SU960105A1 - Apparatus for monitoring position of stationary plough-shaped ejectors - Google Patents

Description

(54) DEVICE FOR CONTROL OF THE STATUS OF STATIONARY HOSE DISTRIBUTORS

one

The invention relates to control devices for loading bins with stationary plow dumpers mounted above a belt conveyor, and can be used, for example, in thermal power plants for loading bunkers with solid fuel.

A device for emergency shutdown of drives for longitudinal conveyors is known, which contains limit switches for the drive of a plow diverter, a control device, contacts of magnetic starters and a power source 1.

The disadvantage of such a device is the low reliability of monitoring the position of the plow ejector. This is due to the fact that the limit switches installed in the drive do not allow to control the actual position of the knives of the plow ejector and to establish the fact of the appearance of the faulty plow upon going out of order.

It is also known a device comprising a voltage generator and control, display and measurement units 2.

A disadvantage of the known device is that it does not allow to determine the sequence numbers of several simultaneously lowered plow diverters. The lack of information about the numbers of the lowered plows does not allow its use in the systems of automatic loading of bunkers, since the appearance of a failed plow requires a considerable amount of time to find this plow.

The purpose of the invention is to expand its functionality by obtaining 10 information about the numbers of the lowered plow diverters.

Claims (2)

This goal is achieved by the fact that the device is equipped with an analog-digital converter, and the control unit is designed as a decoder and detector within the tolerance zone, the outputs of which are connected to the inputs of the display unit, the input of the decoder is connected to the output of the generator, the second output of which is connected to the inputs of the detector, the analog-digital converter and one of the inputs of the first measurement unit, and the outputs of the analog-digital converter are connected to the inputs of key blocks whose outputs are connected to the second inputs of the blocks measured . FIG. 1 shows a block diagram of the device; in fig. 2 - the same, electrical circuit in principle. The device contains a generator 1, a decoder 2, a detector 3 falling into the tolerance zone, an indication unit 4, an analog-digital converter 5, a key block 6, a measurement block 7, and a communication channel 8. The first output of the generator 1 through the decoder 2 is connected to the first input of the display unit 4. The second output of the generator 1 through the detector 3 entering the tolerance zone is connected to the second input of the display unit 4, and through the communication channel 8 to the first input of the first of the series-connected measurement units 7 and the input of the analog-digital converter 5, whose outputs through the keys 6 connected to the second input of the measurement units 7. The generator 1 is made on the operational amplifiers A1 and A2, the binary counter D, the capacitor C1, the resistors Ri-Ri / and generates a step voltage of one polarity. On the operational amplifier AI, the capacitor C | and resistors Ri-RIT assembled rectangular pulse generator. Counter D1 and amplifier A2 serve to receive stepwise varying voltages. Moreover, the generator 1 generates a step voltage, starting at a certain threshold 1/0, i.e. the voltage of the first stage is Uo + AU, the second stage Uo + 2AU, the i-th stage UQ + iAU block 2 of the decoder converts the binary input code to position output code and is intended for storing information in the RAM (random access memory). The 3-detector unit entering the tolerance zone is made on the operational amplifier A3, comparator K and resistors R18-R24. It is configured in such a way that a logical unit appears at its output if the voltage taken from resistor R17 is equal to Uo. The unit thresholds are controlled by applying the bias voltage and the ASE to the comparator inputs. The comparator is an integrated circuit of type K521CA1. The display unit 4 includes a RAM memory sub-unit and digital indicators N. This memory is necessary for storing information in the absence of an input signal. Analog-to-digital converter 5 is needed to convert the input voltage value to an output digital positional stroke, which can be performed as shown in FIG. 2 - on operational amplifiers A4-A19, resistors R25R151 and diodes VI-V32. Keys 6-transistors, for example, type CT 315 G. consist of stabilizers V334-V48. Measurement units 7 consist of Zener diodes V494-V65, having a magnitude of stabilized voltage equal to the magnitude of the step Di variation of the voltage of the generator and contacts, which are installed directly on the plow dumpers. The principle of operation of the proposed device consists in alternately connecting measurement units 7 with keys 6 to communication channel 8. The turn-on sequence is provided by different voltage levels. In this case, if the key 6 is turned on and the corresponding contact is closed, then the detector 3 is triggered into the tolerance zone and a logical unit is detected in the corresponding RAM cell, which indicates that the plow is lowered. The device works as follows. Let, at the initial moment of time, the plow jumpers of the second and sixteenth be lowered and at the generator output a voltage corresponding to the voltage of the first stage should be given. At the same time, at the first output of the decoder 2, the logical "1 appears, at its remaining inputs the logical" O. Through the communication channel 8, the potential of the first stage from the output of the generator 1 is fed to analog-to-digital converter 5, which converts it to a digital code which only opens the V33 transistor. Since the first plow ejector is in a raised condition, contact 0 | open and the current through the key 6i does not leak, therefore, block 3 does not work and the logical "O." At the next moment of time, the potential of the second stage, i.e. Uo + 2AU, will be set at the output of the generator 1, the second output of the decoder 2 will be logical "1. Analog-to-digital converter 5 converts the voltage of the second stage into a digital code at which only the V34 transistor will open, i.e. the switch 62 will operate and connect the measurement block 72 to the communication channel 8. Since the second plow is omitted and therefore the GZ contact is closed, two Zener diodes V49 and V50 are connected to the circuit and the voltage removed from the resistor R17 at the output of generator 1 is Uo + 2Л U - - 2UcTa6, i.e., UQ so as U AUcTa JWhen at the output of the detector, 3 hits in the tolerance zone will be a logical ' 1, which will be written into the 2nd cell of RAM. When the voltage of the third stage is set at the output of the generator 1, the logical “O” will be written to the third cell of the RAM, since the third plow dumper lifts and the contact 9 is broken. Similarly, logical “O will be written into the cell 4, ..., 15 RAM, and logical“ 1 will be written into cell 16. The operation of the device is cyclically repeated and consequently, the information stored in the RAM is continuously updated, displaying a real picture of the status of plow dumpers. Thus, at any time there is information about the numbers of lowered plow dumpers and the number of the latter, if necessary, and also increases the time to search for a failed plow dumper, expands the area of application of the device, allowing us to use it in automatic hopper loading systems. . Apparatus of the invention for monitoring the position of stationary plow ejector devices installed above the conveyor, containing a voltage generator and control units, and 11 measuring, measuring, characterized in that, in order to expand its functionality by obtaining information on the numbers of the lowered plow ejector devices, it is equipped with an analog -digital converter, and the control unit is designed as a decoder and detector within the tolerance zone, the outputs of which are connected to the inputs of the display unit, the input the decoder is connected to the generator output, the second output of which is connected to the detector inputs, the analog-to-digital converter and one of the inputs of the first measurement unit, and the outputs of the analog-digital converter are connected to the inputs of the key blocks, the outputs of which are connected to the second inputs of the measurement units. Sources of information taken into account in the examination 1. Automation of thermal power plants. Ed. M.P. Shalmana. M., “Energie, 1974, p. 200, fig. 8.8. 2. USSR author's certificate for application number 2812481, cl. B 65 G 43/00, 1979 (prototype). FIG. i. f CiS ::  P