made of metal sheets with a
thickness of 1.5 mm, manufactured by BKT (according to AT-15-8304/2010), Porta KMI
Poland (according to AT-15-7122/2011), Stalprodukt (according to AT-15- 7123/2006),
Zakpol (according to AT-15-7506/2010), REMUS (according to AT-15-8663/2011),
Domoferm
(according to AT-15-4389/2008), Rapid Frame Split, Easy or Standard manufactured by
Halspan Ltd or manufactured by Witkowski sp. z o.o (according to AT-15-8617/2011),
- wooden door frames with cross sections consistent with Fig. 37, made of solid or glued
laminated coniferous wood with a density of not less than 350 kg/m3 or deciduous wood with a density
of not less than 500 kg/m3.
In the rabbet of a steel door frame there is a Batwing seal manufactured by LORIENT, S
7234/O, S 6586/O, S 6845/O, S 7243/O, S 8544/O, S 6692/O, S 9814/O, S 8449/O or S 7038/O
- made of TPE and manufactured by Inter Deventer, while in the rabbet of of a
wooden frame there is a Batwing seal manufactured by LORIENT, SP 6850, S 6577/O, S
6512/O or S 6612/O manufactured by Inter Deventer.
The surfaces of door frames can be finished with natural or modified veneer, laminate,
varnish or acrylic coating, paper foil, HPL, CPL or PVC. Door frames can be fitted with trim strips
made of wood or wood-based materials.
The door frame mounting methods are presented in Fig. 38
and 40. A door is fitted with the following:
a) three or four hinges (hidden, leaf or pintle), fulfilling the requirements of PN- EN
1935:2003/AC:2005, manufactured by: Halspan Ltd, ANMARK, SimonsWerk, SFS, ASSA
ABLOY, Cairney, OTLAV, Eco Schulte, HÄFELE or Koblenz,
b) mortice sash locks, main or additional, with or without a door terminal, fulfilling the
requirements of PN-EN 12209:2005/AC:2006, manufactured by: Halspan Ltd, BKS, GU
Polska, Nemef, Eco Schulte, HOBES, VingCard, HÄFELE, KFV, GEGE, BODA, ASSA
ABLOY, SAB, TESA, KABA ILCO, LOB S.A., BH WANDEX, Metalplast Często- chowa,
GERDA or DORMA; locks are fitted with lock cylinders fulfilling the requirements of PN-EN
1303:2007/AC:2008,
c) lever handles made of plastic with a steel core, made of aluminium, brass or stainless
steel, with an oblong or divided escutcheon, fulfilling the requirements of PN-EN
1906:2003,
d) closers fulfilling the requirements of PN-EN 1154:1999/A1:2004, manufactured by:
Halspan Ltd, ASSA ABLOY, GEZE, DORMA, Eco Schulte, GROOM, NHN, Mitron,
VACHETTE or NORG- POL,
e) a locking bolt of a fixed leaf manufactured by NOVET, ASSA ABLOY, Eco Schulte, Nemef
or AMIG, or a door sequence selector for double leaf doors fulfilling the requirements of
PN-EN 1158:2007.
A door can be fitted with:
a) panic bars fulfilling the requirements of PN-EN 1125:2009, manufactured by: ASSA
ABLOY, JPM, BKS, GU Polska, VACHETTE, DORMA, Eco Schulte, ISEO or Nemef,
b) electric door strikes of the following types: ELP-001 ÷ ELP-018 manufactured by ZPH
Biratronik, 71, 571, 114, 14 or 5114 manufactured by ASSA ABLOY, effeff series: 131,
141, 142, 142U or 143 manufactured by EFF- EFF, series 441, 442, 447 or 117RS
manufactured by DORMA, or series 1700 manufactured by LOCKPOL,
c) an access control system manufactured by ABLOY or DIAX with cable sleeves or
electrical contacts manufactured by NOVET, LOCKPOL or Winkhaus,
d) electromagnetic door holders manufactured by DORMA, ASSA ABLOY EFF-EFF, NONES
or STUMET,
e) a door viewer of the following types: PANORAMA 200 manufactured by CYKLOP, W16 C
(N or P) manufactured by COMIT Srl, H331 manufactured by LOB S.A. or PEDRET F3
01014-CS (011) manufactured by Mirillas Opticas, s.l. or WG 180 manufactured by Vahle,
f) a door grille, type LVV 40, manufactured by Lorient,
g) hinge bolts or an anti-burglery strip with bolts manufactured by Metalplast Częstochowa.
With respect to fire doors, the use of hardware other than that specified above, but of the
same type, is possible if such hardware is marketed with CE marking or B construction marking
and their fitness for application in such doors has been confirmed with the digit 1 in the fourth
place of the classification code indicated in a relevant standard or approval, which means that
particular tests required under a relevant standards have been conducted.
Applied alternative hardware should be adjusted to the weight of a leaf and
its operational loads; they should not cause any changes in the structure of a door.
2. INTENDED USE, SCOPE AND CONDITIONS OF USE
HALSPAN wooden doors, types HALSPAN EI 30 and HALSPAN EI 60, are to be used as
interior entrance doors in the house building industry, the public building sector, and boarding
buildings.
HALSPAN doors fulfil the criteria specified in PN-EN 13501-2+A1:2010 for the following
fire resistance classes:
- EI2
30 – in the case of HALSPAN EI 30 doors,
- EI2
60 – in the case of HALSPAN EI 60 doors,
HALSPAN EI 30 and HALSPAN EI 60 doors,with or without a threshold and with a
dropping seal, fulfil the criteria specified in PN-EN 13501-2+A1:2010 for smoke control classes Sa
and Sm.
With respect to strength requirements, HALSPAN EI 30 and HALSPAN EI 60 doors
can be used in conditions corresponding to class 3 of the mechanical strength requirements
specified in PN-EN 1192:2001, i.e. in heavy working conditions.
With respect to sound protection of rooms, the scope of usage of HALSPAN EI 30 and
HALSPAN EI 60 doors (according to the classification referred to in item 3.4.10) should be
consistent with the acoustic requirements included in PN-B-02151-3:1999.
The usage of doors covered by this Technical Approval should be based on a facility's
technical design prepared in compliance with all applicable standards and regulations (in
particular the Regulation of the Minister of Infrastructure of 12 April 2002 on technical conditions
that should be fulfilled by buildings and their location (Journal of Laws no. 75 of 2002, item 690,
as amended). The installation, mounting and maintenance of a door should be consistent with the
manufacturer's instructions provided to the end user together with each product delivery.
HALSPAN EI 30 doors can be mounted in the following types of walls:
- made of solid bricks, with a thickness of not less than 115 mm,
- made of aerated concrete masonry units, sand-lime blocks, checkered bricks or
perforated bricks, with a thickness of not less than 150 mm,
- made of concrete, with a thickness of not less than 100 mm,
- made of gypsum boards, with a fire resistance class of not less than EI 30.
HALSPAN EI 60 doors can be mounted in the following types of walls:
- made of solid bricks, with a thickness of not less than 115 mm,
- made of aerated concrete masonry units, sand-lime blocks, checkered bricks or
perforated bricks, with a thickness of not less than 175 mm,
- made of concrete, with a thickness of not less than 100 mm,
- made of gypsum boards, with a fire resistance class of not less than EI 60.
3. TECHNICAL FEATURES. REQUIREMENTS
3.1. Materials
3.1.1. Wood. In the manufacture of wooden door frames, it is recommended to use
coniferous wood with a density of not less than 350 kg/m3 or deciduous wood with a
density of not less than 500 kg/m3.
The quality of wood should fulfil the requirements specified in PN-EN 14221:2007. The
moisture of wood should be 8 15 %.
3.1.2. Semi-finished products made of glued laminated wood. Semi-finished
products made of glued laminated wood should be made of materials fulfilling the
requirements specified in items 3.1.1 and 3.1.6. and should be classified as belonging to
the E1 formaldehyde class in accordance with PN-EN 13986:2006.
Longitudinal wood connections should be made using V−shaped connectors, as specified
in PN-B-10087:1996.
The moisture of particular wood layers in the semi−finished glued laminated product
should be not more than 15%. The wood moisture difference between each Iayer within a cross−
section of semi−finished products shouId be not more than 2%.
Wood Iayers in a semi−finished product shouId be tightIy gIued. Joints shouId be
continuous and tight (fiIIed with gIue). Wood shouId not undergo deIamination aIong the joint
when samples with a length of 5 cm are being split with a wedge or a wide chisel.
The average values of the shear strength of semi-finished products under compression should not be lower
than: - 7.0 MPa after 7 days of seasoning the samples in the standard atmosphere (the
standard atmosphere according to PN-ISO 554:1996 and PN-EN 205:2005 means a
temperature of +20 C 2 C and a relative air humidity of 65 5% or a temperature
of +23 C 2 C and a relative air humidity of 50 5%),
- 2,0 MPa after 7 days of seasoning the samples in the standard atmosphere and
after 4 days of soaking in water at a temperature of +20 C 2 C.
3.1.3. MDF and HDF boards. The elements of door leaves and door frames should
be made of HDF or MDF boards, with a thickness and density consistent with item 1,
fulfilling the requirements specified in PN-EN 622- 5:2010 for general purpose boards
used in dry conditions.
MDF and HDF boards should be classified as belonging to the E1 formaldehyde class in
accordance with PN-EN 13986:2006 and the content of pentachlorophenol should not exceed 5
ppm according to Approval Arrangements GW VIII.21/2011.
3.1.4. High pressure particle boards. High pressure particle boards used in
doors, with a thickness and density consistent with item 1, should fulfil the
requirements of PN-EN 312:2005 for board types P1 and P2, and should be
classified as belonging to the E1 formaldehyde class in accordance with PN-EN
13986:2006, and the content of pentachlorophenol should not exceed 5 ppm
according to Approval Arrangements GW VIII.21/2011.
3.1.5. Plywood. The stiles of door leaves should be made of plywood fulfilling the
requirements of PN-EN 636:2005 for plywood type EN 636-1 classified as belonging to the
E1 formaldehyde class in accordance with PN-EN 13986:2006, and the content of
pentachlorophenol should not exceed 5 ppm according to Approval Arrangements GW
VIII.21/2011.
3.1.6. Adhesives. The elements of a door leaf should be glued with water resistant
adhesives fulfilling the requirements of at least the D3 durability class in accordance with
PN-EN 204:2002.
3.1.7. Glass panes. Door leaves should be glazed with glass panes referred to in
item 1, fulfilling the requirements of ZUAT-15/III.16/2007, and approved for marketing.
3.1.8. Glazing beads. Glazing beads and the methods of fixing glass panes in
door leaves should be consistent with item 1.
3.1.9. Steel door frames. Steel door frames should be consistent with item 1.
3.1.10 Seals. Seals used in door leaves and door frames should be consistent with item 1.
3.1.11. Paint or varnish coats as well as veneer, laminates, PV foil or paper foil. Paint
and varnish coats should be based on finishing materials allowing the achievement of smooth
coats without streaks, sags or foreign matters, and fulfilling the requirements specified in ZUAT-
15/III/16/2007.
The adhesion of the coats to the substrate should correspond to level 0 or 1 according to
PN-EN ISO 2409:2008.
The finishing layers of door leaves or door frames made of veneer, laminates, PVC foils or
paper foils glued onto MDF or HDF boards should be scratch resistant and their adhesion to the
substrate, checked in accordance with PN-EN 311: 2004, cannot be lower than 0.6 MPa
– if the sample fails in the area of the substrate or lower than 1.0 MPa if the sample
fails in the area of the connection between the veneer and the substrate.
Such a test is carried out in the approval procedure; it is not included in a preliminary type
examination or tests of finished products.
3.2. Hardware and locks
Hardware and locks should be consistent with item 1. Hardware used in door leaves
should fulfil the requirements of the following standards: PN-EN 1935:2003/AC:2005 – hinges,
PN-EN 12209: 2005/AC:2006 – locks, PN-EN 1906:2003 - lever handles with rosettes, PN-EN
1154: 1999/A1:2004 - door closers, PN-EN 179:2009 - emergency closing devices, PN-EN
1125:2009 – panic bars, PN-EN 1303:2007/AC:2008 – lock cylinders. Hardware should be
approved for marketing.
3.3. Workmanship
The quality of workmanship and finish should be consistent with the requirements of
ZUAT-15/III.16/2007.
3.4. Technical features
3.4.1. Dimensions. Door dimensions should be consistent with item 1. The
dimensional deviations of door leaves should be consistent with the requirements of PN-
EN 1529:2001, for tolerance class 2.
The dimensional deviations for door frames should fulfil the requirements specified in ZUAT-15/III.16/2007.
3.4.2. The shape of a leaf (squareness and flatness). The shape of a leaf
determined by the squareness of its corners and the flatness of its edges and corners
should fulfil the following requirements:
- deviations from leaf corner squareness should remain within the range of deviations
allowable for tolerance class 2, according to PN-EN 1529:2001,
- deviations from overall flatness should remain within the range of deviations allowable for
tolerance class 3, and from local flatness – for tolerance class 1, according to PN-EN
1530:2001.
3.4.3. Resistance to multiple cyclical opening and closing (mechanical
durability). An interior entrance hinged door, after 100000 cycle in which a leaf is opened
and closed, (i.e. for class 5 according to PN-EN 12400:2004), should not display any
damage or functional irregularities. A door leaf should move without any jamming or
blocking in the movement. The whole length of seals should fit tightly relevant surfaces, in
accordance with the design assumptions. Such a test is carried out in the approval
procedure; it is not included in a preliminary type examination or tests of finished products.
3.4.4. Operational correctness and values of operating forces. When it is being
opened or closed, a hinged door leaf should move without jamming or blocking in the
movement. After a door has been closed, the whole length of seals should fit tightly
relevant surfaces, in accordance with the design assumptions. Hinges, lever handles,
locks and other elements of equipment should function in accordance with the
manufacturer's specifications.
The values of operating forces should not exceed the values given for class 2 (according
to PN-EN 12217:2005) – in the case of a door without a closer, or class 1 – in the case of a door
with a closer.
3.4.5. Resistance to the vertical static load acting on the leaf surface. According
to the requirements of PN-EN 1192:2001 for door strength class 3, permanent
deformations resulting from the action of a concentrated load of 800 N on the leaf surface,
according to PN-EN 947:2000, should not exceed 1.0 mm or lower the functional features
or the correct functioning of the door.
3.4.6. Resistance to static torsion. According to the requirements of PN-EN 1192:2001
for door strength class 3, the permanent deformations of the corners resulting from the action of
a concentrated load of 300 N, according to PN-EN 948:2000, should not exceed 2.0 mm or lower
the functional features or the correct functioning of the door.
3.4.7. Resistance to a soft and heavy body impact. According to the
requirements of PN-EN 1192:2001 for door strength class 3, permanent deformation
resulting from the action of an impact load with an impact energy of 120 J on the leaf
surface, according to PN-EN 949:2000, should not exceed 2.0 mm. There should occur no
damage to the door structure or any cracks in the paint coat of the leaf. After the test the
door should continue to function correctly.
3.4.8. Resistance to a hard body impact. According to the requirements of PN-
EN 1192:2001 for door strength class 3, the average depth of permanent deformations
resulting from impacts with an energy of 5 J, in a test conducted in accordance with PN-
EN 950:2000, should not exceed 1 mm, while its maximum value should not exceed 1.5
mm. The average value of the diameters of such deformations should not exceed 20 mm.
There may occur isolated cracks in the paint coat. Permanent deformations should be
poorly visible in scattered light, from a distance of 5 m.
3.4.9. Air leakage. Interior entrance doors should fulfil the requirements for air
leakage class 2, according to PN-EN 12207:2001, in a test conducted in accordance with
PN-EN
1026:2001 and the average air infiltration rating should not be higher than 1.0 m3/hm/daPa/2/3.
3.4.10. Sound reduction index. The sound reduction index for HALSPAN
single leaf interior entrance solid or glazed doors consistent with item 1, (with a threshold
and a dropping seal or without a threshold and with a dropping seal) should correspond at
least to the following acoustic classes:
- class D1-30 and class D
2-25 – adjusted to the requirements of PN-B-02151-03:1999,
comprising products with the ratings of 32 dB RA1 36 dB and 27 dB R
A2 31 dB,
- class Rw
= 32 dB – adjusted to the requirements of PN-B-02151/03:1987, comprising
products with the ratings of 32 dB Rw 36 dB.
The sound reduction index for HALSPAN double leaf interior entrance solid or glazed
doors consistent with item 1, (with a threshold and a dropping seal or without a threshold and with
a dropping seal) should correspond at least to the following acoustic classes:
- class D1-25 and class D
2-25 – adjusted to the requirements of PN-B-02151-03:1999,
comprising products with the ratings of 27 dB RA1 31 dB and 27 dB R
A2 31 dB,
- class Rw
= 27 dB – adjusted to the requirements of PN-B-02151/03:1987, comprising
products with the ratings of 27 dB Rw 31 dB – in the case of HALSPAN EI 30 doors,
- class Rw
= 32 dB – adjusted to the requirements of PN-B-02151/03:1987, comprising
products with the ratings of 32 dB Rw 36 dB – in the case of HALSPAN EI 60 doors.
3.4.11. Fire resistance. HALSPAN doors consistent with item 1 should fulfil
the criteria specified in PN-EN 13501-2+A1:2010 for the following fire resistance ratings:
- EI2
30 – in the case of HALSPAN EI 30 doors,
- EI2
60 – in the case of HALSPAN EI 60 doors,
3.4.12. Smoke rating. HALSPAN smoke control doors consistent with item 1
should fulfil the criteria for smoke control ratings Sm
and Sa, in accordance with
PN-EN 13501-
2+A1:2010.
3.4.13. Marking. Each fire-rated door as well as each fire-rated and smoke control door
should be marked accordingly with a permanent rating plate. Such a rating plate should include
the following data:
- the name (symbol) of the product,
- the year of manufacture,
- a fire resistance rating,
- a smoke control rating,
- the number of Technical Approval ITB Technical Approval no. (AT-15-6103/2013).
4. PACKING, STORAGE AND TRANSPORT
Doors covered by this Approval should be packed individually or on pallets, in a complete
set of constituent elements, in accordance with PN-B-05000:1996, with an attached mounting
instruction. Packaging materials should protect the products against mechanical damage and
deformations. Products should be stored and transported in accordance with PN-B- 05000:1996.
Each packaging should bear a label containing at least the data from the marking as well
as:
- the number and date of issuing a domestic declaration of conformity,
- the name of a certifying body which participated in the conformity assessment procedure,
- the construction mark.
The method of marking products with the construction mark should be consistent with the
Regulation of the Minister of Infrastructure of 11 August 2004 on the methods of declaring the
conformity of construction products and the method of marking such products with the
construction mark (Journal of Laws no. 198/2004, item 2041).
5. CONFORMITY ASSESSMENT
5.1. General rules
According to Article 4, Article 5 Clause 1 Item 3 and Article 8 Clause 1 of the Construction
Products Act of 16 April 2004 (Journal of Laws no. 92/2004, item 881, as amended), the products
covered by this Technical Approval may be marketed and applied in the performance of
construction works in the scope corresponding to their performance and intended use, provided
that the producer has carried out a relevant conformity assessment procedure, issued a domestic
declaration of conformity with ITB Technical Approval AT-15-6103/2013 and marked the products
with the construction mark, in accordance with the applicable regulations.
According to the Regulation of the Minister of Infrastructure of 11 August 2004 on the
methods of declaring the conformity of construction products and the method of marking such
products with the construction mark (Journal of Laws no. 198/2004, item 2041), the assessment
of the conformity of the products covered by Technical Approval ITB AT-15-6103/2013 needs to
be conducted by the manufacturer, on the basis of system 1.
In the case of conformity assessment system 1, the manufacturer may issue a domestic
declaration of conformity with ITB Technical Approval AT-15-6103/2013 if an accredited certifying
body has issued a certificate of the product's conformity based on:
a) the manufacturer's tasks:
- a production control system,
- supplementary tests of (samples of) finished products collected from a production plant,
conducted by the manufacturer in accordance with the agreed upon test plan including the
tests specified in item 5.4.3,
b) the accredited body's tasks:
- a preliminary type examination,
- a preliminary inspection of a production plant and its production control system,
- continuous supervision, assessment and acceptance of the production control system.
5.2 Preliminary type examination
A preliminary type examination is a test that confirms the required technical and
operational features, conducted before a product is launched into the market.
A preliminary type examination covers the following elements:
a) leaf squareness and flatness,
b) resistance to a vertical static load acting on the leaf surface,
c) resistance to static torsion,
d) resistance to a hard body impact,
e) Resistance to a soft and heavy body impact,
f) air leakage,
g) sound reduction – for doors with declared sound reduction indexes,
h) a fire resistance rating,
i) a smoke control rating.
5.3. Production control system
The production control system comprises the following elements:
1) specification and verification of components and materials,
2) inspections and examinations within the scope of the production process as well as
examinations of finished products carried out by the manufacturer in accordance with the
established plan of tests and based on the principles and procedures specified in the
documentation of the production control system adjusted to the production technology and
aimed at the manufacture of products with required features. The technical features of
components used in
HALSPAN doors should be confirmed by means of declarations of conformity in the case of
products subject to the requirements of the Construction Products Act of 16 April 2004 (Journal of
Laws no. 92/2004, item 881, as amended), and in the case of other products – by means of
technical certificates (certificates of conformity) issued by respective manufacturers. Such
documents should cover hardware, seals, glass panes, veneers and non-transparent fillings in
door leaves, semi-finished products made of glued laminated wood or MDF boards as well as
glues.
The production control system should ensure that products are compliant with ITB
Technical Approval AT-15-6103/2013. The results of production control procedures should be
recorded systematically. Such records should confirm that products fulfil the conformity
assessment criteria. Particular products or product batches and productions details related to
them have to be fully identifiable and repeatable.
5.4. Tests of finished products
5.4.1. Schedule of tests. The schedule of tests comprises the following elements:
2.a) a verification type examination,
2.b) current tests,
2.c) supplementary tests.
5.4.2. A verification type examination. A verification type examination consists in checking the following:
a) leaf squareness and flatness,
b) resistance to a vertical static load acting on the leaf surface,
c) air leakage (does not apply to smoke control doors),
d) sound reduction (for doors with declared sound reduction indexes),
e) fire resistance and smoke control (in the case of doors with a fire resistance rating
declared together with a smoke control rating, the manufacturer may carry out one of
these tests).
5.4.3. Current tests. Current tests consist in checking the following:
a) quality of workmanship,
b) dimensional deviations,
c) marking.
5.4.4. Supplementary tests. Supplementary tests consist in checking the following:
a) operating forces,
b) resistance to a vertical static load acting on the leaf surface,
c) air leakage – for interior entrance doors (does not apply to smoke control doors),
d) sound reduction – for doors with declared sound reduction indexes,
e) fire resistance and smoke control (in the case of doors with a fire resistance rating
declared together with a smoke control rating, the manufacturer may carry out one of
these tests).
5.5. Test frequency
A verification type examination of doors should be carried out at the beginning of
production operations, on one sample door manufactured in the production plant of each of the
manufacturers covered by the Approval.
Current tests should be conducted in line with the established plan of tests, but not less
frequently than for each production batch. The size of a production batch should be specified in
the documentation of the production control system.
Supplementary tests should be conducted not less frequently than every three years.
5.6. Test methods
5.6.1. Examination of used materials. The examination of used materials and emission of
hazardous substances should be carried out in accordance with ZUAT-15/III.16/2007; obtained
results should be compared with the requirements specified in item 3.1.
5.6.2. Door test methods. The tests of the technical and operational features of doors
should be carried out in accordance with ZUAT-15/III.16/2007. Test results should be compared
with the requirements specified in items 3.3 and 3.4.
5.7. Taking test samples
Test samples should be taken randomly, in accordance with PN-N-03010:1983.
5.8. Assessment of test results
Manufactured products should be regarded as consistent with the requirements of this ITB
Technical Approval provided that all test results are positive.
6. FORMAL AND LEGAL ARRANGEMENTS
6.1. This Approval replaces Technical Approval ITB AT-15-6103/2010 as of 29
March 2014. Before this date both Approvals may constitute reference documents for
conformity assessment.
6.2. Technical Approval AT-15-6103/2013 is a document confirming the
suitability of HALSPAN doors for use in the construction industry, in the scope specified in
the Approval.
According to Article 4, Article 5 Clause 1 Item 3 and Article 8 Clause 1 of the Construction
Products Act of 16 April 2004 (Journal of Laws no. 92/2004, item 881, as amended), the products
covered by this Technical Approval may be marketed and applied in the performance of
construction works in the scope corresponding to their performance and intended use, provided
that the producer has carried out a relevant conformity assessment procedure, issued a domestic
declaration of conformity with ITB Technical Approval AT-15-6103/2013 and marked the products
with the construction mark, in accordance with the applicable regulations.
6.3. The Technical Approval does not violate any rights resulting from the
regulations concerning the protection of industrial property, and in particular the Notice of
the Marshal of the Sejm of the Republic of Poland of 13 June 2003 concerning the
announcement of the consolidated text of the Industrial Property Act of 30 June 2000
(Journal of Laws no. 119, item 1117). The protection of these rights is one of the
obligations of those using this ITB Approval.
6.4. Issuing this Technical Approval, the Building Research Institute (ITB) does
not assume any responsibility for possible violation of any exclusive or acquired rights.
6.5. This ITB Technical Approval does not release neither the manufacturer of
HALSPAN doors from its responsibility for the proper quality of products covered by this
Approval nor any building contractors for their responsibility for their proper use and the
quality of their installation.
6.6. The content of any leaflets or advertisements as well as any other
documents related to the marketing of HALSPAN doors and their application in the
construction industry should include information on Technical Approval AT-15-6103/2013
granted to these products.
7. EXPIRY DATE
This ITB Technical Approval AT-15-6103/2013 is valid until 29 March 2018.
The validity of this ITB Technical Approval may be extended for further periods if the entity
which has applied for the Approval or its formal successor submits a proper application to the
Building Research Institute not later than 3 months before this document’s expiry date.
End
ADDITIONAL INFORMATION
Related standards and documents
PN-EN 1634-3:2006/
AC:2006
Fire resistance and smoke control tests for door and shutter assemblies --
Part 3: Smoke control test for door and shutter assemblies
PN-EN 1634-1 :2009 Fire resistance and smoke control tests for door and shutter assemblies,
openable windows and elements of building hardware -- Part 1: Fire
resistance test for door and shutter assemblies and openable windows
PN-EN 13501-2
+A1:2010
Fire classification of construction products and building elements. -- Part 1:
Classification using data from fire resistance tests
PN-B-02151-3:1999 Construction acoustics -- Protection from noise in buildings. Sound
reduction of space dividing elements in buildings and sound reduction of
construction elements -- Requirements
PN-EN 20140-3:1999 Acoustics - Measurement of sound insulation in buildings and of building
elements -- Determination, verification and application of data
determining accuracy
PN-EN ISO 717-1:1999 Acoustics - Measurement of sound insulation in buildings and of building
elements. Airborne sound insulation
PN-B-03156:1997 Timber structures - Methods of tests - Load bearing capacity of glue joints
PN-B-10087:1996 Wooden windows and doors - Finger joints - Requirements and tests
PN-ISO 554:1996 Standard atmospheres for conditioning and/or testing -- Specifications
PN-EN 204:2002 Classification of thermoplastic wood adhesives for non-structural applications
PN-EN 205:2005 Adhesives -- Wood adhesives for non-structural applications --
Determination of tensile shear strength of lap joints
PN-EN 310:1994+
Ap1:2002
Wood based panels -- Determination of modulus of elasticity in bending
and of bending strength
PN-EN 316:2001 Wood fibre boards -- Definition, classification and symbols
PN-EN 317:1999 +
Ap1:2002
PN-EN 319:1999 +
Ap1:2002
PN-EN 323:1999 +
Ap1:2002
Particleboards and fibreboards -- Determination of swelling in thickness
after immersion in water
Particleboards and fibreboards -- Determination of tensile strength
perpendicular to the plane of the board
Wood-based panels -- Determination of density
PN-EN 324-1:1999 Wood-based panels -- Determination of dimensions of boards --
Determination of thickness, width and length
PN-EN 312:2005 Particleboards -- Specifications
PN-EN 622-4:2000/
Ap1:2002Fibreboards -- Specifications -- Requirements for softboards
PN-EN 622-5:2007 Fibreboards -- Specifications -- Requirements for dry process boards
(MDF)
PN-EN 622-1:2005 Fibreboards -- Specifications -- General requirements
PN-EN 636: 2005 Plywood -- Specifications
PN-EN 13183-2:2004 Moisture content of a piece of sawn timber -- Estimation by electrical
resistance method
PN-B-06079:1988 Wooden doors -- Resistance to shock test method
PN-EN 572-5:1999 Glass in building -- Basic soda lime silicate glass products -- Patterned
glass
PN-EN 1191:2002 Windows and doors -- Resistance to repeated opening and closing --
Test method
PN-EN 1192:2001 Doors -- Classification of strength requirements
PN-EN 1529:2001 Door leaves -- Height, width, thickness and squareness -- Tolerance
classes
PN-EN 1530:2001 Door leaves -- General and local flatness -- Tolerance classes
PN-EN 12046-2:2001 Operating forces -- Test method -- Doors
PN-B-05000:1996 Doors and windows -- Packing, storage and transport
PN-N-03010:1983 Statistical quality control -- Random selection of samples
PN-EN 942:2008 Timber in joinery -- General requirements
PN-EN 947:2000 Hinged or pivoted doors - Determination of the resistance to vertical load
PN-EN 948:2000 Hinged or pivoted doors. Determination of the resistance to static torsion
PN-EN 949:2000 Windows and curtain walling, doors, blinds and shutters -- Determination
of the resistance to soft and heavy body impact for doors
PN-EN 950:2000 Door leaves -- Determination of the resistance to hard body impact
PN-EN 951:2000 Door leaves -- Method for measurement of height, width, thickness
and squareness
PN-EN 952:2000 Door leaves -- General and local flatness. Measurement method PN-
EN 12400:2004 Windows and pedestrian doors -- Mechanical durability -- Requirements and
classification PN-EN 12217:2005 Doors -- Operating forces -- Requirements and
classification
PN-EN 12207:2001 Windows and doors -- Air permeability -- Classification
PN-EN 1026:2001 Windows and doors -- Air permeability -- Test method
PN-EN 1154:1999/
A1:2004
PN-EN 1935:2003/
AC:2005
PN-EN 12209:2005/
AC:2006
PN-EN ISO 12543-
2:2000/A1:2005
PN-EN ISO 12543-
3:2000/A1:2005
Building hardware -- Controlled door closing devices -- Requirements and
test methods
Building hardware -- Single-axis hinges -- Requirements and test methods
Building hardware -- Locks -- Mechanically operated locks and locking
plates -- Requirements and test methods
Glass in building -- Laminated glass and laminated safety glass
-- Laminated safety glass
Glass in building -- Laminated glass and laminated safety glass
-- Laminated glassPN-EN 13986:2006 Wood-based panels for use in construction -- Characteristics,
evaluation of conformity and marking
PN-EN 14755:2007 Extruded particleboards -- Specifications
PN-EN 15197:2007 Wood-based panels -- Flaxboards -- Specifications
PN-EN 12365-1:2006 Building hardware -- Gaskets and weatherstripping for doors, windows,
shutters and curtain walling -- Part 1: Performance requirements
and classification
PN-EN 1527:2000 Building hardware -- Hardware for sliding doors and folding doors
-- Requirements and test methods
ZUAT-15/III.16/2007 Hinged and pivoted external doors: entrance and interior doors of wood,
wood-based materials, synthetic materials and metals. General use and
declared fire resistance class and/or smoke control
Test and assessment reports
1. Technical assessment of HALSPAN TM interior, wooden, fire doors manufactured by
STOLBUD WARSZAWA Sp. z o.o. - no. NL-1857/02 and test report no. NL-1857/LL-
183/K/02 - ITB Light Partitions and Glazing Testing Division
2. Technical opinion concerning wood-based panel used in the manufacture of HALSPAN TM
fire doors – no. NL-2316/A/03 - ITB Light Partitions and Glazing Testing Division
3. Periodic tests of “HALSPAN TM” interior doors – no. NL – 4354/C/07 - ITB Light Partitions
and Glazing Testing Division
4. Laboratory approval tests of HALSPAN TM ST V T60 and HALSPAN TM ST IV T30 wooden
interior doors – no. NK-0641/A/09 – ITB Building Structures and Elements Division
5. Determination and assessment of specific sound insulation of HALSPAN wooden, single leaf,
solid doors and output data (with respect to acoustic issues) for ITB Technical Approval – no.
NA-947/A/2002 and test report no. LA/983/03 – ITB Acoustics Division
6. Acoustic classification of HALSPAN EI 30 and EI 60 double leaf doors based on tests
conducted by the British laboratory SRL – no. 1389/10/RO4NA – ITB Acoustics Division
7. Technical opinion concerning fire resistance of HALSPAN EI 30 wooden, single leaf and double
leaf, solid or glazed doors with a an electric bolt of the following types: 150U, 150M,150DU,
150DM, 300U, 300M, 300DU or 300DM manufactured by SATIE
8. Technical opinion concerning fire resistance of HALSPAN EI 60 wooden, hinged, single leaf or
double leaf, solid or glazed doors with a transom and/or sidelights – no. 01389/11/R07NP - ITB
Fire Tests Division
9. Classification concerning fire resistance and smoke control of HALSPAN EI30 and HALSPAN
EI60 single leaf or double leaf, wooden, solid or glazed doors – no. 0935/13/Z00NP - ITB Fire
Tests Division
DRAWINGS
1. HALSPAN EI 30 single leaf door - views....................................................................................33
2. HALSPAN EI 30 single leaf door with non-transparent transom - view.......................................34
3. HALSPAN EI 30 double leaf door - view.....................................................................................35
4. HALSPAN EI 30 door with wooden door frame - vertical sections A - A.....................................36
5. HALSPAN EI 30 door with steel frame - vertical sections A - A..................................................36
6. HALSPAN EI 30 door - vertical sections A - A............................................................................37
7. HALSPAN EI 30 door - horizontal sections B - B........................................................................37
8. Location of seals in HALSPAN EI 30 door - sections C - C........................................................38
9. Location of seals in meeting stile of HALSPAN EI 30 double leaf door
- sections D - D...........................................................................................................................38
10. Glazing mounting methods for HALSPAN EI 30 door...............................................................39
11. Round glazing and door grille mounting methods for
HALSPAN EI 30 door................................................................................................................40
12 Hidden closer mounting methods for HALSPAN EI 30 door......................................................41
13. Hidden hinges mounting methods for HALSPAN EI 30 door....................................................41
14. Cable transit performance methods for HALSPAN EI 30 door..................................................42
15. Sections of wooden door frames used in HALSPAN EI 30 doors.............................................43
16. Wooden door frame mounting methods for HALSPAN EI 30 door...........................................44
17. Sections of steel door frames used in HALSPAN EI 30 doors..................................................45
18. Steel door frame mounting methods for HALSPAN EI 30 door.................................................46
19. Location of hinges in door frame for HALSPAN EI 30 door......................................................47
20. Wall mounting points for door frame for HALSPAN EI 30 door.................................................48
21. HALSPAN EI 60 single leaf door - view....................................................................................49
22. HALSPAN EI 60 single leaf door with non-transparent transom - view.....................................50
23. HALSPAN EI 60 double leaf door - view...................................................................................51
24. HALSPAN EI 60 double leaf door with transom and sidelight - view.........................................52
25. HALSPAN EI 60 door with wooden door frame - vertical sections A - A...................................53
26. HALSPAN EI 60 door with steel frame - vertical sections A - A................................................53
27. HALSPAN EI 60 door - vertical sections A - A..........................................................................54
28. HALSPAN EI 60 door - horizontal sections B - B......................................................................55
29. HALSPAN EI 60 single leaf and double leaf doors with sidelights - sections B - B...................56
30. Location of seals in HALSPAN EI 60 door - sections C - C and D - D......................................57
31. Glazing mounting methods for HALSPAN EI 60 door...............................................................58
32. Round glazing and door grille mounting methods for
HALSPAN EI 60 door................................................................................................................59
33. Lock pocket protection method for HALSPAN EI 60 door.........................................................60
34. Hidden closer mounting methods for HALSPAN EI 60 door.....................................................61
35. Hidden hinges mounting methods for HALSPAN EI 60 door....................................................61
36. Cable transit performance methods for HALSPAN EI 60 door..................................................62
37. Sections of wooden door frames used in HALSPAN EI 60 doors.............................................63
38. Wooden door frame mounting methods for HALSPAN EI 60 door...........................................63
39. Sections of steel door frames used in HALSPAN EI 60 doors..................................................64
40. Steel door frame mounting methods for HALSPAN EI 60 door.................................................65
41. Location of hinges in door frame for HALSPAN EI 60 door......................................................66
42. Wall mounting points for door frame for HALSPAN EI 60 door.................................................67
43. Descriptions of items marked in Fig. 1 ÷ 46..............................................................................68
A6
A6
7
min. 2008
10
44
min. 2003 10 31
1
B B Bmin. 50 - 658
9320 min.
150min. 150
5 5 7
C C C C650
1011
A A
Fig. 1. HALSPAN EI 30 single leaf door - views
1313 13
1212
1212
13
1
1221
±0.0
2020
1212
2121
Fig. 4. HALSPAN EI 30 door with wooden door frame - vertical sections A - A
12 1712
12 1712
1717
1212
2112 21
12
2020
122121
±0.0 ±0.0
Fig. 5. HALSPAN EI 30 door with steel frame - vertical sections A - A
13
25 3
2213
22
12 13
137
133
131
24
11
20
Fig. 6. HALSPAN EI 30 door - vertical sections A - A3
123
3 1224 7 3
1212
13
17
1313
11
33
1213
1213
13
2
312
24 7
13
13 1217
13
2 1
Fig. 7. HALSPAN EI 30 door - horizontal sections B - B
Fire door
33
1212
3
1213
1313
33 3
1212 12
3
7 2412
17
13 1313
1
Fire and smoke control door
12
143 3 3
1212 12
3
1314
13
121413
1413
14 1
Fig. 8. Location of seals in HALSPAN EI 30 door - sections C - C
134±1.5 mm
4±1.5 mm
Fire door13
13
4±1.5 mm
13
Fire and smoke control door
14 12
Fig. 9. Location of seals in meeting stile of HALSPAN EI 30 double leaf door - sections D - D
13
24115
726
31
0.5-1.2
2828
27
15
26
27
30-50
1 30 1524 27 15
7
7
591
24
2815 7
24
15
2727
26
71
31
15 27
7
31
2826
24
24
15
271
2715
Fig. 10. Glazing mounting methods for HALSPAN EI 30 door
Mounting of round glazing
11
2740
39
27
1529
731
15
731
27
Mounting of door grille
Fig. 11. Round glazing and door grille mounting methods for HALSPAN EI
30 door
36 3
32
1515
13
11
6
Fig. 12. Hidden closer mounting methods for HALSPAN EI 30 door
5255
1
1
Fig. 13. Hidden hinges mounting methods for HALSPAN EI 30 door
52 5254
54 52
5354
27
12-1612-16 12-16
52 52
5354
53
2754
27
56
4412-16
56
12-16
54
54
55
55
12-16
Fig. 15. Sections of wooden door frames used in HALSPAN EI 30 doors
45,46,47
3729.44
37
27 38 327 38 3
3745,46,47
29,44,47
48
27 38 3
3 27
Fig. 16. Wooden door frame mounting methods for HALSPAN EI 30 door
48 44,47
27 29 2729
3838
48 44,4744.47
44,4748
48
3
Fig. 18. Steel door frame mounting methods for HALSPAN EI 30 door
3
1818 18
1212
12 1218
1
1221
±0.0
2020
1212
2121
Fig. 25. HALSPAN EI 60 door with wooden door frame - vertical sections A - A
12 17
12 1217
12
1717
1212
2112
2112
2020
122121
±0.0
±0.0
Fig. 26. HALSPAN EI 60 door with steel frame - vertical sections A - A
13
25 3
2217
22
13
18
3
181
1
253
1324
12 18
7
7
1325
3
1824
241
720
1
Fig. 27. HALSPAN EI 60 door - vertical sections A - A
3 8
1212
18
181
24 73
312
1217
18
1
33
1218
1218
18
2
312
1
24 7 18 312
17
18
2 1
Fig. 28. HALSPAN EI 60 door - horizontal sections B - B
13
24 7 25
3
1824 7 18 18
1
2513 2 3
511
51
1
Fig. 29. HALSPAN EI 60 single leaf and double leaf doors with sidelights - sections B - B
C - C
Fire door
33
312
12
1218
1818
133
33
12 12 12 7 24
12
17
1818 18
Fire and smoke control door1
123
1219
19
1812
19
123 3 18
3
14
123
192
3
1318 18 12
7 243 3 14
17
D - D
184±1.5 mm
18 4±1.5 mm 4±1.5 mm1
18
24115
7 3126
28
2728
0.5-1.2
15
26
27
30-50
1 30
15
24 27 15
7
7
591 24
2815 7
24
15
2715 27
2726
17
7
3131
2826
2424
15
151
271
27
Fig. 31. Glazing mounting methods for HALSPAN EI 60 door
Mounting of round glazing
11
2740
39
27
1529
731
15
731
27
Mounting of door grille
Fig. 32. Round glazing and door grille mounting methods for HALSPAN EI
60 door
36
3
32
1515
18
11
6
Fig. 34. Hidden closer mounting methods for HALSPAN EI 60 door
3
12
55
181
14
16 4
Fig. 35. Hidden hinges mounting methods for HALSPAN EI 60 door
5454
5252
5254
53
27
12-16
5254
12-16 12-16
52
53
5427
53
2756
4412-16
56
12-16
Fig. 37. Sections of wooden door frames used in HALSPAN EI 60 doors
45,46,47337
6
37 29.44
27 38 3
27 38 3 4 5 1
45,46,47 29,44,47
48
27
3
48 44,47
27 29 2729
3838
48
44,4748
48
44.47 44.47
33
Fig. 40. Steel door frame mounting methods for HALSPAN EI 60 door
# Nam1 Active door leaf2 Passive door leaf3 Wooden or steel door frame4 Surface hinge or hidden hinge5 Lock with electronic terminal or lever handle6 Surface closer or hidden closer7 Rectangular or square glazing8 Round glazing9 Door viewer
10 Additional upper lock or flat lock11 Firestop door grille12 Rebate seal13 Intumescent seal 10 x 4 mm, 10 x 2 mm, 20 x 4 mm, 20 x 2 mm14 Intumescent and smoke control seal 10 x 4 mm15 Intumescent sheet16 Firestop sealant or intumescent sheet17 Intumescent seal 20 x 2 mm18 Intumescent seal 15 x 4 mm, 15 x 2 mm19 Intumescent and smoke control seal 15 x 4 mm20 Threshold dropping seal21 Wooden or metal threshold22 Non-transparent transom23 Steel screws for mounting of non-transparent transom 120 x Ø 6 mm24 Glazing beads – any section25 Wooden frame for transom or sidelight26 Deciduous wood block under glazing27 Steel screws or nails with minimum length of 50 mm28 Glazing mounting plate29 Mineral wool with density of not less than 80 kg/m3
30 Coniferous wood interior element under glazing31 Ceramic seal32 Hidden closer rail33 Flexible steel electric cable sleeve34 Reed relay – contact in door leaf35 Reed relay – contact in wooden or steel door frame36 Milled duct Ø 8 mm in door leaf37 Plasterboard with minimum thickness of 12.5 mm38 Steel runner minimum U 7539 Steel bull’s eye40 Wooden or MDF bull's eye41 Metal angles for mounting of firestop door grille42 External cover of firestop door grille43 Steel screws with minimum length of 150 x Ø 6 mm or mounting anchors44 Firestop caulking foam, Illbruck 1 K-P or any other approved for marketing, gaps up
to 20 mm45 Firestop silicone, Illbruck or any other approved for marketing, gaps up to 5 mm46 Firestop acrylic, Illbruck or any other approved for marketing, gaps up to 5 mm47 Masonry or gypsum mortar48 Brickwork or cast-in-place concrete wall49 Transparent sidelight50 Transparent transom51 Non-transparent sidelight52 Lengthwise glued wood53 MDF board or wood with thickness of 12 to 16 mm54 Solid wood55 HDF board with thickness of not less than 3 mm56 Adjustable trims for door frames57 Mortice sash lock58 Lock face plate59 Insulation seal 36/23 by Odice or Lorient60 Masking frame – MDF board or wood
Fig. 43. Descriptions of items marked in Fig. 1 ÷ 42