CS259595B1 - Tighten the awtematical hinges of concrete heating - Google Patents

Abstract

Zariademie pre-automatic control of concrete heating during the production of prefabs, whose main functional members are the device for signaling the crossing of the limit, the concrete temperature and the injection controller; auxiliary) quantities.. An auxiliary regulated quantity can be, for example, the temperature of the heating part of the term. condensate temperature (aqueous) steam, steam overpressure, temperature of the environment in the reheating chamber, etc. By setting the desired value of the auxiliary quantity, the device ensures not only this parameter, but also the rate of increase in the temperature of the concrete. The process of heating the whitewash by means of the device's internal heat supply ends automatically after exceeding the set limit temperature of the concrete. The device makes it possible to optimize the pyrothermal process. of concrete also from the point of view of heat consumption, - it consumes energy by way of setting® a suitable combination of the auxiliary value, the quantity on the regulator and the temperature on the device for signaling that the limit temperature of the concrete has been exceeded. The device can be advantageously used in the production of concrete prefabs in stationary individual and group forms

Description

259595

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for automatically controlling the heating of concrete in the mass production of prefabricated components, where the hardening of the concrete in the mold is accelerated by increasing its temperature. In controlling the heating of the concrete, it is necessary to terminate the heating by the external heat supply of the so-called disconnecting temperature, which is the temperature gauge determined on one measuring mix so that the heat of cement is used for further heating of the concrete and to maintain the technologically necessary temperature. In some cases, it is necessary to provide some other heating parameters, such as the rate of increase in concrete temperature, the temperature of the concrete in contact with the heating plate, etc. At present, devices which control the heating of the concrete by the automatic program control of the heat carrier are predominant in practice. media. The disadvantage of programmatic management is that the heating process is "blind", regardless of the result of its control. To a lesser extent, devices are used which control the heating of the concrete by automatic sequential control of the supply of the heat transfer medium, based on the sensing of the temperature of the concrete and signaling of the exceeding of the desired discharge temperature. A disadvantage of these devices is that they allow only one heating parameter to be provided in the control process.

The above-mentioned disadvantages are eliminated by the device for the automatic control of the heating of concrete according to the invention, which, in addition to the safety and more heating parameters, enables the heating process to be optimized for the thermal energy consumption.

The object of the invention is to provide a device for automatic control of the heating of concrete, which constitutes a separate control system subsystem, the output of which is a correction value of the regulating device, characterized by a temperature sensor of the concrete temperature, a device for signaling of exceeding the concrete temperature, of a power quantity and an auxiliary voltage regulator which are mutually interconnected so that the power supply required for the operation of the auxiliary variable controller is controlled by the device for signaling the exceeding of the concrete concrete temperature. An example of an embodiment of the device according to the invention is shown in the figure.

A device for producing a concrete temperature sensor 1, a device for indicating the exceeding of the concrete concrete temperature 2, a sensor for the auxiliary quantity 3 and a controller for the auxiliary variable 4, which are mutually connected so that the energy supply required for the operation of the auxiliary variable controller 4 is controlled by the device for signaling the exceeding of the limit temperature of the concrete 2. The output of the controller of the auxiliary variable 4 is the correction value for the adjustment of the control body 5, which controls the flow of thermal energy into the controlled system. Depending on the type of heat transfer medium and the method of production of the prefabricated elements, it can be an auxiliary controlled quantity of the heat-heating plate of the mold, the temperature of the condensate-back of the steam, the temperature of the steam-air in the steam chamber, the overpressure of steam, the temperature of the air in the overflow chamber, the temperature heating fluid in the return pipe and the like. In the case of control of the auxiliary value, the constant value can be set not only by this parameter of heating, but also by the rate of increase of the temperature of the concrete by setting the desired value of the auxiliary variable to the member 4. In this case, the lower values of the auxiliary controlled variable will correspond to a smaller rate of increase in the temperature of the concrete.

The process of heating the concrete with an external supply is automatically terminated after the setpoint of the disconnection temperature set on the temperature limit signaling device 2, which interrupts the power required to operate the auxiliary variable regulator 4, causing the action controller to close the heat carrier to the regulators S, which is a shut-off valve with a servomotor. Advantages of the device according to the invention presently exemplify the following example in practice of the concrete heating control device. In practice, water vapor is the predominant heat transfer medium. Here, it is an advantage if the auxiliary variable is the temperature of the water vapor condensate and the member 4 is the two-pole temperature regulator with the hysteresis increased. The condensate temperature of the near-uniform conduit is approximately the same as the temperature of the tone in contact with the heating plate. Multiple interruptions in the water vapor supply in the second half of the heating result not only in the equilibrium of the heats upstream of the prefabricated element, but also in the efficiency of the heat transfer when the vapor condensation of the water vapor on the surface of the heating plate takes place.

In this case, the apparatus of the present invention allows for optimizing the process of concrete overheating, even in terms of heat energy consumption, by setting a disconnection value for each time of stay of the tone in a form which is longer than the time of the maximum possible rate of increase in concrete temperature. instrument temperature 2, setting the condensate temperature value to the controller 4 and adjusting the regulator switch sensitivity 4.

The invention can be used in mass production of prefabricated concrete products, especially in stationary individual and group forms.

Claims (1)

SUBJECT A device for automatic control of concrete heating, forming a separate subsystem of the controlled system, the output of which is a correction variable for the adjustment of the regulating body, characterized in that it is produced by a concrete temperature sensor (1j) OUT of the concrete (2), the auxiliary variable sensor (3) and the auxiliary variable controller (4), which are interconnected in such a way that the power supply for the auxiliary variable controller (4) is controlled by the concrete limit temperature indication device (2) .