CN110443995A - A kind of integrated wireless load system and its implementation for oil field - Google Patents

Abstract

The invention discloses a kind of integrated wireless load systems and its implementation for oil field.The system includes control unit, wireless communication module, storage unit and load signal acquisition unit；Wherein control unit is made of Micro-processor MCV, and Micro-processor MCV is connect with wireless communication module, storage unit, load signal acquisition unit respectively, and wireless communication module connects server.Using integrated wireless load system, indicator card needed for pumpingh well can be acquired, and data directly can be transferred to server in the case where not needing other equipment cooperation, saves system cost, the stability of system is improved, there is very important use value and realistic meaning.

Description

A kind of integrated wireless load system and its implementation for oil field

Technical field

The present invention relates to the acquisition of oil field indicator card and transmission device, in particular to a kind of integrated wireless for oil field carries G system and its implementation.

Background technique

Rod-pumped well oil recovery is mode commonly used in current oil field development, the quality of the management level of rod-pumped well, It is related to the height of oil field whole economic efficiency.Carry out the production management work of rod-pumped well, it is necessary to take standard to take complete every raw Production data is formulated the reasonable working system of rod-pumped well, is constantly analyzed, and continually changing Reservoir behavior is adapted to, and reinforces simultaneously The daily management for improving rod-pumped well is horizontal.

Indicator card is exactly a main means for being directly acquainted with deep-well working conditions of pump quality, not only in deep-well pump work All abnormal phenomenon can more intuitively reflect on indicator card, moreover, it is also possible to sentence in conjunction with relevant information to analyze Whether disconnected production well proration is reasonable, and whether pumping unit adapts to oil reservoir and oil property, can also pass through " indicator diagram method " Reasonable open-shut in time is made to low yield, low energy well, reduces the abrasion of equipment and the waste of electric energy etc..

Wireless loading equipment is exactly the equipment for acquiring and being wirelessly transferred indicator card.The nothing that oilfield generally uses at present Linear load equipment, Primary communication mode be bluetooth, zigbee, 2.G, the modes such as wifi, wlan, because of its low power consumption characteristic, one As require to work with unifying main control unit (RTU), main control unit (RTU) is by corresponding communication and carries Lotus equipment carry out data transmitting-receiving management, main control unit (RTU) be collected into after load data reported again to server it is collected Load data.

Summary of the invention

In view of state of the art, the object of the present invention is to provide a kind of integrated wireless load system for oil field and Its implementation.

The technical solution adopted by the present invention is that: a kind of integrated wireless load system for oil field, it is characterised in that: institute The system of stating includes control unit, wireless communication module, storage unit and load signal acquisition unit；Wherein control unit is by micro- Device MCU composition is managed, Micro-processor MCV is connect with wireless communication module, storage unit, load signal acquisition unit respectively, wirelessly Communication module connects server.

Micro-processor MCV of the present invention uses STM32L475RGT6 chip N1, and load signal acquisition unit uses INA333AIDGKR signal amplification chip N4, storage unit use W25Q64FVSIG storage chip N3, and wireless communication module uses Gsm module XS5, wherein 5 feet of chip N1,6 feet connect the both ends of crystal oscillator G1, and the both ends of crystal oscillator G1 pass through capacitor C43, electricity respectively Hold C42 ground connection；13 feet of chip N1 pass through capacitor C12, capacitor C51 ground connection respectively；13 feet of chip N1 connect further through inductance L1 Connect 3V power supply.

1 foot, 8 feet of signal amplification chip N4 of the present invention are connected by resistance R46, and 2 feet, 3 feet pass through resistance respectively R55, resistance R56 ground connection, while 2 feet, 3 feet are connected respectively to 1 foot of connector XS3,2 feet again, 3 feet of connector XS3 are grounded, 4 feet are grounded by capacitor C4, capacitor C15 respectively again, while further through inductance L2 connection 3V power supply, 4 feet of operational amplifier N4 Ground connection, 7 feet, 5 feet are grounded after connecting capacitor C5, capacitor C26.

1 foot of storage chip N3 of the present invention connects 20 feet of the chip N1, and 2 feet connect 22 feet of chip N1,3 feet 1 foot of chip N1,4 feet ground connection are connected, 5 feet connect 23 feet of chip N1, and 6 feet connect 21 feet of chip N1, and 7 feet pass through resistance R14 is connect with 8 feet, is grounded after connection by capacitor C38.

35 feet of the 3 feet connection chip N1 of gsm module XS5 of the present invention, 4 feet connect 34 feet of chip N1, the connection of 5 feet 24 feet of chip N1,6 feet connect 25 feet of chip N1, and 7 feet connect 33 feet of chip N1,8 feet ground connection, and 9 feet, the connection of 10 feet are followed by Power supply BAT1,11 feet ground connection, 12 feet connect 40 feet of chip N1, and 13 feet connect 39 feet of chip N1, and 14 feet connect chip N1's 38 feet, 15 feet connect 37 feet of chip N1, and 16 feet connect 36 feet of chip N1,20 feet ground connection.

A kind of integrated wireless load system implementation method for oil field of the present invention, it is characterised in that: realization side Method has the following steps:

Step 1: starting to work after device power, Micro-processor MCV is communicated with load signal acquisition unit, is collected load and is shown Function figure.

Step 2: Micro-processor MCV is interacted with wireless communication module, the connection of equipment and server is established by verifying of dialling System.

Step 3: issuing server in indicator card data, and receiving server after equipment connect foundation with server It instructs and executes corresponding operating.

Step 4: entering dormancy period after the completion of equipment and server communication, after the dormancy time of timing, equipment is called out It wakes up, executes step 1.

The beneficial effects of the present invention are: technology maturation is reliable the present invention is based on the realization of the communication technologys such as GPRS, CMDA, letter Single reasonable, strong operability, for equipment using systemic microprocessor, peripheral circuit is simple, and hardware cost is lower, does not increase substantially System extra cost burden.

Using integrated wireless load system, indicator card needed for pumpingh well can be acquired, and is not needing other equipment cooperation In the case where data directly can be transferred to server, save system cost, improve the stability of system, have very heavy The use value and realistic meaning wanted.

Detailed description of the invention

Fig. 1 is present system composition block diagram；

Fig. 2 is control unit circuit diagram in Fig. 1；

Fig. 3 is load signal acquisition unit circuit diagram in Fig. 1；

Fig. 4 is storage unit circuit schematic diagram in Fig. 1；

Fig. 5 is wireless communication module circuit diagram in Fig. 1；

Fig. 6 is battery interface schematic diagram in Fig. 1；

Fig. 7 is present system work flow diagram.

Specific embodiment

For a clearer understanding of the present invention, being described in detail below in conjunction with attached drawing:

As shown in Figure 1, this system includes control unit, wireless communication module, storage unit and load signal acquisition unit；Wherein Control unit is made of Micro-processor MCV, and Micro-processor MCV is acquired with wireless communication module, storage unit, load signal respectively Unit connection, wireless communication module connect server.

As shown in Figures 2 to 5, the Micro-processor MCV of this system uses STM32L475RGT6 chip N1, and load signal is adopted Collect unit and use INA333AIDGKR signal amplification chip N4, storage unit uses W25Q64FVSIG storage chip N3, channel radio Believe that module uses gsm module XS5, wherein the both ends of 5 feet of chip N1,6 feet connection crystal oscillator G1, the both ends of crystal oscillator G1 pass through respectively Capacitor C43, capacitor C42 ground connection；13 feet of chip N1 pass through capacitor C12, capacitor C51 ground connection respectively；13 feet of chip N1 lead to again Cross inductance L1 connection 3V power supply.

For this system using the STM32L475 RGT6 microprocessor of ST company as control unit, which is complete Integrated mixed signal system on chip type MCU has electrification reset in piece, VDD monitor, voltage adjuster, house dog timing Device and internal clock oscillators function are the systems on chip that can really work independently.

As shown in figure 3,1 foot, 8 feet of the signal amplification chip N4 of this system are connected by resistance R46,2 feet, 3 feet difference It is grounded by resistance R55, resistance R56, while 2 feet, 3 feet are connected respectively to 1 foot of connector XS3,2 feet again, connector XS3's 3 feet ground connection, 4 feet are grounded by capacitor C4, capacitor C15 respectively again, while further through inductance L2 connection 3V power supply, operational amplifier 4 feet of N4 are grounded, and are grounded after 7 feet, 5 feet connection capacitor C5, capacitor C26.

Load signal acquisition unit circuit mainly uses INA333AIDGKR signal amplification chip, and the circuit is by 0-3mv's Low level signal amplification is the manageable 0-3V signal of control unit, is connected by PA3 pin with control unit, is done for control unit Analog-converted generates indicator card data and uses.

As shown in figure 4,1 foot of the storage chip N3 of this system connects 20 feet of the chip N1,2 feet connect chip N1's 22 feet, 3 feet connect 1 foot of chip N1,4 feet ground connection, and 5 feet connect 23 feet of chip N1, and 6 feet connect 21 feet of chip N1, and 7 feet are logical It crosses resistance R14 to connect with 8 feet, be grounded after connection by capacitor C38.

Storage unit mainly uses W25Q64FVSIG storage chip, is mainly used to store user information and user data, adopt With spi interface, connected by cs1 miso1 sck1 mosi1 pin with control unit.

As shown in figure 5,35 feet of the 3 feet connection chip N1 of the gsm module XS5 of this system, 4 feet connect the 34 of chip N1 Foot, 5 feet connect 24 feet of chip N1, and 6 feet connect 25 feet of chip N1, and 7 feet connect 33 feet of chip N1,8 feet ground connection, 9 feet, 10 Foot connection is followed by power supply BAT1,11 feet ground connection, and 12 feet connect 40 feet of chip N1, and 13 feet connect 39 feet of chip N1, and 14 feet connect 38 feet of chip N1 are connect, 15 feet connect 37 feet of chip N1, and 16 feet connect 36 feet of chip N1,20 feet ground connection.

The module that wireless communication module can choose is also: GPRS module, CDMA module, LTE module, WIA module etc., if It is standby to be needed to select suitable module according to user, it is primary to be connect by TXD3 RXD3 with control unit.

This system use above-mentioned wireless communication module after, can directly and server communication, it is no longer necessary to external equipment is (such as Main control unit RTU) cooperation, data directly can be transferred to server.

As shown in fig. 6, this system is powered by internal battery to integral device, internal battery passes through socket XS1 and system Connection, provides power supply BAT1.

As shown in fig. 7, the implementation method of this system has the following steps:

Step 1: starting to work after device power, Micro-processor MCV is communicated with load signal acquisition unit, is collected load and is shown Function figure.

Step 2: Micro-processor MCV is interacted with wireless communication module, the connection of equipment and server is established by verifying of dialling System.

Step 3: issuing server in indicator card data, and receiving server after equipment connect foundation with server It instructs and executes corresponding operating.

Step 4: entering dormancy period after the completion of equipment and server communication, after the dormancy time of timing, equipment is called out It wakes up, executes step 1.

Claims (6)

1. a kind of integrated wireless load system for oil field, it is characterised in that: the system comprises control units, channel radio Believe module, storage unit and load signal acquisition unit；Wherein control unit is made of Micro-processor MCV, Micro-processor MCV point It is not connect with wireless communication module, storage unit, load signal acquisition unit, wireless communication module connects server.

2. a kind of integrated wireless load system for oil field according to claim 1, it is characterised in that: micro- place It manages device MCU and uses STM32L475RGT6 chip N1, load signal acquisition unit uses INA333AIDGKR signal amplification chip N4, storage unit use W25Q64FVSIG storage chip N3, and wireless communication module uses gsm module XS5, wherein the 5 of chip N1 The both ends of foot, 6 feet connection crystal oscillator G1, the both ends of crystal oscillator G1 pass through capacitor C43, capacitor C42 ground connection respectively；13 feet of chip N1 point It Tong Guo not capacitor C12, capacitor C51 ground connection；13 feet of chip N1 are further through inductance L1 connection 3V power supply.

3. a kind of integrated wireless load system for oil field according to claim 2, it is characterised in that: the signal 1 foot, 8 feet of amplification chip N4 are connected by resistance R46, and 2 feet, 3 feet pass through resistance R55, resistance R56 ground connection, while 2 respectively Foot, 3 feet are connected respectively to 1 foot of connector XS3,2 feet again, the 3 feet ground connection of connector XS3,4 feet again respectively by capacitor C4, Capacitor C15 ground connection, while further through inductance L2 connection 3V power supply, 4 feet of operational amplifier N4 are grounded, and 7 feet, 5 feet connect capacitor It is grounded after C5, capacitor C26.

4. a kind of integrated wireless load system for oil field according to claim 2, it is characterised in that: the storage 1 foot of chip N3 connects 20 feet of the chip N1, and 2 feet connect 22 feet of chip N1, and 3 feet connect 1 foot of chip N1, and 4 feet connect Ground, 5 feet connect 23 feet of chip N1, and 6 feet connect 21 feet of chip N1, and 7 feet are connect with 8 feet by resistance R14, passed through after connection Capacitor C38 ground connection.

5. a kind of integrated wireless load system for oil field according to claim 2, it is characterised in that: the GSM 35 feet of the 3 feet connection chip N1 of module XS5,4 feet connect 34 feet of chip N1, and 5 feet connect 24 feet of chip N1, the connection of 6 feet 25 feet of chip N1,7 feet connect 33 feet of chip N1,8 feet ground connection, and 9 feet, the connection of 10 feet are followed by power supply BAT1, and 11 feet are grounded, and 12 Foot connects 40 feet of chip N1, and 13 feet connect 39 feet of chip N1, and 14 feet connect 38 feet of chip N1, and 15 feet connect chip N1's 37 feet, 16 feet connect 36 feet of chip N1,20 feet ground connection.

6. a kind of integrated wireless load system implementation method for being used for oil field as described in claim 1, it is characterised in that: real Existing method has the following steps:

Step 1: starting to work after device power, Micro-processor MCV is communicated with load signal acquisition unit, is collected load and is shown Function figure；

Step 2: Micro-processor MCV is interacted with wireless communication module, contacting for equipment and server is established by verifying of dialling；

Step 3: issuing server in indicator card data, and receiving the instruction of server after equipment connect foundation with server And execute corresponding operating；

Step 4: entering dormancy period after the completion of equipment and server communication, after the dormancy time of timing, equipment is waken up, Execute step 1.