SU1660976A1 - Arrangement for controlling the process of treating concrete and reinforced concrete structures with heat and moisture - Google Patents

Abstract

The invention relates to the production of building materials and is intended to more effectively control the process of thermal and moisture treatment of concrete and reinforced concrete products. It allows to increase the accuracy of correction of the duration of the isothermal holding stage. The device contains a humidity controller 3 with a corresponding sensor 4, a fan 5, a heater 6, a temperature controller 8 with a corresponding sensor 9, an actuator 10 of the steam supply regulator, a meter 12 of the propagation time of ultrasound in a product with an emitting 13 and receiving piezo-converters, full radiation pyrometer 15 with transducer 16, matching element 17, driver 18, comparison element 19. 1 il.

Description

The invention relates to the production of building materials and is intended to more effectively control the process of thermal moisture treatment of concrete and reinforced concrete products.

The purpose of the invention is to increase the accuracy of the correction of the duration of the stage of isothermal exposure.

The drawing shows a block diagram of the proposed device.

The device for regulating the process of heat-moisture treatment of products 1 in chamber 2 contains a moisture stabilization circuit, including a humidity controller 3 with a humidity sensor 4, which control the medium circulation system (fan 5 and air heater 6 through duct 7), a program temperature control loop, including a temperature controller 8 with a temperature sensor 9, which, through the actuator 10, controls the supply of steam to the chamber through the steam line 11, a system for correcting the duration of the isothermal holding stage, including 12 gauge guide the propagation time of ultrasound in the article 13 to the radiating and receiving piezoelectric transducers 14, 15. The total radiation pyrometer surface of the product to the corresponding inverter 16, a matching element 17, the driving signal generator 18 (controlling propagation time) and comparing element 19.

As is known, the strength of concrete and reinforced concrete products is determined by the experimental dependence of the ultrasound speed in the product - the strength of the product for products from various concrete grades, and the speed of ultrasound in the product is related to the propagation time of ultrasound in the product as

where C is the speed of ultrasound in the product;

L is the measurement base (the distance between the emitting and receiving piezoelectric transducers), t is the propagation time of ultrasound in the product.

Thus, by setting a specific value of the propagation time of ultrasound in the product and comparing it with the measured one, it is possible to determine the point in time when the set and measured values of the propagation time of ultrasound in the product coincide, i.e. the moment of the end of the stage of isothermal exposure.

The intensity of infrared radiation of the surface of the product at the stage of isothermal exposure determines the dynamics of the process of curing by the product, which makes it possible to correct the propagation time of ultrasound in the product, i.e. correction of the duration of the stage of isothermal exposure.

The device operates as follows.

After the stage of preliminary aging in the process of programmed changes in temperature and relative humidity of the vapor-air medium at the stage of lifting for 2-3 hours, they are smoothly raised. Next, at the stage of isothermal exposure, the ultrasonic propagation time meter 12 in the product is continuously measured using the emitting 13 and receiving 14 piezoelectric transducers, and the ultrasonic propagation time in the product is measured. This value is compared by the comparison element 19 with the value of the control time of propagation of ultrasound in the product, which corresponds to the specified strength of the product and is set using the shaper 18 of the control time of propagation of ultrasound in the product. At the stage of isothermal exposure using a pyrometer 15 full radiation is measured by the intensity of infrared radiation of the surface of the product. The measured value of the intensity of infrared radiation of the surface of the product is supplied to the matching element 17, which generates a signal with which the shaper 18 adjusts the value of the control propagation time of ultrasound in the product in accordance with the dynamics of the set of strength. When the values of the measured and control time of propagation of ultrasound in the product coincide, the comparison element 19 generates a signal supplied to the temperature controller 8, after which the isothermal holding stage is terminated.

The device allows to increase the accuracy of controlling the process of thermal moisture treatment of concrete and reinforced concrete products by increasing the accuracy of the correction of the isothermal exposure stage.

Claims (1)

Claim A device for controlling the process of thermal moisture treatment of concrete and reinforced concrete products, containing a humidity sensor for the vapor-air medium connected to the input of the humidity controller, the output of which is connected to actuators of the regulating bodies for supplying and heating air, a temperature sensor for the steam-air medium connected to one of the inputs of the temperature controller, the output of which connected to the executive mechanism of the regulating body for supplying steam, characterized in that, in order to improve the accuracy of correction for of the isothermal holding stage, it is equipped with an ultrasound propagation time meter in the product with the corresponding emitting and receiving piezoelectric transducers, a total radiation pyrometer with an appropriate transducer, a matching element, a driver of the driving signal and a comparison element, the output of the ultrasound propagation time meter in the product being connected to the first input of the comparison element, the output of which is connected to another input of the temperature controller, the output of the converter es series connected matching element and the drive signal generator is connected to the second input of the comparison element.