CS231775B1 - Meter connection of instantaneous velocity namely during plate shaping - Google Patents

Description

The invention relates to the connection of an instantaneous velocity meter, in particular at the speed of profiling of seals.

In the current state of the art, the use of a mechanical or mechanical analogue / hand pointer / speed is used where the accuracy of the measurement depends on the convergence of the converters. Pointed measuring instruments have considerable inaccuracies, where considerable inaccuracies occur at the points of contact with the object moving.

The profiling speed in our case is derived from the drive of the rollers. Significant inaccuracy arises due to cross-rolling of the rolled material between the profiling rolls.

The above-mentioned disadvantages are eliminated by the circuit according to the invention, characterized in that it consists of an optical sensor connected through the input of the first shaping circuit to the first input of the first product gate, to the second input of which the oscillating circuit is connected through the second shaping circuit. the first output of the fifth divider is connected to the second input of the first product gate and the second output of the fifth divider is connected via the inveirtor to the second product gate which is parallel connected to the decade counter and the output of the first product gate is connected over the first decade to subsequent decades counters connected in series, which are connected to the display unit.

The advantage of the connection according to the invention lies in the sensing of the profile speed by the optical sensor and in its digital evaluation with an accuracy of one hundredth of a meter. The pulses from the optical sensor come through the shaping circuit to the input of the product gate. At the same time, the second input of the product gate is connected to a counting imipulse during which the counting of the pulses takes place. The counting pulse is generated from the oscillating circuit by dividing by a defined width. The pulses evaluated by the counter are displayed for a period of time on the imaging unit.

In FIG. 1 is a block diagram of an instantaneous sheet profiling meter according to the invention. FIG. 2 shows the pulse waveforms.

The oscillating circuit 1 is connected through the second fitting circuit 2a and the first divider 3, its output being connected to the second, third, fourth and fifth divider 5, 6, 7, 8, connected in series. When the second output of the fifth divider 8 is pulsed with impulse III, after further processing, it is used to read the decades 14, 15, 16, 17 of the counter and from its first outputs the counting iftipUlz IV.

During the duration of the elliptic IV at the first input of the first product gate 13, the pulses emanating from the optical sensor 11 are shaped in the first shaping circuit 1 (2), and its output pulses V pass through the product gate 13 to the first decade 14

14, 15, 16, 17, connected in series. The outputs of these decades 14, 15, 16, 17 are connected to their decoders 14 ‘, 15‘, 16 ‘, 17‘, the outputs of which enter the display unit 18,

Long counting pulse IV will save us; The numeral 18 in the display unit 18 is expressed in m / min.

The second output of the fifth divider 8 - pulse III, acts through the inverter 8 and the second product parallel bar 10 as a zero pulse of the decade counter 14, 15, 16, 17 at the desired moment, and until the new counting pulse IV arrives read - write reset.

A wheel K is mounted on the shaft of the optical sensor 11, which is in direct contact with the moving profile. The circumference of the copy wheel K is in proportion to the number of pulses which is able to give the optical sensor 11a 'one revolution. The copying body K is pneumatically pressed against the moving material, in this case the sheet metal, thus preventing slippage.

The pulses from the optical sensor 11 are shaped in the first / shaping circuit 12 from its output pulses V entering another input of the first product gate 13.

The pulses V pass through the power gate 13 during the presence of the count pulse IV / at the second input of the first product gate 13,

The pulses obtained from the output of the first product gate 13 arrive at the first decade 14 of the counter and via the decoders 14 ‘, 15‘, 16 ‘, 17 * to the display unit where the numerical speed of the moving profile is written.

the counting mijpulz IV is obtained from the exact oscillation circuit i through the second shaping circuit 2, the first divider 3, the coupling member 4 at the first output of the divider 5,

At the output of the fourth divider 7, the pulses I shown in FIG. 2. It is derived the instantaneous sequence of functions of the instantaneous instantaneous and write function, the write memory, and the write zero of the display unit 18.

From the second output of the fifth divider 8, the incoming pulse III, after passing through the inverter 9 and the second network gate 18, acts as a mulching pulse for zero decades 14, 18, 16, 17 of the counter. The duration of the pacing of the evaluated speed is given by the pulse duration II.

the advantage of the proposed measurement of the speed of the profiling material lies in the accurate detection of the instantaneous velocity with a stotite accuracy of m / min.

If the ratio constant k is kept, it is possible to use different types of optical sensors, which also gives the versatility of the proposed device.

The instantaneous rate meter is based on the correct determination of the time base count of the 231775 target pulse IV. During this pulse, the pulses sent by the optical sensor 11 through the pr, shaping circuit 12 and the first summation gate 13 are counted. The number of these counted pulses will appear on the display unit 18 as a recording of the instantaneous velocity in m / min.

Thus, the pulses emanating from the optical sensor 11, while keeping the ratio constant k, correspond to the elapsed material length.

The proposed device can be used wherever it is necessary to know the instantaneous linear or peripheral speed.

The incorporation of the invention is not demanding on the component base.

Claims (2)

Installing an instantaneous velocity meter, in particular for the profiling of the grooves, characterized in that it consists of optical sensors (11) connected through the input of the first shaping band (12) to the first input of the first product gate (13). ) through a second shaping circuit (2), a first divider (3) a coupler (4) via dividers (5, 6, 7, 8), the first inlet of the fifth divider (8j being connected to the second inlet of the first product gate (13) and the second output of the fifth divider (8) is connected via an inverter (9) to a second product gate (10), which is connected in parallel to the counter decades (14, 15, 16, 17), while the output of the first product gate (13) is connected through the first decade (14) to the next decades (15, 16, 17) of the counter connected in series, which are connected to the display unit (18) via the decoders (14 ', 15', 16 ', 17').