RU2368879C1 - Device for measurement of maximum power on shaft - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention is related to measurement equipment and may be used to measure maximum power developed by pneumatic motor. Device comprises detectors of torque and turn angle, which are installed on shaft of electromagnetic brake with excitation coil, and measurement unit comprising the first counter of pulses, the second counter of pulses, trigger, digital indicator, supply unit and control buttons. Additionally device is equipped with analog-digital converter, computing device, memory register, digital comparator, memory unit, digital timer, element "OR", pulse shaper and electromagnetic valve with excitation coil.

EFFECT: possibility to automatically detect maximum power on engine shaft.

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Description

The invention relates to measuring equipment and can be used to measure the maximum power developed by an air motor.

A device is known for measuring power on a motor shaft, comprising torque and angle sensors mounted on an electromagnetic brake shaft with an excitation coil, and a measuring unit comprising a first pulse counter, connected to an output of an angle sensor by a counting input, and a second pulse counter connected to digital-to-analog converter inputs, trigger, digital indicator, power supply and control button (see AC No. 1525499, publ. 11/30/1989).

The disadvantage of this device is the inability to determine the maximum power on the motor shaft in automatic mode.

The technical result of the invention is the automatic determination of the maximum power on the motor shaft.

The specified technical result is achieved by the fact that the device for measuring maximum power on the motor shaft, comprising torque and angle sensors mounted on the shaft of the electromagnetic brake with an excitation coil, and a measurement unit containing a first pulse counter connected to the output of the angle sensor by a counting input, the second pulse counter, outputs connected to the inputs of the digital-to-analog converter, a trigger, a digital indicator, a power supply and a control button, is equipped with an analog-to-digital converter an indicator, a computing device, a memory register, a digital comparator, a memory unit, a digital timer, an “OR" element, a pulse shaper and an electromagnetic valve with an excitation coil that connects the air motor to the pneumatic network, the output of the torque sensor through an amplifier is connected to the input of an analog-to-digital converter, outputs connected to the first information inputs of the computing device, the outputs of the first pulse counter are connected to the inputs of the memory block, the output connected to the MF the input of the second pulse counter, the first input of the “OR” element, the input “Reset” of the digital timer and the input “Calculation” of the computing device, the output of the digital-to-analog converter through the electromagnetic brake excitation coil is connected to the output of the power supply, the outputs of the digital timer are connected to the second information inputs of the computing devices, information outputs connected to the inputs of the memory register and the first inputs of the digital comparator, the second inputs connected to the outputs of the memory register, and the output is to the “Record” input of the memory register, the outputs of the memory register are also connected to the inputs of the digital indicator, the trigger S-input of the trigger is connected to the high-order output of the second pulse counter, the R-input via the control button to the bus “Logical unit voltage”, and the trigger output is connected to the input of the transistor switch, the output through the excitation coil of the electromagnetic valve connected to the output of the power supply, the trigger output through the pulse shaper is connected to the second input of the element "OR" and installation m inputs of the second pulse counter and a computing device and the output of the "OR" element is attached to the input of the first pulse counter.

The drawing shows a functional diagram of a device for measuring maximum power.

A device for measuring maximum power on the motor shaft contains sensors 1 and 2 of torque and angle of rotation mounted on the shaft 3 of the electromagnetic brake 4 with an excitation coil 5 and a measurement unit 6, comprising a first pulse counter 7, connected to the output of the angle sensor 2 by a counting input, the second counter 8 pulses, the outputs connected to the inputs of the digital-to-analog converter 9, trigger 10, digital indicator 11, power supply unit 12 and control button 13, analog-to-digital converter 14, computing device 15, reg mp 16 memory, digital comparator 17, memory unit 18, digital timer 19, OR element 20, pulse shaper 21 and electromagnetic valve 22 with an excitation coil 23 that connects the air motor 24 to the pneumatic network 25, the output of the torque sensor 1 through an amplifier 26 is connected to the input of the analog-to-digital Converter 14, the outputs connected to the first information inputs of the computing device 15, the outputs of the first counter 7 pulses are connected to the inputs of the memory unit 18, the output connected to the counting input of the second counter 8 imp Ls, the first input of the element “OR” 20, the input “Reset” of the digital timer 19 and the input “Calculation” of the computing device 15, the output of the digital-analog converter 9 through the coil 5 of the excitation of the electromagnetic brake 4 is connected to the output of the power supply unit 12, the outputs of the digital timer 19 are connected to the second information inputs of the computing device 15, the information outputs connected to the inputs of the memory register 16 and the first inputs of the digital comparator 17, the second inputs connected to the outputs of the memory register 16, and the output to inputs The “Record” ode of the memory register 16, the outputs of the memory register 16 are also connected to the inputs of the digital indicator 11, the installation S-input of the trigger 10 is connected to the high-order output of the second counter of 8 pulses, the R-input through the control button 13 to the bus 27 "Logic unit voltage ", And the trigger output 10 is connected to the input of the transistor switch 28, the output through the excitation coil 23 of the electromagnetic valve 22 connected to the output of the power supply unit 12, the output of the trigger 10 through the pulse shaper 21 is connected to the second input of the OR element 20 and new inputs of the second counter 8 pulses and computing device 15, and the output of the element 20 "OR" is connected to the installation input of the first counter 7 pulses.

A device for measuring maximum power on the motor shaft operates as follows.

The shaft 3 of the electromagnetic brake 4 is connected to the test engine 24 and the control button 13 is pressed.

In this case, the trigger 10 is set to a single state, a logical unit voltage appears at its output, which is supplied to the input of the transistor switch 28. The transistor switch 28 opens and connects the excitation coil 23 of the electromagnetic valve 22 to the power supply unit 12. The valve 22 is activated and connects the engine 24 to the pneumatic network 25. The engine 24 comes into rotation.

Since when the control button 13 is pressed, the counters 7, 8 and the memory register 16 are initialized, there is no voltage at the output of the digital-to-analog converter 9, so the motor 24 rotates without load.

When the motor 24 is rotated, pulses with an engine speed of 24 appear at the output of the sensor 2. These pulses are fed to the input of the pulse counter 7. The outputs of the counter 7 pulses are connected to the inputs of block 18 of the memory.

In this case, information about the number of revolutions at which the load on the brake shaft 3 does not change, for example, 10 revolutions, is preliminarily recorded in the memory unit 18. Therefore, when the engine makes 10 revolutions, a pulse appears at the output of the memory unit 18, which is fed to the input of the second counter 8 pulses.

At the same time, the pulse from the output of the memory unit 18 through the OR element 20 is supplied to the installation input of the first pulse counter 7 and sets it to its initial state.

The counter again begins to count the pulses of the angle sensor 3 and at the output of the memory unit 18, pulses will be generated with a frequency 10 times lower than the engine speed 24.

The pulses from the output of the memory unit 18 are received at the input of the counter 8.

Since the outputs of the counter 8 are connected to the inputs of the digital-to-analog converter 9, a step-increasing voltage appears at the output of the digital-to-analog converter, and the duration of each stage is 10 periods of rotation of the motor 24, and the amplitude of the stage is set so that for a full load of the motor 24 there should be at least 100 steps.

The appearance of a stepwise increasing voltage at the output of the digital-to-analog converter 9 leads to the appearance of a stepwise increasing braking torque on the shaft 3 of the brake 4.

In this case, a voltage proportional to the braking torque on the shaft 3 appears at the output of the torque sensor 1, which is fed through an amplifier 26 to the input of the analog-to-digital converter 14. The analog-to-digital converter carries out the conversion of a voltage proportional to the braking torque to a digital code that is supplied to the information inputs computing device 15, the second information inputs of the computing device 15 receives a code from the outputs of the digital timer 19, corresponding to the time during which tor 24 makes 10 revolutions since start timer 19 is performed by pulses from the output 18 of the storage unit.

Since at the information inputs of the computing device there are digital codes of the magnitude of the torque and time of the engine 24, 10 revolutions when the digital torque converter 9 has the braking torque installed on the shaft 3 of the brake 4, then the pulse from the output of the memory unit 18, received at the input “Calculation”, the computing device 15 calculates the power of the engine 24 at a set value of the braking torque.

A digital code corresponding to the power value is supplied to the inputs of the memory register 16 and the digital comparator 17.

The second inputs of the digital comparator 17 receives a digital code from the outputs of the memory register 16. If the code from the outputs of the memory register 16 is less than the code from the outputs of the computing device 15, then, by the pulse from the output of the digital comparator 17, the code from the outputs of the computing device 15 is recorded in the memory register 16.

The pulse from the output of the memory unit 18, received at the input of the counter 8, increases the voltage at the output of the digital-to-analog converter, which leads to an increase in the braking torque on the shaft 3 of the brake 4.

Thus, the engine 24 is gradually loaded to the maximum moment.

Moreover, at each loading step, the value of the power developed by the engine is determined.

Using a digital comparator 17 in the register 16 is stored the maximum value of the power that developed the engine 24 during the test.

When a pulse occurs at the output of the high-order bit of the counter 8 pulses, the trigger 10 is set to zero, the voltage at its output disappears, which leads to the closure of the transistor switch 28 and the electromagnetic valve 22 is turned off. The valve is activated and disconnects the engine 24 from the pneumatic network 25. The engine test is completed .

From the digital indicators 11 can be considered the value of the maximum power developed by the engine.

An introduction to a device for measuring maximum power on an engine shaft, comprising torque and angle sensors mounted on an electromagnetic brake shaft with an excitation coil, and a measurement unit containing a first pulse counter, connected to the output of the angle sensor by a counting input, and a second pulse counter, with outputs connected to the inputs of the digital-to-analog converter, trigger, digital indicator, power supply and control button, analog-to-digital converter, computing device, register memory, a digital comparator, a memory unit, a digital timer, an OR element, a pulse shaper and an electromagnetic valve with an excitation coil that connects the air motor to the pneumatic network, the output of the torque sensor through an amplifier is connected to the input of an analog-to-digital converter, the outputs are connected to the first information inputs computing device, the outputs of the first pulse counter are connected to the inputs of the memory block, the output connected to the counting input of the second pulse counter, the first input “OR” element, the “Reset” input of the digital timer and the “Calculation” input of the computing device, the digital-to-analog converter output through the electromagnetic brake excitation coil is connected to the power supply output, the digital timer outputs are connected to the second information inputs of the computing device, information outputs connected to the register inputs memory and the first inputs of the digital comparator, the second inputs connected to the outputs of the memory register, and the output to the input "Record" of the memory register, the outputs the memory histories are also connected to the inputs of the digital indicator, the trigger S-input is connected to the high-order output of the second pulse counter, the R-input via the control button is connected to the “Logic Unit Voltage” bus, and the trigger output is connected to the transistor key input, the output is through the coil excitation of the electromagnetic valve connected to the output of the power supply, the trigger output through the pulse shaper is connected to the second input of the OR element and the installation inputs of the second pulse counter and computing devices, and the output of the “OR” element is connected to the installation input of the first pulse counter, it allowed to expand the technological capabilities of the stand by automatically determining the maximum power developed by the engine.

Claims (1)

A device for measuring maximum power on a motor shaft, comprising torque and angle sensors mounted on an electromagnetic brake shaft with an excitation coil and a measuring unit, comprising a first pulse counter, a counter input connected to the output of the angle sensor, a second pulse counter connected to the inputs by outputs digital-to-analog converter, trigger, digital indicator, power supply and control button, characterized in that the device is equipped with an analog-to-digital converter, will calculate a device, a memory register, a digital comparator, a memory unit, a digital timer, an OR element, a pulse shaper and an electromagnetic valve with an excitation coil that connects the air motor to the pneumatic network, the output of the torque sensor through an amplifier is connected to the input of an analog-to-digital converter, the outputs are connected to the first information inputs of the computing device, the outputs of the first pulse counter are connected to the inputs of the memory block, the output connected to the counting input of the second pulse counter, the first input of the element "OR", the input "Reset" of the digital timer and the input "Calculation" of the computing device, the output of the digital-to-analog converter through the electromagnetic brake excitation coil is connected to the output of the power supply, the outputs of the digital timer are connected to the second information inputs of the computing device, information the outputs connected to the inputs of the memory register and the first inputs of the digital comparator, the second inputs connected to the outputs of the memory register, and the output to the input Record ”of the memory register, the outputs of the memory register are also connected to the inputs of the digital indicator, the installation S-input of the trigger is connected to the high-order output of the second pulse counter, the R-input through the control button to the bus“ Logical unit voltage ”, and the output of the trigger is connected to the transistor input key, the output through the excitation coil of the electromagnetic valve connected to the output of the power supply, the trigger output through the pulse shaper is connected to the second input of the element "OR", and the installation inputs of the second count a pulse counter and a computing device, and the output of the OR element is connected to the installation input of the first pulse counter.