A material storage system for oil drilling sites

By introducing a rail-mounted mechanism and an automated stacker crane into the material storage room at the oil drilling site, the problems of wasted space and insufficient zoning management have been solved, achieving efficient heavy material management and safe, intelligent storage.

CN224452344UActive Publication Date: 2026-07-03CHONGQING YUECHUANG PETROLEUM DRILLING & PROD ENG CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING YUECHUANG PETROLEUM DRILLING & PROD ENG CO LTD
Filing Date
2025-08-11
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing material storage facilities at oil drilling sites suffer from wasted space, lack of zoning management and intelligent warehousing, resulting in increased site area, higher transportation costs, and material quality risks.

Method used

A material storage system was designed, which includes a hanging rail mechanism, an automated stacker crane, and a partitioned design. It utilizes the upper space to lift heavy objects and combines automated equipment to improve storage efficiency and accuracy while reducing human error.

Benefits of technology

It optimizes space utilization, improves inbound and outbound efficiency, reduces manual handling intensity, increases storage capacity per unit area, and enhances the accuracy and security of material management.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model belongs to the field of oil drilling technology, specifically relating to a material storage system for oil drilling sites. It includes a building body divided into a temporary storage area and a storage area. A hanging rail mechanism is installed on the top of the building in the temporary storage area. The hanging rail mechanism includes a mounting beam fixed to the top of the building body, a sliding arm slidably mounted below the mounting beam, and a traveling crane below the sliding arm. A hoist is installed below the traveling crane to lift heavy objects into the temporary storage area. The storage area has two rows of shelves arranged in an aisle between them for stacker crane passage. The system enables automated material handling, including path planning, cargo grabbing, storage location allocation, conveying, and sorting.
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Description

Technical Field

[0001] This utility model belongs to the field of oil drilling technology, and more specifically, it relates to a material storage system for oil drilling sites. Background Technology

[0002] At current oil drilling sites, materials management primarily relies on traditional material storage facilities. Specifically, the existing practice involves using one standard material storage building and one equipped with an air-conditioned system to store different materials. However, this materials management model has significant shortcomings: First, the upper space of these two buildings is not effectively utilized, resulting in a waste of space resources; second, the lack of effective zoning management and intelligent warehousing solutions leads to increased site area and transportation costs; furthermore, for heavy materials and materials requiring special storage conditions, the existing facilities fail to provide targeted storage solutions, which not only affects the efficiency of material handling but may also pose potential risks to material quality.

[0003] Therefore, in view of this, we will study and improve the existing structure and its shortcomings, and provide a material storage system for oil drilling sites, in order to achieve a more practical purpose. Utility Model Content

[0004] In view of the problems mentioned in the background art above, this utility model provides a material storage system for oil drilling sites.

[0005] The technical solution adopted by this utility model is as follows: A material storage system for oil drilling sites includes a building body, which is divided into a temporary storage area and a storage area. A hanging rail mechanism is provided on the top of the building body in the temporary storage area. The hanging rail mechanism includes an installation beam fixed to the top of the building body. A movable arm is slidably arranged below the installation beam. A traveling mechanism is arranged below the movable arm. A hoist is installed below the traveling mechanism to lift heavy objects into the temporary storage area. Two rows of shelves are arranged in the storage area, and a stacker crane aisle is provided between the two rows of shelves for the stacker crane to pass through.

[0006] Furthermore, a sinkhole is provided on the stacker crane channel, and a stacker crane running rail is provided in the sinkhole to facilitate the passage of the stacker crane.

[0007] Furthermore, a rack is provided on the inner side of the stacker's running rail, and a gear that meshes with the rack is provided on the lower base of the stacker, and the gear is driven by a reducer.

[0008] Furthermore, a discharge track is provided in the storage area, the discharge track is located on one side of the end of the stacker crane channel, and a discharge trolley is provided on the discharge track.

[0009] Furthermore, the housing has a discharge port at one end of the discharge trolley, and the discharge trolley is used to output goods to the discharge port.

[0010] Furthermore, the housing is equipped with an isolation railing on one side of the discharge track.

[0011] Furthermore, a placement rack is provided on the other side of the discharge track of the chamber.

[0012] Furthermore, a door is provided on the side of the storage area of ​​the room.

[0013] Furthermore, an inspection door is provided at the end of the housing away from the discharge trolley, and a ladder is installed outside the inspection door.

[0014] Furthermore, a cable tray is installed on the top of the building.

[0015] The beneficial effects of this utility model are:

[0016] The overhead crane mechanism allows heavy objects to be efficiently hoisted into the temporary storage area, utilizing the underutilized space above the material storage room. The sliding boom and overhead crane enable rapid loading and unloading of heavy materials, optimizing space utilization and allowing for flexible material handling and positioning within the temporary storage area. This improves loading and unloading efficiency and reduces manual handling intensity, making it particularly suitable for the management needs of frequently moved heavy materials at oil drilling sites. Automated equipment such as stacker cranes further enhances storage density and operational efficiency. Compared to traditional manual management methods, this automated storage solution allows for more precise material positioning and handling, reducing human error and increasing warehouse capacity, resulting in a significant increase in storage per unit area. Attached Figure Description

[0017] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings;

[0018] Figure 1 This is a front view schematic diagram of the present utility model;

[0019] Figure 2 This is a rear view schematic diagram of the present invention;

[0020] Figure 3 This is a schematic diagram of the interior of the housing of this utility model;

[0021] Figure 4 This is a schematic diagram of the bottom of the chamber of this utility model;

[0022] Figure 5 This is a bottom view of the cooperation between the stacker crane's running rail and the lower base of the stacker crane.

[0023] Figure 6This is a front view of the stacker crane's running rail and the lower base of the stacker crane in this utility model.

[0024] The attached diagram is labeled as follows:

[0025] 1. Building structure; 11. Temporary storage area; 12. Storage area; 13. Mounting beam; 14. Moving arm; 15. Overhead crane components; 16. Door; 17. Inspection door; 18. Ladder; 19. Cable tray; 2. Shelf; 21. Sinkhole; 22. Stacker crane running rail; 22. Rack; 23. Lower base; 23. Gear; 231. Reducer; 232. Discharge rail; 31. Discharge trolley; 32. Discharge port; 33. Isolation fence; 34. Placement rack; 4. Goods. Detailed Implementation

[0026] like Figures 1-6 As shown, a material storage system for oil drilling sites includes a building 1, which is divided into a temporary storage area 11 and a storage area 12. A hanging rail mechanism is installed on the top of the building 1 at the temporary storage area 11. The hanging rail mechanism includes a mounting beam 13 fixed to the top of the building 1. A movable arm 14 is slidably installed below the mounting beam 13. A crane component 15 is installed below the movable arm 14. A hoist is installed below the crane component 15 to lift heavy objects into the temporary storage area 11. Two rows of shelves 2 are arranged in the storage area 12. A stacker crane aisle is provided between the two rows of shelves for the stacker crane to pass through.

[0027] By adopting the above technical solution, the hoisting mechanism allows heavy objects to be efficiently lifted into the temporary storage area 11 via a hoist, utilizing the underutilized space above the material room. The sliding moving arm 14 and the overhead crane 15 enable rapid entry and exit of heavy materials, optimizing space utilization and enabling flexible lifting and positioning of materials within the temporary storage area 11. This improves entry and exit efficiency and reduces the intensity of manual handling, making it particularly suitable for the management needs of heavy materials that are frequently moved at oil drilling sites. Automated equipment such as stacker cranes further enhances storage density and operational efficiency. Compared to traditional manual management methods, this automated storage solution can more accurately locate and move materials, reducing human error and increasing warehouse capacity, resulting in a significant increase in storage per unit area.

[0028] As a preferred embodiment, a recessed groove 21 is provided on the stacker crane channel, and a stacker crane running rail 22 is installed in the recessed groove 21 to facilitate the passage of the stacker crane. Placing the stacker crane running rail 22 into the recessed groove 21 prevents the bottom surface of the housing 1 from protruding from the rail, improving the operational stability and accuracy of the stacker crane, thereby ensuring the safety and efficiency of material handling and reducing the failure rate caused by equipment vibration or positional misalignment.

[0029] As a preferred embodiment, a rack 223 is provided on the inner side of the stacker crane's running rail 22, and a gear 231 that meshes with the rack 223 is provided on the lower base 23 of the stacker crane. The gear 231 is driven by a reducer 232. The meshing of the gear 231 and the rack 223 enables the stacker crane to self-lock and prevent slippage. The stacker crane's rail operation is existing technology and will not be described in detail; the only difference is the addition of a reducer 232 driving the gear 231 on the lower base 23 of the stacker crane.

[0030] As a preferred embodiment, the storage area 12 is equipped with a discharge track 3, which is located at one end of the stacker crane channel. A discharge trolley 31 is mounted on the discharge track 3. The housing 1 has a discharge port 32 at one end of the discharge trolley 31, and the discharge trolley 31 is used to output goods to the discharge port 32. This effectively shortens the picking time and improves the response speed and service quality of the entire logistics system.

[0031] As a preferred embodiment, the housing 1 is equipped with an isolation barrier 33 on one side of the discharge track 3; and a placement rack 34 is equipped on the other side of the housing 1. The isolation barrier 33 on one side of the discharge track 3 and the placement rack 34 on the other side facilitate the classification and temporary storage of goods. Through physical separation, potential safety hazards are prevented, and the organization of the work process is improved.

[0032] As a preferred embodiment, the housing 1 is provided with a door 16 on one side of the temporary storage area 11. The door 16 provides a direct entry point for heavy materials.

[0033] As a preferred embodiment, an inspection door 17 is provided at the end of the housing 1 away from the discharge trolley 31, and a ladder 18 is installed outside the inspection door 17. Taking into account the convenience of daily operation and maintenance needs, the inspection door 17 facilitates equipment inspection and maintenance by technicians, ensuring stability.

[0034] As a preferred embodiment, a cable tray 19 is installed on the top of the room 1. The cable tray 19 on the top of the room 1 helps to organize electrical wires and other wiring, preventing clutter. This not only beautifies the environment but also reduces the risk of electrical safety hazards and facilitates future maintenance and expansion.

[0035] The present invention has been described in detail above. The specific embodiments are provided only to help understand the method and core idea of ​​the present invention. It should be noted that those skilled in the art can make various improvements and modifications to the present invention without departing from its principles, and these improvements and modifications also fall within the protection scope of the claims of the present invention.

Claims

1. A material house warehouse system for an oil drilling site, characterized by: include The room (1) is divided into a temporary storage area (11) and a warehouse area (12). The top of the room (1) is provided with a hanging rail mechanism at the temporary storage area (11). The hanging rail mechanism includes an installation beam (13) fixed to the top of the room (1). A movable arm (14) is slidably provided below the installation beam (13). A traveling mechanism (15) is provided below the movable arm (14). A hoist is installed below the traveling mechanism (15) to hoist heavy objects into the temporary storage area (11). The storage area (12) has two rows of shelves (2) arranged in an array, with a stacker crane aisle between the two rows of shelves (2) for the stacker crane to pass through.

2. A material house warehouse system for use at a petroleum drilling site according to claim 1, wherein: A sinkhole (21) is provided on the stacker crane channel, and a stacker crane running rail (22) is provided in the sinkhole (21) to facilitate the passage of the stacker crane.

3. A material house warehouse system for use at a petroleum drilling site according to claim 2, wherein: A rack (223) is provided on the inner side of the stacker's running rail (22), and a gear (231) that meshes with the rack (223) is provided on the lower base (23) of the stacker. The gear (231) is driven by a reducer (232).

4. The material house warehouse system for oil drilling sites of claim 1, wherein: The storage area (12) is provided with a discharge track (3), which is located on one side of the end of the stacker crane channel. A discharge trolley (31) is provided on the discharge track (3).

5. A material house warehouse system for use at a petroleum drilling site according to claim 4, wherein: The housing (1) has a discharge port (32) at one end of the discharge trolley (31), and the discharge trolley (31) is used to output goods to the discharge port (32).

6. A material shed storage system for use at a petroleum drilling site according to claim 4 or 5, characterized in that: The housing (1) is equipped with an isolation railing (33) on one side of the discharge track (3).

7. A material house warehouse system for use at a petroleum drilling site according to claim 6, wherein: The housing (1) is located on the other side of the discharge track (3) and a placement rack (34) is provided.

8. A material house warehouse system for oil drilling sites according to claim 1, characterized in that: The room (1) is located on one side of the storage area (11) and has a door (16).

9. A material house warehouse system for use at a petroleum drilling site according to claim 4, wherein: The housing (1) is provided with an inspection door (17) at the end away from the discharge trolley (31), and a ladder (18) is installed outside the inspection door (17).

10. The material house warehouse system for oil drilling sites of claim 1, wherein: A cable tray (19) is installed on the top of the building (1).