CS201445B1 - Connection of circuits for the multiblock recording of data in the punched tape - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to circuitry for multi-block data recording into a punched tape.

The development of mechanical engineering, the construction of increasingly complex engineering units and the effort to achieve the highest efficiency of these units on the one hand and increasing reliability and safety on the other places increasing demands on testing and measuring technology used in it. Extensive testing rooms are being built equipped with complex measuring technology. The focus of measurement is shifted to digital measurements, which alone are able to meet the ever-increasing requirements for accuracy and speed of measurement and allow for easy traceability to a computer that further processes their results. A frequently used digital recording device is a punched tape punch that records measurement results in a form compatible with the computer input. Different kinds of measurements are carried out in the test rooms and therefore, in many cases, it is necessary to write groups of data from a number of digital measuring instruments such as digital exchanges, separate digital voltmeters, counters, digital phase meters, vibrations and other quantities. . The punch tape is also required for each type of measurement or measurement. tests to insert a series of constants that are used by the computer to select the appropriate processing program and overall identification.

By simply extracting the tape, for example on a teleprinter, this information is used to guide the operator. These are, for example, measurement date data, measurement sequence number, measuring instrument ranges, number constants and the like. Until now, either different measuring systems with their own recording devices, ie punches with the appropriate tube, have been used for different types of measurements, or for each type of measurement a new interconnection of the instruments is carried out either directly by cables or through complex interconnection fields. The use of standalone recording devices is very uneconomical due to their cost, the second way of changing the connection is time-consuming, imposes requirements on operator qualification and increases the possibility of incorrect connection. Recording of fixed characters is done by manually inserting them consecutively or directly by manual pinning into the finished tape. Both methods are very time-consuming and, in addition, also increase the possibility of the error being introduced into the tape.

The drawbacks of the present invention are eliminated by the multi-block data recording circuitry of the present invention, wherein the outputs for each digital input of the meters are connected to the inputs of the individual input gate groups, with a toggle circuit connected to each input gate group; the first input of which is always connected to the start signal of the group, while the output of each flip-flop is connected to the first input of the respective group of input gates and to the inputs of the shifting pulse gate; punchers and a counter input whose outputs are connected both to the address inputs of the gateway groups and to a decoder whose outputs, whose number corresponds to the highest number of gateways in the gateway group, are connected via individual word-length switches to the reset inputs of the respective group flip-flops, the outputs of each input gate group being connected to the inputs of the pooling unit and code changes, the outputs of which are connected to the punch information inputs.

The circuitry according to the invention has significant advantages over current methods of solution of punched tape recording circuits. A single hole punch and single hole punch control circuits are required, with input groups permanently connected to digital input signals, eliminating the risk of wiring errors. The circuitry according to the invention further allows groups of digital signals to be inserted into the tape individually or by simple interconnection of the group flip-flops to create arbitrary group record sequences, the groups having any length. In addition, the circuit according to the invention allows to attach a numbering number to any selected group and thus to enter a block of fixed characters at once in a tape.

An example of a connection according to the invention is shown in the attached drawing.

All measuring instruments are simultaneously connected in groups to electronic circuits, which allow separate or sequential punching of these groups into a single recording device - punch. The groups may have different lengths and fixed characters are formed by attaching a simple numbering device to the reserved group, for example by means of digital switches.

The outputs 11 for each digital input data (e.g. in code B C D) are connected to the inputs of the input gate group 1, the number of which can be arbitrary and is governed by the maximum number of digital data to be recorded. One flip-flop is connected to each group of input gates 1

4. The output of the group start signal is connected to the first input of these flip-flops, while the output of each flip-flop 4 is connected to the first input of the respective group of input gates 1 and to the inputs of the shifting pulse gate 7. impulses. The output of the shift pulse gate 7 is connected to the start input of the puncher 3 and to the input of the counter 8, the outputs of which are connected to the address inputs of the input gate groups 1 and to the decoder 9. are connected via the individual word-length switches 10 to the reset inputs of the respective group 4 flip-flops. The outputs of the individual groups of input gates 1 are connected to the inputs of the combiner unit 2 and the code changes, the outputs of which are connected to the information inputs of the puncher 3.

The digital input data from the outputs 11 to be recorded is, in a certain code (eg BCD), connected to the inputs of the input gate groups 1. The group start signal from output 5 generated externally sets the unit flip-flop 4 to its unit state. it unlocks the corresponding group of input gates 1 and at the same time opens the gate 7 of the shifting pulses. The counter 8 begins to shift and outputs its address to the open group of input gates 1 of the individual subgroups corresponding to the individual encoded input symbols. E.g. for code B C D, each counter state corresponds to the opening of four paths from the gate 1 input to their output. From the outputs of the selected open gate group 1, signals come to the input of the combiner unit 2 and the code changes, where it is adjusted to the desired code and its outputs already directly excite the individual inputs of the puncher stop 3. each time the counter 8 is moved simultaneously for punching, that is, each subgroup addressed by the counter 8 n, and the selected group of input gates 1 is punched. This shifting of the counter 8 associated with the punching continues until the decoder 9 generates a signal at its output on which the word-length switch 10 is assigned to the group flip-flop 4 which has been set to the unit state. The signal from the decoder 9 passes through the switch 10 and resets the flip-flop 4, which by its output closes the selected group of input gates 1 and the shifting pulse gate 7. This punched out the data found at the inputs of the input gate group 1 that was just opened. The signal that resets the respective group flip-flop 4 can be used simultaneously as a start signal from another group output 5 for some other group. This makes it easy to automatically punch the entire sequence of groups.

The circuitry of the present invention provides punched tape punch control circuits which serve as a recording device for a larger measurement unit where the type of measurement needs to be changed frequently and where a different number of coherent data groups of different lengths and in succession are recorded in the tape. This connection is particularly advantageous in wind tunnel, fatigue and power unit test systems.

Claims (1)

OBJECT OF THE INVENTION Circuit connection for multi-block data recording into a punch tape, characterized in that the outputs (11) for individual digital input data of the measuring devices are connected to inputs of individual groups of input gates (1), to each group of input gates (1) is connected flip-flop (4), to whose first input the output (5) of the group start signal is always connected, while the output of each flip-flop (4) is connected to the first input of the respective group of input gates (1) and gate inputs (7) of shifting pulses whose other input is connected to a pulse generator (6) and whose output is connected to the start input of the puncher (3) and to the counter input (8), whose outputs are connected to the address inputs of the input gate groups (1) and to the decoder (9) whose outputs corresponding to the highest number of gates in the group of input gates (1) are connected via individual switches (10) word lengths to the reset inputs of the respective group flip-flops (4), the outputs of the individual input gate groups (1) being connected to the inputs of the pooling unit (2) and the code changes whose outputs are connected to the punch information inputs (3).