• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A device for testing the lubrication of an internal combustion engine has a potentiometer circuit connected between two electrodes one in contact with the crankshaft and the other in contact with the crank case, a first voltage detector of the averaging type connected directly across the potentiometer and at least one further voltage detector of the averaging type connected to a threshold discriminator which is also connected across the potentiometer; a third averaging voltage detector may be connected to a further threshold discriminator connected across the potentiometer, this latter having a threshold set at a value different from that of the first mentioned discriminator: alternatively the first mentioned discriminator may be one having two thresholds to each of which it can be switched at will.
    公开号:SU822770A3
    申请号:SU772550500
    申请日:1977-12-01
    公开日:1981-04-15
    发明作者:Бассоли Чезаре;Корнетти Джорджо
    申请人:Фиат Сочиета Пер Ациони (Фирма);
    IPC主号:
    专利说明:

    This invention relates to a device for monitoring the lubrication of the crankshaft of an internal piston engine.
    Devices are known for monitoring the lubrication of a crankshaft of a piston engine of an internal combustion, comprising two contacts, a potentiometric circuit, and a first and second detector assemblies, one contact connected to the engine crankshaft and connected through another potentiometric circuit to another contact connected to the engine block. and second . the detector node is connected in parallel with the first one, made in the form of a first average voltage detector, while the second detector node is made as a second average voltage detector and periBoro threshold discriminator connected at the output of the second average value detector fl.
    With the help of these devices, it is possible to monitor the general condition of the engine being tested, such a system can be used in diagnosing the causes of possible engine malfunctions, however
    output quantitative data that could be used to accurately determine or calculate the degree of efficiency of engine lubrication; the only quantitative indication obtained from the averaging voltvtre. And quantitative indications of this kind would be useful for solving the question of the possibility of continuing engine work without taking it out of order, as well as during experimental changes in order to improve the design of the engine lubrication system. The present invention is directed to the creation of a device for monitoring the lubrication of an internal combustion engine, which could give out direct quantitative indications either in the form of electrical signals or readable signals on a display device characterizing the efficiency of engine lubrication.
    The purpose of the invention is to create a device which allows a quantitative assessment of the state of the lubrication system of an internal combustion engine. This goal is achieved by the fact that the device additionally contains a third detector node, connected in parallel to the first node and implemented as a third detector of the average voltage and the second - direct discriminator, having a threshold level different from the threshold level of the first threshold discriminator. The first threshold discriminator is implemented with two threshold levels and contains a level switch. An electric filter is included in the device, located between the potentiometer circuit and the detector assemblies. FIG. 1 yes: a diagram illustrating a piston internal combustion engine equipped with a lubrication control system including the proposed device; in fig. I have a diagram illustrating the waveform of a load resistor; in fig. 3 - the same, on the second node of the detector; in fig. .4 - the same, in the third node of the detector. FIG. Figure 1 shows schematically a piston engine 1 of a four-stroke type internal combustion engine, having four cylinders mounted for testing on a test bench and connected to a braking device. Engine 1 contains crankshaft 2 with main bearings, bearings and a connecting rod bearing 4. The end of the crankshaft 2 is connected to the reference brake or dynamometer 5 The coupling of the crankshaft 2 to the shaft of the reference brake 5 must be designed so that the engine and brake were electrically isolated from each other. To do this, a disk 6 (FIG. 1) made of insulating material can be inserted between the connecting flanges, and these flanges can be connected to each other with the aid of bolts with insulating sleeves (not shown in FIG. 1). At a remote from the end of the control brake 5, a pulley 7 is dressed on the crankshaft 2, in the center of the outer surface of which, being the surface directed to the outer side of the engine, there is a notch or groove in which the ball 8 is pressed, having constant contact with the contact 9, made of coal or some other electrically conductive material, contact 9 is pressed against the ball 8 by means of a spring 10 insulated against the engine. The second fixed contact 11 is connected to the engine block 12 of the engine 1; in the example shown, the second fixed contact is attached to the oil collector 13. Between contacts 9 and 11 a potentiometer circuit 14 is connected, containing a battery or other source 15 of electric current, which preferably should be a stabilized power source that is switched between pins 9 and 11 through a switch 16 and an exact load resistor 17. Furthermore, between pins 9 and 11, i.e. parallel to the potentiometer circuit 14, a group of three detector nodes connected in parallel is included. The first of these nodes contains the first average voltage detector 18 (millivoltmeter), the second node contains the first threshold discriminator 19, the output of which is fed to the second average value detector 20, and the third node contains the second threshold discriminator 21, the output of which is fed to the third detector 22 average voltage. The discriminators 19 and 21 consist of threshold circuits of a known type, the outputs of which are logic level 1 or O signals, depending on whether the signals at their inputs exceed a given critical threshold level or they are less than this level. In the proposed device, the threshold voltage of the discriminator 19 is set at a higher level than the threshold voltage in the circuit of the discriminator 21, the latter being set at a value slightly above zero. The operation of the control device is as follows. The detector 18 marks a decrease in the voltage across the load resistor 17, the battery 15 and the switch 16 of the potentiometric circuit 14, this signal is shown as a curve 23 drawn as a function of time t in FIG. 2, dashed line 24 shows the average signal value corresponding to the value indicated by the detector 18, and the zero line is indicated by the index 25. If the reading of the detector 18 is less than a predetermined value, when the voltage at the terminals of the potentiometric circuit 14 is small, and therefore the current flowing through it is more, this indicates that the resistance of the entire circuit, including a film of lubricating oil, which should be located between the crankshaft 2 and the engine block in the main bearing 3, is small, which means scarlet thickness of lubricant channels and, therefore, lubrication failure. If, on the contrary, the average voltage indicated by the detector 18 is greater than the specified threshold value, this means that the lubricant is supplied well. FIG. Figure 3 shows the waveform generated by the second detector node, which are also plotted as a function of time t. Curve 26 to
    FIG. 3 is the input signal of this node, and this signal is the same signal 23, which was considered earlier, and represents the instantaneous voltage value on the potentiometer circuit 14. The input signal is fed to the discriminator 19, the critical threshold of which is shown by the dashed line 27 neither; FIG. 3. The null line is indicated by the index 28. At the output of the discriminator 19, a signal 29 is generated, a logical zero level is shown in FIG. 3 by the index 30. The logical output O is generated at a signal 26 exceeding the critical threshold value 27, and the logical 1 output when signal 26 is below a specified critical value. The pulse width of the logic unit of the signal 29, thus, depends on the ratio of the total time during which the signal 26 is below the critical threshold value of the discriminator 19. Thus, the average value of the signal 29 represents this ratio. This average value is produced by the detector 20, to which the output signal of the discriminator 19 is received, being an average value instrument, it gives indications showing the ratio of the total time during which the signal 26 has a value smaller than the critical threshold value 27. This threshold value is determined by experimentally as a quantity, below which it is known that the lubricant is insufficient, and this quantity differs in engines of various types. Therefore, the second detector assembly gives a direct reading indicating satisfactory lubrication of the engine or its failure. It is necessary, however, for each type of engine to determine experimentally the ratio of the time during which the signal must remain above the critical threshold, below this threshold ratio, the efficiency of engine lubrication is no longer acceptable.
    FIG. 4 is a diagram of signals arising in the third node of the detector, drawn as a function of time t. As before, the input signal 31 is identical to the signal 23, displaying an instantaneous;; 1) increase in the voltage drop across the potentiometric circuit 14. This signal 31. served on discriminator 21, the threshold 32 of which is set at a sufficiently low level, shown by the dashed line on phg. 4, near zero, and actually zero level; shown in FIG. 4 line 33. The discriminator 21 generates an output logic signal 34, the zero level
    which is indicated by the index 35, the signal 34 is at a logical zero level when the signal 31 exceeds the threshold 32 and is at the level of the logical unit when the signal 31 lies below the threshold 32. Thus, the duration of the pulses of the logical level of the unit in the signal 34 displays the ratio of the total time, during which the signal level 31 is below the critical value.
    0 As above, the average value of the signal 34 can therefore be used to represent the ratio of the total time during which the level of the signal 31 is below
    5 threshold 32. For this purpose, the output signal of the discriminator 21 is supplied to the average value detector 22, which gives a direct indication, showing the ratio of the time during which the signal 34 is below the critical value 32. This critical value is determined experimentally and, thus , with a decrease in the signal. 31 below this value, it is quite clear that
    5, the lubricant is insufficient, which can occur, for example, if one of the lubrication channels is damaged, or if there is a significant blockage in the lubricant duct caused, for example, by chips falling into it.
    For accurate operation of the proposed control device, in which the voltage signals supplied to the detector assemblies are inversely proportional to the current flowing in the potentiometer circuit and through the lubrication channels, it is recommended to choose the value of the resistance of the potentiometer 17 of the potentiometric circuit for significantly greater resistance of the rest of the circuit, including lubrication channels, in such a way that, in the workplace with power, the behavior of these chains will be linear to the extent that is practically possible.
    five
    The proposed device can be improved in the case; when the transmission mechanism of the crankshaft drive is wiped onto gears, by inserting the filter 36, shown in dashed
    权利要求:
    Claims (3)
    [1]
    0, the line in FIG. 1 installation of the filter 36 is useful when the voltage signal on the potentiometer 14 contains an oscillatory component arising, among other reasons, also because of the workings of the gears. When the filter setting 36 is lying above, the oscillatory components arising from the gears can be removed or separated from the rest of the signal to analyze the workings of these gears, as well as their shafts and bearings. Instead of using two independent circuits of discriminators 19 and 21, it is possible to use one discriminator having two separate thresholds corresponding to the thresholds of discriminators 19 and 21. By successively switching the threshold of this discriminator from one position to the second, it is possible to obtain two consecutive time ratio samples the signal from the potentiometric circuit has a smaller value than the values of each of the specified thresholds. Claim 1. Device for monitoring lubrication of a crankshaft of an internal combustion piston engine, comprising two contacts, a potentiometric circuit and first and second detector assemblies, one contact being connected to the engine crankshaft and connected via another potentiometer circuit from the engine block, and the second detector node is connected in parallel with the first one, made in the form of the first detector of the mean voltage value, while
    Pig.7 the second node of the detector is made as a second detector of the average voltage value and the first threshold discriminator connected at the output of the second detector of the average value, differing in that, for the purpose of quantifying, it additionally contains the third node of the detector, including. In parallel with the first node and made in the form of a third detector, the average value of voltage and the second threshold discriminator, I have a threshold level different from the threshold level of the first threshold discriminator. .
    [2]
    2. The POP.1 device, which differs in that the first threshold discriminator is executed with two threshold levels and contains a level switch.
    [3]
    3. The device according to PP.1 and 2, that is, the fact that the device includes an electric filter placed between the potentiometer circuit and the detector nodes. Sources of information taken into account in the examination 1. USSR Patent No. 520943, cl. G 01 F 23/24, 1976.
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    同族专利:
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    引用文献:
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
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