Modular standard tool rack for mining
The modular design of the tool rack solves the problems of disorganized tool racks and inconvenient relocation in mines, enabling the orderly storage and efficient movement of tools.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHAANXI COAL GRP HUANGLING JIAN ZHUANG MINING IND LTD
- Filing Date
- 2025-10-15
- Publication Date
- 2026-07-03
AI Technical Summary
The existing tool racks in the mine lack organization, tools are prone to falling, are inconvenient to move, and are inefficient.
The modular standard tool rack is designed with wheels and modular inserts at the bottom of the rack. The support columns and slots work together, and the anti-slip holes are designed. The wheels roll on the track, the modular inserts are height-adjustable, and the standard box is detachable, which facilitates tool sorting and movement.
This allows for the orderly storage of tools, reduces the risk of them falling, improves the efficiency of moving tool racks, and saves manpower and resources.
Smart Images

Figure CN224445939U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tool rack technology, and in particular to a modular standard tool rack for mining. Background Technology
[0002] A tool rack, as its name suggests, is a shelf used to store and display tools. Its design is mainly to provide a convenient and orderly way to manage and access various tools. Whether in a home environment, workplace, or professional field, tool racks are indispensable in the mining industry. These environments usually require a large number of specialized tools, and tool racks can help workers quickly access these tools while also ensuring a clean and safe working environment. Through tool racks, managers can also more easily take inventory and record tools, preventing tools from being lost or damaged.
[0003] Existing mine tool racks can only be used to haphazardly lay out tools without any order. Too many tools and parts placed on the racks can easily cause a "collapse" phenomenon, causing tools to fall and, in severe cases, damage them. In addition, the tool racks in the mine are not easy to move, making it difficult to move them during the initial stage of mine construction or when mining ends. Utility Model Content
[0004] To overcome the limitations of existing tool racks, which allow tools to be laid out haphazardly and lack organization, and the fact that tool racks in mines are not easy to move, requiring a lot of manpower and time to move them, resulting in low efficiency.
[0005] The technical solution of this utility model is as follows: a modular standard tool rack for mining, including a frame body, wheels at the bottom of the frame body, the wheels being able to support the frame body to roll on a track inside the tunnel, the frame body including a base plate, two upward-protruding support columns 1 at the front of the top of the base plate, the two support columns 1 being distributed on the left and right sides of the base plate respectively, two upward-protruding support columns 2 at the rear of the top of the base plate, the two support columns 2 being distributed on the left and right sides of the base plate respectively, the tops of the support columns 1 and 2 are connected to an upper plate, a module insert plate can be inserted between the upper plate and the base plate, the support columns 2 and 1 can support the module insert plate, and standard box 1, standard box 2, and standard box 3 can be placed on the top of the module insert plate.
[0006] Preferably, the rear side of the second support column is provided with a through channel near the center of the base plate, and the rear side of the first support column is provided with a slot corresponding to the channel, so that the module insert plate can pass through the channel and be inserted into the slot.
[0007] Preferably, the support column 2 has a limiting hole on the side away from the channel, and the left and right sides of the module insert plate have threaded holes corresponding to the limiting hole. The limiting hole can be filled with a screw and engaged with the threaded hole on the module insert plate.
[0008] Preferably, the top matrix of the module insert plate has three anti-slip holes, and the top of the bottom plate has five anti-slip holes corresponding to the three anti-slip holes. The five anti-slip holes are the same size as the three anti-slip holes. The bottom of the standard box body one, standard box body two, and standard box body three are respectively provided with inserts corresponding to the three anti-slip holes.
[0009] Preferably, the area of the standard box three-layer bonding module insert is larger than the area of the standard box one-layer bonding module insert, the area of the standard box three-layer bonding module insert is the same as the area of the standard box two-layer bonding module insert, and the height of the standard box two is higher than the height of the standard box three.
[0010] Preferably, there are four wheels under the base plate, with a rolling rod between two wheels. The axis of the rolling rod is parallel to the direction in which the module insert plate is inserted into the slot. The bottom of the base plate has a downward protruding connecting block with a through hole corresponding to the rolling rod. Reinforcing plates are provided on the left and right sides of the connecting block, and the top of the reinforcing plates is connected to the bottom of the base plate.
[0011] Preferably, the bottom of the base plate has grooves on both the left and right sides, and bolts are installed at the bottom of the grooves. The bolts include screws, and traction blocks are fitted on the outer diameter of the screws. The top of the traction block has a rotating hole corresponding to the screw. The top of the traction block away from the rotating hole has a through hole one. The traction block can rotate in the groove about the axis of the rotating hole. A positioning hole six is provided on the top of the traction block between hole one and the rotating hole. A through hole two is provided on the top of the traction block on the side of the rotating hole away from positioning hole six. The top of the base plate has a through positioning hole four. When hole one of the traction block is away from the center of the base plate, positioning hole four can coincide with hole two. When hole one of the traction block is close to the center of the base plate, positioning hole four can coincide with positioning hole six. A positioning pin can be inserted into positioning hole four. The positioning pin can pass through the traction block. A pull block is provided on the top of the positioning pin.
[0012] The beneficial effects of this utility model are as follows: Compared with randomly stacking tools on a tool rack, the tool rack does not have rollers at the bottom to adapt to the track. The modular insert plate makes it easy to adjust the height inside the rack to adapt to different standard boxes. The wheels at the bottom of the rack can support the rack and move on the track, reducing the trouble of moving the tool rack and saving physical strength. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0014] Figure 2 This is a schematic diagram of the three-part structure of the standard box body of this utility model;
[0015] Figure 3 This is a schematic diagram of the traction block structure of this utility model;
[0016] Figure 4 This is a schematic diagram of the positioning pin structure of this utility model;
[0017] Figure 5 This is a schematic diagram of the slot structure of this utility model.
[0018] Explanation of reference numerals in the attached drawings: 1. Base plate; 101. Support column one; 1011. Slot; 102. Support column two; 1021. Channel; 1022. Limiting hole; 103. Anti-slip hole five; 11. Top plate; 12. Groove; 2. Wheel; 22. Connecting block; 221. Through hole; 23. Reinforcing plate; 24. Rolling rod; 3. Module insert plate; 31. Anti-slip hole three; 40. Insert column; 41. Standard box one; 42. Standard box two; 43. Standard box three; 5. Traction block; 51. Hole one; 52. Hole two; 53. Bolt; 531. Positioning hole four; 54. Rotary hole; 55. Positioning hole six; 56. Pull block; 57. Positioning pin. Detailed Implementation
[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0020] Please see Figure 1 - Figure 5 This utility model provides an embodiment of a modular standard tool rack for mining, comprising a frame body, wheels 2 located below the frame body, the wheels 2 enabling the frame body to roll on a track within a tunnel, the frame body including a base plate 1, two upward-protruding support columns 101 located at the front of the top of the base plate 1, the two support columns 101 being distributed on the left and right sides of the base plate 1 respectively, and two upward-protruding support columns 102 located at the rear of the top of the base plate 1, the two support columns 102 being distributed on the left and right sides of the base plate 1 respectively, the support columns 101 and 102... The top is connected to an upper plate 11, and a modular insert plate 3 can be inserted between the upper plate 11 and the bottom plate 1. Support column 2 102 and support column 1 101 can support the modular insert plate 3. Standard box 1 41, standard box 2 42 and standard box 3 43 can be placed on the top of the modular insert plate 3. The modular insert plate 3 makes it easy to adjust the height in the frame to adapt to different models of standard boxes. The wheels 2 at the bottom of the frame can support the frame and move on the track, reducing the trouble of carrying the tool rack and saving physical strength.
[0021] Please see Figure 1 - Figure 4In this embodiment, a through channel 1021 is provided at the rear end of the second support column 102 near the center of the base plate 1. A slot 1011 is provided on the rear side of the first support column 101 corresponding to the channel 1021. The module insert plate 3 can pass through the channel 1021 and be inserted into the slot 1011. The channel 1021 facilitates the insertion of the module insert plate 3, and the slot 1011 helps to limit the module insert plate 3 and prevent it from falling out through the frame. A limiting hole 1022 is provided on the side of the second support column 102 away from the channel 1021. The left and right sides of the module insert plate 3 are provided with threaded holes corresponding to the limiting hole 1022. The limiting hole 1022 can be threaded through it. The screws engage with the threaded holes on the module insert plate 3. The screws pass through the limiting hole 1022 and engage with the threaded holes on the module insert plate 3, increasing the stability of the module insert plate 3 within the frame and facilitating disassembly. The top of the module insert plate 3 has a matrix of anti-slip holes 31. The top of the base plate 1 has anti-slip holes 5103 corresponding to anti-slip holes 31. Anti-slip holes 5103 are the same size as anti-slip holes 31. The bottoms of standard box 1 41, standard box 2 42, and standard box 3 43 are respectively provided with insert posts 40 corresponding to anti-slip holes 31. The anti-slip holes 31 and 5103 facilitate the placement of standard boxes and prevent them from sliding.
[0022] Please see Figure 2 - Figure 5In this embodiment, the area of the standard box 3 43 that fits the module insert 3 is larger than the area of the standard box 1 41 that fits the module insert 3. The area of the standard box 3 43 that fits the module insert 3 is the same as the area of the standard box 2 42 that fits the module insert 3. The height of the standard box 2 42 is higher than the height of the standard box 3 43. By using multiple standard boxes, it is convenient to store different tools and maximize storage efficiency. There are four wheels 2 under the base plate 1, and a rolling rod 24 is provided between two wheels 2. The axis of the rolling rod 24 is inserted into the module insert 3. The slots 1011 are parallel in direction. The bottom of the base plate 1 is provided with a downwardly protruding connecting block 22. The connecting block 22 is provided with a through hole 221 corresponding to the rolling rod 24. Reinforcing plates 23 are provided on the left and right sides of the connecting block 22. The top of the reinforcing plate 23 is connected to the bottom of the base plate 1. The stability of the base plate 1 is increased by the support of the four wheels 2. The reinforcing plates 23 on the left and right sides of the connecting block 22 increase the connection strength of the connecting block 22. The bottom of the base plate 1 is provided with grooves 12 on the left and right sides. Bolts 53 are installed at the bottom of the grooves 12. The bolts 53 include screws. A traction block 5 is fitted onto the outer diameter of the screw. The top of the traction block 5 has a rotating hole 54 corresponding to the screw. A through hole 51 is located on the side of the top of the traction block 5 away from the rotating hole 54. The traction block 5 can rotate within the groove 12 about the axis of the rotating hole 54. A positioning hole 55 is located between the first hole 51 and the rotating hole 54 on the top of the traction block 5. A through hole 52 is located on the side of the rotating hole 54 away from the positioning hole 55 on the top of the traction block 5. A through positioning hole 531 is located on the top of the base plate 1. A through positioning hole 531 is located on the side of the rotating hole 54 away from the positioning hole 531 on the top of the traction block 1. When the plate 1 is centered, the positioning hole 4 531 can coincide with the hole 2 52; when the hole 1 51 of the traction block 5 is close to the center of the base plate 1, the positioning hole 4 531 can coincide with the positioning hole 6 55. The positioning pin 57 can be inserted into the positioning hole 4 531. The positioning pin 57 can pass through the traction block 5. The top of the positioning pin 57 is provided with a pull block 56. The traction block 5 facilitates the connection of several tool racks together, so that the tool racks can move together when on the track. The traction block 5 can be stored in the groove 12, so that it can be hidden when it is not needed to move.
[0023] During operation, mine management personnel first insert the module plate 3 according to the type of tool, and connect it to the module plate 3 using screws passing through the limiting holes 1022. Then, a standard box is provided on the top of the module plate 3 as needed. The standard box here is a collective term for standard box one 41, standard box two 42, and standard box three 43. The bottom of the standard box has a downward-protruding insertion post 40, which can be inserted into the anti-slip hole three 31 or anti-slip hole five 103 to prevent the standard box from sliding and causing the tool to fall. The surface of the standard box can be labeled as needed to facilitate workers to quickly obtain the required tools. When the tool rack needs to be moved, it can be pushed to the side of the track, and the tool rack can be moved using a crowbar so that its wheels 2 correspond to the track. Then, pull the lever 56 to lift the positioning pin 57, rotate the traction block 5, and make the positioning pin 57 fall back into the positioning hole 6 55. Then, use the connecting plate to connect the holes 1 51 of the first and last traction blocks 5 of different tool racks in sequence. The bottom of the connecting plate has two downward protruding rods that can be inserted into the positioning hole 6 55. Then, use the traction device in the mine to move the tool racks arranged in sequence on the track. The standard box 41 is convenient for storing smaller tools or parts. Smaller workpieces or parts have greater space utilization and are usually heavier. Standard box 1 41 is more suitable for placing on top of base plate 1. Standard box 2 42 is more suitable for placing larger tools. Standard box 2 42 is easy to place in the middle of the frame. Standard box 3 43 is convenient for storing tools that are not very large and not very heavy. It is easy to place on the upper side of the frame. At the same time, the height of standard box 3 43 is relatively short, making it easy to access. The crowbar, traction device and its usage method are existing technologies, and their working principle will not be described in detail here.
[0024] Through the above steps, the modular insert plate 3 can be easily adjusted in height within the frame to accommodate different standard box models. The wheels 2 at the bottom of the frame can support the frame and allow it to move on the track, reducing the hassle of moving the tool rack and saving physical effort. This solves the problem that existing tool racks can only be used to haphazardly lay out tools without any organization, and that tool racks in mines are not easy to move. Moving tool racks requires a lot of manpower and time, resulting in low efficiency.
Claims
1. Modular standard tool rack for mining, characterized in that: The frame includes a frame with wheels (2) at the bottom. The wheels (2) can support the frame to roll on the track inside the tunnel. The frame includes a base plate (1). Two upward-protruding support columns (101) are provided at the front of the top of the base plate (1). The two support columns (101) are distributed on the left and right sides of the base plate (1). Two upward-protruding support columns (102) are provided at the rear of the top of the base plate (1). The two support columns (102) are distributed on the left and right sides of the base plate (1). The top of the support columns (101) and the support columns (102) are connected to the upper plate (11). A module insert plate (3) can be inserted between the upper plate (11) and the base plate (1). The support columns (102) and the support columns (101) can support the module insert plate (3). The top of the module insert plate (3) can hold standard box 1 (41), standard box 2 (42), and standard box 3 (43).
2. The modular standard tool rack for mining as claimed in claim 1, characterized in that: The rear side of the second support column (102) is provided with a through channel (1021) near the center of the base plate (1), and the rear side of the first support column (101) is provided with a slot (1011) corresponding to the channel (1021). The module insert plate (3) can pass through the channel (1021) and be inserted into the slot (1011).
3. The modular standard tool rack for mining as claimed in claim 2, characterized in that: The second support column (102) has a limiting hole (1022) on the side away from the channel (1021). The left and right sides of the module insert plate (3) have threaded holes corresponding to the limiting hole (1022). The limiting hole (1022) can be connected to the threaded hole on the module insert plate (3) by a screw.
4. The modular standard tool rack for mining as claimed in claim 3, characterized in that: The top matrix of the module insert (3) has anti-slip holes three (31) through it. The top of the base plate (1) is provided with anti-slip holes five (103) corresponding to anti-slip holes three (31). Anti-slip holes five (103) are the same size as anti-slip holes three (31). The bottom of standard box one (41), standard box two (42), and standard box three (43) are respectively provided with inserts (40) corresponding to anti-slip holes three (31).
5. The modular standard tool rack for mining as claimed in claim 4, characterized in that: The area of the standard box three (43) fitting module insert (3) is larger than the area of the standard box one (41) fitting module insert (3). The area of the standard box three (43) fitting module insert (3) is the same as the area of the standard box two (42) fitting module insert (3). The height of the standard box two (42) is higher than the height of the standard box three (43).
6. The modular standard tool rack for mining as claimed in claim 5, characterized in that: The number of wheels (2) under the base plate (1) is four, with a rolling rod (24) between two wheels (2). The axis of the rolling rod (24) is parallel to the direction of the insertion slot (1011) of the module insert plate (3). The bottom of the base plate (1) is provided with a downward protruding connecting block (22). The connecting block (22) is provided with a through hole (221) corresponding to the rolling rod (24). The left and right sides of the connecting block (22) are respectively provided with reinforcing plates (23). The top of the reinforcing plate (23) is connected to the bottom of the base plate (1).
7. The modular standard tool rack for mining as claimed in claim 6, characterized in that: The bottom of the base plate (1) has grooves (12) on the left and right sides respectively. A bolt (53) is installed at the bottom of the groove (12). The bolt (53) includes a screw. A traction block (5) is fitted on the outer diameter of the screw. The top of the traction block (5) is provided with a rotating hole (54) corresponding to the screw. The top of the traction block (5) away from the rotating hole (54) is provided with a through hole (51). The traction block (5) can rotate in the groove (12) with the axis of the rotating hole (54) as the axis of rotation. A positioning hole (55) is provided between the hole (51) and the rotating hole (54) on the top of the traction block (5). The top of the traction block (5) is located between the rotating hole (54) and the positioning hole (55). (54) A through hole 2 (52) is provided on the side away from the positioning hole 6 (55), and a through positioning hole 4 (531) is provided on the top of the base plate (1). When the hole 1 (51) of the traction block (5) is away from the center of the base plate (1), the positioning hole 4 (531) can coincide with the hole 2 (52); when the hole 1 (51) of the traction block (5) is close to the center of the base plate (1), the positioning hole 4 (531) can coincide with the positioning hole 6 (55). A positioning pin (57) can be inserted into the positioning hole 4 (531), and the positioning pin (57) can pass through the traction block (5). A pull block (56) is provided on the top of the positioning pin (57).