"vehicle" shall mean any motor vehicle of category M 2 or M3 , as defined in Annex II, Part A, of Directive 70/156/EEC,"bodywork" shall mean a separate technical unit as defined in Article 2 of Directive 70/156/EEC, "class of vehicle" shall mean a vehicle which complies with the class description given in Annex I to this Directive.
Directive 2001/85/EC of the European Parliament and of the Council of 20 November 2001 relating to special provisions for vehicles used for the carriage of passengers comprising more than eight seats in addition to the driver's seat, and amending Directives 70/156/EEC and 97/27/EC
Modified by
- Council Directive 2006/96/ECof 20 November 2006adapting certain Directives in the field of free movement of goods, by reason of the accession of Bulgaria and Romania, 32006L0096, December 20, 2006
- Regulation (EC) No 661/2009 of the European Parliament and of the Councilof 13 July 2009concerning type-approval requirements for the general safety of motor vehicles, their trailers and systems, components and separate technical units intended therefor(Text with EEA relevance), 32009R0661, July 31, 2009
- Council Directive 2013/15/EUof 13 May 2013adapting certain directives in the field of free movement of goods, by reason of the accession of the Republic of Croatia, 32013L0015, June 10, 2013
Corrected by
- Corrigendum to Directive 2001/85/EC of the European Parliament and of the Council of 20 November 2001 relating to special provisions for vehicles used for the carriage of passengers comprising more than eight seats in addition to the driver's seat, and amending Directives 70/156/EEC and 97/27/EC, 32001L0085R(01), May 21, 2003
of a vehicle, of a bodywork, of a vehicle the bodywork of which has already been type-approved as a separate technical unit,
shall no longer grant EC type-approval for a type of vehicle and a type of bodywork as a separate technical unit, may refuse the registration, sale or entry into service of new vehicles and new bodyworks as separate technical units,
1. in Annex I: (a) the following items shall be added to item 0.2: " "; (b) the following items shall be added to item 0.3: " "; (c) the following items shall be added to item 0.3.1: " "; (d) the following item shall be added to item 2.4.2: " "; (e) the following item shall be inserted: " "; (f) item 13 shall be replaced by the following: "";
2. the following item shall be inserted in Part I of Annex III: ; 3. in Annex IV: (a) in Part I, item 52 shall be replaced by the following: Subject Directive number Official Journal reference Applicability "52" "Buses and coaches" "…/…/EC" "L" "M 1 ""M 2 X""M 3 X""N 1 ""N 2 ""N 3 ""O 1 ""O 2 ""O 3 ""O 4 "(b) in Part II, the following shall be inserted as item 52: Subject Basic Regulation number Series of amendments Supplement Corrigendum "52" "Strength of superstructure (buses)" "66" "—" "1 to 00" "—"
1. paragraphs 2.1.2.1 to 2.1.2.1.4 shall be deleted; 2. the following paragraphs shall be inserted: ;"2.1.2.1. "Bus or coach" means a vehicle defined in paragraph 2 of Annex I to Directive 2001/85/EC. 2.1.2.2. "Class" of bus or coach means a vehicle of a Class defined in paragraphs 2.1.1 and 2.1.2 of Annex I to Directive 2001/85/EC. 2.1.2.3. "Articulated bus or coach" means a vehicle defined in paragraph 2.1.3 of Annex I to Directive 2001/85/EC. 2.1.2.4. "Double-deck bus or coach" means a vehicle defined in paragraph 2.1.6 of Annex I to Directive 2001/85/EC." 3. former paragraph 2.1.2.2 shall be renumbered 2.1.2.5.
Annex I: | Scope, definitions, application for EC vehicle type-approval or separate technical unit type-approval of a bodywork, modifications of vehicle or bodywork type, conformity of production and requirements | ||
Appendix: | Verification of static tilting limit by means of calculation. | ||
Annex II: | EC type-approval documentation | ||
Appendix 1: | Information documents | ||
Subappendix 1: | Information document for a vehicle type | ||
Subappendix 2: | Information document for a type of bodywork | ||
Subappendix 3: | Information document for a vehicle type fitted with a bodywork already approved as a separate technical unit | ||
Appendix 2: | EC type-approval certificate | ||
Subappendix 1: | EC type-approval certificate for a vehicle type | ||
Subappendix 2: | EC type-approval certificate for a type of bodywork | ||
Subappendix 3: | EC type-approval certificate for a vehicle type fitted with a bodywork already approved as a separate technical unit | ||
Annex III: | Explanatory diagrams | ||
Annex IV: | Strength of superstructure | ||
Appendix 1: | Roll over test on a complete vehicle | ||
Appendix 2: | Roll over test on a bodywork section | ||
Appendix 3: | Pendulum test on a bodywork section | ||
Subappendix 1: | Calculation of total energy | ||
Subappendix 2: | Requirements for the distribution of the main energy-absorbing parts of the superstructure | ||
Appendix 4: | Verification of strength of superstructure by calculation | ||
Annex V: | Guidelines for measuring the closing forces of power-operated doors | ||
Annex VI: | Special requirements for vehicles having a capacity not exceeding 22 passengers | ||
Annex VII: | Requirements for technical devices facilitating access for people of reduced mobility | ||
Annex VIII: | Special requirements for double-deck vehicles | ||
Appendix: | Gangways | ||
Annex IX: | EC type-approval for a separate technical unit and EC type-approval of a vehicle fitted with a bodywork already approved as a separate technical unit |
bodywork manufacturer, chassis manufacturer, vehicle concept (> 22 pass.) or (≤ 22 pass.), bodywork concept (single/double deck, articulated, low-floor), bodywork type if the bodywork has been approved as a separate technical unit;
bodywork manufacturer, vehicle concept (> 22 pass.) or (≤ 22 pass.), bodywork concept (single/double deck, articulated, low-floor), mass of the completely equipped vehicle bodywork, differing by 10 %, specified types of vehicle on which the type of the bodywork can be installed;
the mass represented by the number of seated passengers that may occupy the area including the mass of any demountable seats; or the mass represented by the number of standing passengers that may occupy the area; or the mass of wheelchairs and users that may occupy the area at a total mass of 250 kg each placed at a height of 500 mm above the floor in the centre of each wheelchair space; or the mass of seated passengers, standing passengers and wheelchairs users and any combination of these that may occupy the area.
Number of passengers | Number of service doors | ||
---|---|---|---|
Class I and A | Class II | Class III and B | |
9 — 45 | |||
46 — 70 | |||
71 — 100 | |||
> 100 |
Number of passengers and crew to be accommodated in each compartment | Minimum total number of exits |
---|---|
1 — 8 | |
9 — 16 | |
17 — 30 | |
31 — 45 | |
46 — 60 | |
61 — 75 | |
76 — 90 | |
91 — 110 | |
111 — 130 | |
> 130 |
Number of passengers | Number of hatches |
---|---|
not exceeding 50 | |
exceeding 50 |
Class I | Class II and III | Remarks | |||||
---|---|---|---|---|---|---|---|
Service door | Door aperture | Height (mm) | — | ||||
Width (mm) |
| This dimension may be reduced by 100 mm when the measurement is made at the level of the handholds | |||||
Emergency door | Height (mm) | — | |||||
Width (mm) | 550 | ||||||
Emergency window | Area (mm | It shall be possible to inscribe in this area a rectangle of 500 mm × 700 mm | |||||
Emergency window situated in the rear face of the vehicle. If the manufacturer does not provide an emergency window of the minimum dimensions prescribed above | It shall be possible to inscribe in the emergency window aperture a rectangle 350 mm high and | ||||||
Escape hatch | Hatch aperture | Area (mm | 400000 | It shall be possible to inscribe in this area a rectangle measuring 500 mm × 700 mm |
" Emergency exit "" Issue de secours "" Salida de emergencia "" Nødudgang "" Notausstieg "" Έξοδος κινδύνου "" Uscita di sicurezza "" Nooduitgang "" Saida de emergência "" Hätäuloskäynti "" Nödutgång "" Авариен изход "" Ieșire de siguranță "" Izlaz u slučaju opasnosti "
Vehicle Class | Total height | Width | ||
---|---|---|---|---|
Alternative trapezoidal section | ||||
Class A | ||||
Class B | ||||
Class I | ||||
Class II | ||||
Class III |
Class I | Class II | Class III | Class A | Class B | |
---|---|---|---|---|---|
Diameter of lower cylinder "A" | |||||
Height of lower cylinder | |||||
Diameter of upper cylinder "C" | |||||
Height of upper cylinder "B" | |||||
Overall height "H" |
Classes | I and A | II, III and B | |
---|---|---|---|
First step from ground "D" | Max height (mm) | ||
Min depth (mm) | |||
Other steps "E" | Max height (mm) | ||
Min height (mm) | |||
Min depth (mm) |
Number of passengers | > 22 | ≤ 22 | |
---|---|---|---|
Area | First step (mm) | 400 × 300 | 400 × 200 |
Other steps (mm) | 400 × 200 | 400 × 200 |
Class I, II, A, B | 200 mm |
Class III | 225 mm |
individual seats: | 250 mm |
continuous rows of seats for 2 or more passengers: | 225 mm |
H | |
---|---|
Class I, A and B | 650 mm |
Class II and III | 680 mm |
" bus stopping "" arrêt demandé "" parada solicitada "" standser "" Bus hält "" στάση "" fermata richiesta "" bus stopt "" paragem "" pysähtyy "" stannar "," cпиране на автобуса "" oprire "" autobus se zaustavlja "
Number of passengers | ≤ 22 | > 22 | |||
---|---|---|---|---|---|
Classes | A | B | I | II | III |
Dimension A (mm) | |||||
Total height of dual panel (mm) |
Classes | A | B | I | II | III | |
---|---|---|---|---|---|---|
Dimensions (mm) | A | |||||
C | ||||||
B | ||||||
H |
Classes | I and A | II, III and B | |
---|---|---|---|
First step from ground "D" | Max height (mm) | ||
Min. depth (mm) | |||
Other steps "E" | Max height (mm) | ||
Min. height (mm) | |||
Min. depth (mm) |
1. At a double doorway the steps in each half of the access passage shall be treated separately. 2. E need not be the same for each step.
G (mm) min | ||
---|---|---|
F (mm) min | Continuous seats | Individual seats |
200 | 225 | 250 |
G (mm) min | ||
---|---|---|
F (mm) min | Continuous seats | Individual seats |
200 | 200 | 200 |
H | |
---|---|
Classes I, A and B | 650 mm |
Class II and Class III | 680 mm |
one in the middle of the door, one 150 mm above the lower edge of the door;
Aperture | Dimensions | Remarks | |
---|---|---|---|
Service door | The service door entry height shall be measured as the vertical distance measured on a vertical plane of the horizontal projections of the mid-point of the door aperture and the top surface of the lowest step. | ||
A: | |||
B: | |||
Aperture height | The vertical height of the service door aperture shall be such as to permit the free passage of the dual panel referred to in paragraph 7.7.1.1. of Annex I. The upper corners may be reduced with round-offs, with a radius of not more than 150 mm. | ||
Width | For Class B vehicles where the service door aperture height lies between | ||
Single door: | 650 mm | ||
Double door: | |||
Emergency door | Height: | The width may be reduced to 300 mm in cases where intruding wheel arches so require, providing that the width of 550 mm is respected at the minimum height of 400 mm above the lowest part of the door aperture. The upper corners may be reduced with round-offs, with a radius of not more than 150 mm. | |
Width: | 550 mm | ||
Emergency window | Aperture area: | A 5 % tolerance shall, however, be permitted in respect of this area for type-approvals issued for one year following the entry into force of this Directive. It shall be possible to inscribe in this area a rectangle of 500 mm × 700 mm. |
Aperture | Dimensions | Remarks | |
---|---|---|---|
Service door | Aperture height: | This dimension may be reduced by a radius at the corners of the aperture not exceeding 150 mm radius. | |
Width | This dimension may be reduced by a radius at the corners of the aperture not exceeding 150 mm radius. The width may be reduced by 100 mm when the measurement is made at the level of the handholds and by 250 mm in cases where intruding wheel arches or the actuating mechanism for automatic or remote-control doors or the rake of the windscreen so require. | ||
Single door: | 650 mm | ||
Double door: | |||
Emergency door | Height: | The width may be reduced to 300 mm in cases where intruding wheel arches so require, providing that the width of 550 mm is respected at the minimum height of 400 mm above the lowest part of the door aperture. The upper corners may be reduced with round-offs with a radius of not more than 150 mm. | |
Width: | 550 mm |
(a) a force of 250 daN ± 20 daN per wheelchair shall be applied on the restraint system itself; (b) the force shall be applied in the horizontal plane of the vehicle and towards the front of the vehicle if the restraint system is not attached to the floor of the vehicle. If the restraint system is attached to the floor, the force shall be applied in an angle of 45 ° ± 10 ° to the horizontal plane and towards the front of the vehicle; (c) the force shall be maintained for a period of not less than 1,5 seconds; (d) the restraint system shall be capable of withstanding the test. Permanent deformation, including partial rupture or breakage of the restraint system, shall not constitute failure if the required force is sustained for the specified time. Where applicable, the locking device enabling the wheelchair to leave the vehicle shall be operable by hand after removal of the traction force.
(a) the forces referred hereto shall be applied in forward and rearward direction, separately and on the restraint system itself; (b) the force shall be maintained for a period of not less than 0,2 seconds; (c) the restraint system shall be capable of withstanding the test. Permanent deformation, including partial rupture or breakage of the restraint system shall not constitute failure if the required force is sustained for the specified time. Where applicable, the locking device enabling the wheelchair to leave the vehicle shall be operable by hand after removal of the traction force.
(a) 1110 daN ± 20 daN in the case of a lap belt. The force shall be applied on the wheelchair user restraint system in the horizontal plane of the vehicle and towards the front of the vehicle if the restraint system is not attached to the floor of the vehicle. If the restraint system is attached to the floor, the force shall be applied in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle;(b) 675 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the lap portion of the belt and 675 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the torso portion of the belt in the case of 3-point belt; (c) 1715 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair restraint system;(d) the forces shall be applied simultaneously.
(a) 740 daN ± 20 daN in the case of a lap belt. The force shall be applied on the wheelchair user restraint system in the horizontal plane of the vehicle and towards the front of the vehicle if the restraint system is not attached to the floor of the vehicle. If the restraint system is attached to the floor, the force shall be applied in an angle 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle; (b) 450 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the lap portion of the belt and 450 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the torso portion of the belt in the case of 3-point belt; (c) 1130 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair restraint system;(d) the forces shall be applied simultaneously.
(a) 1110 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair user restraint system in the case of a lap belt;(b) 675 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the lap portion of the belt and 675 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the torso portion of the belt in the case of 3-point belt; (c) 1715 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair restraint system;(d) the forces shall be applied simultaneously.
(a) 740 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair user restraint system in the case of a lap belt; (b) 450 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the lap portion of the belt and 450 daN ± 20 daN in the horizontal plane of the vehicle and towards the front of the vehicle on the torso portion of the belt in the case of 3-point belt; (c) 1130 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the front of the vehicle on the wheelchair restraint system;(d) the forces shall be applied simultaneously.
(a) 810 daN ± 20 daN in an angle of 45 ° ± 10 ° to the horizontal plane of the vehicle and towards the rear of the vehicle on the wheelchair restraint system.
(a) one of the longitudinal sides of the space for a wheelchair shall rest against a side or wall of the vehicle; (b) a support or backrest perpendicular to the longitudinal axis of the vehicle shall be provided in the forward end of the wheelchair space; (c) the support or backrest shall be designed for the wheels or the back of the wheelchair to rest against the support or backrest in order to avoid the wheelchair from tipping over; (d) the support or backrest of the seat row in front shall be able to withstand a force of 250 daN ± 20 daN per wheelchair. The force shall be applied in the horizontal plane of the vehicle and towards the front of the vehicle in the middle of the support or backrest. The force shall be maintained for a period of not less than 1,5 seconds; (e) a handrail or handhold shall be fitted to the side or wall of the vehicle in such a way to allow the wheelchair user to grasp it easily; (f) a retractable handrail or any equivalent device shall be fitted on the opposite side of the wheelchair space in order to restrict any lateral shift of the wheelchair and to allow the wheelchair user to grasp it easily; (g) the floor surface of the special area shall be slip resistant; (h) a sign shall be fixed adjacent to the wheelchair area with the following text: "This space is reserved for a wheelchair. The wheelchair must be placed facing rearwards resting against the support or backrest with the brakes on."
the boarding device does not obstruct the handle or other device for opening the door, the boarding device can be readily moved to leave the doorway clear for use in an emergency.
allow the vehicle to be driven at a speed of more than 5 km/h when the vehicle is lower than the normal height of travel, or allow the vehicle to be raised or lowered when the operation of the service door is prevented for any reason.
Number of passengers | Number of service doors on a double-deck vehicle | ||
---|---|---|---|
Class I and A | Class II | Class III and B | |
9—45 | |||
46—70 | |||
71—100 | |||
> 100 |
Number of passengers and crew per compartment to be accommodated in each compartment or deck | Minimum total number of emergency exits |
---|---|
1—8 | 2 |
9—16 | 3 |
17—30 | 4 |
31—45 | 5 |
46—60 | 6 |
61—75 | 7 |
76—90 | 8 |
91—110 | 9 |
111—130 | 10 |
> 130 | 11 |
Total number of passengers in the upper deck (A | Number of hatches |
---|---|
not exceeding 50 | 1 |
exceeding 50 | 2 |
(a) two, or at least one and-one-half staircases, shall be provided in Class I and Class II vehicles if more than 50 passengers are carried on the upper deck; (b) two, or at least one and-one-half staircases, are to be provided in Class III vehicles if more than 30 passengers are carried on the upper deck.
(in mm) | ||||||
Class I | Class II | Class III | ||||
---|---|---|---|---|---|---|
Upper/lower deck: | UD | LD | UD | LD | UD | LD |
Diameter of lower cylinder | ||||||
Height of lower cylinder | ||||||
Diameter of upper cylinder | ||||||
Height of upper cylinder | ||||||
Overall height |
from 1800 mm to1680 mm in any part of the gangway of the lower deck to the rear of a transverse vertical plane situated1500 mm forward to the centre of the rear axle (foremost rear axle in the case of vehicles with more than one rear axle),from 1800 mm to1770 mm in the case of a service door which is situated forward the front axle in any part of the gangway situated between two transverse vertical planes situated 800 mm forwards and behind the centre line of the front axle.