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• 苏州小熊

  Abstract
  An engine speed control system causes an engine, equipped with an automatic transmission which shifts up according to predetermined shift schedules, to reduce its output at a predetermined engine speed so as to protect the engine by preventing the engine from being subjected to "over-revolution." The predetermined engine speed is changed according to engine operating conditions such as a decrease in engine temperature. Simultaneously, a shift-up vehicle speed, at which the automatic transmission shifts itself up, is decreased according to engine operating conditions and, more particularly, engine temperatures and throttle openings. As a result, an up-shift of the automatic transmission properly takes place, even when the vehicle travels at lower speeds.
  Claims
  1. An engine speed control system for an automobile engine equipped with an automatic transmission, said engine speed control system comprising:
  over-revolution prevention means, actuated at a predetermined engine speed so as to decrease engine output, for preventing said engine from being brought into over-revolution while said engine operates under loads; engine operating condition detecting means for detecting an engine operating condition, including at least a throttle opening of an engine throttle valve; speed altering means for altering said predetermined engine speed depending upon said engine operating condition detected by said engine operating condition detecting means; and shift-up vehicle speed shift means for determining a regular shift-up vehicle speed, at which said automatic transmission is shifted up, according to a throttle opening of said engine throttle valve detected by said engine operating condition detecting means, and shifting said regular shift-up vehicle speed in response to a alteration of said predetermined engine speed. 3. An engine speed control system as recited in claim 2, wherein said engine operating condition detecting means also detects an engine temperature, said speed altering means decreasing said predetermined engine speed as an engine temperature detected by said engine operating condition detecting means becomes lower.
  4. An engine speed control system as recited in claim 3, wherein said shift-up vehicle speed shift means shifts said regular shift-up vehicle speed by shift coefficients according to engine temperatures detected by said engine operating condition detecting means.
  5. An engine speed control system as recited in claim 4, wherein said shift-up vehicle speed shift means decreases said regular shift-up vehicle speed in response to a decrease in said predetermined engine speed.
  6. An engine speed control system as recited in claim 5, wherein said shift-up vehicle speed shift means decreases said regular shift-up vehicle speed in response to a decrease in said predetermined engine speed only while said engine operates at certain engine loads.
  7. An engine speed control system as recited in claim 6, wherein said shift-up vehicle speed shift means increases said regular shift-up vehicle speed in response to an increase in said predetermined engine speed while said engine operates at other engine loads.
  8. An engine speed control system as recited in claim 3, wherein said shift-up vehicle speed shift means includes means for limiting a throttle opening of said engine throttle valve detected by said engine operating condition detecting means to a predetermined guard opening.
  9. An engine speed control system as recited in claim 8, wherein said shift-up vehicle speed shift means decreases said regular shift-up vehicle speed in response to a decrease in said predetermined engine speed.
  10. An engine speed control system as recited in claim 9, wherein said shift-up vehicle speed shift means decreases said regular shift-up vehicle speed in response to a decrease in said predetermined engine speed only while said engine operates at certain engine loads.
  11. An engine speed control system as recited in claim 10, wherein said shift-up vehicle speed shift means decreases said regular shift-up vehicle speed in response to an increase in said predetermined engine speed while said engine operates at other engine loads.
  12. An engine speed control system for an automobile engine equipped with an automatic transmission which shifts up at predetermined shift-up vehicle speeds according at least to throttle openings, said engine speed control system comprising:
  over-revolution prevention means, actuated at a predetermined engine speed so as to decrease engine output, for preventing said engine from being brought into over-revolution while said engine operates under loads;
  engine temperature detecting means for detecting an engine operating temperature of said engine;
  speed altering means for decreasing said predetermined engine speed with a decrease in engine temperature detected by said engine temperature detecting means; and
  shift-up vehicle speed shift means for decreasing a predetermined shift-up vehicle speed in response to a decrease of said predetermined engine speed.
  13. An engine speed control system as recited in claim 12, wherein said shift-up vehicle speed shift means decreases said predetermined shift-up vehicle speed in response to a decrease of said predetermined engine speed only while said engine operates at certain engine loads.
  14. An engine speed control system as recited in claim 13, wherein said shift-up vehicle speed shift means increases said predetermined shift-up vehicle speed in response to a decrease of said predetermined engine speed while said engine operates at other engine loads.
  15. An engine speed control system for an automobile engine equipped with an automatic transmission which shifts up at predetermined shift-up vehicle speeds according at least to throttle openings, said engine speed control system comprising;
  over-revolution prevention means, actuated at a predetermined engine speed so as to decrease engine output, for preventing said engine from being brought into over-revolution while said engine operates under loads;
  engine temperature detecting means for detecting an engine operating temperature of said engine;
  speed altering means for decreasing said predetermined engine speed with a decrease in engine temperature detected by said engine temperature detecting means;
  throttle valve opening detecting means for detecting a throttle opening of an engine throttle valve; and
  shift-up vehicle speed shift means for limiting the throttle opening of said engine throttle valve to a predetermined guard opening according to which a predetermined shift-up vehicle speed is restrictively determined when said engine temperature detecting means detects a predetermined engine temperature.
  16. An engine speed control system for an automobile engine equipped with an automatic transmission, said engine speed control system comprising:
  over-revolution prevention means, actuated at a predetermined engine speed so as to decrease engine output, for preventing said engine from being brought into over-revolution while said engine operates under loads;
  engine operating condition detecting means for detecting an engine operating condition, including at least an engine load on said engine;
  speed altering means for altering said predetermined engine speed depending upon said engine operating condition detected by said engine operating condition detecting means; and
  shift-up vehicle speed shift means for determining a regular shift-up vehicle speed, at which said automatic transmission is shifted up, according to the engine load detected by said engine operating condition detecting means, and shifting said regular shift-up vehicle speed in response to an alteration of said predetermined engine speed.
  Description of Related Art
  In order to prevent an automotive engine from operating in an "over-revolution" condition, i.e., at rotational speeds beyond a specific rotational speed for which the engine is rated, it is typical to establish an upper critical speed for the automotive engine so as to prohibit an undesirable rise in rotational speed beyond the upper critical speed. Such an upper critical speed is referred to as an over-revolution restrictive speed in this specification. Prohibiting such an undesirable speed rise is performed by interrupting or cutting fuel supply to the engine, by controlling fuel ignition, or by controlling the rate at which intake air is admitted into the engine. An engine speed control system having an over-revolution prevention feature is known from, for instance, Japanese Unexamined Utility Model No. 59-194,550. On the other hand, because engine lubrication qualitatively deteriorates with a decrease in engine temperature, it has been proposed to lower the over-revolution restrictive speed, depending on a decrease in engine temperature, so as to realize reliable engine lubrication over allowable engine speeds.
  Automotive engines require a certain speed control so that an over-revolution restrictive speed becomes lower for low engine temperatures. Such a speed control is hereafter referred to as an over-revolution prevention control, and is provided to protect the engine against deterioration of engine lubrication at low engine temperatures. Executing the over-revolution prevention control at low engine temperatures, however, may cause an automatic transmission to fail to up-shift in response to a requirement for quick acceleration. Moreover, an over-revolution prevention control system for an engine equipped with an automatic transmission may also have the disadvantage of letting the engine operate too sluggishly in speed for a long period of time to cause an up-shift, even if quick acceleration is needed. This is because the engine is normally forced to maintain a higher speed while operating at lower temperatures. This causes the shift-up vehicle speed to become higher, thereby heating up the engine. However, since the over-revolution restrictive speed established for lower engine temperatures remains low, although the shift-up vehicle speed is changed so that it becomes higher, no up-shift of the automatic transmission takes place, even though the engine operates at full throttle.
  这是英文原文，瑞士的～希望对楼主有用！您还可以参考以下网站：;lt;br />shu.com/design/2007/1128/article_70.html

  浏览 249赞 109时间 2024-04-27
• lingling8826

  Automobile engine to a certain speed can be achieved under the best conditions, when compared issued by the power, fuel economy is relatively good. Therefore, we hope that the engine is always in the best of conditions to work under. However, the use of motor vehicles need to have different speeds, thus creating a conflict. Transmission through this conflict to resolve.
  
  Automotive Transmission role sum up in one sentence, called variable speed twisting, twisting or slow down the growth rate by increasing torsional. Why can slow down by twisting, and the growth rate but also by twisting? For the same engine power output, power can be expressed as N = wT, where w is the angular velocity of rotation, and T Niuju. When N fixed, w and T is inversely proportional to the. Therefore, the growth rate will reduce twisting, twisting slowdown will increase. Automotive Transmission speed gear based on the principle of variable twisted into various stalls of different transmission ratio corresponding to adapt to different operational conditions.
  
  General to set up a manual gearbox input shaft, intermediate shaft and output shaft, also known as the three-axis, as well as Daodang axis. Three-axis is the main transmission structure, input shaft speed is the speed of the engine, the output shaft speed is the intermediate shaft and output shaft gear meshing ween different from the speed. Different gears are different transmission ratio, and will have a different speed. For example Zhengzhourichan ZN6481W2G manual transmission car-SUV, its transmission ratio are: 1 File 3.704:1; stalls 2.202:1; stalls 1.414:1; stalls 1:1 5 stalls (speeding file) 0.802: 1.
  
  When drivers choose a launch vehicle stalls, Plectrum will be 1 / 2 file synchronization engagement with a back stall gear and output shaft lock it, the power input shaft, intermediate shaft and output shaft gear of a stall, a stall the output shaft gear driven, and the output shaft power will be transmitted to the drive shaft (red arrow). A typical stall Biansuchilun transmission ratio is 3:1, that is to say three laps to the input shaft and output shaft to a circle.
  
  When the growth rate of car drivers choose two stalls, Plectrum will be 1 / 2-file synchronization and file a joint separation after 2 stall and lock the output shaft gear, power transmission line similar, the difference is that the output shaft gear of a stall 2 stall replaced by the output shaft gear driven. 2 stall Biansuchilun typical transmission ratio is 2.2:1, 2.2 laps to the input shaft and output shaft to a circle than a stall speed increase, lower torque.
  
  When refueling vehicle drivers growth stalls option 3, Plectrum to 1 / 2 back to the free file-synchronization position, and also allows the 3 / 4 file synchronization Mobile stall until 3 in the output shaft gear lock, power can be into the shaft axis - intermediate shaft - the output shaft of the three stalls Biansuchilun, led through three stalls Biansuchilun output shaft. 3 stalls typical transmission ratio is 1.7:1, 1.7 laps to the input shaft and output shaft to a circle is further growth.
  
  When car drivers Option 4 refueling growth stalls, Plectrum will be 3 / 4 from the 3-file synchronization stall gear directly with the input shaft gear joint initiative, and power transmission directly from the input shaft to the output shaft, the transmission ratio at 1:1, that the input shaft and output shaft speed the same. The driving force without intermediate shaft, also known as direct file, the file transmission than the maximum transmission efficiency. Most cars run-time files are used directly to achieve the best fuel economy.
  
  Shift into the first interval when, in a free transmission when Biansuchilun output shaft is not locked in, they can not rotate the output shaft driven, not power output.
  
  General automotive manual transmission than the main 1-4 stalls, usually the first designers to determine the minimum (one stall) and maximum (4 files) transmission ratio, the middle stall drive by geometric progression than the general distribution. In addition, there are stalls Daodang and speeding, speeding file is also known as the five stalls.
  
  When the car to accelerate to more than car drivers with the choice of five stalls, and a typical five-transmission ratio is 0.87:1, which is driven by a pinion gear, the gear when the initiative to 0.87 zone, passive gear have been transferred to a circle of the End.
  
  Dao Dang, the opposite direction to the output shaft rotation. If one pair of meshing gears when we reverse rotation, with a middle gear, it will become the same to the rotation. Use of this principle, we should add a gear Daodang the "media" will be rotational direction reversed, it will have a Daodang axis. Daodang installed in the transmission shaft independent crust, and the intermediate shaft parallel axis gear with the intermediate shaft and output shaft gear meshing gears, will be contrary to the output shaft.
  
  Daodang usually used for the synchronization control also joins five stalls, stalls and Daodang 5 position in the same side. As a middle gear, the general transmission Daodang transmission ratio greater than 1 file transmission ratio, by twisting, steep slope with some vehicles encountered on the progress stalls falters with a Daodang boost.
  
  Ride from the driver of the considerations, ter transmission stall, stall adjacent stall more than the transmission changes the ratio of small, and easy to shift smoothly. However, the shortcomings of the stalls is more transmission structure is complicated, bulky, light vehicle transmission is generally 4-5 stalls. At the same time, transmission ratio is not integral, but with all of the decimal point, it is because of the gear teeth meshing is not caused by the whole multiples of two gear teeth can lead to the whole multiples of two meshing gears of uneven wear, making the tooth surface quality have a greater difference.
  
  --- Manual transmission and synchronization of --
  
  Manual transmission is the most common transmission, or MT. Its basic structure sum up in one sentence, is a two-axle shaft, where input shaft, the shaft axis and intermediate shaft, which constitute the main body of the transmission and, of course, a Daodang axis. Manual transmission known as manual gear transmission, which can be in the axial sliding gears, the gears meshing different variable speed reached twisting purpose. Typical manual transmission structure and principles are as follows.
  
  Input shaft also said that the first axis, and its front-end Spline driven directly with the clutch disc sets with the Spline, by the transfer of torque from the engine. The first axis of the intermediate shaft and gears meshing gears often, as long as the shaft axis to a turn, the intermediate shaft and gear also will be rotating. Vice also said intermediate shaft axis, the axis-even more than the size gear. Also known as the second output shaft axis, the axis of various sets of gear stall progress can be manipulated at any time in the role of the device and the corresponding intermediate shaft gear meshing, thus changing its speed and torque. With the end of the output shaft spline associated with the drive shaft through the drive shaft torque transmitted to the drive axle reducer.
  
  Thus, progress stalls drive transmission path is: input shaft gear often rodents - often rodents intermediate shaft gear - corresponding intermediate shaft gear - the second axis corresponding gear. Reversing the gear shaft can be manipulated by the device pick in the axis movement, and the intermediate shaft and output shaft gear meshing gears, to the contrary to the direction of rotation output.
  
  Most cars have five stalls and a Daodang forward, a certain degree of each stall transmission ratio, the majority of stalls transmission ratio greater than 1, 4 file transmission ratio of 1, known as direct stalls, and transmission ratio is less than 1 No. 5 stall called accelerated stall. Free at the output shaft gear in a position of non-engagement, unacceptable power transmission.
  
  The transmission input shaft and output shaft rotational speed to their own, transform a stall when there is a "synchronous". Two different rotational speed gear meshing force will impact the collision occurred, damage gear. Therefore, the old transmission shift to a "feet-off" approach, or stall on the location of the free stay for a while by stalls in the free position refueling doors, in order to reduce the speed differential gear. However, this operation is relatively more complicated and difficult to grasp accurate. So designers create a "synchronized," and allows synchronization through the meshing of gears to be consistent speed and smooth meshing.
  
  At present Synchronous Transmission is based on the synchronization of inertia, mainly from joint sets, synchronous lock ring, and so on, it is characterized by friction on the role of synchronization. Splice sets Genlock engagement ring gear and the ring gear when it had Chamfer (Lock angle), Genlock within the cone ring gear engagement with the question of cone ring gear contact friction. Lock and cone angle has been made in the design of an appropriate choice to be made friction cone of the teeth meshing with the ring gear quickly sets pace at the same time will have a Lock role and to prevent the gears meshing in sync before. When synchronization lock cone ring gear engagement with the question of cone ring gear after contact in the effects of friction torque gear speed quickly lower (or higher) with the same speed synchronous lock ring, the two synchronous rotation of the gear Genlock Central zero speed, thus moment of inertia also disappear, then in force under the impetus of engagement sets unhindered and synchronization lock ring gear engagement, and further engagement with the question of gear engagement and the completion Gear Shift Process.
  
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  浏览 445赞 119时间 2022-03-02