SU477444A1 - Telemeasurement device - Google Patents

Description

with the second input of the resolution block; the output of the time impuls generator is connected to the second inputs of the total measurement time recorder and the unit measurement time recorder, one input of which is connected to the second input of the circuit, the third input of the resolution unit is connected to the first input of the meter, the output of which is connected to the second input of the pulse meter and the input of the measuring cycle former, the output of which is connected to the third input of the resolution unit, which is covered by feedback.

However, the known devices do not allow the transmission of summary information from several wells and conduct an interrogation of controlled sites for the purpose of operative control of the process of measuring objects.

The purpose of the invention is to expand the functionality of the device.

This goal is achieved due to the fact that the control unit and the intermediate interrogation signal transmitter are inserted into the control unit, the control block outputs are connected to the corresponding inputs of the direction receiver, the direction switch and the intermediate interrogation signal transmitter, and the intermediate interrogation transmitter output is connected to the second input switch directions, and at a controlled point-shaper periodicity of information transfer, the alarm unit and the receiver p interim survey, and the input of the shaper of the periodicity of information transfer is connected to the second output of the shaper of the address of the object; the outputs of the transducer periodicity generator are connected respectively to the fourth input of the resolution unit and the second input of the polling distributor, the other outputs of the meter are connected respectively to the fifth input of the resolution unit and the second input of the object address generator; the inputs of the alarm unit are connected respectively to the second output of the recorder of a single measurement time and the second output of the recorder of a pulse of a single measurement; the output of the alarm block is connected to the third input of the OR circuit, the first input of the intermediate poll interrogator, covered by the feedback, is connected to the communication line, the second to the output of the application generator, and the output to the sixth input of the resolution block.

The drawing shows a block diagram of the monitored and the control room of the proposed telemetry device.

At the controlled point KI there are a resolution block 1, a survey distributor 2, a meter 3 (group metering unit to which wells are connected, or other particles of the primary measuring device), a shaper of 4 measurement cycles, a shaper of 5 time pulses, a shaper of 6 measuring pulses, a recorder 8 the total measurement time, the recorder 9 pulses of a single measurement, the recorder 10 pulses of the total measurement, the scheme "OR AND, the driver of the application 12, the ban driver 13, the communication channel 14. Out generator 12 is connected to the coincidence circuit 15 at the two inputs, a receiver 16 and a signal for application to the receiver 17

signal polling.

There are also a signal generator 18, a transmission unit 19, an interrogation resolution unit 20, an object address generator 21, a coding unit 22, a modulator 23, a data transmission frequency generator 24, an alarm block 25, and an intermediate interrogation receiver 26.

At the control room of the control center there is a direction receiver 27 connected to communication channels 14 and a direction switch 28 to which the interrogator 29 is input and output and information recorder 30 (TTY or other device), control unit 31 and transmitter 32 are connected.

intermediate survey signal.

The device works as follows. When the device is put into operation or after the end of measurement and transfer of measurement information to the control room

The item on the resolution block 1 from the polling distributor 2 receives a signal that sets the resolution block 1 to its initial state. The resolution unit acts on the meter 3, setting the first well to the measurement at the moment the device is put into operation, or setting the next well after transmitting the information. The meter 3 initially acts on the shaper of 4 measurement cycles, thereby eliminating the effect of the transient process on self-measurement. When the first measurement portion of the fluid is drained, the shaper of the measurement cycles generates a trigger signal and sends it to the resolution unit 1. Now

The resolution unit supplies the enabling signals to the time pulse generators 5 and the measurement pulses 6. The time pulse generator 5 is put into operation and sends the pulses to the unit measurement time recorder 7 and the total measurement time recorder 8. Shaper 6 measuring pulses start to pass, having previously formed on the front, measuring pulses from the meter 3 n and the recorder 9 pulses of a single measurement and to the recorder 10 pulses of the total measurement.

Recorders of a single measurement time of 7 and pulses of a single measurement of 9

The self-adjusting measurement program is set by time and by the number of measurement pulses. The time is chosen based on the minimum flow rate of the liquid, and the number of measuring pulses is based on

maximum flow rate of fluid from the 3 groups of wells connected to the gauge. The program for measuring the remaining wells is automatically selected within the specified limits depending on the characteristic (flow rate) of the well.

When the program setting of one of the recorders 7 or 9 is triggered, a signal is generated, which is fed through the OR 11 circuit to the resolution block 1, which, when a signal is received from the generator 4 measurement cycles, providing the complete discharge of the measuring portion of the liquid in the meter 3, stops the supply of the enabling signal to drivers 5 and 6. Thus, the recording of measurement time and measurement pulses on recorders 7, 8, 9 and 10 is stopped. Resolution block 1 blocks itself and sends a signal to driver application 12, which When there is no prohibition signal shaper 13 when no signal for application in the communication channel 14 from the other controlled points in one direction, and triggers a signal to the coincidence circuit 15, the receiver 16 a signal for application to the receiver 17 and the interrogation signal. The receiver of the signal is disconnected, and the receiver of the interrogation signal is connected to the communication channel 14. If there is a signal from the other controlled point of this direction in the communication channel or the information is transmitted, the driver does not work. and it will wait for the cessation of the application signal and the transfer of information to another controlled point. With the operation of the generator of the application 12, the signal generator 18 is connected via the coincidence circuit 15 to the transmission unit 19, and the frequency signal of the application fi p channel link 14 is sent.

The back-up signal is received at the control room, which then feeds the polling frequency signal to the communication channel of this direction. / 2- The interrogation signal is received at the monitored station that submitted the application signal, by the polling signal receiver 17, which supplies the polling resolution unit 20. The polling permission unit starts up the polling distributor 2 and turns off the driver of application 12.

The polling distributor 2 resets the recorder 7 of the unit measurement time and the recorder 9 of the unit measurement pulses to the initial state, which ensures the preparation of the program itself for a new measurement cycle. Also, the poll distributor 2 begins to poll the recorder 8 of the total measurement time, the recorder 10 of the total measurement pulses and the object address generator 21 (the group number and the well number are generated for a group metering installation). Information from the object address generator and the registrars 8, 10 is fed to the coding unit 22, where it is encoded in accordance with the selected code (for example, MTK-2 or others), and then through the modulator 23 to the transmission unit 19 and further to the channel zi 14.

At the end of the transmission of information from the recorders 8, 10 and shaper 21, the poll distributor 2 sends a signal to the resolution block 1, which acts on the meter 3 connecting the next well to the measurement. The process of measuring and transmitting information is repeated. At the same time, information on the flow rate of the QH fluid and the measurement time is transmitted with a cumulative result, i.e., after measuring the flow rate of the well, the group setting number is transmitted, No. 1 is the well number Ni,.

pulses of time of measurement of fluid flow rate, and after measuring the flow rate of the second well, No. of gr., No. 2, L, „,,, + LH,, +

+ Q ". etc.

Information transfer can be carried out both in the measurement of each individual well, after the measurement of a group of wells or after the measurement of all wells has been completed. This setting of the transmission of information is implemented using the information transfer periodicity shaper 24, which affects the resolution unit 1. The shaper 24 also sends a signal to the polling distributor 2, which provides

resetting the recorders 8, 10 to the initial state after the end of the process of measuring the parameters of the last well and transferring the measurement information to the control room, or after the process on the group of wells

depending on the selected mode of operation. In the case when the connected well stops abruptly supplying the fluid after connecting to the measurement, the intermediate infiltration of the degistocators is activated

measurement time unit 7 and unit change pulse impulses 9. Signals are sent to the 2P alarm unit, which through cxeMv "OR 11 acts on. resolution block 1. Information is transmitted, from which it can be seen that the well is not measured correctly, and the next well is connected to the measurement. When the wells are skipped on the meter 3, technological failures in the measurement process and the dcc no fluid supply in general, the shaper of 4 measurement cycles does not work and a signal from the meter 3 is given, which causes the unit 1 to form the resolution 1 after a certain time or immediately, depending on

emergency signal.

Information is transmitted to the control station, then the next well is connected or the measurement process is terminated before the arrival of service personnel, who

after the elimination of pensions, the device starts up.

The device provides a mode of operation with intermediate polling of controlled items. So from the control point comes a polling signal fonp, different in frequency

7

from previous signals. At that, at one of the controlled points, the receiver 26 of the intermediate interrogation signal is triggered, which self-blocks and starts up the resolution block 1, provided that the shaper of the 12 and the device of another controlled point did not work at this controlled point. The entire process of transmitting information with the blocking of the work of other controlled points of this direction is repeated, as described above. Reset recorders 8 and 10 are reset. Self-blocking of the receiver 26 eliminates the repeated actuation of the polled controlled point while continuing to send a second interrogation signal from the control center B to this direction. Thus, all the controlled points of the chosen direction are interrogated, which allows the operational control of the measurement objects (wells). The blocking of the receiver 26 is removed by the signal from the imaging unit of the application 12 when the measurement program is triggered by the measured well.

At the control room, the signaling signals in all operation modes, except for the intermediate polling mode, are received by the directional receiver stochastic program 27. When the application signals arrive, the receiver 27 selects a direction (randomly), triggers and acts on the directional switch 28 which connects the selected direction to the interrogation signal transmitter 29 and the information recorder 30. A "interrogation signal is sent, and then the information is received from the monitored item. After the service is completed, another direction is selected and the next controlled point is served, where the measurement process has ended. In the intermediate survey, the control unit 31 is launched, which acts on the direction 27, the direction switch 28 and the intermediate query transmitter 32. The appropriate direction is chosen, the intermediate interrogation signal is sent and the information is received. In this case, the polling signal transmitter is blocked.

Information: the address of the object, c, the incremental indicators of the measurement process (/ zm and Q; K) are recorded for printing and punched tape, which is further processed to represent the measurement results in named units.

Subject invention

The telemeasurement device containing the information recorder at the control station, the input of which is connected to the first output of the ggappa switchboard, the second output, connected to the first input of the transmitter ;: polling, the output of which is combined

the first input of the direction switch, the first group of inputs of which is connected to the outputs of the direction receiver, the outputs of which are combined with another group of inputs of the direction switch and connected to the communication lines, at the controlled point of the communication line is connected to the nerve inputs of the polling signal receiver and the receiver of the signal , the second inputs of the receiver of the signal for polling the receiver of the signal of the request and the first input of the coincidence circuit are connected to the output of the application driver, the output of the receiver of the application signal is connected to the input of the driver ban, the output of which is connected to the first

the input of the application driver, the second input of which is connected to the first output of the resolution unit, the receiver output of the interrogation signal is connected to the input of the interrogation resolution block whose output is connected to the third input of the application generator and the first input of the survey distributor, the first output of which is connected to the first inputs of the recorder the total measurement time, the unit measurement time recorder, the unit measurement pulse recorder, the unit measurement pulse recorder, the object measurement pulse recorder and the object address generator, second The output of the polling distributor is connected to the first input of the resolution unit, the second output of which is connected to the first inputs of the time pulse shaper and the measurement pulse shaper, the output of which is connected to the second inputs of a single measurement recorder and the total measurement pulse recorder, the output of the total measurement pulse recorder is connected to the outputs of the recorder of the total measurement time and the address generator of the object and is connected to the input

coding unit, the output of which is connected to the input of the modulator, the output of which is connected to the first input of the transmission unit, the second input of which is connected to the output of the coincidence circuit, the second input of which is connected to the output of the signal generation generator, one input of the pulse meter of the single measurement is connected to the first input the OR circuit, whose output is connected to the second input of the resolution unit, the output of the time pulse driver is connected to the second inputs of the recorder of the total measurement time and the recorder of a unit time This measurement, one output of which is connected to the second input of the OR circuit,

the third input of the resolution unit is connected to the first input of the meter, the output of which is connected to the second input of the pulse meter and the input of the measurement cycle generator, the output of which is connected to the third input of the resolution block, which is feedback-controlled, in order to expand the functionality of the device The control unit and the transmitter of the intermediate interrogation signal are entered into it at the control room.

the outputs of the control unit are connected h to the corresponding inputs of the directional receiver, the directional switch and the intermediate interrogation signal transmitter, and the output of the intermediate interrogation signal transmitter is connected to the second input of the directional switch, and at the monitored point-shaper of the information transmission frequency, the alarm unit and the intermediate interrogation receiver, moreover, the input of the frequency information shaper is connected to the second output of the object address shaper, the shaper outputs The periodicity of the transmission is connected respectively to the fourth input of the unit

resolution and the second input of the polling distributor, other outputs of the meter are connected respectively to the fifth input of the resolution unit and the second input of the object address generator, the inputs of the alarm unit are connected respectively to the second output of the measurement unit time recorder and the second output of the unit measurement pulse generator, the output of the unit

the alarm signal is connected to the third input of the OR circuit, the first input of the intermediate interrogation receiver covered by the feedback is connected to the communication line, the second one is connected to the output of the driver, and the output is

to the sixth input of the resolution block.

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