CS225306B1 - The connection of the impact toughness metering - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to circuitry for measuring, in particular, impact strength, of construction materials.

There is a known impact resistance circuit where the measurement signal is derived from strain gauge sensors located in the hammer ram. The signal after amplification and adjustment is brought to the memory oscilloscope. The time base is triggered at a suitable moment by a photocell or a certain signal level. The disadvantage of this connection is the necessity to use a specially adapted hammer, expensive memory oscilloscope and the need for photographic or graphic recording using a coordinate recorder. The work used is

225 308 has to be laboriously determined from a graphical record, possibly using a computer. This connection is therefore suitable for scientific work and is not suitable for practical material testing where the material certificate has to be recorded.

Essentially, the above-mentioned disadvantages are eliminated by the invention, which is a circuit for measuring, in particular, the impact strength of construction materials, the principle being that the sensor of the measured quantity is connected to a transducer to which at least two measuring transducers are connected. divider of the measured value, the outputs of the measuring inverters are connected to the controller, while the inputs of the measuring inverters and the controller are connected to the synchronizer, to which the trigger switch is connected.

Another object of the invention is that the divider is connected to a synchronizer.

A further object of the invention is that a recoder is connected between the transmitter and the measuring inverters.

Another object of the invention is that the recoder is connected by a switch for converting the measured value.

It is a further object of the invention that at least one identification transducer is connected to the controller input.

It is a further object of the invention that the synchronizer is coupled to an identification storage device.

Another object of the invention is that at least one decoder is connected to the controller output.

Another object of the invention is that the decoder is connected to the output of the synchronizer

225 308

Another object of the invention is that a computer is connected to the decoder.

Another object of the invention is that a block is connected to the decoders. The amplifiers are connected to the output of which the recorder is connected to the input of the synchronizer.

Finally, it is the essence of the invention that a coding lock is connected to the inputs of the inverters and the synchronizer.

The connection according to the invention makes it possible in a simple way to equip the impact test device without interfering with its mechanical system, thereby obtaining a complex data in the form of a numerical record, supplemented by identification data required for the attestation of the material, without subjective factor influence. The gel device is cost-effective and fully complies with industry requirements. Measurement results are available immediately after the measurement.

An example of a particular embodiment of the invention is shown in the drawing showing the circuitry according to the invention for recording with averaging the measurement results of three test samples in a single line of attestation.

According to the invention, the impact test device (not shown) is provided with an impact deflection sensor 1 (not shown) and a trigger switch 2. The output of the sensor 1 is connected to the converter. 2 binary code voltage levels are connected to the output of which the binary code recoder 6 is connected to a binary decadic code, provided with a test sample cross-section selection switch, and three measuring inverters 6, 2, 8 and a divider 2 are connected in parallel. the output of which is connected to the fourth measuring transducer 10. The outputs of the measuring transducers χ, 6, 8, 10 are connected to a controller 11, to which

Furthermore, the identification inputs 12 are connected in parallel to the 225 306 input.

In the output of the controller 11, two decoders 13 are connected in parallel,

14. wherein, for example, a computer 15 is connected to the output of the first decoder 13 and an amplifier block 16 is connected to the output of the second decoder 14. In the output of the amplifier block 16, a recorder 17 is connected.

The trigger switch 2 is connected to the input of the synchronizer 18, the output of which is connected in parallel to the inputs of the inverters 6, 7, 8, 10,

12. divider 6 of the controller 11 and decoders 1.3 > 14. The input of the synchronizer 18 is further connected to a cylinder limit switch (not shown) and a coding lock 19 whose output is further parallel to the inputs of the inverters <5, 7, 8, 10. , 12.

Before starting the measurement, the operator inserts the coding key 20 into the coding lock 19. By turning the key 20, the individual circuits are connected to a power source (not shown), the code of the codes being recorded using coding lock signals 19 to Z8 to the free inputs of the inverters 6, 2. , 10, 12 and with the signal Z9, the code lock 19 commands the synchronizer 13 to start.

Thus, the U or V selector of the test sample is set via the selector switch 6, thereby actually adjusting the cross-sectional area of the sample corresponding to the selected notch shape. Furthermore, identification data such as date, sample type, instrument number, operator number, melting number and alloy number are set by the identification inverters 12.

As soon as the impact hammers have left their initial position, the trigger switch 2 signals the synchronizer 18 to initiate the first measurement. Hato synchromizer 18 sends a signal H1 to open the input of the first measuring transducer After the sample has been broken, the sensor 1 measures the hammer deflection and converts it into a voltage signal, proportional to

225 30β energy consumption. In the converter 2 ^, this voltage signal is firstly converted into a series of pulses whose number is directly proportional

In the voltage signal, these pulses are summed and binary-coded. This binary signal is fed through eight channels to the input of the recoder 4, where it is first recalculated by dividing the sample area set by the recoder switch 6 ^{into the} specific energy consumed in the binary code and then translating the resulting data from binary to binary decadic code in three decades. Each decade is transmitted by four channels to the inputs of the first three measuring transducers 6, 2 &amp; 8 and to the input of the divider 9, since only the input of the first transducer 0 is opened by the synchronizer 18 and the input of the divider 2 is open. the energy consumed only in the first measuring transducer 6 and in the divider 6, in which this value is reduced to one third. In the second and third measurements, the second and third measuring struts 8, 8 are similarly filled with the assistance of the respective signals H2 and H3 of the synchronizer 18, while in the divider 6 the average of the records of the first three strippers is stored.

6., 2 »£ · j? ^{At the} end of the third measurement, the synchronizer 18 sends a signal H4 storing the record stored in the divider to the fourth measurement inverter 10. This completes the measurement part of the cycle and then outputs the data controlled again by the synchronizer 18. Because each measurement inverter 6, i, 8, 10 has a greater number, for example eight four-channel inputs than required for the measured data, the free inputs are used, for example, for data lock code 19 as described above, or for fixed data such as space, comma and other characters. Similarly, the free inputs of the IDs 12 are used.

225 308 Example Eight times eight four-channel inputs of controller 11 open a single four-channel input, exactly determined by this signal A. Hato v

the synchronizer 18 sends a release signal U to open the inputs of the decoders 13. 14, and the corresponding character is stored in the memory of the computer 15 after decoding by the first decoder 13 and after decoding by the second decoder 14. the second decoder 14 signaling to one of the sixteen amplifiers of the amplifier block 16. As a result of the amplified signal, one of the sixteen electromagnets (not shown) is actuated in the recorder 17, thereby printing the corresponding character of the sixteen possible ones, for example the numbers zero to nine and the other six selected characters. After the corresponding character has been printed, the cylinder of the recorder 17 ppsune, the synchronizer 18 again sends a new address signal A, which opens another input of the controller 11, and the recorder 17 prints the next character. During writing, a record of the notion of all of the inverters 6, 2 is made in the recorder 17 per line of attestation.

Upon completion of the listing, the cylinder (not shown) arrives at the end switch of the recorder 17, which sends a reset signal H to the synchronizer 18. On the basis of this signal H, it sends signals for resetting the memories of the measuring disks 6, 8, 8, 10 or some of the memories is, for example, the melting number using signals H5 to H8 and the divider memory 9 using signal H9. This completes the measurement cycle and the device is again ready to measure the impact strength of the other three samples, for example, another melting number set again by the IDs.

Said embodiment is not the only possible. For example, it is possible to use other codes, different number of measurement and identification transducers and different numbers of inputs with different number of channels, decoders can

22S 308 can be directly a part of a computer or recorder, memory resetting can be controlled, for example, by a recorder directly without the help of a synchronizer, the divider can be connected up to the fourth measurement inverter and the like.

The connection according to the invention can be used wherever it is necessary to measure a gradual change of the measured quantity, average the data after a certain series and record the measured and calculated values. It is thus possible to monitor, for example, the course of temperature, pressure, radiation and the like, and the trigger switch can be controlled, for example, by a synchronizer or other timer.

Claims (11)

Wiring for measuring, in particular, the impact strength of construction materials, characterized in that the sensor i1 of the measured variable is connected to a ns) converter (3), to whose output at least two measuring inverters (6, 7, 8) and another measuring inverter are connected (10) provided with the measured value divider (9), the outputs of the metering transducers (6, 7, 8, 10) are connected to the controller (11), wherein the inputs of the metering transducers (o, 7, 8, 2). Connection according to claim 1, characterized in that the divider (9) is connected to the synchronizer (18). Connection according to Claims 1 and 2, characterized in that a recoder (4) is connected between the transducer (3) and the measuring transducers (6, 7, 8, 10). 4. The connection according to points 1 to D, (4) is connected to the quantity switch. characterized in that the recoder (5) for converting the measured value Connection according to Claims 1 to 4, characterized in that at least one identification inverter (12) is connected to the input of the controller (11). Connection according to one of Claims 1 to 5, characterized in that the synchronizer (18) is connected to the identification striker (12). 7. The connection according to claims 1 to 6, characterized in that the output at v at least one decoder (13, 14) is connected to the controller (11). 225 308 Connection according to one of Claims 1 to 7, characterized in that the decoder (13, 14) is connected to the output of the synchronizer (18). Connection according to Claims 1 to 8, characterized in that a computer (15) is connected to the decoder (13). Connection according to one of Claims 1 to 9, characterized in that an amplifier block (6) is connected to the decoder (14), the output of which is connected to a recorder (17)> connected to the input of the synchronizer (18). 10) and the controllers (11) are connected to a synchronizer (18), to the input of which the trigger switch ( Connection according to Claims 1 to 10, characterized in that a coding lock (19) is connected to the inputs of the inverters (δ, 7, 8, 10, 12) and the synchronizer (18).