Commission Delegated Regulation (EU) 2015/68Show full title

ANNEX I Requirements applying to construction and fitting of braking devices and trailer braking couplings

1. Definitions

For the purposes of this Annex:

2. Construction and fitting requirements

2.1.General

The maximum design speed is considered, throughout this Annex, to be in the forward direction of the vehicle travel, unless otherwise explicitly mentioned.

2.1.1.Braking components, separate technical units and parts

2.1.1.1.The braking components, separate technical units and parts shall be so designed, constructed and fitted as to enable the vehicle in normal use, despite the vibration to which it may be subjected, to comply with the under mentioned requirements.

2.1.1.2.In particular, the braking components, separate technical units and parts shall be so designed, constructed and fitted as to be able to resist the corrosion and ageing phenomena to which it is exposed.

2.1.1.3.Brake linings shall not contain asbestos.

2.1.1.4.It is not permitted to fit any components, separate technical units and parts (such as valves) that would allow the performance of the braking system to be changed by the user of the vehicle such that, in service, it falls outside the requirements of this Regulation. A component, separate technical unit and part that can only be operated by the manufacturer through the use of special tool or the provision of a tamper proof seal or both shall be permitted provided that the user of the vehicle is not able to modify this component, separate technical unit and part or that any user modification is readily identifiable by enforcement authorities.

2.1.1.5.A towed vehicle shall be equipped with an automatic load sensing device, with the exception of the following cases:

2.1.2.Functions of the braking system

The braking system shall fulfil the following functions:

2.1.2.1.Service braking system

It shall be possible to graduate the service braking system action. The driver shall be able to achieve this braking action from his driving position without removing his hands from the steering control device.

2.1.2.2.Secondary braking system

The secondary braking system shall make it possible to halt the vehicle within a reasonable distance in the event of the failure of the service braking system. On tractors, it shall be possible to graduate this braking action. The driver shall be able to obtain this braking action from his driving seat while keeping at least one hand on the steering control device. For the purpose of these requirements, it is assumed that not more than one failure of the service braking system can occur at one time.

2.1.2.3.Parking braking system

The parking braking system shall enable the vehicle to be held stationary on an up or down gradient even in the absence of the driver, the working parts of the braking system being then held in the locked position by a purely mechanical device. The driver shall be able to achieve this braking action from his driving seat, subject, in the case of a towed vehicle, to the requirements of point 2.2.2.11.

The towed vehicle service braking system (pneumatic or hydraulic) and the parking braking system of the tractor may be operated simultaneously, provided that the driver is able to check, at any time, that the parking braking system performance of the vehicle combination, obtained by the purely mechanical action of the parking braking system, is sufficient.

2.1.3.The relevant requirements of Appendix 1 of Annex II shall be applied to vehicles and their braking systems.

2.1.4.Connections, for compressed-air braking systems, between tractors and towed vehicles

2.1.4.1.The connections of the compressed-air braking systems between tractors and towed vehicles shall be provided according to the following points 2.1.4.1.1, 2.1.4.1.2 or 2.1.4.1.3.

2.1.5.Connections between tractors and towed vehicles with hydraulic braking systems

2.1.5.1.Type of connections

2.1.5.1.1.Hydraulic control line: this is the connecting line with the male connector on the tractor and the female connector on the towed vehicle. The connectors shall comply with ISO 5676:1983.

2.1.5.1.2.Hydraulic supplementary line: this is the connecting line with the male connector on the tractor and the female connector on the towed vehicle. The connectors shall comply with ISO 16028:2006, size 10.

2.1.5.1.3.ISO 7638:2003 connector (optional). The ISO 7638:2003 connector may be used for 5 pin or 7 pin applications, as appropriate.

The positioning of the connectors as specified in points 2.1.5.1.1 and 2.1.5.1.2 shall be arranged on the tractor as illustrated in Figure 1.

2.1.5.2.With the engine running and the parking braking system of the tractor fully applied:

2.1.5.3.With the engine running and the parking braking system of the tractor fully released a pressure between the values provided at point 2.2.1.18.3 shall be present on the supplementary line.

2.1.5.4.With the engine running and no brake control on the tractor applied (driving or stand-by condition), the pressure supplied at the coupling head of the control line shall be the one provided at point 2.2.1.18.2.

2.1.5.5.With the engine running and the service brake control device on the tractor fully actuated a pressure between 11 500 kPa and 15 000 kPa shall be generated in the control line. For pressurising the control line during service brake application the tractor shall be capable to comply with requirement of point 3.6 of Annex III.

2.1.6.The flexible hoses and cables connecting tractors and towed vehicles shall be a part of the towed vehicle.

2.1.7.Shut-off devices which are not automatically actuated shall not be permitted.

2.1.8.Pressure test connections

2.1.8.1.For the purpose of determining the in-use braking forces of each axle of the vehicle, with a compressed-air braking system, air pressure test connections must be provided:

2.2.Requirements of braking systems

2.2.1.Vehicles of categories T and C

2.2.1.1.The set of braking systems with which a vehicle is equipped shall satisfy the requirements laid down for the service, secondary and parking braking systems.

In order to assist the driver in steering (to enable differential braking in the field) the service braking system of the tractor may consist of two independent brake circuits, each connected to one separate right or left brake pedal.

If the differential braking function is activated it shall not be possible to travel at speeds exceeding 40 km/h or at speeds in excess of 40 km/h the differential braking function shall be disabled. These two operations shall be ensured by automatic means.

If the differential mode is activated an actuation of the towed vehicle service braking system is not required up to a speed of 12 km/h.

In tractors where the separate pedals can be connected manually, the driver shall be able to easily verify from his driving place whether these pedals are connected or not.

2.2.1.2.The equipment providing service, secondary and parking braking may have common components, provided that they fulfil the following conditions:

2.2.1.3.Where there are separate control devices for the service and secondary braking systems simultaneous actuation of control devices shall not render both the service and secondary braking systems inoperative, either when both braking systems are in good working order or when one of them is faulty.

2.2.1.4.Where use is made of energy other than the muscular energy of the driver, there need not be more than one source of such energy (hydraulic pump, air compressor, etc.), but the means by which the device constituting that source is driven shall be as safe as practicable.

2.2.1.4.1.In the event of failure in any part of the transmission of a vehicle's braking system consisting of two service braking circuits fulfilling the requirements of point 2.2.1.25, the supply to the part not affected by the failure shall continue to be ensured where this is required for the purpose of halting the vehicle with the degree of effectiveness prescribed for residual and/or for secondary braking. This condition shall be satisfied by automatic means.

2.2.1.4.2.Furthermore, storage devices located down-circuit of this device are such that in the event of a failure in the energy supply, after four full-stroke actuations of the service braking system control device under the testing conditions prescribed in point 1.2 of section A or in point 1.2 of section B or in point 1.2 of section C of Annex IV, following to the kind of braking system, it is still possible to halt the vehicle at the fifth application with the degree of effectiveness prescribed for secondary braking.

2.2.1.4.3.For hydraulic braking systems with stored energy, requirements of points 2.2.1.4.1 and 2.2.1.4.2 shall be considered to be met, provided that the requirements of point 1.2.2. of Part C of Annex IV to this Regulation, are satisfied.

2.2.1.4.4.In the case of a service braking system consisting of only one service braking circuit it is required that in the event of a failure or non-availability of the energy source it shall be possible halting the vehicle with the service braking system control with the degree of effectiveness prescribed for secondary braking.

2.2.1.5.The requirements of points 2.2.1.2, 2.2.1.4 and 2.2.1.25 shall be satisfied without the use of any automatic device of a kind such that its ineffectiveness might pass unnoticed because the parts which are normally in an ‘at rest’ position are actuated only in the event of failure of the braking system.

2.2.1.6.On vehicles with a maximum design speed not exceeding 30 km/h, the service braking system shall act on all the wheels of at least one axle. In all other cases the service braking system shall act on all the wheels of the vehicle. However, in case of vehicles with one braked axle and an automatic engagement of the drive to all other axles during braking, all wheels are deemed to be braked.

For category C vehicles this condition is considered to be met if all of the track rollers of the vehicle are braked. For category C vehicles with a design speed of less than 30 km/h, this condition is considered to be met if at least one track roller on each side of the vehicle is braked.

For vehicles equipped with a straddle seat and handlebars, the service braking may act either on the front axle or on the rear axle provided that all the performance requirements prescribed in point 2 of Annex II to this Regulation are met.

For articulated tractors of category Ta, if an axle is subject to braking and the differential is mounted between the service brake and the wheels, all wheels of that axle are deemed to be braked when the activation of the service braking system automatically locks the differential on this axle.

2.2.1.6.1.Performance of hydraulic lines and hose assemblies in case of vehicles with one braked axle and an automatic engagement of the drive to all other axles during braking

The hydraulic lines of hydraulic transmission shall be capable of a burst pressure at least four times the maximum normal service pressure (T) specified by the vehicle manufacturer. Hose assemblies shall comply with ISO Standards 1402:1994, 6605:1986 and 7751:1991.

2.2.1.7.If the service braking system acts on all wheels or track rollers of the vehicle, the action shall be appropriately distributed among the axles. Where this is achieved by means of a device which modulates the pressure in the brake transmission, this shall conform to the requirements of point 6 of Appendix 1 to Annex II and point 2.1.8.

2.2.1.7.1.In the case of vehicles with more than two axles, in order to avoid wheel-locking or glazing of the brake linings, the brake force on certain axles may be reduced to zero automatically when carrying a much reduced load, provided that the vehicle meets all the performance requirements prescribed in Annex II.

2.2.1.8.The action of the service braking system shall be distributed between the wheels or track rollers of the same axle symmetrically in relation to the longitudinal median plane of the vehicle.

2.2.1.9.The service, secondary and the parking braking systems shall act on braking surfaces permanently connected to the wheels through components of adequate strength. It shall not be possible to disconnect a braking surface from the wheels; however, such disconnection shall be permitted in the case of the parking braking system, provided that it is controlled exclusively by the driver from his driving seat by a system which cannot be actuated by a leak. When more than one axle is normally subject to braking in the case of vehicles of categories T and C with a maximum design speed not exceeding 60 km/h, one axle may be decoupled provided that activation of the service braking system automatically re-couples this axle and that, in the case of a failure in the energy supply or a failure in the control transmission of the re-coupling control device, then automatic re-coupling shall be ensured.

2.2.1.10.It shall be possible for the wear of the service brakes to be compensated by means of a system of manual adjustment. For vehicles of categories Tb and Cb, the wear of the service brakes shall be compensated by means of a system of automatic adjustment. In addition, the control device and the components of the transmission and of the brakes shall possess a reserve of travel and, if necessary, suitable means of compensation such that, when the brakes become heated or when the brake linings have reached a certain degree of wear, effective braking shall be ensured without immediate adjustment being necessary.

Vehicles of categories Ta, and category Ca, do not need to be fitted with a system where the wear of the brakes are compensated by means of a system of automatic adjustment. However, if vehicles of these categories are equipped with system where the wear of the brakes are compensated by means of a system of automatic adjustment, this system shall comply with the same requirements as those of category Tb and Cb.

2.2.1.10.1.Automatic wear adjustment devices, if fitted, shall, after heating followed by cooling, be capable of free running as laid down in point 2.3.4 of Annex II following the Type-I test also specified in point 1.3 of that Annex.

It shall be possible to easily check this wear on service brake linings from the outside or underside of the vehicle, utilising only the tools or equipment normally supplied with the vehicle; for instance, by the provision of appropriate inspection holes or by some other means. Alternatively, acoustical or optical devices warning the driver at his driving position when lining replacement is necessary are acceptable.

2.2.1.10.2.The requirements of 2.2.1.10 and 2.2.1.10.1 are not applicable to oil immersed brakes which are designed for the whole lifetime of the vehicle without servicing.

2.2.1.11.In hydraulic braking systems:

2.2.1.12.Warning device

2.2.1.12.1.Any vehicle fitted with a service braking system actuated by an energy reservoir shall, where the prescribed secondary braking performance cannot be obtained by means of this braking system without the use of stored energy, be provided with a warning device — in addition to a pressure gauge where fitted — giving an optical or acoustic signal when the stored energy in any part of the system falls to a value at which, without recharging of the reservoir and irrespective of the loading conditions of the vehicle, it shall be possible to apply the service braking system control device a fifth time after four full-stroke actuations and obtain the prescribed secondary braking performance (without faults in the service-brake transmission and with the brakes adjusted as closely as possible). The warning device shall be directly and permanently connected to the circuit. When the engine is running under normal operating conditions and there are no faults in the braking system, the warning device shall give no signal except during the time required for charging the energy reservoir(s) after start-up of the engine.

2.2.1.12.1.1.However, in the case of vehicles which are only considered to comply with the requirements of point 2.2.1.4.1 by virtue of meeting the requirements of point 1.2.2 of section C of Annex IV the alarm device shall consist of an acoustic signal in addition to an optical signal. These devices need not operate simultaneously, provided that each of them meets the above requirements and the acoustic signal is not actuated before the optical signal.

2.2.1.12.2.This acoustic device may be rendered inoperative while the parking braking system is applied or, at the choice of the manufacturer, in the case of automatic transmission the selector in the ‘park’ position or in both cases.

2.2.1.13.Without prejudice to the requirements of point 2.1.2.3, where the use of an auxiliary energy source is essential for the operation of a braking system, the energy reserve shall be such as to ensure that, should the engine stop, or in the event of a failure of the means by which the energy source is driven, the braking performance remains sufficient to bring the vehicle to a halt in the prescribed conditions. In addition, if the muscular energy applied by the driver to the parking braking system is reinforced by some aid, the actuation of the parking braking system shall be ensured in the event of failure of that aid, if necessary by using a reserve of energy independent of that normally supplying such aid. This reserve of energy may be that intended for the service braking system.

2.2.1.14.In the case of a tractor to which the coupling of a towed vehicle equipped with a brake controlled by the driver of the tractor is authorised, the service braking system of the tractor shall be fitted with a device so designed that if the towed vehicle braking system should fail, or the supply line (or such other type of connection as may be adopted) between the tractor and towed vehicle should break, it will still be possible to brake the tractor with the performance prescribed for the secondary braking system; it is accordingly prescribed, in particular, that this device be fitted to the tractor service braking system ensuring that the tractor can still be braked by the service braking system with a performance prescribed for the secondary braking system.

2.2.1.15.The pneumatic or hydraulic auxiliary equipment shall be automatically supplied with energy in such a way that during its operation the prescribed performance values can be reached and that even in the event of damage to the source of energy, the operation of the auxiliary equipment cannot cause the reserves of energy feeding the braking systems to fall below the level indicated in point 2.2.1.12.

2.2.1.16.A tractor authorised to tow a category R2, R3, R4 or S2 vehicle shall satisfy the following conditions:

2.2.1.17.Additional requirements in the case of tractors authorised to draw towed vehicles with compressed-air braking systems.

2.2.1.17.1.In the event of a failure (e.g. breakage) in one of the pneumatic connecting lines, interruption or defect in the electric control line, it shall nevertheless be possible for the driver, fully or partially, to actuate the brakes of the towed vehicle by means either of the service braking control device or of the secondary braking control device or of the parking braking control device, unless the failure automatically causes the towed vehicle to be braked with the performance prescribed in point 3.2.3 of Annex II.

2.2.1.17.2.The automatic braking in point 2.2.1.17.1 shall be considered to be met when the following conditions are fulfilled:

2.2.1.17.3.In the event of a failure in one of the control lines connecting two vehicles equipped according to point 2.1.4.1.2, the control line not affected by the failure shall automatically ensure the braking performance prescribed for the towed vehicle in point 3.2.3 of Annex II.

2.2.1.17.4.In the case of a pneumatic service braking system comprising two or more independent sections, any leakage between those sections at or downstream of the control device shall be continuously vented to atmosphere.

2.2.1.18.Additional requirements in the case of tractors authorised to draw towed vehicles with hydraulic braking systems.

2.2.1.18.1.The pressure supplied at both coupling heads with the engine not running shall always be 0 kPa.

2.2.1.18.2.The pressure supplied at the coupling head of the control line with the engine running and no braking control force applied shall be 0⁺²⁰⁰ kPa.

2.2.1.18.3.With the engine running it shall be possible to generate at the coupling head of the supplementary line a pressure of at least 1 500 kPa but not exceeding 3 500 kPa

2.2.1.18.4.As a derogation from the requirement of point 2.2.1.16.1, a graduated braking action on the towed vehicle is only required when the service braking system of the tractor is actuated when the engine is running.

2.2.1.18.5.In the case of a failure (e.g. fracture or leak) in the supplementary line, it shall nevertheless be possible for the driver to fully or partially actuate the towed vehicle brakes, by means either of the service braking system control device or of the parking braking system control device, unless this failure automatically causes the towed vehicle to be braked with the performance prescribed in point 3.2.3 of Annex II.

2.2.1.18.6.In the case of a failure (e.g. fracture or leak) in the control line, the pressure in the supplementary line shall fall to 1 000 kPa within the following two seconds after the service brake control device has been fully actuated; in addition, when the service brake control device is released, the supplementary line shall be re-pressurised (see also point 2.2.2.15.3).

2.2.1.18.7.The pressure in the supplementary line shall fall from its maximum value to 0⁺³⁰⁰ kPa within the following second after the parking braking system control device has been fully actuated.

In order to check the evacuation time the supplementary line of the towed vehicle simulator according to point 3.6.2.1 of Annex III is connected to the supplementary line of the tractor.

The accumulators of the simulator are then charged to the maximum value generated by the tractor with the engine running and the bleeding device (point 1.1 of Appendix 2 of Annex III) fully closed.

2.2.1.18.8.In order to be able to connect and disconnect the hydraulic connecting lines even when the engine is running and the parking braking system applied, an appropriate device may be fitted on the tractor.

This device shall be so designed and constructed that the pressure in the connecting lines is positively restored to the rest position not later than the control (e.g. push button) of this device is automatically released (e.g. valve returns automatically into the normal operation position).

2.2.1.18.9.Tractors towing a vehicle of category R or S and which can only comply with the braking performance requirements of the service braking system and/or parking braking system and/or automatic braking system with the assistance of energy stored in a hydraulic energy storage device shall be equipped with an ISO 7638:2003 connector in order to be able to indicate the low level of stored energy on the towed vehicle, received by the latter, as laid down in point 2.2.2.15.1.1 by the separate warning signal via pin 5 of the electrical connector conforming to ISO 7638:2003 specified in point 2.2.1.29.2.2 (see also point 2.2.2.15.1). The ISO 7638:2003 connector may be used for 5 pin or 7 pin applications, as appropriate.

2.2.1.19.In the case of a tractor authorised to tow a vehicle of categories R3, R4 or S2, the service braking system of the towed vehicle may only be operated in conjunction with the service, secondary or parking braking system of the tractor. However, automatic application of the towed vehicle brakes alone is permitted where the operation of the towed vehicle brakes is initiated automatically by the tractor for the sole purpose of vehicle stabilisation.

2.2.1.19.1.By way of derogation from point 2.2.1.19, in order to improve the driving behaviour of the vehicle combination by modifying the coupling force between the tractor and towed vehicle, it is permissible that towed vehicle brakes are applied automatically up to a time of 5 s without the operation of the service, secondary or parking braking system of the tractor.

2.2.1.20.If point 3.1.3 of Annex II can only be fulfilled by complying with the conditions specified in point 3.1.3.4.1.1 of Annex II then

2.2.1.21.Anti-lock braking systems for tractors of category Tb

2.2.1.21.1.Tractors of category Tb with a maximum design speed exceeding 60 km/h shall be equipped with anti-lock braking systems of category 1 in accordance with the requirements of Annex XI.

2.2.1.21.2.Tractors of category Tb with a maximum design speed exceeding 40 km/h and not exceeding 60 km/h shall be equipped with anti-lock braking systems of category 1 in accordance with the requirements of Annex XI

2.2.1.22.Tractors authorised to tow a vehicle equipped with an anti-lock braking system shall also be equipped with a special electrical connector, conforming to ISO 7638:2003, for the electric control transmission. The ISO 7638:2003 connector may be used for 5 pin or 7 pin applications, as appropriate.

2.2.1.23.If tractors not mentioned in points 2.2.1.21.1 and 2.2.1.21.2 are fitted with anti-lock braking systems, they shall comply with the requirements of Annex XI.

2.2.1.24.The requirements of Annex X shall be applied to the safety aspects of all complex electronic vehicle control systems which provide or form part of the control transmission of the braking function included those which utilise the braking system(s) for automatically commanded braking or selective braking.

2.2.1.25.In the case of category Tb tractors with a maximum design speed exceeding 60 km/h, the service braking system shall, whether or not it is combined with the secondary braking system, be such that in the event of failure in a part of its transmission a sufficient number of wheels are still braked by actuation of the service brake control device; these wheels shall be so selected that the residual performance of the service braking system satisfies the requirements laid down in point 3.1.4 of Annex II.

The part or parts not affected by the failure shall be capable of partially or fully actuating the brakes of the towed vehicle.

2.2.1.25.1.The failure of a part of a hydraulic transmission system shall be signalled to the driver by a device comprising a warning signal, as specified in point 2.2.1.29.1.1. Alternatively, the lighting up of this device when the fluid in the reservoir is below a certain level specified by the manufacturer shall be permitted.

2.2.1.26.Special additional requirements for the electric transmission of the parking braking system

2.2.1.26.1.Tractors with a maximum design speed exceeding 60 km/h

2.2.1.26.1.1.In the case of a failure within the electric transmission, any unintended actuation of the parking braking system shall be prevented.

2.2.1.26.1.2.In the case of an electrical failure in the control or a break in the wiring within the electric control transmission external to the electronic control unit(s), excluding the energy supply, it shall remain possible to apply the parking braking system from the driver's seat and thereby be capable of holding the laden vehicle stationary on an 8 % up or down gradient.

2.2.1.26.2.Tractors with a maximum design speed not exceeding 60 km/h

2.2.1.26.2.1.In the case of an electrical failure in the control or a break in the wiring within the electric control transmission external to the control unit(s), excluding the energy supply,

2.2.1.26.3.Alternatively to the parking brake performance requirements according to points 2.2.1.26.1.2 and 2.2.1.26.2.1 an automatic actuation of the parking braking system is allowed when the vehicle is stationary, provided that the above performance is achieved and, once applied, the parking braking system remains engaged independently of the status of the ignition (start) switch. In this alternative, the parking braking system shall be automatically released as soon as the driver starts to set the vehicle in motion again.

2.2.1.26.4.It shall also be possible to release the parking braking system, if necessary by the use of tools and/or an auxiliary device carried/fitted on the vehicle.

2.2.1.26.5.A break in the wiring within the electric transmission, or an electric failure in the control device of the parking braking system shall be signalled to the driver by the yellow warning signal specified in point 2.2.1.29.1.2. When caused by a break in the wiring within the electric control transmission of the parking braking system, this yellow warning signal shall be signalled as soon as the break occurs or in the case of tractors with a maximum design speed not exceeding 60 km/h not later than on actuation of the relevant braking control. In addition, such an electric failure in the control device or break in the wiring external to the electronic control unit(s) and excluding the energy supply shall be signalled to the driver by flashing the warning signal specified in point 2.2.1.29.1.1 as long as the ignition (start) switch is in the ‘on’ (run) position including a period of not less than 10 seconds thereafter and the control device is in the ‘on’ (activated) position.

However, if the parking braking system detects correct clamping of the parking braking system, the flashing of the warning signal may be suppressed and the non-flashing red signal shall be used to indicate parking braking system applied.

Where actuation of the parking braking system is normally indicated by a separate warning signal, satisfying all the requirements of 2.2.1.29.3 this signal shall be used to satisfy the above requirement for a red signal.

2.2.1.26.6.Auxiliary equipment may be supplied with energy from the electric transmission of the parking braking system provided that the supply of energy is sufficient to allow the actuation of the parking braking system in addition to the vehicle electrical load under non-fault conditions. In addition, where the energy reserve is also used by the service braking system, the requirements of point 4.1.7 of Annex XII shall apply.

2.2.1.26.7.After the ignition/start switch which controls the electrical energy for the braking equipment has been switched off and/or the key removed, it shall remain possible to apply the parking braking system, whereas releasing shall be prevented.

Releasing of the parking braking system is permitted if the control has to be mechanically unlocked in order to be able to release the parking braking system.

2.2.1.27.The requirements of Annex XII shall be applied with regard to EBS vehicles or vehicles with ‘data communication’ via pin 6 and 7 of ISO 7638 connector.

2.2.1.28.Special requirements for coupling force control

2.2.1.28.1.Coupling force control is only permitted in the tractor.

2.2.1.28.2.The action of the coupling force control shall be to reduce the difference between the dynamic braking rates of tractors and towed vehicles. The operation of the coupling force control shall be checked at the time of type-approval. The method by which this check is carried out shall be agreed between the vehicle manufacturer and the technical service with the method of assessment and results being appended to the type-approval report.

2.2.1.28.2.1.The coupling force control may control the braking rate TM/FM (point 2 of Appendix 1 to Annex II) and/or the brake demand value(s) for the towed vehicle. In the case of a tractor equipped with two control lines according to point 2.1.4.1.2 of this Annex, both signals shall be subject to similar control adjustments.

2.2.1.28.2.2.The coupling force control shall not prevent the maximum possible braking pressure(s) from being applied.

2.2.1.28.3.The vehicle shall fulfil the laden compatibility requirements of Appendix 1 to Annex II, but to achieve the objectives of point 2.2.1.28.2 the vehicle may deviate from these requirements when the coupling force control is in operation.

2.2.1.28.4.A coupling force control failure shall be detected and indicated to the driver by a yellow warning signal such as that specified in point 2.2.1.29.1.2. In the event of a failure the relevant requirements of Appendix 1 to Annex II shall be fulfilled.

2.2.1.28.5.Compensation by the coupling force control system shall be indicated by means of the yellow warning signal specified in point 2.2.1.29.1.2 if this compensation exceeds 150 kPa (pneumatic) and 2 600 kPa (hydraulic) respectively away from the nominal demand value up to a limit, in pm, of 650 kPa (or the equivalent digital demand) and 11 500 kPa (hydraulic) respectively. Above the level of 650 kPa and 11 500 kPa (hydraulic) respectively the warning shall be given if the compensation causes the operating point to lie outside the laden compatibility band as specified in Appendix 1 to Annex II, for tractors.

2.2.1.28.6.A coupling force control system shall control only the coupling forces generated by the service braking system of the tractor and the towed vehicle. Coupling forces resulting from the performance of endurance braking systems shall not be compensated by the service braking system of either the tractor or towed vehicle. It is considered that endurance braking systems are not part of the service braking systems.

2.2.1.29.Brake failure and defect warning signal

The requirements for optical warning signals, whose function is to indicate to the driver certain specified failures or defects within the braking equipment of the tractor or of the towed vehicle, are set out in the points 2.2.1.29.1- 2.2.1.29.6.3. The function of these signals shall be exclusively to indicate failures or defects in the braking equipment. However, the optical warning signal described in point 2.2.1.29.6 may in addition be used to indicate failures or defects in the running gear.

2.2.1.29.1.Tractors shall be capable of providing optical brake failure and defect warning signals, as follows:

2.2.1.29.2.Tractors equipped with an electric control line and/or authorised to tow a vehicle equipped with an electric control transmission, shall be capable of providing a separate warning signal, in accordance with the requirements laid down on the basis of Article 18(2)(l), (s), (q) and (4) of Regulation (EU) No 167/2013 to indicate a defect within the electric control transmission of the braking equipment of the towed vehicle. The signal shall be activated from the towed vehicle via pin 5 of the electric connector conforming to ISO 7638:2003 and in all cases the signal transmitted by the towed vehicle shall be displayed without significant delay or modification by the tractor. This warning signal shall not light up when coupled to a towed vehicle without an electric control line and/or electric control transmission or when no towed vehicle is coupled. This function shall be automatic.

2.2.1.29.2.1.In the case of a tractor equipped with an electric control line, when electrically connected to a towed vehicle with an electric control line, the warning signal specified in point 2.2.1.29.1.1 shall also be used to indicate certain specified failures within the braking equipment of the towed vehicle, whenever the towed vehicle provides corresponding failure information via the data communication part of the electric control line. This indication shall be in addition to the warning signal specified in point 2.2.1.29.2. Alternatively, instead of utilising the warning signal specified in point 2.2.1.29.1.1 and the accompanying warning signal above, a separate warning signal, in accordance with the requirements laid down on the basis of Article 18(2)(l), (s), (q) and (4) of Regulation (EU) No 167/2013 may be provided in the tractor to indicate such a failure within the braking equipment of the towed vehicle.

2.2.1.29.2.2.Tractors equipped with an electric connector conforming to ISO 7638:2003 in order to be able to indicate the low level of stored energy on the towed vehicle as required by points 2.2.2.15.1.1 and 2.2.2.15.2 shall display the separate yellow warning signal mentioned in point 2.2.1.29.2 to the driver when the warning signal is transmitted to the tractor by the towed vehicle via pin 5 of the electric connector conforming to ISO 7638:2003.

2.2.1.29.3.Except where stated otherwise:

2.2.1.29.4.The warning signals shall be visible, even by daylight; the satisfactory condition of the signals shall be easily verifiable by the driver from the driver's seat; the failure of a component of the warning devices shall not entail any loss of the braking system's performance.

2.2.1.29.5.The warning signal(s) mentioned above shall light up when the electrical equipment of the vehicle (and the braking system) is energised. With the vehicle stationary, the braking system shall verify that none of the specified failures or defects are present before extinguishing the signals. Specified failures or defects which should activate the warning signals mentioned above, but which are not detected under static conditions, shall be stored upon detection and be displayed at start-up and at all times when the ignition (start) switch is in the ‘on’ (run) position, as long as the failure or defect persists.

2.2.1.29.6.Non-specified failures or defects or other information concerning the brakes or running gear of the tractor, may be indicated by the signal specified in point 2.2.1.29.1.2, provided that all the following conditions are fulfilled:

2.2.1.30.Malfunctions of the electric control transmission shall not apply the brakes contrary to the driver's intentions.

2.2.1.31.Tractors fitted with hydrostatic drive shall either comply with all relevant requirements of this Annex or of Annex IX.

2.2.2.Vehicles of categories R and S

2.2.2.1.Vehicles of categories R1a, R1b (where the sum of the technically permissible masses per axle does not exceed 750 kg), S1a, S1b (where the sum of the technically permissible masses per axle does not exceed 750 kg) do not need to be fitted with a service braking system. However, if vehicles of these categories are equipped with a service braking system, this system shall comply with the same requirements as those of category R2 or S2 as appropriate.

2.2.2.2.Vehicles of categories R1b and S1b (where the sum of the technically permitted masses per axle exceeds 750 kg) and R2 shall be fitted with a service braking system either of the continuous or semi-continuous type or of the inertia type. However, if the vehicles of these categories have a service braking system of the continuous or semi-continuous type they shall meet the same requirements as those of category R3.

2.2.2.3.Where a towed vehicle belongs to category R3, R4 or S2, the service braking system shall be of a continuous or semi-continuous type.

2.2.2.3.1.By way of derogation from the requirement of point 2.2.2.3, an inertia braking system may be fitted to vehicles of category R3a and S2a with a maximum mass not exceeding 8 000 kg under the following conditions:

2.2.2.4.The service braking system:

2.2.2.5.The action of every braking system shall be distributed between the wheels of each axle symmetrically in relation to the longitudinal median plane of the towed vehicle.

2.2.2.5.1.However, in the case of vehicle with significantly different wheel loads on the left and right vehicle side, the action of the braking system may deviate from the symmetrical brake force distribution accordingly.

2.2.2.6.Malfunctions of the electric control transmission shall not apply the brakes contrary to the driver's intentions.

2.2.2.7.The braking surfaces required to attain the prescribed degree of effectiveness shall be in constant contact with the wheels, either rigidly or through components not liable to failure.

2.2.2.8.Wear of the brakes shall be capable of being easily taken up by means of a system of manual or automatic adjustment. In addition, the control device and the components of the transmission and of the brakes shall possess a reserve of travel and, if necessary, suitable means of compensation such that, when the brakes become heated, or the brake linings have reached a certain degree of wear, effective braking is ensured without immediate adjustment being necessary.

2.2.2.8.1.Wear adjustment shall be automatic for the service brakes. However, the fitting of automatic adjustment devices is optional for vehicles of categories R1, R2, R3a, S1 and S2a. Brakes equipped with automatic brake adjustment devices shall, after heating followed by cooling, be capable of free running as specified in point 2.5.6. of Annex II following the type-I or type-III test also defined in that Annex as appropriate.

2.2.2.8.1.1.In the case of towed vehicles of categories:

• R3a, R4a, S2a, and

• R3b, R4b, S2b where the sum of the technically permissible masses per axle does not exceed 10 000 kg,

the performance requirements of point 2.2.2.8.1 shall be deemed to be satisfied by fulfilling the requirements of point 2.5.6 of Annex II. Until uniform technical provisions have been agreed that correctly assess the function of the automatic brake adjustment device, the free running requirement shall be deemed to be fulfilled when free running is observed during all brake tests prescribed for the relevant trailer.

2.2.2.8.1.2.In the case of towed vehicles of categories R3b, R4b, S2b where the sum of the technically permissible masses per axle exceeds 10 000 kg, the performance requirements of point 2.2.2.8.1 shall be deemed to be satisfied by fulfilling the requirements of point 2.5.6 of Annex II.

2.2.2.9.The braking system shall be such that the towed vehicle is stopped automatically if the coupling separates while the towed vehicle is in motion.

2.2.2.9.1.Vehicles of categories R1 and S1, without a braking system, shall be equipped, in addition to the main coupling device, with a secondary coupling (chain, cable etc.) capable, in the event of separation of the main coupling, of preventing the drawbar from touching the ground and providing some residual steering action on the towed vehicle.

2.2.2.9.2.Vehicles of categories R1, R2, R3a, S1 and S2a where an inertia braking system is fitted shall be equipped with a device (chain, cable etc.) capable, in the event of separation of the coupling, of applying the towed vehicle brakes.

2.2.2.9.3.On towed vehicles with a hydraulic braking system the connecting lines, as specified in points 2.1.5.1.1 and 2.1.5.1.2 shall disconnect on the tractor or on the towed vehicle with an insignificant leakage during the separation of the coupling. The force to disconnect a single connection line shall not exceed the values specified in ISO 5675:2008. Deviating from the values prescribed in paragraph 4.2.4 of this standard, the disconnecting force for both lines shall not exceed 2 500 N.

2.2.2.10.On every towed vehicle which is required to be fitted with a service braking system, parking braking shall be ensured even when the towed vehicle is separated from the tractor. It shall be possible for a person standing on the ground to actuate the parking braking system.

2.2.2.11.If the towed vehicle is fitted with a device enabling actuation of the braking system to be cut out, other than the parking braking system, the device shall be so designed and constructed that it is positively restored to the ‘at rest’ position not later than on the resumption of the supply of compressed air or hydraulic oil or electrical supply to the towed vehicle.

2.2.2.12.On every towed vehicle which is fitted with a hydraulic service braking system the braking system shall be so designed such that when the supplementary line is disconnected the parking or service braking system shall be automatically applied.

2.2.2.13.Vehicles of categories R3, R4 and S2 shall satisfy the conditions specified in point 2.2.1.17.2.2 for compressed-air braking systems or in point 2.2.2.15.3 for hydraulic braking systems respectively.

2.2.2.14.Where the auxiliary equipment is supplied with energy from the service braking system, the service braking system shall be protected to ensure that the pressure in the service brake storage device(s) is maintained at a pressure of at least 80 % of the control line demand pressure or equivalent digital demand as specified respectively in points 2.2.3.2 and 2.2.3.3 of Annex II.

2.2.2.15.In addition to the above, towed vehicles with hydraulic braking systems shall comply with the following:

2.2.2.16.Towed vehicles with a maximum design speed exceeding 60 km/h of categories R3b, R4b and S2b shall be equipped with an anti-lock braking system in accordance with Annex XI. Additionally, if the maximum permissible mass of the towed vehicles exceeds 10 t only an anti-lock braking system of category A is permitted.

2.2.2.17.If towed vehicles not mentioned in point 2.2.2.16 are fitted with anti-lock braking systems, they shall comply with the requirements of Annex XI.

2.2.2.18.Towed vehicles equipped with an electric control line and R3b or R4b category towed vehicles equipped with an anti-lock braking system, shall be fitted with a special electrical connector for the braking system and anti-lock braking system or only for one of those two systems, conforming to ISO 7638:2003. The conductor cross sections specified in ISO 7638:2003 for the trailer may be reduced if the trailer is installed with its own independent fuse. The rating of the fuse shall be such that the current rating of the conductors is not exceeded. This derogation shall not apply to trailers equipped to tow another trailer. Failure warning signals required from the towed vehicle by this Regulation shall be activated via the above connector. The requirement to be applied to towed vehicles with respect to the transmission of failure warning signals shall be those, as appropriate, which are prescribed for tractors in points 2.2.1.29.3, 2.2.1.29.4, 2.2.1.29.5 and 2.2.1.29.6.

Those vehicles shall be marked in indelible form, in accordance with the requirements laid down on the basis of Article 17(2)(k) and (5) of Regulation (EU) No 167/2013, to indicate the functionality of the braking system when the ISO 7638:2003 connector is connected and disconnected. The marking is to be positioned so that it is visible when connecting the pneumatic and electrical interface connections.

2.2.2.18.1.It is permitted to connect the braking system to a power supply in addition to that available from the ISO 7638:2003 connector above. However, when an additional power supply is available the following provisions shall apply:

2.2.2.19.In addition to the requirements of points 2.2.1.17.2.2 and 2.2.1.19, the brakes of the towed vehicle may also be applied automatically when this is initiated by the towed vehicle braking system itself following the evaluation of on-board generated information.

3. Tests

Braking tests which the vehicles submitted for approval are required to undergo, and the braking performance required, are described in Annex II.