SU1142508A1 - Automatic control system for beginning and duration of sugar curing with water - Google Patents

Abstract

1. SYSTEM OF AUTOMATIC REGULATION OF THE BEGINNING AND DURATION OF THE DRAWL FOR SUGAR WATER - in a centrifuge. The containing sampling pocket, consisting of an electromagnetic valve and an electromechanical time relay associated with a centrifuge software control circuit, is different from the fact that, in order to reduce sugar losses and reduce the time of one centrifugation cycle, it contains a series-connected electronic relay time, pulse counter, pulse generator and conductometric signaling device of the outflow, with the control outputs of the electromechanical and electronic time relay connected in parallel to solenoid valve, and the second output of the electromechanical time relay is connected to the second input of the electronic time relay, the conductometric flow detector, the pulse generator, and the second output of the electronic time relay are connected to the software control circuit of the centrifuge with the go, while the second output of the electronic time relay is connected to the Reset input a pulse counter, and the conductometric flow detector is associated with the input of the Stop of the pulse generator and the input of the electromechanical time relay. 2. The system of pop. 1, that is, the fact that the conductometric sweep detector is installed in the centrifuge sampling pocket. QO

Description

The invention relates to the sugar industry, namely to automatic suspension centrifuges of the first and second products. There is a known system for regulating the onset and duration of sugar suckers with water, including the setting device of the time, for example, on suspended automatic centrifuges of the Bosca, APO, Sangerhausen, Tsekop, etc. firms. Closest to the present invention, there is an automatic control system for the onset and duration of sugar sugar used in an automatic suspension centrifuge of the type FPN-125 1L-2, containing a sampling pocket, an electromagnetic valve and an electromechanical time relay associated with the centrifuge control program. 2J, However, in the known systems, the beginning and duration of the sugar suture with water is set by the operator approximate, without taking into account the quality change of the massecuite and the amount of force for each cycle to the centrifuge. ation separately. This leads to an increase in sugar losses, an increase in the time of a single centrifugation cycle. The purpose of the invention is to reduce the loss of sugar and reduce the time of one centrifugation cycle. The delivered del is achieved by the fact that the system of automatic control of the beginning and duration of sugar suckers with water in a centrifuge containing a sampling pocket, consisting of an electromagnetic valve and an electromechanical time relay associated with a centrifuge software control circuit, contains a series-connected electronic time relay. pulses, a pulse generator and a conductivity flare detector, and the control outputs; electromechanical and electronic time relays are paired connected to the solenoid valve, and the second output of the electromechanical time relay is connected to the second, the input of the electronic time relay, the conductometric flow detector, the pulse generator, and the second output of the electronic time relay are connected to the centrifuge software control circuit is connected to the input of the Pulse Counter Reset, and the conductometric sweep indicator is connected to the input of the Pulse Generator Stop and the input of the electromechanical time relay and. At the same time, the conductometric puff indicator is installed in the centrifuge sampling pocket. The drawing shows a block diagram of a system for automatically controlling the start and duration of sugar sugars with water. The system of automatic regulation of the onset and duration of sugar sugars with water consists of nozzle 1, water communication 2, electromagnetic valve 3, the input of which is connected to the outputs of the electromechanical time switch 4 and electronic time switch 5. The second output of relay 4 is connected to the input of relay 5. Electronic time relay 5 is connected in series with a counter of 6 pulses, a generator of 7 pulses and a conductometric signaling device 8 of a generator of 7 have two control inputs: the first receives the command Run from the program control circuit at the moment when the centrifuge reaches the speed of the planer, the second command is the Stop command from the conductometric alarm 8 of the swelling. The output of the signaling device 8 is also connected to the input of the relay 4. The signaling device 8 and the generator 7 are connected to the software-controlled centrifuge circuit 9. Two electrodes 10, insulated from the housing and spaced from each other at a distance of 6–7 mm, are placed in the pocket 11 of the sampling chamber 12 of the centrifuge. The electrodes 10 are connected to the input of the signaling device 8. The second output of the relay 5 is connected with the centrifuge software control circuit and the Reset counter of the 6 pulses. The system of automatic control of the beginning and duration of sugar suckers with water works as follows. On the electromechanical relay 4 times Set the minimum duration of sugar whites with water. When the centrifuge is in operation, when it reaches the speed of the jointing, the generator 7 is switched on from the program control circuit.

Claims (2)

'1. SYSTEM OF AUTOMATIC REGULATION OF THE BEGINNING AND DURATION OF THE WHITE SUGAR WHITE in a centrifuge containing a sampling pocket, consisting of an electromagnetic valve and an electromechanical time switch associated with a centrifuge programmed control circuit, characterized in that, in order to reduce sugar losses and reduce time of one centrifuge cycle, it contains a series-connected electronic time relay, a pulse counter, a pulse generator and a conductometric leak detector, the control outputs of the electromechanical and electronic timers are connected in parallel to the solenoid valve, and the second output of the electromechanical timers is connected to the second input of the electronic timers, the conductivity drain signaling device, the pulse generator and the second output of the electronic timers are connected to the centrifuge programmed control circuit, while the second output the electronic time switch is connected to the input '' Reset the pulse counter, and the conductometric leak detector is connected to the input O mills of the generator of pulses and the input of the electric _f > mechanical time switch. 2. System pop. 1, indicating that the conductometric leak detector is installed in the pocket of the centrifuge.