Today we will talk about increasing traction. car engine during certain critical situations, in particular about the power reserve, which is created before emergency actions and about the maximum torque, which reduces the inertia of the engine. As experienced drivers say and driving instructors today we will talk about gas distribution.
Re-gas and maximum thrust
Re-gasification is an increase in engine speed in neutral or when the clutch is depressed at speed before the next gear is engaged. To prepare the car and raise the revs in advance for a sharp start or a quick maneuver.
Many novice drivers believe that rebasing is a legacy of old cars, where there were no synchronizers. But with driving training we are often told that re-gasification has not lost its relevance in modern car models, especially to increase safety in various critical moments by using the power of the car's engine.
Another way to help drivers cope with a difficult situation on the road is to maximize the car's engine thrust or torque. It can be reached at a certain speed of rotation of the automobile crankshaft... This indicator, as a rule, is indicated in the technical characteristics for vehicle... For example, for VAZ cars, the maximum engine thrust is approximately 4000 rpm.
In simple terms, it is best to overcome some critical situations when the speed is higher or corresponds to the highest torque. In this case, the engine reacts much faster to pressing the accelerator pedal. If the speed decreases, then a sharp throttling will no longer give a quick effect.
Note that today (in most cases due to high fuel prices) the so-called "economical" driving is very relevant, which is why motorists with emergency situations are less likely to help themselves with engine power.
Learning to increase power?
Various techniques are used to increase the power of a car's engine to the desired level. For example, the standard rebase before downshifting. This technique is relevant in the following cases:
- before entering a turn;
- before overtaking;
- on the rise;
First you need to disengage the clutch, and then sharply press the gas and release it sharply, which will bring the frequency value when the crankshaft rotates to the maximum torque value. Here, a reserve of 1000-1500 rpm is also made, which will be lost when the gear is switched on. Further, during the rebase, we turn on the downshift using the clutch, and then press the gas pedal.
Regazing by double pressing the clutch is used if there are any defects in the gearbox (for example, damaged synchronizers), if two engagement cycles are missed, and when shifting gears when driving on a very slippery road surface. To do this, stop the gas supply and disengage the clutch, then "open" the gas again, which will increase the speed. Next, turn off the gas and clutch again, while a downshift is needed. After that we "open" the gas.
Re-gasing in neutral is important before engaging a low gear with a skip and during intense acceleration, that is, when the power drops sharply. To perform such a rebase, you need to turn off the gas and the clutch, go to "neutral", "open" the gas (this will increase the speed and give some margin), turn on the low gear, and then press the gas.
Aftergassing, if you need to turn on an overdrive, is used by drivers to compensate for some loss of speed, for example, due to a long pause during the inclusion of an overdrive. This method is also applicable when turning on gears with one or another pass (II - IV or I - III). In dogging, you need to adhere to this sequence of actions. First, disengage the clutch and shift into neutral. Further, abruptly, quickly, but very dosed "open" and "close" the gas, after which we turn on the overdrive. At the end, we "open" the gas again.
A few words about high-speed gas transfer ...
High-speed re-gasification, when there is a slipping of the clutch and a reduction gear, or rather its inclusion, but in an impact manner, is used in those extreme situations when there is no time to perform actions.
Such re-gasification is carried out as follows. As soon as the engine starts to lose speed (although it is better to start the procedure before that), slowly disengage the clutch with a short delay, while keeping the throttle open. This gives the engine the ability to quickly ramp up. It is at this moment that you need to downshift and press the clutch. It must be said that the delay when disengaging the clutch causes it to slip and increases the speed in a short period of time, and to any level.
Clutch slip when constant gear is engaged is used to increase power when there is no time to engage a downshift. This method can be used when overcoming a steep hill (its top), an area with muddy and loose soil, while driving on snow. Incomplete disengagement-engagement of the clutch gives an additional 300-600 rpm, which accelerates the vehicle.
Note that all of the above methods have a fairly wide range of applications, as in critical traffic situations, and standard. They improve the handling and stability of the machine due to the anti-lock effect during emergency braking. In addition, these techniques are designed to generate reliable engine thrust, which reduces the severity of critical situations.
Video on how to re-gas and select rpm:
Good luck and peace of mind on the roads!
The article uses an image from the site www.kakprosto.ru
Everyone who drives a car is quite rightly confident that they can do it. But how rationally do we drive our car? Today's Driving Schools lesson will talk about when to change gears.
Why did you come up with a checkpoint? The answer to this question can be obtained by listening to the motor while driving at the same speed, but in different gears. The lower the stage, the higher the rpm at which the given tempo is maintained. That is, at the same speed, each of the gears has its own motor speed. And vice versa - at the same engine speed, the car gets the opportunity to develop different speeds. The gearbox allows the engine to be used in the rpm range that is most beneficial in terms of its maximum efficiency or economy.
Move on schedule
The "golden mean" of switching should be sought in the rpm range corresponding to the maximum torque and the greatest power (see graph). It is the first parameter that determines the intensity of the acceleration of the car.
Experiments and calculations of designers show that for passenger car with eight-valve gasoline engine with a volume of 1.0 - 2.5 liters, acceleration with switching to the top gear at speeds close to the maximum torque - about 3000 - 4000 per minute is optimal. In this case, the accelerator should be pressed about half of its stroke - opening the throttle to a greater angle increases fuel consumption, but saves a minimum of time.
A little more energetic
Fans of a more energetic "drive" (within reason, of course) can shift the point of engagement of the next gear three to four hundred revolutions higher, and the pedal can be sunk up to two-thirds of the stroke.
In a simple and understandable form for each driver, these graphics and calculations can be expressed through the speed of the car, therefore, the instructions for the car usually stipulate maximum speed movement in every gear. For example, in cars with engines of 1.2 - 2.0 liters and a five-speed gearbox, during normal driving in the first gear, it is not recommended to exceed the speed of 30 - 35 km / h, in the second - 45 - 60 km / h, in the third - 90 - 95 km / h, on the fourth - 110 - 130 km / h. Manufacturers allow for a short-term excess of these indicators by 10 - 15 km / h when overtaking or on ascents. This means that the tachometer needle (if it is in the car) can be driven into the red zone of the scale for 10 - 15 seconds.
Uniform movement
Maintaining the optimum engine speed when driving without acceleration and deceleration is determined by the same principles as for acceleration. Excessively low or high revs are undesirable and even harmful.
Driving at low revs requires more frequent gear changes, since at the slightest increase in load, you need to move to a lower gear. At the same time, by maintaining higher revs in lower gear, the driver "saves" one shift and still has a reserve of power for acceleration.
However, the positive aspects of driving on lower gears with high speed - the ability to switch less often or slightly better dynamics - are compensated by excessive fuel consumption and a reduction in resource power unit.
« A special case»
Accelerating on a steep incline, switching should be done a little later than usual, since during the movement with the transmission disengaged (with the clutch depressed) the car will have time to lose more speed than on flat terrain or a gentle slope.
Deceleration
During deceleration, competent motorists switch from top gear to lowest gear in the same rpms range (see graph) when the engine is most powerful. The main thing is to turn on the lower stage on time, not allowing the crankshaft speed to fall below the limit, beyond which the motor no longer has a torque reserve for the subsequent increase in speed.
Tachometer to help
For a rational ride, it is useful to learn and remember two specifications from the instruction manual of your vehicle. Firstly, the engine speed at which the maximum torque is reached, and secondly, the speed at which the motor develops the highest power.
Acceleration will be most vigorous if, with the correct gear and accelerator, the revs are held in close proximity to maximum torque and maximum power.
The fastest possible speed is achieved with the highest engine power setting.
Naturally, you should not drive with your eyes fixed on the tachometer in order to keep the arrow near the memorized numbers. It is enough to get used to the sound of the engine corresponding to the given rpm, and learn to automatically change gears exactly at the right moment, recorded by the memory.
On cars without a tachometer and with good noise isolation, experienced drivers, by the reaction of the car to pressing the gas pedal, by the rise and fall of acceleration, feel when to change gear.
Misconception # 1: "economic"
Some drivers abuse short accelerations - without letting the engine spin, they immediately go up to the next gear. Someone explains this by the desire to save the engine and gasoline, someone wants silence in the cabin and thus avoids the rumble that the engine emits.
Meanwhile, shifting up too early during acceleration, when the engine speed has not yet reached the maximum torque, has only a negative effect. The motor wears out more intensively due to low pressure oil and increased loads on the parts of the cylinder-piston group. In addition, with such a ride, fuel consumption increases, since in order to continue acceleration from low revs in each next highest gear, you have to open the gas pedal harder. throttle to a larger angle.
It is also unprofitable to delay the acceleration process with a small throttle opening - a third of the pedal travel or less. Any acceleration requires the supply of an increased portion of fuel, therefore its prolongation inevitably leads to an increase in fuel consumption. Time, of course, is not saved either.
Less noise
-Limited "agility" of the machine (for low-power small class models)
-Increased engine wear
-Excessive fuel consumption
-More frequent switching
Misconception # 2: "athletic"
Many drivers suffer from another "ailment" - the habit of "twisting" the motor during acceleration. They say that we drive in a sporty way, while athletes know how dynamics and speed are achieved.
But in urban conditions, it would be more correct to call this manner nervous. The fuel of such drivers intensively flies into the pipe, but the main thing is that the goal - driving in a sporty way - is still not achieved. Modern motors very high-speed and are distinguished by shifted to the area high revs maximum moment. But there is no point in “turning” the engine above the highest power rpm - the dynamics gain in comparison with the optimal mode will be, but small. In addition, "extra" crankshaft speed leads to a reduction in the resource of engine parts and an increase in fuel consumption.
There are many types of rebase. Its initial use was due to the absence of synchronizers in the variable gearbox, which excluded their smooth engagement. Today, re-gasification is used for smoother changes in engine rpm when downshifting at high speed. In the event of a downgrade, the engine and gearbox are heavily stressed, which can adversely affect performance.
How to properly re-gas?
- With a standard overturning on the rise, before overtaking, in a turn, we reset the fuel supply and squeeze the clutch. Without stopping in neutral, we lower it.
- Press and release the accelerator pedal sharply and briefly increase the fuel supply. We bring the engine speed to the value of the maximum torque. Let go of the clutch and open the throttle.
- When lowering through the gear, turn off the fuel supply to the engine, squeeze the clutch. We turn on the neutral gear and bring the engine speed to the value of the maximum torque with a margin for engaging a low gear.
- Shift down and release the clutch pedal. We increase the fuel supply.
- In the event of an extreme situation, we use high-speed re-gasification. Before the engine starts to lose RPM, hold the throttle open and slowly engage the clutch.
- At the moment of a sharp rise in revolutions, we include a downshift and clutch. Delaying the release will cause the clutch to slip, which will raise the engine speed to the level you want.
- Applying re-gasification to compensate for the loss of revolutions when increasing the gear, disengage the clutch, move the gear knob to the neutral position. Sharply, but in doses, we increase and decrease the fuel supply. Engage an overdrive, remove your foot from the clutch pedal and open the fuel supply.
