What is the model of the electric hoist gantry crane?

The reasons for excessive tire pressure include: over-inflation of the tire leading to high pressure; hot weather causing gas expansion and increased pressure; prolonged driving generating heat through friction, raising the pressure; and aging or worn suspension components related to the wheels, resulting in misalignment, uneven wear, higher temperature, and increased tire pressure. Hazards of excessive tire pressure: Reduced friction and adhesion of the tire, affecting braking performance; causing steering wheel vibration and deviation, reducing driving comfort; accelerating wear on the central tread pattern, shortening tire lifespan. Increased vehicle vibration, indirectly affecting the lifespan of other components; excessive stretching deformation of tire cords, reducing tire elasticity and increasing the load on the vehicle during driving; decreased puncture resistance. When encountering sharp objects like nails or glass on the road, they can easily penetrate the tire, causing internal cracks or blowouts due to impact, leading to a tire burst.

The differences between the Kodiaq and the Kodiaq GT are as follows: 1. The front fascia of the Kodiaq and the Kodiaq GT does not have significant differences, with the design being largely consistent. The rear part of the body, however, features two distinct styles. From the side view, the Kodiaq has a square and rugged profile, embodying a traditional SUV shape. In contrast, the Kodiaq GT adopts a fastback design, presenting a typical coupe style. While the rear design is roughly similar, the Kodiaq GT has a more pronounced rear window slope. 2. The interior dashboard design of both models is largely similar. The most notable difference lies in the seats. The Kodiaq uses conventional seats, whereas the Kodiaq GT is equipped with integrated sport seats, which offer significantly better support and body-hugging fit compared to standard seats.

The foot brake in the Sylphy operates on the same principle as the handbrake, except it is activated by foot pedal instead of a hand lever. Additionally, the foot brake is typically positioned to the left of the brake pedal, saving space in the center console area and contributing to a more aesthetically pleasing design. Generally, vehicles equipped with foot brakes are automatic transmission models. The specific usage of the foot brake varies slightly depending on the scenario, as detailed below: 1. Parking on flat ground: After the vehicle comes to a stop, press the brake pedal, shift to P (Park) gear, then engage the foot brake before releasing the brake pedal. 2. Parking on a slope: After the vehicle stops and the brake pedal is pressed, engage the foot brake first before shifting to P (Park) gear to prevent the vehicle from rolling. 3. The foot brake has its pros and cons. Since it shares the same principle as the handbrake, it offers high stability and rarely malfunctions. Moreover, using the foot brake requires less effort than the handbrake, and it does not occupy space in the center console, enhancing the design's aesthetics. However, novice drivers might accidentally press the foot brake. Additionally, for drift enthusiasts, the foot brake is less effective compared to the direct action of a handbrake.

The shaking during cold starts in the eighth-generation Civic could be due to severe carbon buildup in the engine. The most common cause of car shaking is a dirty throttle body or excessive carbon deposits in the fuel injectors. More relevant information is as follows: 1. When there is excessive carbon buildup inside the engine, the gasoline sprayed by the cold-start injector can be largely absorbed by the carbon deposits, resulting in an overly lean air-fuel mixture during cold starts and making it difficult to start the engine. In this situation, the engine will only start easily once the carbon deposits have absorbed enough gasoline to reach saturation. 2. After starting, the gasoline adsorbed on the carbon deposits will be drawn into the combustion chamber by the engine's vacuum suction, causing the air-fuel mixture to become too rich. This fluctuation between lean and rich mixtures leads to unstable idling and shaking after a cold start. The lower the temperature, the more fuel is required for a cold start, and the presence of carbon deposits will significantly affect whether the cold start proceeds smoothly.

The urban fuel consumption of the Tiguan L 1.8T is 12-13L/100km. Additional information: Appearance: The Tiguan inherits the Volkswagen family's design features, presenting a full and robust front, smooth side lines, and a stylish rear. The interior space has been enhanced, with a generous wheelbase providing excellent legroom; the trunk capacity is slightly limited but overall suitable for family use. Interior: The interior design is simple, with various buttons conveniently placed and easy to operate; the black interior is understated and elegant; the craftsmanship is excellent, with thick and well-contoured seats offering comfortable seating; ample and practical storage spaces; panoramic sunroof.

The following are the main reasons why a car jerks when accelerating at low speeds: 1. Engine oil passage blockage: If the car jerks while driving, it may indicate an engine issue. The engine's ignition, air intake, and fuel injectors collectively determine fuel combustion, which is the source of the engine's power. If the air intake decreases, ignition weakens, or fuel injection reduces, the power output will be insufficient, resulting in a jerking sensation. 2. During the break-in period of a new car, slight jerking while driving is normal. This is because the vehicle's power output and component engagement are not yet at their optimal levels, and the transmission's computer has a self-learning mechanism that continuously adjusts oil pressure for gear shifting.