CS196059B1 - Connection of the handy digital meter of vibrations - Google Patents

Description

The invention solves the involvement of a hand-held digital vibration meter for measuring the velocity and vibration displacement, possibly extended to a balancer based on the stroboscopic principle.

The hitherto known circuitry and instruments for the operational vibration measurement and balancing of rotating machines are relatively large in size because they consist of several special and expensive instruments that need to be interconnected. In addition, the aforementioned devices show the measured quantities analogously.

These drawbacks are substantially reduced by employing the handheld digital vibration meter of the invention. Its principle is that the vibration measuring sensor is connected via a range switch to a function switch with an integrated cell and an amplifier connected.

This is connected via a rectifier to a first comparator, connected both to a charging capacitor with a constant current source and a discharge element connected, and to a flip-flop circuit connected first to a discharge element, and second to a gate. This gate is connected both to the oscillator generator and to the counter connected first to the display and secondly to the flip-flop clock generator. In addition to the rectifier, a second comparator can be connected downstream of the amplifier, connected to the stroboscopic lamp via a shaping element.

The advantages of connecting a hand-held digital vibration meter are both in its small size and in that it consists of simple and accessible elements. This results in low purchase costs and easy maintenance. In addition, the vibration meter and the balancer can be conveniently connected in one connection. Another significant advantage is that the wiring shows the measured quantities numerically.

An example of wiring of a hand-held digital vibration meter according to the invention, supplemented by a balancer based on the stroboscopic principle, is illustrated in the block diagram of the attached drawing.

An amplifier 5 is connected to the vibration measuring sensor 1 via the range switch 2 and the function switch 3. A rectifier 6 and a first comparator 7 are connected to the output of the amplifier 5. This is connected to the charging capacitor 8, to which both the constant current source 2 and the discharge element 10 are connected. In addition, the first comparator 7 is connected to the flip-flop 11 connected both to the discharge element 10 and through the gate 12 and counter 14 with display. 1 5.

An oscillator generator 13 is connected to the gate 12. The clock generator 16 is connected both to the flip-flop 11 and counter 14. The amplifier 5 is also connected to the series of the second comparator 17, the shaping element 18 ^{, the} cold cathode optical lamps 12, which can be replaced. xenon lamp.

The electrodynamic vibration measuring sensor 1 is connected to switch 2 ^ ranges, followed by the controller 2 functions to measure the speed or displacement when the signal goes through integrating article 2 * In following the amplifier ^{2, the} flow path is divided. The first path goes through the second zero-level comparator 176059 and the derivative shaping member 18 <

The second path after the amplifier 5 goes through the rectifier 6 to the first input of the first comparator 7, the second input of which is connected to the charging capacitor 8, whose voltage due to the constant current source 9 is linear.

Claims (2)

SUBJECT V Wiring of a hand-held digital vibration meter, characterized in that the vibration sensor (1) is connected via a range switch (2) to a function switch (3) with an integrated integration cell (4) and an amplifier (5) connected via a rectifier / 6) to the first comparator (7) connected on the one hand to the charging capacitor (8) with the constant current source (9) connected and the discharge element (10) and on the other hand to the flip-flop (11) connected to the discharge element (10). Operation of the discharge element 10 controlled by the flip-flop 11 discharges the charging capacitor 8. The output of the first comparator 7 adjusts the flip-flop 11, controlled simultaneously by the clock generator 16. The flip-flop 11 controls the gate 10 in addition to the discharge element 10. produced constant frequency pulses to Counter 14, whose status is indicated by display 15. The gate (12) connected to the oscillator generator (13) and to the counter (14) connected to the display (15) and to the flip-flop (11) via the clock generator (16). Wiring according to Claim 1, characterized in that a second comparator (17) connected to the stroboscope lamp (19) for digital balancing is connected to the amplifier (5) in addition to the rectifier (6).