Container reinforcing plate stabilizing device

By designing a container reinforcement plate stabilization device, the linkage assembly and drive assembly are used to automatically press the reinforcement plate, solving the problem of manual pressing during welding, reducing labor intensity and improving operational convenience and device stability.

CN224464032UActive Publication Date: 2026-07-07SHENGSHI CONTAINER MANAGEMENT SHANGHAI +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENGSHI CONTAINER MANAGEMENT SHANGHAI
Filing Date
2025-07-24
Publication Date
2026-07-07

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Abstract

The application relates to a container reinforcing plate stabilizing device, which comprises a machining platform, a fixing base arranged on the machining platform and a stabilizing mechanism, wherein the stabilizing mechanism comprises a connecting rod assembly connected to the fixing base and a driving assembly fixedly connected to one end of the connecting rod assembly away from the fixing base and used for pressing the reinforcing plate. The application has the effect of reducing the labor intensity of an operator when welding the container reinforcing plate.
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Description

Technical Field

[0001] This application relates to the field of container manufacturing technology, and in particular to a container reinforcement plate stabilization device. Background Technology

[0002] A shipping container is a type of transport equipment widely used in sea, land, and multimodal transport, capable of efficiently loading goods. The eight corners of a container are welded with corner fittings, primarily used to bear lifting loads. To enhance the connection strength between the corner fittings and the container, reinforcing plates are typically welded and fixed to the side walls of the corner fittings, and then welded and fixed to the container itself.

[0003] Because the reinforcing plates are generally uneven, in order to ensure the welding effect, operators currently need to use a stick to press down on the reinforcing plates when welding them to the top of the container, so that the reinforcing plates fit into the container before welding. However, this practice significantly increases the labor intensity of the operators. Utility Model Content

[0004] In order to reduce the labor intensity of operators when welding container reinforcement plates, this application provides a container reinforcement plate stabilization device.

[0005] The container reinforcement plate stabilization device provided in this application adopts the following technical solution:

[0006] A container reinforcement plate stabilization device includes a processing platform, a fixed base disposed on the processing platform, and a stabilization mechanism. The stabilization mechanism includes a linkage assembly connected to the fixed base and a drive assembly fixedly connected to one end of the linkage assembly away from the fixed base and used to press the reinforcement plate.

[0007] By adopting the above technical solution, a stabilizing mechanism is set on the processing platform. The driving component of the stabilizing mechanism can press the reinforcing plate, avoiding the need for operators to use sticks to press down on the reinforcing plate before welding, thereby reducing the labor intensity of operators.

[0008] Optionally, the linkage assembly includes a first rotating arm rotatably mounted on the fixed base and a second rotating arm rotatably mounted on the end of the first rotating arm away from the fixed base.

[0009] By adopting the above technical solution, the first and second rotary arms cooperate with each other, enabling the drive assembly to flexibly adjust its position to more accurately press the reinforcing plate, facilitating welding operations of reinforcing plates in different positions, and improving the flexibility and adaptability of operation.

[0010] Optionally, the drive assembly includes a pressing cylinder fixedly connected to the first rotary arm and a clamping member connected to the piston rod of the pressing cylinder, the pressing cylinder having a lever for controlling the pressing member to press down.

[0011] By adopting the above technical solution, the pressing cylinder drives the pressing component to press down the reinforcing plate. The operator can easily control the pressing component to press down the reinforcing plate by using a lever, which replaces the manual pressing with a stick, reduces the labor intensity of the operator, and helps to improve the convenience of operation.

[0012] Optionally, the pressing cylinder is equipped with a return torsion spring that drives the lever to always have a tendency to return to its initial state.

[0013] By adopting the above technical solution, the setting of the reset torsion spring enables the lever to automatically reset, avoiding the need to manually adjust the lever position to reset the clamping part after each operation, thus improving the convenience of operation.

[0014] Optionally, the clamping member has a fastening groove and an internal thread for installation on the inner sidewall of the fastening groove, and the piston rod end of the pressing cylinder has an external thread for installation that mates with the internal thread for installation.

[0015] By adopting the above technical solution, the clamping component and the lowering cylinder are connected by internal and external installation threads, achieving ideal connection strength. Furthermore, the clamping component and the piston rod of the lowering cylinder are detachably connected, facilitating the replacement and maintenance of the clamping component.

[0016] Optionally, the top of the clamping member has a guide slope that is inclined upward toward the piston rod of the pressing cylinder.

[0017] By adopting the above technical solution, the top of the clamping component has a guide slope that is inclined upward towards the piston rod of the downward-pressing cylinder. The setting of the guide slope makes it difficult for welding spatter to adhere to the top of the clamping component.

[0018] Optionally, the fixed base includes a first rotating column for the first rotating arm to slide up and down and a first limiting part coaxially connected to the bottom of the first rotating column. The first rotating arm has a first through hole that rotatably engages with the first rotating column. The fixed base and the first rotating arm have a sliding gap in the vertical direction.

[0019] By adopting the above technical solution, the reaction force received by the drive component when it is pressed down will cause the first and second rotating arms to rise. Since there is a sliding gap between the fixed seat and the first rotating arm in the vertical direction, the first rotating arm can slide and rotate along the first rotating column, thereby avoiding rigid contact between the first rotating arm and the fixed seat, which helps to improve the stability and service life of the device.

[0020] Optionally, the first rotating arm has a second rotating column at one end away from the fixed base and a second limiting part at the bottom of the second rotating column. The second rotating arm has a second through hole that rotates with the second rotating column, and the second rotating arm has buffer pads coaxially connected to the second through hole on both its upper and lower surfaces.

[0021] By adopting the above technical solution, the rotational cooperation of the second rotating column and the second through hole allows the second rotating arm to rotate flexibly, making it convenient to adjust the position of the drive component to better press the reinforcing plate. Since the reaction force received by the drive component when it presses down will cause the second rotating arm to rise, the buffer pads set on the upper and lower surfaces of the second rotating arm can reduce the probability of wear between the first and second rotating arms, thereby improving the stability and service life of the device.

[0022] Optionally, the processing platform is provided with the fixed base and the stabilizing mechanism on both sides of the container width direction.

[0023] By adopting the above technical solution, the processing platform is equipped with fixed seats and stabilizing mechanisms on both sides of the container width direction, which enables the welding of the reinforcing plates on both sides of the container width direction at the same time, thus improving processing efficiency.

[0024] Optionally, the bottom of the processing platform is provided with a fireproof cloth to block sparks and spatter generated during welding.

[0025] By adopting the above technical solution, the fireproof cloth installed at the bottom of the processing platform can block the sparks and spatter generated during welding, thus avoiding the danger caused by sparks and spatter.

[0026] In summary, this application includes at least one of the following beneficial technical effects:

[0027] 1. A container reinforcing plate stabilizing device, comprising a processing platform, a fixed base and a stabilizing mechanism, wherein the stabilizing mechanism includes a linkage assembly and a drive assembly connected to the linkage assembly for pressing the reinforcing plate, thereby reducing the labor intensity of the operator by eliminating the need for the operator to press down the reinforcing plate with a stick before welding;

[0028] 2. By incorporating a first rotating arm rotatably mounted on a fixed base and a second rotating arm rotatably mounted on the first rotating arm in the linkage assembly, the drive assembly can be flexibly adjusted to more accurately press the reinforcing plate, thereby improving operational flexibility and adaptability.

[0029] 3. By setting a lever on the downward cylinder, the operator can easily control the downward pressing of the clamping component to clamp the reinforcing plate, which helps to improve the convenience of operation. Attached Figure Description

[0030] Figure 1This is a front view of the container reinforcement plate stabilization device in the embodiments of this application.

[0031] Figure 2 This is a top view of the container reinforcement plate stabilization device in the embodiments of this application.

[0032] Figure 3 This is a cross-sectional schematic diagram of the cooperation between the fixed seat and the connecting rod assembly in an embodiment of this application.

[0033] Figure 4 This is a schematic diagram of the driving component in an embodiment of this application.

[0034] Figure 5 Figure 4 A magnified view of a portion of point A in the middle.

[0035] Figure 6 It is a cross-sectional schematic diagram of the engagement of the downward-pressing cylinder and the clamping component.

[0036] Explanation of reference numerals in the attached drawings: 1. Processing platform; 11. Fireproof cloth; 2. Fixed base; 21. First rotating column; 22. First limiting part; 23. Sliding clearance; 3. Stabilizing mechanism; 31. Connecting rod assembly; 311. First rotating arm; 3111. First through hole; 3112. Second rotating column; 3113. Second limiting part; 312. Second rotating arm; 3121. Second through hole; 3122. Buffer pad; 32. Drive assembly; 321. Downward cylinder; 3211. Lever; 3212. Return torsion spring; 3213. Control valve; 3214. Mounting external thread; 322. Clamping part; 3221. Fastening groove; 3222. Mounting internal thread; 3223. Guide slope. Detailed Implementation

[0037] The following is in conjunction with the appendix Figure 1-6 This application will be described in further detail.

[0038] This application discloses a container reinforcement plate stabilization device. (Refer to...) Figure 1 and Figure 2 The container reinforcement plate stabilization device includes a processing platform 1, a fixed seat 2 and a stabilization mechanism 3 set on the processing platform 1. The fixed seat 2 and the stabilization mechanism 3 are provided on both sides of the processing platform 1 in the width direction of the container. The bottom of the processing platform 1 is provided with a fireproof cloth 11. In this embodiment, the fireproof cloth 11 is the existing electric welding fireproof cloth, which can block the sparks and spatter generated by welding.

[0039] Reference Figure 1The fixed base 2 includes a first rotating column 21 and a first limiting part 22 coaxially connected to the bottom of the first rotating column 21. The stabilizing mechanism 3 includes a linkage assembly 31 connected to the fixed base 2 and a drive assembly 32 fixedly connected to the end of the linkage assembly 31 away from the fixed base 2. The linkage assembly 31 includes a first rotating arm 311 rotatably mounted on the fixed base 2 and a second rotating arm 312 rotatably mounted on the end of the first rotating arm 311 away from the fixed base 2. In other embodiments, the linkage assembly 31 may include more rotating arms, thereby enabling more precise adjustment of the position of the drive assembly 32 to press the reinforcing plate.

[0040] Reference Figure 1 and Figure 3 The first rotating arm 311 has a first through hole 3111 that rotatably engages with the first rotating column 21, and there is a sliding gap 23 between the fixed base 2 and the first rotating arm 311 in the vertical direction, allowing the first rotating arm 311 to slide up and down. Since the reaction force received by the drive assembly 32 when it is pressed down will cause the first rotating arm 311 and the second rotating arm 312 to rise, the sliding gap 23 is provided to prevent the first rotating arm 311 from making rigid contact with the fixed base 2.

[0041] Reference Figure 3 The first rotating arm 311 has a second rotating column 3112 at the end away from the fixed base 2, and a second limiting part 3113 is provided at the bottom of the second rotating column 3112. The second rotating arm 312 has a second through hole 3121 that rotatably engages with the second rotating column 3112. At the same time, the second rotating arm 312 has a buffer pad 3122 coaxially connected to the second through hole 3121 on both its upper and lower surfaces. The buffer pad 3122 can absorb the impact force generated on the first rotating arm 311 when the second rotating arm 312 is raised, which helps to reduce the wear of the first rotating arm 311 and the second rotating arm 312.

[0042] Reference Figure 4 and Figure 5 The drive assembly 32 includes a pressing cylinder 321 fixedly connected to the bottom of the first rotating arm 311 and a clamping member 322 connected to the pressing cylinder 321. The pressing cylinder 321 is equipped with a control valve for controlling the pressing member 322's downward pressure, a lever 3211 on the control valve for opening and closing the control valve, and a return torsion spring 3212. The control valve can control the gas input to the pressing cylinder 321, and the operator can press the clamping member 322 to press the reinforcing plate by moving the lever 3211. The return torsion spring 3212 is disposed on the rotation shaft of the lever 3211, and the movable end of the return torsion spring 3212 is connected to the lever 3211, while the fixed end of the return torsion spring 3212 is connected to the body of the pressing cylinder 321, so that the lever 3211 always tends to return to its initial state.

[0043] Reference Figure 6The clamping member 322 has a fastening groove 3221 on its top and an internal installation thread 3222 on the inner side wall of the fastening groove 3221. The piston rod end of the pressing cylinder 321 has an external installation thread 3214 that mates with the internal installation thread 3222. At the same time, the top of the clamping member 322 has a guide slope 3223 that is inclined upward toward the piston rod of the pressing cylinder 321.

[0044] The implementation principle of the container reinforcement plate stabilization device in this application embodiment is as follows: When welding the reinforcement plate, the operator first drags the connecting rod assembly 31 so that the clamping member 322 of the drive assembly 32 is aligned with the position where the reinforcement plate needs to be clamped. Then, the lever 3211 is rotated to control the clamping member 322 to press down the reinforcement plate. After that, the welding operation is carried out, so that the operator does not need to press down the reinforcement plate with a stick before welding, thereby reducing the labor intensity of the operator.

[0045] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A container reinforcing plate stabilizing device, characterized in that, It includes a processing platform (1), a fixed base (2) disposed on the processing platform (1), and a stabilizing mechanism (3). The stabilizing mechanism (3) includes a linkage assembly (31) connected to the fixed base (2) and a drive assembly (32) fixedly connected to the end of the linkage assembly (31) away from the fixed base (2) and used to press the reinforcing plate.

2. The container reinforcing plate stabilizing device according to claim 1, characterized in that, The linkage assembly (31) includes a first rotating arm (311) rotatably mounted on the fixed base (2) and a second rotating arm (312) rotatably mounted on the end of the first rotating arm (311) away from the fixed base (2).

3. A container reinforcing plate stabilizing device according to claim 2, characterized in that, The drive assembly (32) includes a pressing cylinder (321) fixedly connected to the first rotary arm (311) and a clamping member (322) connected to the piston rod of the pressing cylinder (321). The pressing cylinder (321) has a lever (3211) for controlling the pressing member (322) to press down.

4. A container reinforcing plate stabilizing device according to claim 3, characterized in that, The pressing cylinder (321) is equipped with a return torsion spring (3212) that drives the lever (3211) to always have a tendency to return to the initial state.

5. A container reinforcing plate stabilizing device according to claim 3, characterized in that, The clamping member (322) has a fastening groove (3221) and an internal installation thread (3222) is provided on the inner side wall of the fastening groove (3221). The piston rod end of the pressing cylinder (321) has an external installation thread (3214) that mates with the internal installation thread (3222).

6. A container reinforcing plate stabilizing device according to claim 3, characterized in that, The top of the clamping member (322) has a guide slope (3223) that is inclined upward toward the piston rod of the pressing cylinder (321).

7. A container reinforcing plate stabilizing device according to claim 2, characterized in that, The fixed base (2) includes a first rotating column (21) for the first rotating arm (311) to slide up and down and a first limiting part (22) coaxially connected to the bottom of the first rotating column (21). The first rotating arm (311) has a first through hole (3111) that rotates with the first rotating column (21). The fixed base (2) and the first rotating arm (311) have a sliding gap (23) in the vertical direction.

8. A container reinforcing plate stabilizing device according to claim 2, characterized in that, The first rotating arm (311) has a second rotating column (3112) at one end away from the fixed base (2) and a second limiting part (3113) at the bottom of the second rotating column (3112). The second rotating arm (312) has a second through hole (3121) that rotatably engages with the second rotating column (3112). The second rotating arm (312) has buffer pads (3122) coaxially connected to the second through hole (3121) on both its upper and lower surfaces.

9. A container reinforcing plate stabilizing device according to claim 1, characterized in that, The processing platform (1) is provided with the fixed seat (2) and the stabilizing mechanism (3) on both sides of the container width direction.

10. A container reinforcing plate stabilizing device according to claim 1, characterized in that, The bottom of the processing platform (1) is provided with a fireproof cloth (11) to block the sparks and spatter generated during welding.