SU456130A1 - Device for automatic temperature stabilization of air separation units - Google Patents

Description

This is the section from which the loopback loop is created.

From the output of the converter 5, a silnal, proportional to the actual temperature of the regenerators, enters the elements 7 comparing the actual and specified values of the signal. The signal proportional to the deviation of the actual temperature from the set one, after the comparison elements, enters the cells of the discrete storage unit 8, the number of cells being equal to the number of comparison elements and, therefore, the number of regenerators. The signal values are stored in the cells of the discrete storage unit 8 according to the signals of the command unit 14 received via the control circuits. The signals for storing the signal values are given in such a way that an IB always stores a signal proportional to the actual temperature deviation from the corresponding regenerator set in the lument of the memory unit's IB cell. This effect is achieved due to the fact that the switching mechanism i5 and the discrete storage unit 8 are connected to the command unit 14, from which signals are received that ensure the synchronous operation of the system elements.

Temperature equalization circuits in the groups of regenerators receive information on the deviations of the temperature of the regenerators from a predetermined value from the corresponding cells of the discrete reference unit. When the output circuits of the storage unit 8 are connected in series in the front-end phase, a signal proportional to the difference between the temperature deviations of the compared regenerators is connected to the input of the switching device 11. On the axis of this signal, at a certain cycle time, specified by the command block, the 11 | | controller adjusts the control action, KOTopioe enters the command block and shifts the switching moment in the desired direction. With this, the total cycle time remains unchanged.

Temperature equalization circuits. Between groups provide expressive temperatures relative to a group with a fully open throttle regulating body. The full opening of the throttle regulator of ONE of the controller groups informs about this from the position sensor 18 to the logical machine 9, which commutes the outputs of the storage unit 8 in such a way that the algebraic sums of signals are normal. each group is subtracted from the algebraic sum of the signals, proportional to the temperature deviations

regenerator group in a fully open regulatory body. The differential signal is fed to the input of the regulator 10, the output of which is connected to the actuator 5 1U of the regulator 20 of the direct flow of the compared group. For example, l-a group has a fully open regulatory body. In this case, the signal, which is proportional to the current temperature of each of the

0 II-1st group, alternately compared with the signal of the n-th group and the regulating effect is supplied to the regulator of the compared group. There is no regulatory effect on the p-th group. In the process of operating the plant, the hydraulic resistance of the regenerators changes arbitrarily, so that the regulating organ of any of the rpyniHs can be fully opened at some time. Then the logical automaton

0 9 switches the circuit of the measuring circuits so that the comparison will be made relative to the group with the fully opening regulatory body. In the case of full opening of the regulatory bodies on several groups of regenerators, a comparison is made with respect to the group whose regulatory body was opened last. The regulating action is formed by the controllers once a cycle by the command from the command block.

0 14. The common temperature control loop receives information from all the cells that I memorize. The signals, proportional to the deviations of the temperature of the regenerators from the given values, are algebraically summed in the adder 12 and the total signal is fed to the input of the flow regulator 13 of the loop flow. The controller according to the commands received from the command block 14, forms the regulating effect on the executive mechanism 16 of the throttle regulator 17 of the loop flow.

Subject invention

A device for automatic stabilization of the temperature of regenerators of devices for separation of air by the method of low-temperature rectification, containing a loop temperature sensor, a switching mechanism mechanism, a command block, switching moment shift regulators Q, a switch for direct loop loop flow, Throttle regulators and controllers, characterized in that, in order to increase the quality of regulation, it is provided with a discrete memory unit, the input of which through the converter and the comparison elements It is connected to a loop flow temperature sensor, and the output is connected to a switch-off time shift regulator and a coma unit.