Intelligent management system for drilling solid waste

The drilling solid waste intelligent management system utilizes a solid waste intelligent management terminal and a Beidou satellite communication module to achieve separate management of water-based and oil-based rock cuttings, solving the data transmission problem in remote areas and improving management efficiency and standardization.

CN224417309UActive Publication Date: 2026-06-26PETROCHINA CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
PETROCHINA CO LTD
Filing Date
2025-09-03
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing technologies cannot manage water-based and oil-based rock cuttings separately in remote areas without communication base stations, and cannot achieve data transmission.

Method used

The drilling solid waste intelligent management system is adopted, including a solid waste intelligent management terminal, an electronic weighbridge, a water-based rock cuttings moisture content detector and an oil-based rock cuttings oil content detector. Data transmission is realized through the Beidou satellite communication module, and the main controller is used to manage water-based rock cuttings and oil-based rock cuttings separately.

Benefits of technology

In remote areas without communication base stations, water-based and oil-based rock cuttings can be managed separately, improving management efficiency and standardization, and offering advantages such as automation and low error rate.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to oil and gas exploitation solid waste management technical field, concretely relates to a kind of drilling solid waste wisdom management system.The side plate of the cabinet of solid waste wisdom management terminal is equipped with display located at display installation window and non-contact card reader located at non-contact card reader window;The side plate of the cabinet is further provided with code scanning gun placing groove, and code scanning gun is arranged in code scanning gun placing groove;Main controller, solid waste label printer and beidou satellite communication module are installed in the cabinet;The paper outlet of solid waste label printer is arranged corresponding with solid waste label paper outlet;The control unit of display, non-contact card reader, code scanning gun, the control unit of electronic weighbridge, the control unit of water-based rock debris water content detector and the control unit of oil-based rock debris oil content detector are electrically connected with main controller by beidou satellite communication module.It can manage water-based rock debris and oil-based rock debris generated by drilling respectively in remote place without building communication base station.
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Description

Technical Field

[0001] This utility model belongs to the field of oil and gas extraction solid waste management technology, specifically relating to a drilling solid waste intelligent management system. Background Technology

[0002] Oil and gas extraction typically takes place in remote, sparsely populated areas such as the Gobi Desert and other deserts. The oil and gas drilling process generates a large amount of solid waste (hereinafter referred to as solid waste), which generally includes water-based rock cuttings and oil-based rock cuttings. Water-based rock cuttings are general industrial waste, while oil-based rock cuttings are hazardous industrial waste. Chinese patent document CN221728600U discloses a cabinet-type hazardous waste management system terminal with explosion-proof characteristics, capable of managing oil-based rock cuttings. However, the following technical problems remain: First, it cannot achieve separate management of water-based and oil-based rock cuttings. Second, most remote, sparsely populated areas such as the Gobi Desert and other deserts lack communication base stations, making the existing management terminal unable to transmit data and thus unusable. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a smart management system for drilling solid waste, which can manage water-based rock cuttings and oil-based rock cuttings generated during drilling separately in remote areas where no communication base stations have been built.

[0004] The technical solution adopted by this utility model to solve its technical problem is: a drilling solid waste intelligent management system, including a solid waste intelligent management terminal, an electronic weighbridge, a water-based rock cuttings moisture content detector and an oil-based rock cuttings oil content detector.

[0005] The solid waste intelligent management terminal includes a cabinet, and the side panel of the cabinet has a display installation window, a contactless card reader window and a solid waste label paper outlet;

[0006] The side panel of the cabinet is equipped with a monitor located at the monitor mounting window and a contactless card reader located at the contactless card reader window;

[0007] The side panel of the cabinet is also provided with a barcode scanner placement slot, and a barcode scanner is placed in the barcode scanner placement slot;

[0008] The cabinet is equipped with a main controller, a solid waste label printer, and a Beidou satellite communication module; the paper output port of the solid waste label printer is arranged correspondingly to the solid waste label paper output port.

[0009] The control units of the display, contactless card reader, barcode scanner, electronic weighbridge, water-based rock cutting moisture content detector, and oil-based rock cutting oil content detector are all electrically connected to the main controller via a Beidou satellite communication module.

[0010] Furthermore, a horizontally arranged U-shaped bracket is installed in the barcode scanner placement slot. The closed end of the U-shaped bracket is connected to the side panel of the cabinet, and the notched end of the U-shaped bracket is arranged corresponding to the opening of the barcode scanner placement slot. There is a first gap between the upper surface of the U-shaped bracket and the upper end surface of the barcode scanner placement slot for inserting the barcode scanner head, and there is a second gap between the lower surface of the U-shaped bracket and the lower end surface of the barcode scanner placement slot for inserting the barcode scanner handle.

[0011] Furthermore, it also includes a temperature control device installed inside the cabinet; the temperature control device is electrically connected to the main controller.

[0012] Furthermore, it also includes a USB interface and a Type-C interface located on the side panel of the cabinet, both of which are electrically connected to the main controller.

[0013] Furthermore, the cabinet body has a rectangular structure; it also includes a vertically arranged door panel on one side of the cabinet body; one end of the door panel is connected to the side panel of the cabinet body by a hinge, and the other end is connected to the side panel of the cabinet body by a door lock or latch;

[0014] The display, contactless card reader, barcode scanner slot opening, solid waste label paper outlet, USB interface, and Type-C interface are all located on the same side of the cabinet.

[0015] When the door panel is closed, it blocks the display, the contactless card reader, the barcode scanner slot opening, the solid waste label paper outlet opening, the USB interface, and the Type-C interface.

[0016] Furthermore, one of the side panels of the cabinet serves as an installation side panel, which includes a display area, an operation area, and a paper output area arranged sequentially from bottom to top. The display is located in the display area, the barcode scanner slot, the contactless card reader, the USB interface, and the Type-C interface are located in the operation area, and the solid waste label paper outlet is located in the paper output area.

[0017] Furthermore, the main controller is an ARM Cortex-A7 processor.

[0018] Furthermore, the solid waste label printer is a thermal paper printer.

[0019] Furthermore, the electronic weighbridge is a portable electronic weighbridge.

[0020] Furthermore, the display is a touch display.

[0021] Compared with existing technologies, the beneficial effects of this utility model are as follows: This utility model provides an intelligent management system for drilling solid waste, which can manage water-based and oil-based drilling cuttings separately in remote areas without communication base stations. It can significantly improve the management efficiency and standardization of drilling solid waste. It also has advantages such as automation, low error rate, and high reliability. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the structure of this utility model;

[0023] Figure 2 This is a control diagram of the present invention;

[0024] Figure label:

[0025] 1-Solid waste intelligent management terminal; 101-Cabinet; 102-Display; 103-Contactless card reader; 104-Solid waste label paper outlet; 105-Bar scanner placement slot; 106-Bar scanner; 107-U-shaped bracket; 108-Solid waste label printer; 109-BeiDou satellite communication module; 110-Main controller; 111-Temperature control device; 112-Door panel; 113-Hinge; 114-USB interface; 115-Type-C interface; 116-Sealing ring;

[0026] 2-Electronic weighbridge;

[0027] 3-Water-based rock debris moisture content analyzer;

[0028] 4-Oil-based rock cuttings oil content analyzer. Detailed Implementation

[0029] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0030] The drilling solid waste intelligent management system includes a solid waste intelligent management terminal 1, an electronic weighbridge 2, a water-based rock cuttings moisture content detector 3, and an oil-based rock cuttings oil content detector 4. The solid waste intelligent management terminal 1 includes a cabinet 101, with a display mounting window, a contactless card reader window, and a solid waste label outlet 104 on its side panel. A display 102 is mounted on the side panel of the cabinet 101 at the display mounting window, and a contactless card reader 103 is mounted on the side panel of the cabinet 101. A barcode scanner placement slot 105 is also provided on the side panel of the cabinet 101. A barcode scanner 106 is installed in the barcode scanner placement slot 105; a main controller 110, a solid waste label printer 108, and a Beidou satellite communication module 109 are installed in the cabinet 101; the paper output port of the solid waste label printer 108 is arranged correspondingly to the solid waste label paper output port 104; the display 102, the contactless card reader 103, the control unit of the barcode scanner 106, the control unit of the electronic weighbridge 2, the control unit of the water-based rock cuttings moisture content detector 3, and the control unit of the oil-based rock cuttings oil content detector 4 are all electrically connected to the main controller 110 through the Beidou satellite communication module 109.

[0031] The side panel of cabinet 101 is equipped with an electronic weighbridge interface, a water-based rock cutting moisture content analyzer interface, and an oil-based rock cutting oil content analyzer interface, all electrically connected to the main controller 110. A Beidou satellite communication module 109 is used for data transmission within this system. The Beidou satellite communication module 109 is existing technology and is used to access the Beidou satellite system. A contactless card reader 103 is used for user authorization authentication of card-swiping personnel. After the staff swipes their card to authenticate their permissions, the main controller 110 controls the display 102 to show the interface. A barcode scanner 106 is used to scan the preset QR code on the solid waste packaging to obtain basic information such as the solid waste category and production process, and then sends this basic information to the main controller 110. The electronic weighbridge 2, water-based rock cutting moisture content analyzer 3, and oil-based rock cutting oil content analyzer 4 are existing technologies. The electronic weighbridge 2 is used to weigh the solid waste loaded for transportation and sends the weight information to the main controller 110. A water-based rock cuttings moisture content detector 3 is used to detect the moisture content of water-based rock cuttings and send the moisture content information to the main controller 110. An oil-based rock cuttings oil content detector 4 is used to detect the oil content of oil-based rock cuttings and send the oil content information to the main controller 110. When the solid waste category is water-based rock cuttings, the main controller 110 controls the display 102 to display the production process of water-based rock cuttings, the weight information of water-based rock cuttings, and the moisture content of water-based rock cuttings. When the solid waste category is oil-based rock cuttings, the main controller 110 controls the display 102 to display the production process of oil-based rock cuttings, the weight information of oil-based rock cuttings, and the oil content of oil-based rock cuttings. This enables separate management of water-based and oil-based rock cuttings generated from drilling in remote areas without communication base stations.

[0032] The barcode scanner 106 can be directly placed in the barcode scanner placement slot 105. Preferably, a horizontally arranged U-shaped bracket 107 is installed in the barcode scanner placement slot 105. The closed end of the U-shaped bracket 107 is connected to the side panel of the cabinet 101, and the notched end of the U-shaped bracket 107 is arranged corresponding to the opening of the barcode scanner placement slot 105. There is a first gap between the upper surface of the U-shaped bracket 107 and the upper end face of the barcode scanner placement slot 105 for inserting the head of the barcode scanner 106, and there is a second gap between the lower surface of the U-shaped bracket 107 and the lower end face of the barcode scanner placement slot 105 for inserting the handle of the barcode scanner 106. By setting the U-shaped bracket 107, it is convenient to put in and take out the barcode scanner 106.

[0033] Preferably, it also includes a temperature control device 111 installed inside the cabinet 101; the temperature control device 111 is electrically connected to the main controller 110. By setting the temperature control device 111, it is convenient to achieve dynamic control of the temperature inside the cabinet 101.

[0034] As a further preferred option, the temperature control device 111 is an air conditioner.

[0035] Preferably, the system also includes a USB interface 114 and a Type-C interface 115 disposed on the side panel of the cabinet 101, both of which are electrically connected to the main controller 110. The external expansion of this system is achieved by providing the USB interface 114 and the Type-C interface 115.

[0036] Preferably, the cabinet 101 has a rectangular structure; it also includes a vertically arranged door panel 112 disposed on one side of the cabinet 101; one end of the door panel 112 is connected to the side panel of the cabinet 101 by a hinge 113, and the other end is connected to the side panel of the cabinet 101 by a door lock or latch; the display 102, the contactless card reader 103, the opening of the barcode scanner placement slot 105, the solid waste label paper outlet 104, the USB interface 114, and the Type-C interface 115 are all located on the same side of the cabinet 101; when the door panel 112 is closed, the door panel 112 blocks the display 102, the contactless card reader 103, the opening of the barcode scanner placement slot 105, the opening of the solid waste label paper outlet 104, the USB interface 114, and the Type-C interface 115.

[0037] Preferably, one of the side panels of the cabinet 101 serves as the mounting side panel. The mounting side panel includes a display area, an operation area, and a paper output area arranged sequentially from bottom to top. The display 102 is located in the display area, the barcode scanner slot 105, the contactless card reader 103, the USB interface 114, and the Type-C interface 115 are located in the operation area, and the solid waste label paper outlet 104 is located in the paper output area.

[0038] As a further preferred embodiment, a sealing ring 116 is also provided on the inner circumferential side of the door panel 112. When the door panel 112 is closed, the sealing ring 116 is located between the door panel 112 and the mounting side panel of the cabinet 101, and closes the gap between the door panel 112 and the mounting side panel of the cabinet 101. The display 102, the barcode scanner slot 105, the contactless card reader 103, the USB interface 114, the Type-C interface 115, and the solid waste label paper outlet 104 are located inside the sealing ring 116.

[0039] The sealing ring 116 can be a rubber ring, silicone ring, etc.

[0040] Preferably, the main controller 110 is an ARM Cortex-A7 processor.

[0041] Preferably, the solid waste label printer 108 is a thermal paper printer.

[0042] Preferably, the electronic weighbridge 2 is a portable electronic weighbridge.

[0043] Preferably, the display 102 is a touch display.

[0044] Preferably, the contactless card reader 103 is an NFC card reader.

[0045] As a further preferred embodiment, a camera is also included, which is electrically connected to the main controller 110. The main controller 110 is also electrically connected to the main control unit of the drilling operation management platform. The camera collects real-time dynamic data of the drilling operation and sends the real-time video signal to the main controller 110. The main controller 110 then sends the real-time video signal to the main control unit of the drilling operation management platform, which controls the display screen of the platform to show the real-time video of the drilling operation.

[0046] This system is powered by a power supply unit, which can be a mains power line, generator, energy storage device, etc. The power supply interface and power switch are located on the side panel of cabinet 101. This is existing technology.

[0047] The specific embodiments described are preferred embodiments of this utility model and are not intended to limit the scope of protection of this utility model. All equivalent changes made to the structure, shape, and principle of this utility model should be included within the scope of protection of this utility model.

Claims

1. A smart management system for drilling solid waste, characterized in that, Including a solid waste intelligent management terminal (1), an electronic weighbridge (2), a water-based rock cuttings moisture content detector (3), and an oil-based rock cuttings oil content detector (4); The solid waste intelligent management terminal (1) includes a cabinet (101), and the side panel of the cabinet (101) is provided with a display installation window, a contactless card reader window and a solid waste label paper outlet (104). The side panel of the cabinet (101) is equipped with a display (102) located at the display mounting window and a contactless card reader (103) located at the contactless card reader window. The side panel of the cabinet (101) is also provided with a barcode scanner placement slot (105), and a barcode scanner (106) is provided in the barcode scanner placement slot (105). The cabinet (101) is equipped with a main controller (110), a solid waste label printer (108) and a Beidou satellite communication module (109); the paper outlet of the solid waste label printer (108) is arranged correspondingly to the solid waste label paper outlet (104); The control units of the display (102), the contactless card reader (103), the barcode scanner (106), the electronic weighbridge (2), the water-based rock cutting moisture content detector (3), and the oil-based rock cutting oil content detector (4) are all electrically connected to the main controller (110) via the Beidou satellite communication module (109).

2. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, A horizontally arranged U-shaped bracket (107) is installed in the barcode scanner placement slot (105). The closed end of the U-shaped bracket (107) is connected to the side panel of the cabinet (101), and the notched end of the U-shaped bracket (107) is arranged corresponding to the opening of the barcode scanner placement slot (105). There is a first gap between the upper surface of the U-shaped bracket (107) and the upper end face of the barcode scanner placement slot (105) for inserting the head of the barcode scanner (106), and there is a second gap between the lower surface of the U-shaped bracket (107) and the lower end face of the barcode scanner placement slot (105) for inserting the handle of the barcode scanner (106).

3. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, It also includes a temperature control device (111) installed inside the cabinet (101); the temperature control device (111) is electrically connected to the main controller (110).

4. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, It also includes a USB interface (114) and a Type-C interface (115) disposed on the side panel of the cabinet (101), both of which are electrically connected to the main controller (110).

5. The intelligent management system for drilling solid waste as described in claim 4, characterized in that, The cabinet (101) is a rectangular structure; it also includes a vertically arranged door panel (112) on one side of the cabinet (101); one end of the door panel (112) is connected to the side panel of the cabinet (101) by a hinge (113), and the other end is connected to the side panel of the cabinet (101) by a door lock or a latch. The openings of the display (102), contactless card reader (103), barcode scanner slot (105), solid waste label paper outlet (104), USB interface (114), and Type-C interface (115) are all located on the same side of the cabinet (101). When the door panel (112) is closed, the door panel (112) blocks the openings of the display (102), the contactless card reader (103), the barcode scanner slot (105), the solid waste label paper outlet (104), the USB interface (114), and the Type-C interface (115).

6. The intelligent management system for drilling solid waste as described in claim 4, characterized in that, One of the side panels of the cabinet (101) serves as the mounting side panel. The mounting side panel includes a display area, an operation area, and a paper output area arranged sequentially from bottom to top. The display (102) is located in the display area. The barcode scanner slot (105), the contactless card reader (103), the USB interface (114), and the Type-C interface (115) are located in the operation area. The solid waste label paper outlet (104) is located in the paper output area.

7. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, The main controller (110) is an ARM Cortex-A7 processor.

8. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, The solid waste label printer (108) is a thermal paper printer.

9. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, The electronic weighbridge (2) is a portable electronic weighbridge.

10. The intelligent management system for drilling solid waste as described in claim 1, characterized in that, The display (102) is a touch display.