Carbon dioxide dry fracturing pipeline visible assembly

By introducing lighting and cleaning components into the visualization system for carbon dioxide dry fracturing pipelines, and using servo motors to drive the wiping pads and LED lights, the problems of obstructed observation windows and insufficient light have been solved, enabling clear observation of the pipeline's internal conditions and ensuring the safety and smooth progress of fracturing operations.

CN224414667UActive Publication Date: 2026-06-26SHAANXI RUIFENG PETROLEUM TECHNOLOGY DEVELOPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAANXI RUIFENG PETROLEUM TECHNOLOGY DEVELOPMENT CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing visual components for carbon dioxide dry fracturing pipelines are prone to having their observation windows obscured by dust and dirt in complex environments, and it is difficult to clearly observe the internal conditions of the pipeline when there is insufficient light, which affects the smooth progress of fracturing operations and construction safety.

Method used

A visual observation component with lighting and cleaning elements has been designed, including a servo motor-driven wiping pad and LED lights, for automatically cleaning the transparent glass and providing illumination to ensure the clarity and lighting effect of the observation window.

Benefits of technology

It effectively removes dust and stains from the transparent glass surface, ensuring clear observation of the inside of the pipeline in various environments, improving the accuracy and reliability of observation, and guaranteeing the smooth progress of fracturing operations.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of carbon dioxide dry fracturing pipeline visible components, specifically in the technical field of carbon dioxide dry fracturing, including visual observation component, the top surface of visual observation component is provided with illumination and cleaning component, the illumination and cleaning component includes installation swivel, the bottom of the outer ring surface of installation swivel is fixedly installed with embedded sliding ring, this carbon dioxide dry fracturing pipeline visible component is driven under servo motor, can make wiping pad to transparent glass automatic cleaning, guarantee the definition of observation window, avoid being shielded due to observation window and influence the observation to pipeline internal condition, simultaneously the LED lamp of installation horizontal plate top surface can provide good illumination under insufficient light condition, ensure that pipeline internal condition can be observed clearly under various environmental conditions, and it can be continuously adjusted position by the rotation of installation swivel, so that some areas can be accurately illuminated.
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Description

Technical Field

[0001] This utility model relates to the field of carbon dioxide dry fracturing technology, specifically a visual component for carbon dioxide dry fracturing pipelines. Background Technology

[0002] In carbon dioxide dry fracturing operations, real-time observation of the pipeline's interior is crucial. This helps in understanding the fracturing process, assessing the fluid state inside the pipeline, and identifying any anomalies. Currently, although some visualization devices exist for observing the pipeline interior, numerous problems remain in their practical application.

[0003] Chinese patent application number 201921035918.4 discloses a viewing window for a carbon dioxide dry fracturing pipeline. It includes a protective frame with threaded holes at each of the four corners, a glass window inside the frame, and symmetrically threaded fixing devices around the frame. Each fixing device includes a fixed base and a swing base. Adjusting rods are threaded to both sides of the upper end of the fixed base, with one end of each rod penetrating the side of the fixed base and contacting the outer wall of the swing base. An annular groove is formed at the top of the swing base, and a connecting seat is engaged within the inner wall of the groove. An arc-shaped groove is formed at the upper end of the connecting seat, and a steering adjustment device is fixedly connected to the inner wall of the arc-shaped groove. An LED light is fixedly installed at the upper end of the steering adjustment device. This viewing window allows for free adjustment of the LED light angle via the steering adjustment device, facilitating observation of the material conveying situation in all directions inside the tank. This also allows for verification and analysis of the accuracy of important system parameters and data.

[0004] However, the viewing window for carbon dioxide dry fracturing pipelines still has some shortcomings in actual use. For example, due to the complex fracturing operation environment, the viewing window of the pipeline viewing component is easily blocked by dust, dirt, etc., affecting the observation effect. Moreover, in the case of insufficient light, it is difficult to clearly observe the internal situation of the pipeline, resulting in the inability to accurately obtain information about the internal situation of the pipeline, which may affect the smooth progress of fracturing operations and construction safety. Utility Model Content

[0005] The purpose of this invention is to provide a visual component for carbon dioxide dry fracturing pipelines to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a visual component for carbon dioxide dry fracturing pipelines, including a visual observation component, wherein the top surface of the visual observation component is provided with a lighting and cleaning component;

[0007] The lighting and cleaning assembly includes a mounting ring, a slip ring fixedly mounted on the bottom of the outer ring surface of the mounting ring, an external gear ring fixedly mounted on the top of the outer ring surface of the mounting ring, a mounting horizontal plate fixedly mounted in the central groove of the mounting ring, a wiping pad fixedly adhered to the bottom surface of the mounting horizontal plate, mounting blocks fixedly mounted at both ends of the top surface of the mounting horizontal plate, and LED lights fixedly embedded on the top surface of the mounting blocks.

[0008] Preferably, the visual observation component includes a circular sleeve plate, and multiple mounting ears are fixedly installed on the center of the side of the circular sleeve plate, with fixing bolts threaded into the top surface of each of the multiple mounting ears.

[0009] Preferably, a circular groove is formed in the center of the top surface of the circular sleeve plate, and a transparent glass is fixedly embedded in the groove.

[0010] Preferably, a transition groove is provided at the outer periphery of the top surface of the circular sleeve plate, and an mounting plate is fixedly installed on one side of the circular sleeve plate.

[0011] Preferably, a servo motor is fixedly mounted on the bottom surface of the mounting plate, and a gear is fixedly sleeved on the top of the output shaft of the servo motor. The gear is located on one side of the external gear ring, and the two are meshed together.

[0012] Preferably, the bottom of the circular sleeve plate and the slip ring are rotatably installed in the transition groove, and the bottom surface of the wiping pad is in contact with the top surface of the transparent glass.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. This carbon dioxide dry fracturing pipeline visualization component, through the setting of lighting and cleaning components, driven by a servo motor, enables the wiping pad to automatically clean the transparent glass, effectively removing dust, stains, etc. from the surface of the transparent glass, ensuring the clarity of the observation window, and avoiding the obstruction of the observation window from affecting the observation of the pipeline's internal conditions.

[0015] 2. The LED lights installed on the top of the horizontal plate can provide good illumination in low light conditions, ensuring clear observation of the inside of the pipeline under various environmental conditions. This improves the accuracy and reliability of observation, providing a strong guarantee for the smooth operation of carbon dioxide dry fracturing. Furthermore, the position can be continuously adjusted by rotating the installed ring, allowing for precise illumination of certain areas, thus enhancing operability. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a cross-sectional structural diagram of the present invention;

[0018] Figure 3 This is a schematic diagram of the visual components of this utility model;

[0019] Figure 4 This is a schematic diagram of the structure of the light and cleaning components of this utility model.

[0020] In the diagram: 1. Visual observation component; 101. Circular sleeve plate; 102. Mounting ear; 103. Fixing bolt; 104. Transparent glass; 105. Adapter groove; 106. Mounting plate; 107. Servo motor; 108. Gear; 2. Illumination and cleaning component; 201. Mounting ring; 202. Slip ring; 203. External gear ring; 204. Mounting cross plate; 205. Wiping pad; 206. Mounting block; 207. LED light. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] like Figure 1-4 As shown, this utility model provides a technical solution including a visual observation component 1. A lighting and cleaning component 2 is provided on the top surface of the visual observation component 1.

[0023] The lighting and cleaning assembly 2 includes a mounting ring 201. A slip ring 202 is fixedly mounted on the bottom of the outer ring surface of the mounting ring 201. An external gear ring 203 is fixedly mounted on the top of the outer ring surface of the mounting ring 201. A mounting horizontal plate 204 is fixedly mounted in the central groove of the mounting ring 201. A wiping pad 205 is fixedly adhered to the bottom surface of the mounting horizontal plate 204. Mounting blocks 206 are fixedly mounted on both ends of the top surface of the mounting horizontal plate 204. An LED light 207 is fixedly embedded on the top surface of the mounting block 206.

[0024] In this embodiment, the visual observation component 1 includes a circular sleeve plate 101. A plurality of mounting ears 102 are fixedly installed on the middle side of the circular sleeve plate 101. The top surface of each of the mounting ears 102 is threaded with a fixing bolt 103. The circular sleeve plate 101 can be installed on the carbon dioxide dry fracturing pipeline by means of the fixing bolt 103 and the mounting ears 102.

[0025] A circular groove is provided in the middle of the top surface of the circular sleeve plate 101, and a transparent glass 104 is fixedly embedded in the groove. The transparent glass 104 is used to observe the inside of the pipe.

[0026] A transition groove 105 is provided at the outer periphery of the top surface of the circular sleeve plate 101, and an mounting plate 106 is fixedly installed on one side of the circular sleeve plate 101.

[0027] A servo motor 107 is fixedly mounted on the bottom surface of the mounting plate 106. A gear 108 is fixedly sleeved on the top of the output shaft of the servo motor 107. The gear 108 is located on one side of the external gear ring 203, and the two are meshed together.

[0028] The bottom of the circular sleeve plate 101 and the slip ring 202 are rotatably mounted in the adapter groove 105, and the bottom surface of the wiping pad 205 is in contact with the top surface of the transparent glass 104. When the servo motor 107 is working, it drives the gear 108 to rotate, and the gear 108 meshes with the outer gear ring 203, thereby causing the mounting ring 201 to rotate. When the mounting ring 201 rotates, it drives the wiping pad 205 to wipe and clean the transparent glass 104. At the same time, the LED light 207 can provide sufficient light to facilitate observation of the inside of the pipe.

[0029] In use, the present invention, by setting up the lighting and cleaning components 2, enables the wiping pad 205 to automatically clean the transparent glass 104 under the drive of the servo motor 107, effectively removing dust, stains and other contaminants from the surface of the transparent glass 104, ensuring the clarity of the observation window and avoiding the obstruction of the observation window from affecting the observation of the internal conditions of the pipeline.

[0030] The LED light 207 installed on the top surface of the horizontal plate 204 can provide good illumination in low light conditions, ensuring clear observation of the inside of the pipeline under various environmental conditions, improving the accuracy and reliability of observation, and providing a strong guarantee for the smooth progress of carbon dioxide dry fracturing operations.

[0031] The visual observation component 1 is installed using mounting ears 102 and fixing bolts 103. It has a simple structure, is easy to install and disassemble, and is convenient for maintenance and replacement.

[0032] First, the circular sleeve plate 101 is installed in a suitable position in the carbon dioxide dry fracturing pipeline using mounting ears 102 and fixing bolts 103, ensuring a secure installation. Then, the slip ring 202 is installed in the transition groove 105 on the outer periphery of the top surface of the circular sleeve plate 101, allowing the mounting ring 201 to rotate flexibly within the transition groove 105. Next, the servo motor 107 is fixedly installed on one side of the circular sleeve plate 101 using mounting plate 106, and the gear 108 is fixedly sleeved on the top of the output shaft of the servo motor 107. The position of the gear 108 and the external gear ring 203 is adjusted to make them mesh.

[0033] Check whether the wiping pad 205 is in contact with the top surface of the transparent glass 104. If it is not in contact, make appropriate adjustments to ensure that the wiping pad 205 can effectively clean the transparent glass 104.

[0034] Connect the power supply to LED 207 or provide a battery supply to ensure that LED 207 can work properly.

[0035] During the carbon dioxide dry fracturing operation, when it is necessary to observe the internal condition of the pipeline, the servo motor 107 is started. The servo motor 107 drives the gear 108 to rotate. The gear 108 meshes with the external gear ring 203, causing the mounting ring 201 to rotate. When the mounting ring 201 rotates, it drives the wiping pad 205 to wipe and clean the transparent glass 104, removing dust and stains from the surface of the transparent glass 104 and ensuring the clarity of the observation window.

[0036] Meanwhile, the LED light 207 continuously emits light, providing sufficient illumination for observing the internal conditions of the pipeline. Operators can clearly observe the fluid state and fracturing process inside the pipeline through the transparent glass 104, and obtain accurate information in a timely manner so as to effectively monitor and adjust the fracturing operation. Furthermore, the rotating ring 201 can be used to continuously adjust its position, thereby precisely illuminating certain areas, making it more operable.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A visual assembly for carbon dioxide dry fracturing pipelines, comprising a visual observation component (1), characterized in that... The top surface of the visual observation component (1) is provided with a lighting and cleaning component (2); The lighting and cleaning assembly (2) includes a mounting ring (201), a slip ring (202) is fixedly mounted on the bottom of the outer ring surface of the mounting ring (201), an external gear ring (203) is fixedly mounted on the top of the outer ring surface of the mounting ring (201), a mounting horizontal plate (204) is fixedly mounted in the central groove of the mounting ring (201), a wiping pad (205) is fixedly adhered to the bottom surface of the mounting horizontal plate (204), and mounting blocks (206) are fixedly mounted on both ends of the top surface of the mounting horizontal plate (204), and LED lights (207) are fixedly embedded on the top surface of the mounting blocks (206).

2. The visual assembly for carbon dioxide dry fracturing pipelines according to claim 1, characterized in that, The visual observation component (1) includes a circular sleeve plate (101), and a plurality of mounting ears (102) are fixedly installed on the middle side of the circular sleeve plate (101). The top surface of the plurality of mounting ears (102) is threaded with fixing bolts (103).

3. The visual assembly for carbon dioxide dry fracturing pipelines according to claim 2, characterized in that, A circular groove is provided in the middle of the top surface of the circular sleeve plate (101), and a transparent glass (104) is fixedly embedded in the groove.

4. The visual assembly for carbon dioxide dry fracturing pipelines according to claim 3, characterized in that, A transition groove (105) is provided at the outer periphery of the top surface of the circular sleeve plate (101), and an mounting plate (106) is fixedly installed on one side of the circular sleeve plate (101).

5. A visual assembly for carbon dioxide dry fracturing pipelines according to claim 4, characterized in that, A servo motor (107) is fixedly mounted on the bottom surface of the mounting plate (106). A gear (108) is fixedly sleeved on the top of the output shaft of the servo motor (107). The gear (108) is located on one side of the external gear ring (203), and the two are meshed together.

6. A visual assembly for carbon dioxide dry fracturing pipelines according to claim 4, characterized in that, The bottom of the circular sleeve plate (101) and the slip ring (202) are rotatably installed in the transition groove (105), and the bottom surface of the wiping pad (205) is in contact with the top surface of the transparent glass (104).