What is the actual fuel consumption of the Lavida 1.6 manual transmission?

After completing the annual inspection and starting the car, it is normal to see the fault light illuminated. However, if the fault light remains on for an extended period after the inspection, it is advisable to have it checked at a 4S shop. Below are some related details: 1. Vehicle Annual Inspection: This refers to a mandatory inspection for every vehicle that has obtained an official license plate and registration certificate. It is equivalent to an annual physical examination for the vehicle in accordance with the "Technical Conditions for Motor Vehicle Operation Safety," aimed at promptly identifying and eliminating potential safety hazards, encouraging better vehicle maintenance, and reducing the occurrence of traffic accidents. 2. Engine Number Verification: Before the inspection, staff will conduct a preliminary check, primarily to verify that the engine number matches the one on the registration certificate. They will also briefly inspect the vehicle's appearance and condition before filling out the exhaust emission test form. During the test, an inspector will drive the vehicle onto the inspection line. New vehicles usually pass easily, and once a qualified exhaust emission test form is obtained, you can proceed to the window to pay and receive the exhaust emission compliance label.

Automotive ignition advance angle refers to the crankshaft rotation angle from the moment the spark plug fires until the piston reaches the top dead center during the compression stroke. There is a time delay between the spark plug's initial firing and the complete combustion of the air-fuel mixture. The purpose of the ignition advance angle is to control this timing within the optimal range. During engine manufacturing, a fixed advance angle (typically 15°, 25°, or other values) is preset. However, this angle dynamically adjusts based on actual driving conditions. Key factors influencing ignition advance angle adjustment include: Engine Load: At constant RPM, increased load requires more air-fuel intake, raising engine temperature and accelerating combustion. This necessitates reducing the advance angle. Engine Speed: Higher crankshaft RPM means less time to complete the same rotation angle. Since mixture burn rate remains constant, the advance angle must increase to ensure complete combustion. Conversely, lower RPM requires decreased advance. Engine Temperature: During cold starts, poor fuel atomization slows combustion, requiring increased advance for sufficient burn time. As temperatures rise and atomization improves, the angle should decrease. Knocking: Two scenarios require angle reduction: 1) Excessive advance causing piston slap-induced knocking; 2) Abnormal combustion waves (from spontaneous ignition) colliding with normal flame fronts and piston movement. Proper adjustment ensures all forces act during the power stroke, preventing instability. Additional factors like octane rating, compression ratio, and atmospheric pressure also affect advance angles, requiring case-specific adjustments.

There are several reasons why a car may not start and make no sound after powering on, including incorrect gear selection, steering wheel not being straightened when parked, insufficient fuel, weak battery, clogged or damaged components, etc. For automatic transmission cars, drivers may forget to shift into P (Park) or leave the gear in N (Neutral). If the gear is in R (Reverse) or another position, the car will not start and may pose safety risks. Simply shifting to P and attempting to start again should resolve this issue. If the steering wheel is not straightened to a certain angle when parked, the steering lock may engage, preventing the key from turning and the car from starting. To release the steering lock, gently turn the steering wheel in the opposite direction while turning the key. For automatic transmission models, do not press the brake pedal initially; instead, gently turn the steering wheel in the opposite direction and press the start button to deactivate the lock. Insufficient fuel can be checked by observing the fuel gauge to confirm the actual remaining fuel level. A weak car battery can also prevent the engine from starting. Testing the horn's loudness can help determine if the battery is weak. Using jumper cables to charge the battery can resolve this issue. Clogged fuel filters, blocked fuel pump screens, severely carbon-fouled spark plugs, or a faulty starter motor can all prevent the car from starting normally. It is advisable to visit a repair shop for a detailed inspection and necessary repairs.

The causes of electrical leakage include issues with the vehicle's alternator, main relay, etc. Electrical leakage in a car refers to the phenomenon where the battery gradually discharges while the vehicle is parked, leading to difficulties in starting the car or malfunctioning electrical equipment. Specific reasons: The primary cause is insufficient power generation from the vehicle's alternator, meaning the alternator is faulty. Particularly during rainy nights when more electrical devices are in use, the battery may also lose charge. Prolonged undercharging can significantly reduce the battery's storage capacity, resulting in the inability to start the car the next day. If the car occasionally fails to start and checks on the alternator and the vehicle's static current show no issues, it is advisable to inspect the contacts of the "main relay" in the main control system for any signs of sticking. This issue is often subtle and may not be detected after replacing the battery or starting the car. Alternatively, replacing the main relay might help. Some cars may suddenly lose battery power the next day, making it impossible to start. This is mainly due to electrical devices operating in the circuit, such as trunk lighting or other devices not controlled by the ignition switch that continue to consume power. Batteries that have been in use for a long time, some for three or four years, may still function. Although the battery's capacity might seem sufficient, the shedding of active material inside the battery can fill the slots, creating a circuit between the positive and negative plates and causing discharge. Frequent driving on bumpy roads can also lead to premature shedding of active material, resulting in the same issue. Methods to address undercharging: Among various car maintenance issues, undercharging (electrical leakage) is a very common problem. Generally, for carburetor cars (with fewer electronic control modules and power-consuming components), the natural discharge over about two weeks should not significantly affect starting (the battery itself has some self-discharge). For electronically controlled cars (with more electronic control modules and power-consuming components), not starting for about a week may affect normal starting. If the time frame is shorter than this, it indicates a fault or a problem with the battery itself. Apart from normal power loss, another scenario is difficulty starting after leaving the car unused for a few days following nighttime use. If there is no electrical leakage, the car's charging system should be checked. Sometimes, loose connections in the charging circuit can prevent the battery from being fully charged, leading to a semi-discharged state during peak power usage (such as summer nights). Over time, this can mimic electrical leakage. Methods to detect electrical leakage in cars: When a vehicle is hard to start, measuring the starting current to assess the battery's condition is one of the primary diagnostic steps. To measure, adjust the meter's range to "40A/200A," open the clamp, and place the meter head around the positive terminal cable of the battery. Another person assists by starting the engine. At the moment of starting, the technician operating the clamp meter presses the DH button to hold the data. Since starting the engine and pressing the DH button are performed by two people and may not be synchronized, multiple measurements may be necessary. As the starting current is instantaneous, the DH button's data-holding function is particularly important here.

Safety belts can be categorized into three types based on different usage conditions: pole work safety belts, area restriction safety belts, and fall arrest safety belts. Pole work safety belts: These safety belts secure the worker near a fixed structure by wrapping a rope or belt around the structure, allowing the worker to use both hands for other tasks. Fall arrest safety belts: These safety belts are designed to suspend a worker in the event of a fall during high-altitude work or climbing. Area restriction safety belts: These safety belts limit the worker's range of movement to prevent them from reaching areas where falls could occur.

Haval currently does not have new energy vehicles. Its lineup includes three series: H series, F series, and M series. Brand: Haval is a sub-brand of Great Wall Motors. The Haval brand, which mainly focuses on SUV models, operates in parallel with the Great Wall brand, using independent logos, independent product development, production, service systems, etc., and is mainly engaged in SUV production and sales. Power: The Haval H6 is the flagship model of the Haval brand. The Haval H6 is equipped with two engines: 1.5T and 2.0T, with engine models GW4B15A and GW4C20B respectively. Body dimensions: The vehicle has a length, width, and height of 4640mm, 1825mm, and 1690mm respectively, with a wheelbase of 2680mm.