CS259594B1 - Device for automatic sequential control of concrete heating - Google Patents

Abstract

Device for automatic sequential control of concrete heating in the production of precast concrete, the main functional members of which are a discontinuous controller of a suitable auxiliary variable and a counter of the controller's action interventions. The device allows controlling concrete heating sequentially without sensing the temperature of the concrete. The auxiliary controlled variable can be, for example, the temperature of water vapor condensate, the temperature of the environment in the preheating chamber, and the like. By setting the desired value of the auxiliary variable, the device ensures not only this parameter, but also the rate of increase in the temperature of the concrete. The change in the counter state is caused by the arrival of a signal resulting from the action intervention of the discontinuous controller of the auxiliary variable. The device automatically terminates the process of heating concrete by external heat supply as soon as the content of the counter of the controller's action interventions is equal to zero. The device allows to optimize the process of preheating concrete also from the point of view of thermal energy consumption, by setting a suitable combination of the value of the auxiliary quantity on the discontinuous controller and the number of action steps on the controller's action step counter. The device can be advantageously used in the production of concrete precast products in non-stationary individual and group forms.

Description

BACKGROUND OF THE INVENTION The invention relates to an apparatus for the automatic sequential control of concrete heating in the mass production of prefabricated components in the building industry, where the hardening of concrete in molds is accelerated by increasing its temperature.

When controlling the heating of the concrete, it is necessary to terminate the heating by external supply at the so-called disconnection temperature, which is the temperature of the concrete determined at one measuring point so that the heat of cement is used for hydration of the concrete.

In some cases it is also necessary to provide some other heating parameters, such as the rate of increase of the concrete temperature, the temperature of the concrete in contact with the heating plate, etc.

In practice, in some cases, for example in the manufacture of prefabricates in non-stationary molds, the problem is to apply sequentially controlling the heating of the concrete by sensing the temperature of the concrete. In these cases, mainly equipment that controls the heating of concrete by automatic programmable control of the heat transfer medium supply is used.

The disadvantage of the program control is that the concrete heating process is blind-controlled, regardless of the result of its control. In practice, the unreliability of this method of controlling concrete heating results in inefficiencies, especially if the supply time of the heat transfer medium is set with considerable margin.

This disadvantage is overcome by the automatic sequential heating control system of the concrete according to the invention, which controls the heating of the concrete sequentially without sensing the temperature of the concrete and which, in addition to providing two heating parameters, makes it possible to optimize the overheating of the concrete.

SUMMARY OF THE INVENTION The present invention relates to an automatic sequential control system for heating a concrete, forming a separate subsystem of a controlled system, the output of which is a correction variable for adjusting the regulator, characterized in that it is formed by an auxiliary variable sensor in such a way that the output variable of the controller action counter is an input variable for the relay, and the power supply required for the operation of the discontinuous auxiliary variable controller is controlled by the relay.

An example of an embodiment of the device according to the invention is shown in Figure 1.

The device generates an auxiliary variable sensor 1, a discontinuous auxiliary variable controller 2, an action counter of the controller 3 and a relay 4. The individual members are interconnected so that the output variable of the action counter of the controller 3 is also an input variable for the relay 4. The discontinuous regulator 2 is controlled by a relay 4. The output of the discontinuous regulator of auxiliary quantity 2 is a correction variable for adjusting the regulating body 5, which controls the inflow of thermal energy into the controlled system.

Depending on the type of heat transfer medium, the control variable may be the water vapor condensate temperature, the steam-air temperature in the steaming space, the temperature of the heating liquid in the return line and the like.

By setting the setpoint of the auxiliary variable on the member 2, not only this parameter can be ensured, but also the rate of increase of the concrete temperature. The lower values of the auxiliary controlled variable will correspond to the lower rate of increase of the concrete temperature.

The process of heating the concrete by external heat supply is terminated automatically as soon as the content of the action counter of controller 3 is zero. The change of the counter state causes the external signal to be adequate to the action of the discontinuous controller of auxiliary quantity 2. Opening the contacts 4 of the relay 4 interrupts the power supply necessary for the operation of the controller 2, causing an action leading to closing the heat transfer medium. is a shut-off valve with a servomotor.

In practice, the prevailing heat carrier is water vapor. Here, it is an advantage if the auxiliary controlled variable is the temperature of the water vapor condensate and the member 2 is a two-position temperature controller with increased hysteresis. Multiple interruptions of the water vapor supply in the second half of the heating of the concrete will not only equalize the temperatures after the prefabricated cross-section, but also make the heat transfer more effective in the membrane condensation of the water vapor on the surface of the heating plate.

In this case, the device according to the invention makes it possible to optimize the process of overheating of the concrete also from the point of view of thermal energy consumption by adjusting the condensate temperature value on the regulator 2 for each time of concrete residence in the form that is longer than the maximum , setting the sensitivity of controller 2 and setting the number of actions on the controller • action controller 3.

The invention can be used in the mass production of prefabricated concrete, in particular in non-stationary individual and group forms.

Claims (1)

259594 OBJECT The device for automatic sequencing of the heating of concrete, constituting a separate controlled system subsystem whose output is a correction value for the adjustment of the control element, characterized in that it is formed by an auxiliary variable sensor (1), a discontinuous regulator of the auxiliary variable OUT (2) , an action intervention counter (3) and a relay (4) interconnecting each other such that the output counter of the actuator counter (3) is the input variable for the relay (4j, whereby the energy supply needed to operate the discrete controller) The auxiliary variable (2) is a relay controlled (1 sheet of drawings)