CN111305824B - Depth interface panel capable of separating display and operation and application method thereof - Google Patents

Abstract

The invention relates to a depth interface panel for separating display and operation, comprising: an SDDP board comprising detachable front and back panels, a front panel connector, a GPIB output interface, a network interface, a code wheel output interface, other combination input interfaces, a depth combination input interface, and a power plug. According to the invention, through a separation design, a serial port interface of the display screen is connected with the rear panel through an SDDP board connector and a detachable connector; meanwhile, the serial port screen can perform interface-friendly graphic display on data output by the SDDP board body through the serial port, the data display part is processed by the serial port screen, and the operating system of the serial port screen bears functions of network data acquisition and algorithm processing. The device separates the data display part and the operating system part into two independent units, and effectively solves the problem of frequent dead halt of the front depth panel.

Description

Depth interface panel capable of separating display and operation and application method thereof

Technical Field

The invention relates to the technical field of petroleum logging, in particular to a depth interface panel capable of separating display and operation and a use method thereof.

Background

The SDDP panel is one of important equipment in a logging system, and can be connected with various depth measuring sensors and tension sensors in a hanging manner to finish accurate measurement of depth and tension; two paths of depth encoder signals and two paths of tension signals can be received and processed simultaneously, and the running stability of the system is improved through multi-path backup; the device can actively control and alarm the peripherals such as the winch in real time, and can perform real-time communication in various modes with the host.

The SDDP panel can judge the position of the logging instrument for winch operators, and can timely perform deceleration processing when the logging instrument reaches the bottom hole and the wellhead soon, and meanwhile, the SDDP panel can also be used as an important basis for logging software to process logging instrument uploading data.

The original SDDP panel adopts a PCM-3343 high-performance PC104 as a main processor, the main frequency of a CPU is 1GHz, the memory is 256M, an operating system of WINCE6.0 is used, and an 8.4-in high-brightness liquid crystal screen and an AMT multi-touch screen are matched. Since the SDDP is used for a long time in the actual logging process, the continuous long-time use can cause the SDDP to crash.

Disclosure of Invention

Therefore, the invention provides a depth interface panel with separated display and operation and a use method thereof, which are used for solving the problem of the death of an SDDP board caused by long-time use in the prior art.

In one aspect, the present invention provides a depth interface panel that separates display and operation, comprising:

an SDDP board for loading connectors, the SDDP board comprising a front panel and a rear panel, the front panel and the rear panel being detachable;

the front panel connector is arranged on the SDDP front panel, is connected with the serial port screen and is used for transmitting data to the serial port screen so that the serial port screen displays the data, and the serial port screen is connected with the rear panel through the front panel connector and the detachable connector;

the GPIB output interface is arranged on the SDDP front panel and connected with the host computer to exchange data with the host computer;

a network interface arranged on the SDDP front panel and adjacent to the GPIB output interface, the network interface being connected with the host for exchanging data with the host;

the coding wheel output interface is arranged on the SDDP front panel and adjacent to the network interface and used for outputting coding wheel signals;

other combined input interfaces are arranged on the SDDP front panel and adjacent to the coding wheel output interfaces and are respectively connected with the tension sensing equipment and the magnetic sensing equipment;

the depth combination input interface is arranged on the SDDP front panel and is adjacent to the other combination input interfaces and is used for being connected with a depth coding wheel to perform buffer shaping;

and the power plug is arranged on the SDDP front panel and is used for being connected with the power module.

Furthermore, the GPIB output interface adopts a direct plug-in connector of a flat cable, and the front panel connector, the network interface, the encoding wheel output interface, other combined input interfaces, the depth combined input interface and the power plug all adopt direct plug-in connectors with locking devices.

Further, the front panel joint is an 11-core joint.

Further, the data displayed by the serial port screen comprises depth, tension and magnetic marks.

Further, the GPIB output interface is connected with the host through a GPIB line of the direct-plugging plug-in unit provided with the flat cable.

Further, the network interface is connected to a computer through a network cable provided with a 4-core network interface connector and exchanges data with a host in the form of a BASE-T (10M/100M adaptive) interface.

Further, the encoding wheel output interface is connected with an 8-core connector for outputting two paths of shaped encoding wheel signals to the portable ground station.

Further, the other combined input interfaces are connected with the tension sensing device and the magnetic sensing device through connecting wires provided with 10-core plugs.

Further, the depth combination input interface is connected with two depth coding wheels through a connecting line provided with a 12-core interface, and is used for buffering and shaping coding wheel signals of the two depth coding wheels, identifying directions and counting according to uplink and downlink respectively.

In another aspect, the present invention also provides a method for using a depth interface panel for separating display and operation, including:

step 1: before the interface panel is used, the serial port screen is connected with the SDDP back panel through a front panel connector and a detachable connector; connecting the GPIB output interface with a host through a GPIB line of a direct plug-in connector provided with a flat cable; connecting a network interface with a computer through a network cable provided with a 4-core network port connector; the output interface of the coding wheel is respectively connected with the portable ground station through a connecting wire provided with an 8-core connector; connecting other combined input interfaces with the tension sensing equipment and the magnetic sensing equipment through connecting wires provided with 10-core plugs; the depth combination input interface is respectively connected with two depth coding wheels through a connecting wire provided with a 12-core interface; connecting a power plug with a power module;

step 2: after connection is completed, starting the power module and opening the host, and outputting power to the interface panel through the power plug after the power module is started, wherein the interface panel starts data transmission at the moment;

step 3: when the interface panel starts to operate, the tension sensing equipment can detect tension at a specified position in the well logging and transmit detected tension signals to the depth combination input interface, and the magnetic sensing equipment can detect magnetism at the specified position in the well logging and transmit detected magnetic marks to the depth combination input interface;

step 4: the depth combination input interface receives coded wheel signals output by two depth coding wheels respectively, performs buffer shaping and direction identification on the coded wheel signals and counts the coded wheel signals according to uplink and downlink respectively;

step 5: the depth combination input interface is used for conveying the coded wheel signals to the coded wheel output interface after the coded wheel signals are shaped, and the coded wheel output interface can be used for outputting two paths of shaped coded wheel signals to the portable ground station;

step 6: after the interface panel receives data, the GPIB output interface exchanges data with the host computer through the GPIB line, and the network interface exchanges data with the host computer through the network line;

step 7: after the data exchange is completed, the front panel connector outputs the data to the serial screen, and the serial screen displays the depth, the tension and the magnetic marks detected at the appointed place in the well logging.

Compared with the prior art, the invention has the beneficial effects that the serial port interface of the display screen is connected with the rear panel through the SDDP board connector and the detachable connector by the separation design; meanwhile, the serial port screen can perform interface-friendly graphic display on data output by the SDDP board body through the serial port, the data display part is processed by the serial port screen, and the operating system of the serial port screen bears functions of network data acquisition and algorithm processing. The device separates the data display part and the operating system part into two independent units, and effectively solves the problem of frequent dead halt of the front depth panel.

Drawings

Fig. 1 is a schematic structural view of a depth interface panel according to the present invention, which separates display and operation.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Fig. 1 is a schematic structural diagram of a depth interface panel with separated display and operation according to the present invention, including an SDDP board, a front panel connector, a GPIB output interface, a network interface, a coding wheel output interface, other combined input interfaces, a depth combined input interface, and a power plug. Wherein the SDDP board comprises a detachable front panel and a back panel (not shown). The front panel connector is arranged on the SDDP front panel and is connected with the serial port screen. The GPIB output interface is arranged on the SDDP front panel and is connected with a host. The network interface is arranged on the SDDP front panel and adjacent to the GPIB output interface, and the network interface is connected with the host. The encoding wheel output interface is arranged on the SDDP front panel and is adjacent to the network interface for outputting encoding wheel signals. The other combined input interfaces are arranged on the SDDP front panel and are adjacent to the coding wheel output interfaces and are respectively connected with the tension sensing equipment and the magnetic sensing equipment. The depth combination input interface is disposed on the SDDP front panel and adjacent to the other combination input interfaces for connection to a depth encoding wheel. The power plug is arranged on the SDDP front panel and is used for being connected with the power module.

Specifically, on the SDDP board, except for the GPIB output interface, a flat cable direct plug-in connector is used, and the remaining interfaces and connectors are direct plug-in connectors with locking devices.

With continued reference to fig. 1, the front panel connector according to the embodiment of the present invention is an 11-core connector, and the serial port screen is connected to the rear panel through the front panel connector and the detachable connector, so that the front panel connector can transmit the received data to the serial port screen. When the interface panel receives depth, tension and magnetic mark information of a designated position in the logging, the information is transmitted to the serial port screen through the serial port line so that the serial port screen displays the information.

With continued reference to fig. 1, the GPIB output interface according to the embodiment of the present invention is connected to a host through a GPIB line of a direct-connection plug-in unit provided with a flat cable, so as to perform data interaction with the host. When the interface panel receives depth, tension and magnetic mark information of a specified position in the logging, the information is transmitted to the host through the GPIB line so as to interact with the host.

With continued reference to fig. 1, the network interface according to the embodiment of the present invention is connected to a computer through a network cable provided with a 4-core network interface connector and exchanges data with a host in the form of a BASE-T (10M/100M adaptive) interface. When the interface panel receives depth, tension and magnetic mark information of a specified position in the logging, the information is transmitted to the host through the network cable so as to interact with the host.

With continued reference to fig. 1, the encoding wheel output interface according to the embodiment of the present invention is connected to an 8-core connector for outputting two shaped encoding wheel signals to a portable ground station. After the interface panel receives the two paths of shaped coded wheel signals, the coded wheel output interface can convey the coded wheel signals to the portable ground station through a connecting wire.

With continued reference to fig. 1, the other combined input interface according to the embodiment of the present invention is connected to the tension sensing device and the magnetic sensing device through a connection wire with a 10-core plug, so as to receive tension data and magnetic mark information. When the interface panel is used, the tension sensing device and the magnetic sensing device are placed at the appointed position in the logging well, and the tension sensing device and the magnetic sensing device can respectively detect the tension and the magnetic mark at the position and then convey detected tension data and magnetic mark information to the interface panel through other combined input interfaces.

With continued reference to fig. 1, the depth combination input interface according to the embodiment of the present invention is connected to two depth encoding wheels through a connection line provided with 12 core interfaces, where the interfaces are arranged in two rows, and the number of cores in each row is 6. When the interface panel is used, the depth combination input interface receives two paths of coding wheel information transmitted by two coding wheels, buffers and shapes coding wheel signals of the two depth coding wheels, identifies directions, and counts according to uplink and downlink respectively.

The application method of the depth interface panel for separating display and operation comprises the following steps:

step 1: before the interface panel is used, the serial port screen is connected with the SDDP back panel through a front panel connector and a detachable connector; connecting the GPIB output interface with a host through a GPIB line of a direct plug-in connector provided with a flat cable; connecting a network interface with a computer through a network cable provided with a 4-core network port connector; the output interface of the coding wheel is respectively connected with the portable ground station through a connecting wire provided with an 8-core connector; connecting other combined input interfaces with the tension sensing equipment and the magnetic sensing equipment through connecting wires provided with 10-core plugs; the depth combination input interface is respectively connected with two depth coding wheels through a connecting wire provided with a 12-core interface; connecting a power plug with a power module;

step 2: after connection is completed, starting the power module and opening the host, and outputting power to the interface panel through the power plug after the power module is started, wherein the interface panel starts data transmission at the moment;

step 3: when the interface panel starts to operate, the tension sensing equipment can detect tension at a specified position in the well logging and transmit detected tension signals to the depth combination input interface, and the magnetic sensing equipment can detect magnetism at the specified position in the well logging and transmit detected magnetic marks to the depth combination input interface;

step 4: the depth combination input interface receives coded wheel signals output by two depth coding wheels respectively, performs buffer shaping and direction identification on the coded wheel signals and counts the coded wheel signals according to uplink and downlink respectively;

step 5: the depth combination input interface is used for conveying the coded wheel signals to the coded wheel output interface after the coded wheel signals are shaped, and the coded wheel output interface can be used for outputting two paths of shaped coded wheel signals to the portable ground station;

step 6: after the interface panel receives data, the GPIB output interface exchanges data with the host computer through the GPIB line, and the network interface exchanges data with the host computer through the network line;

step 7: after the data exchange is completed, the front panel connector outputs the data to the serial screen, and the serial screen displays the depth, the tension and the magnetic marks detected at the appointed place in the well logging.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A method of using a depth interface panel that separates display and operation, the depth interface panel comprising:

the SDDP board is used for loading the connectors and comprises an SDDP front panel and an SDDP rear panel, and the SDDP front panel and the SDDP rear panel can be detached;

the front panel connector is arranged on the SDDP front panel, is connected with the serial port screen and is used for transmitting data to the serial port screen so that the serial port screen displays the data, and the serial port screen is connected with the rear panel through the front panel connector and the detachable connector;

the GPIB output interface is arranged on the SDDP front panel and connected with the host computer to exchange data with the host computer;

a network interface arranged on the SDDP front panel and adjacent to the GPIB output interface, the network interface being connected with the host for exchanging data with the host;

the coding wheel output interface is arranged on the SDDP front panel and adjacent to the network interface and used for outputting coding wheel signals;

other combined input interfaces are arranged on the SDDP front panel and adjacent to the coding wheel output interfaces and are respectively connected with the tension sensing equipment and the magnetic sensing equipment;

the depth combination input interface is arranged on the SDDP front panel and is adjacent to the other combination input interfaces and is used for being connected with a depth coding wheel to perform buffer shaping;

the power plug is arranged on the SDDP front panel and is used for being connected with the power module;

the GPIB output interface adopts a direct plug-in connector of a flat cable, and the front panel connector, the network interface, the encoding wheel output interface, other combined input interfaces, the depth combined input interface and the power plug adopt direct plug-in connectors with locking devices;

the application method of the depth interface panel comprises the following steps:

step 1: before the interface panel is used, the serial port screen is connected with the SDDP back panel through a front panel connector and a detachable connector; connecting the GPIB output interface with a host through a GPIB line of a direct plug-in connector provided with a flat cable; connecting a network interface with a computer through a network cable provided with a 4-core network port connector; the output interface of the coding wheel is respectively connected with the portable ground station through a connecting wire provided with an 8-core connector; connecting other combined input interfaces with the tension sensing equipment and the magnetic sensing equipment through connecting wires provided with 10-core plugs; the depth combination input interface is respectively connected with two depth coding wheels through a connecting wire provided with a 12-core interface; connecting a power plug with a power module;

step 2: after connection is completed, starting the power module and opening the host, and outputting power to the interface panel through the power plug after the power module is started, wherein the interface panel starts data transmission at the moment;

step 3: when the interface panel starts to operate, the tension sensing equipment detects tension at a specified position in the well logging and transmits a detected tension signal to the depth combination input interface, and the magnetic sensing equipment detects magnetism at the specified position in the well logging and transmits a detected magnetic mark to the depth combination input interface;

step 4: the depth combination input interface receives coded wheel signals output by two depth coding wheels respectively, performs buffer shaping and direction identification on the coded wheel signals and counts the coded wheel signals according to uplink and downlink respectively;

step 5: the depth combination input interface is used for conveying the coded wheel signals to the coded wheel output interface after the coded wheel signals are shaped, and the coded wheel output interface can be used for outputting two paths of shaped coded wheel signals to the portable ground station;

step 6: after the interface panel receives data, the GPIB output interface exchanges data with the host computer through the GPIB line, and the network interface exchanges data with the host computer through the network line;

step 7: after the data exchange is completed, the front panel connector outputs the data to the serial screen, and the serial screen displays the depth, the tension and the magnetic marks detected at the appointed place in the well logging.

2. The method of using a depth interface panel for separating display from operation according to claim 1, wherein the front panel connector is an 11-core connector.

3. The method of claim 1, wherein the data displayed by the serial screen includes depth, tension, and magnetic indicia.

4. The method of using a depth interface panel for separating display and operation according to claim 1, wherein the GPIB output interface is connected to the host through GPIB lines of a direct plug-in connector provided with a flat cable.

5. The method of using a depth interface panel for separating display and operation according to claim 1, wherein the network interface is connected to a computer through a network cable provided with a 4-core network interface connector and exchanges data with a host in the form of a BASE-T interface.

6. The method of claim 1, wherein the encoder wheel output interface is coupled with an 8-core connector for outputting two shaped encoder wheel signals to a portable ground station.

7. The method of using a depth interface panel for separating display and operation according to claim 1, wherein the other combined input interface is connected to the tension sensing device and the magnetic sensing device by a connection wire provided with a 10-core plug.

8. The method of claim 1, wherein the depth combination input interface is connected to two depth encoding wheels through a connection line with a 12-core interface, and is used for buffering and shaping the encoding wheel signals of the two depth encoding wheels, identifying the direction, and counting according to the up and down directions.