SU674076A1 - Device for collecting and processing data from spaced objects - Google Patents

Description

(54) DEVICE FOR COLLECTING AND PROCESSING DANSHH C dispersed objects swarm output - with nepBfriM output decoder interrogation signal, the third vVsbd to a first input of the reproduction information, a fourth output and the second input - to a first input and a first output lines switch to the second input the first input of the control unit is connected to it, and to the third inputs - the first outputs of the interrogator's code generator, the second output of the control unit is connected to the third input unit of the receiving-transmitting unit, the third output - to the second input the fourth output is with the second input of the alarm unit, the fifth output is with the first input of the direction selector, to the second input of which the first output of the polling signal decoder is connected to the output of each intermediate dispatch center at the central control room with the corresponding first inputs the receiving and receiving unit, to the second inputs of which the first switches of the direction switch are connected, the second output of which is connected to the direction indication unit, and the The first output is with the first input of the information input unit, the output of which is connected to the first input & m of the information processing unit, the first output of the control unit is connected to the second input of the information input unit, and the second output is connected to the third input through a constant coefficient block the information input unit, the third, fourth, fifth, sixth and seventh outputs of the control unit are connected respectively via the program setting unit to the second input of the information processing unit, to the first input of the information recording unit, to the first input of the unit n the first input of the polling unit, the first output of which is connected to the second input of the direction switch, the first output of the information processing unit is connected to the first input of the direction switch, the second output - with a signal panel, the third output - with the second input of the registration unit, the fourth output - with the second input of the memory unit, the first output of which is connected to the third input of the information processing unit, the output of the memory unit is connected to the second m input of the data transmission unit: s, the output of which is connected to the technological electronic-1 number machine 2. A disadvantage of the known device is the low reliability of information transfer. The aim of the invention is to increase the reliability of the devices TGaG. The goal is achieved by the fact that a device is inserted into the device at the control room.

Claims (2)

674076 response signal generator, signal correction unit, delay element and preparation signal decoder, the second output of the interrogation signal decoder is connected to the first input of the response signal generator, and the first output of the selector unit is connected to the second input. directions, the second output and the third input of which are respectively connected to the first input and to the second output of the interrogator's code generator, the output of the Shaper signal generator to the fourth input of the receiving and receiving unit, the fifth input and the fifth output of which are connected to the first input and the first output the signal correction unit, the sixth output of the reception-transmission unit through the preparation signal decoder is connected to the control unit input, the sixth output of which is connected to the second input, the signal correction unit, the second output unit Signal correction signal through the delay delay is connected to the second input of the driver of the code of the object of the survey; At the central control room, a response signal decoder, a direction address driver, and a preparation signal for reception are entered, the output of the transmission unit through the response signal decoder is connected to the second input of the polling unit, the second output of which is connected to the fourth input of the coding unit, the second input which is connected to the third output of the polling unit, and the third output - to the output of the preparatory signal reception device, the third output of the information processing unit is connected to the input of the address .napravleni, first outputs of which are connected with third, inputs interrogation unit, the second output vkodom first training signal conditioners for receiving, to the second input of which is connected to the fourth output interrogation unit. The drawing shows a block diagram of a device for collecting and processing data from dispersed objects. The device contains monitored items 1 of single objects and monitored items 2 of group objects included in technological objects 3, intermediate dispatching points 4, containing a transmission unit 5, a direction switch b, a control unit 7, an alarm block 8, a polling signal decoder 9, a block 10 directions search, response response shaper 11, polling object code shaper 12, signal correction unit 13, delay element 14, preparation signal decoder 15 and information playback unit 1; a control unit 17, a polling mode setting unit 18, a polling unit 19, a switch 20, a reception-transmission unit 21, a formation input unit 22, an information processing unit 23, a constant coefficient unit 24; memory block 25, processing program setting unit 26, information recording unit 27, polling signal generator 28, encoding unit 29, direction indicating unit 30, response signal decoder 31, direction address forming device 32, preproducing signal generator 33, block for output 34, signaling table 35, data transmission unit 36 and technological electronic computing machine 37. The device operates as follows. Controlled item 1 of a single object provides remote control (TU) and tele-signaling (TS) from wells with mechanized production, and from well wells - TS. The controlled item 2 of the rpynrtoBoro object, in addition to the specified functions of the technical conditions and the vehicle, measures the well production by three parameters (fluid flow, water cut, and gas flow) without intermediate processing of the measurement results. In case of emergencies at technological objects 3 TS from controlled points I or 2, it arrives at the intermediate dispatch point 4. Here, through the reception and transmission unit 5 c, the switch 6 of the vehicle’s directions arrives at the alarm block 2 {the third decodes the direction address and the object . The address information is generated at the monitored point AND transmitted with the alarm signal. Through the control unit 7, the operator polls the emergency objects, eliminates emergency situations if possible, or disables the objects. The lioc-jne emergency response control unit 7 forms the specification and transmits it to the object, which ensures its launch. In the process of telemetry, transmission and processing of measurement information, the system operates as follows. At the monitored item 2, the group object of the well on the automated group measuring installation is set to be measured. During the measurement, the principle of adaptation is carried out according to well performance parameters with limitations on the number of measuring impulses N for a well with a maximum performance of Q ffioK and on the number of temporal pulses tujH for a well with a Minimum flow rate for liquid Q ,, fm4n In the process of measuring a controlled point registers the measurement pulses of the measurement time, the flow rate of the liquid, the water content of the product and the gas factor (Nt ,., NI mi. -9 NQ) of the well. After the termination of the last 76 process, the 5 rd tfbnt rollpoint 2 is set to await the interrogation signal from the central control room. Consider the process of selecting the daily dispatching point 4 when polling for the selection of telemetric information from the monitored points 2. Control unit 17 nag: central and supervisor point does not affect the polling mode setting unit 18, which ensures cyclic interrogation of intermediate dispatching points 4. Block 18 starts in the work of the polling unit 19, which supplies to the switch 20 directions of the number of pulses corresponding to the first direction. Connects the first and direction. Then the polling unit 19 sends a signal to the polling signal generator 28, which generates the polling signal and feeds it to the coding unit 29. The polled polling signal, having certain time parameters (duration), is transmitted along the selected direction to the corresponding intermediate control station 4 through the transceiver unit 21 The direction indication unit 30 signals which direction is involved and which intermediate control station is selected. The interrogation signal at the intermediate dispatch station xpc 4 is received by the reception-transmission unit 5 and fed to the interrogator 9 of the interrogation signal, which supplies a signal to the direction selection unit 10 and the response generator 11. Block 10 is put into operation, and shaper 11 is prepared for operation. The direction selection unit 10 starts, on a parallel basis, to connect the directions of this intermediate dispatcher station through the 6-direction switch and send coded signals to them from selected control points 2 from the generator 12 of the code of the polling object (number-pulse count with frequency filler f (), Selected supervised Point 2 is connected to the mode of transmitting telemetric signals by code-pulse modulation in digital form (frequency 3), if it has completed the measurement, at this point Lok 10 of the choice of direction The signal stops and waits until the end of the transmission, the signals from the selected monitored point. The incoming signals are received by the transmit receive unit 5, pass through the signal correction block 13. and then are fed: next by the receive receive block 5 to the central control room. peredavat and correction of single errors in code COMBINATIONS in the process of retransmitting signals to the central control center from the block 13 correction signals to the delay element 14 post a signal is received, thus blocking its operation and excluding the supply of the next 6 coded signal of the selected controlled point. Upon termination of the retransmission of signals from the selected controlled point or in the case when the measurement process is not finished at the selected controlled point, the delay element 14 is triggered after a certain time and sends a signal to the polling object 12 of the interrogation code, which generates the code of the next controlled point. it through the switch b directions and block reception and transmission 5 in the selected direction. After transmitting all address signals to the selected direction and polling the monitored points, the driver 12 sends a signal to direction selector 10, which forms and sends signals to the direction switch and driver 12. The next direction is connected to the survey, the address signals are sent and all are polled controlled points of this direction. At each monitored monitored point 2, a connection is made to measure the next measurement object (well), and the 1 controlled point itself is disconnected from the communication channel (the receiver input is blocked). The response signal from the formation of the response signal body 11 of the signal 11 is transmitted to the central dispatch point 5 when the law reads the polling of all directions of the intermediate control point 4 and the direction selection block 10 will send a signal to the driver 11. In the central control room, the response signal enters through the reception-transmission unit 21 to the decoder 31 of the response signal, which acts on the polling unit 19, thereby enabling the connection of the next direction (intermediate control tower). In this way, a survey of all directions C of the dispatch center is carried out. The received information, in addition to the specified measurement parameters, contains the address of the objects: the conditional well number and the group measurement setup. Information from the reception-transmission unit 21 through the switch 20 Directions on the selected channel enters through the information input unit 22 to the information processing unit 23 (information electronic computer). In the information processing block 23, the performance of the object (well) is measured according to an appropriate algorithm), taking into account the correction constant coefficients characteristic of the measurement environment (oil of a given field). 6 68 In the information processing unit 23, the constant coefficients are entered from the 24 constant coefficient unit through the information input unit 22 by a command from the control unit 17. After processing, it has information. each well, which contain: the address of the object, - Q, tons / day; QH t / day; Qa t / day; Q ,,. This information is recorded for each intermediate dispatcher station in memory 25. The information processing program is selected by the operator through the control unit 17, which, depending on the required algorithm, generates the appropriate command code and feeds it to the processing task block 26, which acts on block 23 processing information. This ensures the processing of information on the selected algorithm. The processed information is output in parallel to the information registration unit 27, which allows the operator to follow the progress of information collection and processing. In the case when operational control is not necessary, information recording unit 27 can be turned off by command of control unit 17. Thus, information is accumulated in memory block 25 within 24 hours from all monitored items. At the end of the shift, by the operator’s command or automatically, the control unit 17 generates a signal for outputting the results, thus ensuring that the information processing unit 23 is launched into the summarizing mode of the corresponding program of the processing program task unit 26. The information processing unit 23 performs the sorting of the processed Information from the memory unit 25 according to the belonging to the corresponding intermediate control center. Data is generated on the basis of belonging to a single intermediate control center with common (total) indicators (., XQHi and, Qbj) per shift, that information is stored in memory block 25 and displayed (printed out) by information recording unit 27. In the initial device, it is ensured that the processed information is transmitted to intermediate control points. In this case, the control unit 17 sends a signal to the polling mode setting unit 18 and turns off the polling program. The signal from block 18 is fed to the polling unit 19, which ensures its preparation for work. The implementation of the process of selecting the required intermediate dispatch center 4 and the data transfer mode is performed by the information processing unit 23, which, together with the direction address generator 32, generates a signal for selecting the corresponding intermediate dispatch center. This signal at the corresponding input is fed to the polling unit 19, which selects the desired direction and sends a signal to the shaper 33 of the preparation for receiving signal. The signal from the spinner 33 is supplied to the coding block 29. An encoded signal (fj) will be sent to the selected direction via the reception-transmission unit 21 to ensure the preparation of the intermediate dispatch center 4 to receive the processed information, which will be received by its reception-transmission unit 5 and arrive at the preparation signal decoder 15. Then the decoder 15 sends a signal to the control unit 7, which will prepare the information reproduction unit 16 for recording the transmitted information. After the processing of the information is completed, the results of processing by the information recording unit 27 are output and transmitted via output unit 34 and transmission / reception unit 21 to the selected interim dispatching station 4. The information is transmitted in digital form using code-pulse modulation (MTK-code). 2 or another code frequency fg), Received information at the intermediate control station 4 through the reception block 5 is received by block 16 of information playback, which expands it. / 5, it provides information on the results of telemetry on objects. Upon completion of processing, transmission and output of information from one intermediate dispatch center at the central dispatch center, information processing unit 23 proceeds to the selection and processing of information on the next intermediate dispatch center. Formed by the block 23 and the shaper 32 of the direction address, the address of the new intermediate control point, the corresponding direction is taken and the process of information transfer is carried out. This is the process of processing and transmitting data for all proxy dispatch points. Zgi data can be transmitted at the request of the intermediate control tower. The TV signaling of the vehicle is carried out during the survey of monitored points. 2. The vehicle is recorded with decryption at the intermediate dispatch center and then transmitted to the central control station. Here, the vehicle passes through the reception-transmission unit 21, the switch 20 of the directions, the information input unit 22 and enters the information processing unit 23, where it is decrypted and then entered into the signal board 35, this ensures operative control over the state of the control and measurement objects. Subsequently, this information is stored in memory block 25 and is used in generating reports. During the processing and transmission of information, a survey of objects is not performed. Controlled items 2 are in standby mode. The accumulated information in the memory block 25 is used in the future to generate reports on the operation of the facility and plan modes for subsequent time periods of operational control. For this, information from memory 25, at the command of control unit 17, is transmitted via a separate data transmission unit 36 to a technological electronic computer 37 of a cluster (regional) information processing center. If E is used as the information processing unit 23 of a small or medium electronic computing material, which enables separate processing of information in time, this processing can be performed at the central control room without disturbing the selection mode of telemetry and television signals. The use of the invention will reduce the hardware costs of collecting, transmitting and processing production information about technological processes in which a significant number of dispersed objects are involved. The reliability of information support will increase, which will facilitate the introduction of an automated npoiieccaMH technological control system and a full load of the electronic computer used. The efficiency of management will increase, since it will be possible to have information about the current production of the object and the state of the objects as a whole with minimal time expenditures. The equipment of the control rooms will be simplified, which will lead to a reduction in the cost of information processing and increase the reliability of the device. The invention of the device for collecting and processing data from dispersed objects contains observable items of monolithic objects and controlled items of group objects, each of which is connected to (The corresponding point of the intermediate dispatch unit, containing the receive-transfer unit, the first inputs of which are connected to the inputs of the intermediate dispatching point, the first output of the unit, the prima-transmission is connected with the first input of the alarm lock location, the second output is connected to the first output of the diyfrator of the polling ignition, third th output - with a feather input of the playback unit; information, the fourth output and the second 11 input - respectively with the first input and the first output of the direction switch, the first output of the control unit is connected to the second input; R third inputs — the first outputs of the code generator of the object of the survey, the second output of the control unit — is connected to the third input of the receiving and transmitting unit; with the second input of the information playback unit, the fourth output - with the second input of the alarm unit, the fifth output - with the first input of the unit No. of directions to the second input of which the first output of the decoder is connected drove the survey, the output of each of the intermediate, control station connected to the central control station with sootvetstvuyu1Dimi first inputs of the block ppiema-pepodiachi, to the second inputs of which are connected pervyo yyhody koyyutatora nap avloni second output of which is connected to blo cbm y1-d ikatsyi directions, and the third output - process the first input of the input block, the output of which is connected to the first input of the block; information, the first output of the control unit is connected to the second input of the information input unit, and the second output through the constant coefficient block is connected to the third input of the information input unit; the third, fourth, fifth, sixth and seventh outputs of the control unit are connected respectively through the unit assigning the program to the second input of the information processing unit, to the first input of the registration unit of the formation, to the first input of the memory unit, to the first input of the data transmission unit and through the setting unit of the polling mode to the first input of the polling unit, the output of which is connected to the second input of the direction switch, the first output of the information processing unit through the output unit connected to the first input of the direction switch, the second output to the signal board, the third output to the second input of the registration unit, the fourth output to the fourth input of the memory unit The first output of the Cbg Zr6go is connected to the third party input of the information processing unit, the output of the memory unit is connected to the second input of the data transmission unit, the output of which is connected to the technological element of the computational processor, which is but with the fact that 12 674076, the device reliability enhancer, the response signal shaper, the signal correction unit, the delay element and the preparator deiscriminator are entered into the intermediate control station; the second output of the polling signal decoder is connected to the first input of the response shaper, and the first output of the block is connected to the first input of the response signal generator. direction selection, the second output and the third input of which are respectively connected to the first input and the second output of the driver of the code of the polling object, the output of the driver of the response signal is connected to the fourth The first input of the receiving-transmitting unit, the fifth input, and the fifth output of which are connected to the First input and the first output of the signal-correcting unit, the sixth output of the receiving-transmission unit, through a decoder of the preparation signal, are connected to the input of the control unit, the sixth output of which is connected to the second input the signal correction unit, the second output of the signal correction unit through the delay element is connected to the second input of the object code generator, the poll; on CeH rt aJii, HOM (a response signal decoder was entered in the test point, a signal was received for the address of the direction and the organizer of the preparatory signal for receiving, the output of the receiving-transmission unit through the decoder of the response signal is connected to the second input of the polling unit, the second output of the KOToj oro is polled by the polling signal connected to the fourth input of the coding block,: the 6th input of which is connected to the third output of the polling unit, and the third Skhod - with the input of the preparatory signal generator to receive, the third output of the information processing unit is connected to the input the driver of the direction address, the first outputs of which are connected to the third inputs of the interrogation unit, the second output - to the first input of the preparatory signal reception generator, to the second input of which the fourth output of the interrogation unit is connected.Sources of information taken into account during the examination 1. Copyrights USSR 433S23, class G 08 C 15/06, 1973. 2. Author's certificate of the USSR 519752, class G 08 C 19/28, 1973.