SU566177A1 - Concrete hardness determining apparatus - Google Patents

Description

one

The invention relates to the technique of ultrasonic non-destructive testing of materials and products and can be used, in particular, to control the quality of products of enterprises of the building materials industry.

A device for determining the strength of concrete is known, which contains a synchronization unit, a generator, transmitting and receiving electroacoustic transducers, an amplifier, a counter, a shaping unit, and a selector. The disadvantages of the known device are: poor monitoring performance, due to the necessity of manually calculating the strength of concrete from time measurement data.

It is also known a device for determining the strength of concrete that contains a software block, a selector, a pulse counter, a discriminator, a time master, an amplifier converter, a controlled product, a receiver, a generator, a shaping unit, a pulse sensor, a pulse counter and a synchronization unit, the synchronization unit being connected to one from the inputs of the forming unit, the output of which is connected to one of the inputs of the discriminator, the time interval and to the input of the generator, the output Kf of which is connected to the converter, acoustically connected via a controlled product with a receiver that is connected to the input of an amplifier, the output of which is connected to another time setting input, the output of which is connected to another input of the discriminator, the output of which is connected to the input of the pulse sensor, the output of the pulse generator is connected to another input of the shaping unit and to one of the selector inputs, the other input of which is connected to the program block.

This device has the following drawback: poor monitoring performance associated with the necessity of manually calculating the strength of concrete according to the UT measurement. These drawbacks are caused by the fact that the strength of concrete is determined by the formula:

ip-olv-lj,

Claims (1)

where p is the strength of concrete, and is the coefficient V, the speed of the ultrasonic inspection coefficient 1e is the coefficient. With this device, one can measure the strength of concrete only in the particular case when b is O, which is rare. The purpose of the invention is to monitor the strength of the concrete. 3vo is achieved by introducing an AND logic circuit and an additional pulse counter and a time reference into a known device, the program block being connected to one of the Additional Time Inputs, the other input of which is connected to the output of an additional pulse counter, the input of which is connected to the selector output, the output of the additional timer unit is connected to one of the inputs of the AND circuit, the other input of which is connected to the output of the pulse sensor, and the output of the AND circuit is connected to a pulse counter. FIG. 1 shows the proposed device; in r, 2 is a voltage diagram, which shows how the device works. The device comprises a pulse sensor 1, a formation unit 2, a synchronizer 3, a selector 4, an AND circuit 5, and a generator. 6 a converter 7, a controlled article 8, a receiver 9, an amplifier 10, a discriminator 11, a time sensor 12, a program block 13, a pulse counter 14, an additional time master 15 and an additional pulse counter 16. A device for measuring the strength of concrete works as follows. The pulse generator 1 generates a continuous sequence of pulses (Fig. 2tb) arriving at the input of the formation of the control interval 2, at the input of the selector 4 and at the input of the And 5 circuit. At the second input of the interval formation control of the interval 2, a continuous sequence of pulses arrives (see FIG. 2, CL) from the output of the synchronizer 3. At the output of the control interval formation unit 2, a pulse is generated (see Fig. 2.6), the frequency of which is determined by the synchronizer 3, and the duration is equal to the pulse following period from the output 1 and ge- generator of countable pulses. The leading edge of these pulses starts the generator 6 and the time setting unit 12. In addition, the pulses from the output; the control interval formation unit 2 is fed to the input of the temporary discriminator 11. The generator output pulses e (see Fig. 2.21) excite the transmitting electroacoustic transducer 7, which emits acoustic pulses into the controlled product 8, Pass the controlled product 8, these pulses excite the receiving the electroacoustic converter 9 is converted by it into electrical pulses, which through the amplifier 10 are fed to the input of the time setpoint adjuster 12 (see Fig. 2.,, stopping it. Thus, at the output of the preset In time 12, pulses are obtained whose duration is equal to the belt of the generator 6 through the controlled product 8 (see Fig. 2, c), which are fed to the second input of the time discriminator 11. The time discriminator 11 generates a control voltage applied to the sensor input 1 impulses and the period T regulating it so that it becomes equal to the pulse duration from the output of the time setting unit 12. The program block 13 generates a pulse (see FIG. 2, g), the duration of which is numerically equal to caliRr where 0 (".. coefficient d is the soundable base. This impulse goes to the second input of the selector 4, the output of which receives pulses (see Fig. 2, k)) whose number is equal to ,, V is the generator speed in the controlled product. This series of pulses goes to the counter 16 pulses, the output of which generates a pulse during overflow (see Fig. 2, k), which triggers an additional setpoint 15. The number of pulses needed to overflow the counter 16 pulses, is chosen equal to 6. Rear; front pulse On the output of the stop of the additional setpoint 15, it stops the output of the program block 13. The impulse from the output of the additional setter 15 (see Fig. 2, l) goes to one of the inputs of the circuit And 5, at the output of which a packet of pulses is formed, the number of which is numerically equal to the strength of concrete (see Fig. 2, m) and calculated by the formula: p av-tJ. From the output of the circuit AND 5 the pulses go to counter 14 with digital indicators. The invention The device for determining the strength of concrete, containing a software block, selector, count: pulse pulse, discriminator, time master, amplifier, transducer, controlled product, receiver. a generator, a shaping unit, a pulse sensor, a pulse counter and a synchronization unit, the synchronization unit being connected to one of the inputs of the shaping unit, the output of which is connected to one of the discriminator inputs, the time setting and the generator input whose output is connected to the converter acoustically connected through a controlled product with a receiver that is connected to the input of the amplifier; output-jfiytopore is connected to another input of the time sensor, the output of which is connected to another discriminator INPUT, the output of which is connected to the input of the pulse sensor, the output of the pulse sensor is connected to another. Formation unit and to one of the inputs of the selector, the other input of which is connected to the program block, which is so that, in order to increase the control of the strength of the concrete, the device introduced a logical scheme And The X-pulses counter and the time master, the program block is connected to one of the Inputs of the additional time master, the other input of which is connected to the output of the additional pulse counter. The input of which is connected to the output of the selector, the output of the additional time setting unit is connected to one of the inputs of the And circuit, the other input of which is connected to the output of the pulse sensor, and the output of the And circuit is connected to a pulse counter.