FAW Русская насадка: 30 Прецизионные компоненты для контроля выбросов SCR в арктических условиях

The FAW Русская насадка, в частности, форсунка для впрыска мочевины, is the critical interface between the exhaust aftertreatment system and the CA3250P66K24L1TE5Z engine. Positioned directly in the high-temperature exhaust stream, this dosing unit must atomize Diesel Exhaust Fluid (ДЕФ) with micron-level precision while surviving ambient temperatures of -40°C. This guide provides a comprehensive technical analysis of the nozzle assembly, its active cooling architecture, and the electrically heated supply logic required for Euro-compliant operations in the Russian Federation.

FAW Русская насадка

Atomization Physics: The Urea Nozzle Assembly

The focal point of the SCR system is the Форсунка мочевины в сборе (Часть №. 1161210-76Вт). This component is not merely a passive outlet; it is a sophisticated electromechanical injector controlled by the ECU using Pulse Width Modulation (ШИМ). The FAW Русская насадка must inject precise quantities of urea solution (АдБлю) into the exhaust pipe to chemically reduce Nitrogen Oxides (NOx) into harmless nitrogen and water.

In the Russian operational context, а FAW Русская насадка faces a dual thermal challenge. Внутренне, it must handle the corrosive urea fluid which freezes at -11°C. Externally, the nozzle tip is exposed to exhaust gas temperatures exceeding 600°C during heavy engine loads. The engineering solution involves a high-grade stainless steel body construction that resists chemical attack from the ammonia formed during urea decomposition, combined with a specialized ceramic thermal barrier at the tip.

The spray pattern generated by the FAW Русская насадка имеет решающее значение. It must create a fine mist that evaporates instantly within the mixing chamber. If the droplets are too large due to nozzle clogging or low pump pressure, they impinge on the exhaust walls, forming solid urea crystals. These crystals build up rapidly, blocking the exhaust flow and leading to excessive backpressure, which can damage the turbocharger and derate the engine.

Более того, а FAW Русская насадка includes an integrated check valve mechanism. This prevents exhaust gases from back-flowing into the urea supply line when the dosing pump is off. In the harsh vibration environment of a dump truck, the internal spring and pintle of this valve must be fatigue-resistant to ensure a perfect seal over millions of injection cycles.

Cooling and Heating: The Survival Architecture

To survive the intense heat of the exhaust stream, а FAW Русская насадка is actively liquid-cooled. Система использует Узел впускного водяного трубопровода охлаждения сопла мочевины (Часть №. 1160315-61С) и Сборка трубопровода обратной воды охлаждения сопла мочевины (Часть №. 1160310-61С). These pipes circulate engine coolant around the injector body, maintaining its temperature within a safe operating range (typically below 120°C).

Without this cooling circuit, the urea inside the FAW Русская насадка would boil and decompose prematurely, clogging the injector and failing the solenoid coil. The cooling pipes are engineered with specific bends to route around the chassis and exhaust components without touching them, preventing conductive heat transfer that could overwhelm the cooling capacity.

Наоборот, the supply side requires heating. The Труба подачи мочевины с электрическим подогревом – Насос к соплу (Часть №. 1160130-66Вт) connects the pump to the FAW Русская насадка. This pipe features an integrated resistive heating element running its entire length. В русскую зиму, this heater is activated before engine start-up to thaw any frozen urea remaining in the line.

The electrical connectors on these heated lines are critical weak points if not properly maintained. They must be sealed against road salt and moisture. A failure in the heating circuit of the FAW Русская насадка supply line will trigger a “Reductant Line Heater Control Circuit” fault code, immediately disabling the emissions system and limiting vehicle speed.

Монтаж логики: Brackets and Vibration Isolation

The FAW Русская насадка and its associated piping are secured by the Кронштейн трубопровода сопла мочевины (Часть №. 1160126-73Вт) и Кронштейн трубопровода насоса мочевины (Часть №. 1160126-61С). These brackets are essential for vibration isolation. The exhaust pipe vibrates at a different frequency than the chassis; the nozzle piping must bridge this gap without fatiguing.

The bracketry is designed to hold the fluid lines rigidly while allowing for thermal expansion. The Пластиковая кабельная стяжка (Часть №. Т67417246), из них есть 24 units in the system, plays a vital role in cable management. These are specific cold-weather ties that do not snap at -40°C. They secure the electrical harnesses for the FAW Русская насадка heater and control signals, preventing them from chafing against the hot exhaust shield.

Fastening the nozzle to the exhaust boss requires the Шестигранник (Часть №. CQ2180625). The choice of a socket head screw allows for high torque application in the tight space surrounding the exhaust pipe. These screws must be coated with high-temperature anti-seize compound during installation; otherwise, the heat cycling of the exhaust will weld them to the flange, making future replacement of the FAW Русская насадка impossible without drilling.

The Комбинированный болт (Часть №. CQ1460816 и CQ1461025) is used for mounting the peripheral brackets. These bolts feature integrated washers to distribute the clamping load and prevent loosening under the high-amplitude, low-frequency vibrations typical of off-road dump trucks. Структурная целостность FAW Русская насадка mounting system is the first defense against leaks and line ruptures.

Разбивочный список компонентов

The following table provides the exhaustive Bill of Materials for the FAW Русская насадка and the complete Urea Supply System. Он включает в себя все 30 component types listed in the assembly diagram, covering the tank, насос, nozzle, and all associated plumbing hardware necessary for a complete system overhaul.

Diagnostic Protocols for Nozzle Health

Поддержание FAW Русская насадка requires vigilance against crystallization. If the nozzle tip becomes encrusted with white urea crystals, it disrupts the spray pattern. This can be caused by a failure in the Узел впускного водяного трубопровода охлаждения сопла мочевины, allowing the nozzle to run too hot and boil the fluid before injection. Regular visual inspection of the nozzle tip during service intervals is recommended.

Проверьте состояние Труба подачи мочевины с электрическим подогревом связи. A loose or damaged connector will cause a heater circuit fault. Use a multimeter to verify the resistance of the heating element within the pipe. If the resistance is infinite (разомкнутая цепь), the pipe must be replaced to prevent freezing in winter.

Осмотрите Кронштейн трубопровода сопла мочевины for cracks. Engine vibration can fatigue this metal bracket over time. A broken bracket allows the nozzle assembly to vibrate excessively, which can lead to fatigue failure of the stainless steel cooling lines or the nozzle body itself. Ensure all Hexagon Socket Head Cap Screws are torqued to specification to maintain a gas-tight seal on the exhaust flange.

Заключение: The Tip of the Spear

The FAW Русская насадка is the final, critical step in the truck’s emission control strategy. Its ability to deliver a precise, atomized mist of urea into the exhaust stream is the difference between a compliant, efficient vehicle and one plaguing its owner with fault codes and power limits. The integrated cooling and heating technologies ensure that this delicate process continues uninterrupted, even in the depths of the Russian winter.

Для менеджеров флота, сообщение ясно: the SCR system is not maintenance-free. By paying attention to the condition of the Форсунка мочевины в сборе, its cooling pipes, and its mounting hardware, you can prevent costly downtime. Using genuine FAW replacement parts guarantees that the thermal and chemical resistance of the components matches the severe demands of the application.