How to Set the Lincoln Continental Dashboard to Chinese?

The main causes of sunroof rattling include accumulated dust in the sliding tracks, deformed or aged sealing strips, and loose sunroof screws. If your sunroof is making noise, it is recommended to have it inspected at a professional repair shop. Aging sunroof rubber strips or sealing rings can cause rattling noises. Since sunroof sealing strips are constantly exposed to rain or intense sunlight, they are prone to aging. Rubber maintenance agents can temporarily restore the performance of the strips. Therefore, you can fully open the sunroof and spray the maintenance agent onto the sealing strips or replace the sunroof rubber strips. If the rattling noise is caused by loose sunroof screws, simply tightening the screws can resolve the issue. Loose sunroof screws not only cause rattling noises in the ceiling and sunroof but also pose a risk of the sunroof detaching. Therefore, any looseness should be addressed immediately. If dust particles are present in the sunroof sliding tracks, friction occurs when the sunroof is opened or closed, leading to rattling noises. In such cases, you can use a towel to remove the dust.

The fuel tank capacity of the first-generation Geely King Kong is 45 liters, which is the officially announced data. Owners who have purchased the first-generation Geely King Kong can also check this information on the car's configuration sheet. The recommended fuel grade for the first-generation Geely King Kong is 92 octane, with a fuel consumption of 5.6 to 7.5L per 100 kilometers. A full tank can provide a driving range of 600 to 804 kilometers. During daily driving, it is necessary to always pay attention to the remaining fuel level in the tank. This is usually observed through the fuel gauge inside the car. If there are no other issues, the fuel level will be accurately reflected on the gauge. The fuel gauge typically has 5 to 6 segments, and it is advisable to refuel when there are only 2 segments left to avoid running out of fuel midway. During actual refueling, the amount of fuel may exceed the marked capacity. This is because the fuel tank capacity marked by the car manufacturer is the volume from the bottom of the tank to the safety limit. There is additional space from the safety limit to the tank opening, which is reserved to allow for fuel expansion due to temperature increases without causing overflow. If fuel is filled up to the tank opening during refueling, the actual amount of fuel added may exceed the marked tank capacity.

When a wrench icon appears on the dashboard of a Chery vehicle, it indicates the maintenance reminder light. Below is relevant information about vehicle maintenance: Introduction to vehicle maintenance: Minor maintenance generally refers to the routine maintenance tasks performed at intervals specified by the manufacturer in terms of time or mileage to ensure vehicle performance. This mainly includes changing the engine oil and oil filter. The interval for minor maintenance depends on the effective duration or mileage of the oil and oil filter used. The validity periods of mineral oil, semi-synthetic oil, and fully synthetic oil vary by brand and grade, so follow the manufacturer's recommendations. Oil filters typically come in two types: regular and long-life. Regular oil filters are replaced along with the oil, while long-life oil filters have a longer service life. Precautions for vehicle maintenance: Avoid running the engine for extended periods in an unventilated garage. Engine exhaust contains carbon monoxide, an invisible and odorless toxic gas. Prolonged exposure to low concentrations of carbon monoxide can cause headaches, rapid breathing, nausea, vomiting, weakness, dizziness, mental confusion, and even brain damage. Avoid sucking on fuel pipes. Gasoline is not only flammable and explosive but also toxic, especially leaded gasoline, which can harm the nervous system, digestive tract, and kidneys. Avoid contact with carburetor cleaner. Most carburetor cleaners contain methyl chloride, aromatic compounds, and ethanol, all of which are toxic to some extent.

First maintenance refers to the initial service for a new car. The first maintenance for the Kia Stonic is typically performed at around 7,500 kilometers. Below is a related introduction to the first maintenance of a car: Introduction to the items included in the first maintenance: The first maintenance only requires changing the engine oil, oil filter, and air filter. The first maintenance can usually be completed in about an hour. First maintenance is very important for a car, so it's essential to perform it on time—neither delaying nor advancing it. First maintenance refers to the initial service after a new car has been driven, and the exact timing varies by vehicle, usually performed after driving 1,000 to 3,000 kilometers. Cars should undergo first maintenance on schedule, neither earlier nor later. Completing the first maintenance indicates that the vehicle's break-in period has ended, and it can then be driven according to the standard load and normal speed specified by the manufacturer. The first maintenance time is calculated from the date of vehicle delivery. There are two indicators for first maintenance: mileage and time, whichever comes first. Exceeding either of these may affect the warranty. Precautions for the first maintenance: Before the first maintenance, fully understand whether your car has any other faults or issues, and note them down. When registering for the first maintenance, inform the 4S shop about these items that need to be checked. Before maintenance, review the user manual to understand the general content of this service and any items that may require out-of-pocket expenses. A few days before the maintenance, call the 4S shop to schedule an appointment. Prepare the user manual (must bring), driver's license, digital camera, or a camera phone for the maintenance.

The recommended tire pressure range for the Mercedes V260 is 2.4-2.5 bar. Due to seasonal factors, the tire pressure can be appropriately increased by 0.2 bar in winter and decreased by 0.1 bar in summer. This data complies with the international GBT2978-2008 standard. The tire pressure monitoring data for the Mercedes V260 is displayed on the central screen of the instrument panel. Generally, the tire pressure monitoring can be operated via the steering wheel buttons. Generally speaking, a tire pressure exceeding 2.8 bar is considered too high, while a tire pressure below 2.0 bar is considered too low. Hazards of overinflated tires: Reduced friction and adhesion of the tires, affecting braking performance; causes steering wheel vibration and deviation, reducing driving comfort; accelerates uneven wear of the central tread pattern, shortening tire lifespan; increases vehicle vibration, indirectly affecting the lifespan of other components; overstretches the tire cords, reducing elasticity and increasing the load on the vehicle during driving. Hazards of underinflated tires: Increases friction with the road surface, leading to higher fuel consumption; makes the steering wheel heavy and prone to deviation, compromising driving safety; increases movement of various tire parts, causing abnormal heat due to excessive rolling; weakens the function of cords and rubber, leading to delamination or cord breakage and excessive friction with the rim, damaging the bead area and causing abnormal wear; multiplies friction between the tire and the ground, sharply raising tire temperature, softening the tire, and drastically reducing its strength. High-speed driving may result in a tire blowout. If the tire pressure monitoring indicator light comes on (a yellow symbol with an irregular circle, no stamp on top, four small spikes at the bottom, and an exclamation mark inside), it is generally due to one of the following three reasons: Abnormal tire pressure: Usually triggers an alarm when below 1.8 bar or above 3.0 bar. In this case, the tires need to be checked and the pressure adjusted. Tire pressure monitoring not reset: After inflating the tires, the system was not reset in time, causing it to display the previous data, which triggers the indicator light. Simply reset the tire pressure monitoring system. Damaged tire pressure sensor: The tire pressure sensor, installed inside the tire and connected to the inflation valve, monitors tire pressure. If the sensor is damaged during driving (e.g., by hitting a curb), the tire pressure warning light will illuminate. In this case, the only solution is to replace the sensor with a new one.

Pole shifting, parallel parking, ramp stop, single-plank bridge, curve driving, right-angle turn, pressing cakes, passing through a width-limited gate, driving on undulating roads, narrow road U-turn, simulating continuous sharp bends on mountain roads, simulating rainy/foggy weather, simulating slippery roads, simulating tunnel driving, simulating highway driving, simulating emergency handling, etc. These are the 16 items of the B2 driver's license Subject 2 test. Below is the detailed sequence of the B2 Subject 2 test items: Pole Test: Reverse from the starting point into the B garage and stop properly, then move the vehicle two times forward and two times backward to shift to the A garage and stop properly. Then drive forward out of the B garage to the control line, reverse into the A garage and stop properly, and then drive forward back to the starting point. The vehicle must not stop during the process, and the total time must not exceed 8 minutes. Parallel Parking: After the vehicle is parked properly on the right side in front of the garage, reverse into the garage in one go without stopping. The wheels must not touch or press the lane boundary lines or the garage boundary lines. Single-Plank Bridge: During the test, the vehicle must not stop, and the wheels must not fall off the bridge. Narrow Road U-Turn: Drive the vehicle to the U-turn section and park on the right side. Complete the U-turn within no more than three forward and two backward movements. The test time must not exceed 5 minutes. Right-Angle Turn: Drive the vehicle along the specified route, making a right-angle turn from left to right or right to left in one go without stopping. The wheels must not touch or press the lane boundary lines. Slope Stop and Start: Control the vehicle to stop accurately and start smoothly without rolling backward. The start time must not exceed 30 seconds. Simulated Highway Driving: After driving to the entrance ramp, turn on the left turn signal, look back to the left to observe oncoming traffic, and after confirming safety, accelerate into the driving lane to reach the minimum speed limit and drive normally, then turn off the turn signal. When changing lanes, turn on the turn signal for the lane you intend to enter, observe the traffic situation, and change lanes after confirming safety. When exiting the highway, adjust the speed and lane in advance according to the exit warning signs. Simulated Emergency Handling: During normal driving, one of the following emergency situations will be randomly selected and simulated using voice or lights: If an obstacle suddenly appears ahead, brake immediately, stop quickly, and turn on the hazard warning lights after stopping. In case of a flat tire or other vehicle malfunction while driving on the highway, reduce speed appropriately, observe the following traffic, park the vehicle steadily in the emergency lane, turn on the hazard warning lights, prompt passengers to move outside the guardrail, place the warning sign correctly, and the driver should move outside the guardrail to simulate calling for help. Curve Driving (commonly known as S-curve): The test requires the vehicle to drive on an S-shaped road of specified width without pressing the road edge lines, with smooth steering control. This assesses the driver's ability to maneuver the vehicle through curves and control its trajectory, aiming to develop skills in steering and wheel path control. Simulated Tunnel Driving: Before entering the tunnel, observe the road traffic signs at the tunnel entrance and operate accordingly. When approaching the tunnel, reduce speed, turn on the headlights, and sound the horn. When exiting the tunnel, sound the horn again and turn off the headlights. Do not sound the horn in no-horn zones. Simulated Rainy/Foggy Weather Driving: Drive at reduced speed. In rainy conditions, adjust the wiper speed according to the rainfall. In foggy conditions, turn on the fog lights, position lights, headlights, and hazard warning lights. Simulated Slippery Road Driving: Before entering the slippery road, reduce speed. After entering, use a low gear to drive steadily and control the vehicle direction smoothly. Simulated Continuous Sharp Bends on Mountain Roads: Reduce speed before reaching the bend, drive on the right side, sound the horn before entering the bend, and avoid occupying the opposite lane while driving. Passing Through a Width-Limited Gate: Drive through the three gates at a speed of no less than 10 km/h without touching the hanging rods.