A building construction unloading platform
The design of the lifting ring module, which features a detachable connection between the plug and the slot and a layout of multiple screw holes, solves the problems of complex installation and fixed position of the lifting ring in traditional unloading platforms, achieving convenient installation, flexible adjustment and efficient maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI LEADER CONSTR CO LTD
- Filing Date
- 2025-07-14
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional unloading platforms involve complex and time-consuming welding connections. When the I-beam is damaged, the entire platform needs to be dismantled. The lifting rings are fixed in a single position and are difficult to adjust flexibly, which affects construction progress and safety.
It adopts a detachable connection method of plug and slot, combined with pin and spring to fix the I-beam, and the lifting ring module with multiple sets of screw holes can be flexibly adjusted in position. The modular design facilitates maintenance and replacement.
It enables convenient installation and disassembly, allows for individual replacement of damaged I-beams, and allows for flexible adjustment of the lifting ring position, thereby improving construction efficiency and safety and reducing maintenance costs.
Smart Images

Figure CN224413165U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building construction technology, and in particular to a building construction unloading platform. Background Technology
[0002] During the construction process, unloading platforms are important facilities for the vertical transportation of materials. Traditional unloading platforms have many shortcomings in structural design and assembly methods.
[0003] Traditional unloading platforms mostly use welding to fix the I-beams and platform plates. This welding method not only requires professional welding equipment and skilled operators during installation, but also involves a complicated operation process that consumes a lot of time and labor costs. Once the I-beams are damaged or deformed due to excessive loads or external impacts during long-term use, since they are welded to the platform plate as a whole, replacement requires the entire unloading platform to be dismantled. This process is extremely complicated, which will greatly affect the construction progress and increase maintenance costs and construction time.
[0004] In addition, the installation position of the lifting rings of traditional unloading platforms is usually fixed and singular, and it is impossible to flexibly adjust the position of the lifting rings to adapt to changing lifting needs. When the lifting rings are damaged or deformed, due to the limitations of their installation position, it is difficult to replace them quickly. Often, it is necessary to make significant modifications to the platform structure, which inevitably leads to construction stagnation, seriously affects the smooth progress of the project, and brings many inconveniences and troubles to the construction.
[0005] Therefore, how to provide a construction material unloading platform is a problem that urgently needs to be solved by those skilled in the art. Utility Model Content
[0006] One objective of this utility model is to provide a construction material unloading platform. This utility model has the advantages of stable structure and convenient installation and disassembly. Its unique connection design ensures the stability of the platform and facilitates maintenance. Moreover, multiple sets of screw holes, reasonable layout of lifting ring modules and protective structures adapt to various working conditions and ensure safe and efficient operation.
[0007] A construction unloading platform according to an embodiment of the present utility model includes a platform, an I-beam, and a lifting ring module;
[0008] The platform has symmetrical slots on both sides of the front end, and the I-beam has integrally formed insert rods on both sides of the rear end. The insert rods are inserted into the slots, and the I-beam is detachably installed on the front end of the platform through the insert rods. The outer walls of both sides of the platform and near the I-beam are fixedly welded with pin seats. A pin is movably inserted into the pin seat. A spring is sleeved on the outside of the pin and inside the pin seat. An insertion hole is opened through the rear of the insert rod.
[0009] A lifting ring is fixedly welded to the top of the lifting ring module, and a bolt is inserted into the lifting ring module. Threaded holes are symmetrically opened on both sides of the platform, and the bolt passes through the lifting ring module and is inserted into the threaded holes.
[0010] Furthermore, a support plate is integrally formed at the bottom of the I-beam and on the side near the insert rod, and the support plate is placed at the bottom of the platform.
[0011] Furthermore, a limiting insert plate is integrally formed on the top of the I-beam and on the side near the insert rod, and a limiting groove is opened on the front side of the top of the platform, into which the limiting insert plate is inserted.
[0012] Furthermore, a protective plate is vertically and detachably installed on the outer side of the top of the platform, and a discharge port is provided in the center of the rear side of the protective plate.
[0013] Furthermore, the top surface of the platform is provided with anti-slip grooves in the horizontal direction, and there are multiple sets of anti-slip grooves, which are evenly distributed on the surface of the platform.
[0014] Furthermore, the number of screw holes is multiple sets, and the multiple sets of screw holes are equidistantly distributed on both sides of the platform.
[0015] Furthermore, the pin passes through the platform, and the end of the pin is inserted into the socket. The rod is fixedly installed in the slot by the pin.
[0016] Furthermore, the number of lifting ring modules is multiple sets, and all sets of lifting ring modules are symmetrically installed on both sides of the platform by bolts.
[0017] The beneficial effects of this utility model are:
[0018] This utility model uses a rod and slot connection method to connect the I-beam and the platform, along with components such as pins and springs. During installation, simply insert the rod into the slot, and the pin will automatically lock under the action of the spring. The operation is simple and efficient, and more convenient than the traditional welding method. In addition, if the I-beam is damaged or deformed, it can be quickly replaced separately without dismantling the entire platform, thus preventing the impact on the construction progress and reducing maintenance costs.
[0019] This utility model features multiple sets of screw holes symmetrically arranged on both sides of the platform for installing lifting ring modules. The lifting ring modules are numerous and evenly distributed, providing multiple installation position options. The installation position of the lifting ring modules can be flexibly adjusted according to different construction environments, lifting equipment, and material weight distribution, enabling the unloading platform to adapt to various complex lifting needs. It also allows for quick replacement of damaged or deformed lifting rings, making it convenient, efficient, and without affecting the construction progress. Attached Figure Description
[0020] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:
[0021] Figure 1 This is a front view structural diagram of a construction material unloading platform proposed in this utility model;
[0022] Figure 2 This is a schematic diagram of the disassembly structure of an I-beam for a construction unloading platform proposed in this utility model.
[0023] Figure 3 This is a schematic diagram of the disassembly structure of the lifting ring module of a construction unloading platform proposed in this utility model;
[0024] Figure 4 This is a schematic cross-sectional view of the pin seat structure of a construction unloading platform proposed in this utility model.
[0025] In the diagram: 1. Platform; 2. I-beam; 3. Guard plate; 4. Lifting ring module; 5. Pin seat; 6. Anti-slip groove; 7. Unloading port; 8. Screw hole; 9. Support plate; 10. Limiting plate; 11. Limiting groove; 12. Slot; 13. Insert rod; 14. Insertion hole; 15. Spring; 16. Lifting ring; 17. Bolt; 18. Pin. Detailed Implementation
[0026] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the present invention, and therefore only show the components relevant to the present invention. Example
[0027] refer to Figure 1-3 A construction unloading platform includes a platform 1, an I-beam 2, and a lifting ring module 4;
[0028] The front sides of the platform 1 are symmetrically provided with slots 12, and the rear sides of the I-beam 2 are integrally formed with insert rods 13. The insert rods 13 are inserted into the slots 12, and the I-beam 2 can be detachably installed on the front side of the platform 1 through the insert rods 13.
[0029] Among them, the bottom of the I-beam 2 and the side near the insert rod 13 are integrally formed with a support plate 9, which is placed at the bottom of the platform 1. The support plate 9 can effectively increase the stability of the connection between the I-beam 2 and the platform 1, prevent the I-beam 2 from shaking or displacing excessively due to force, and play an important role in strengthening the structural strength of the entire unloading platform.
[0030] Secondly, a limiting plate 10 is integrally formed on the top of the I-beam 2 and on the side near the insert rod 13, and a limiting groove 11 is opened on the front side of the top of the platform 1, into which the limiting plate 10 is inserted; through the cooperation of the limiting plate 10 and the limiting groove 11, the horizontal movement of the I-beam 2 relative to the platform 1 is further restricted, ensuring the tightness and stability of the connection between the I-beam 2 and the platform 1 during use, and improving the overall reliability of the unloading platform;
[0031] In addition, a protective plate 3 is vertically and detachably installed on the outer side of the top of the platform 1, and a discharge port 7 is centrally located on the rear side of the protective plate 3. The protective plate 3 can effectively prevent materials from sliding off both sides of the platform 1 during the unloading process, ensuring the safety of personnel at the construction site and the normal transportation of materials. The discharge port 7 facilitates the targeted unloading of materials to designated locations. The top surface of the platform 1 is provided with horizontal anti-slip grooves 6, and there are multiple sets of anti-slip grooves 6, which are evenly distributed on the surface of the platform 1. The multiple sets of anti-slip grooves 6 can increase the friction between the material and the platform 1, preventing the material from sliding on the platform 1 due to platform shaking or tilting, and ensuring the smooth progress of the unloading operation.
[0032] In this embodiment, the I-beam 2 and the platform 1 are detachably connected, forming a modular design. If the I-beam 2 is damaged, it can be replaced separately, preventing economic losses caused by the platform becoming unusable as a whole after damage. Furthermore, the connection is firm and reliable, effectively preventing dangerous situations such as shaking. Example
[0033] refer to Figure 1-4 A pin seat 5 is fixedly welded to the outer walls of both sides of the platform 1 and near the I-beam 2. A pin 18 is movably inserted into the pin seat 5. A spring 15 is sleeved on the outside of the pin 18 and inside the pin seat 5. A insertion hole 14 is opened through the rear of the insertion rod 13.
[0034] The pin 18 passes through the platform 1, and the end of the pin 18 is inserted into the socket 14. The rod 13 is fixedly installed in the slot 12 by the pin 18.
[0035] In this embodiment, when installing the I-beam 2, after inserting the plug rod 13 into the slot 12, the spring 15 pushes the pin 18 to automatically insert into the socket 14, thereby quickly fixing the plug rod 13 to the slot 12. This connection method is simple and quick to operate, and the connection is firm and reliable, which improves the assembly efficiency of the unloading platform. When it is necessary to disassemble the I-beam 2, it is only necessary to overcome the elastic force of the spring 15 to pull out the pin 18, which facilitates the maintenance, replacement or transportation of the unloading platform. Example
[0036] refer to Figure 1-3A lifting ring 16 is fixedly welded to the top of the lifting ring module 4, and a bolt 17 is inserted into the lifting ring module 4. Screw holes 8 are symmetrically opened on both sides of the platform 1. The bolt 17 passes through the lifting ring module 4 and is inserted into the screw hole 8.
[0037] The screw holes 8 are in multiple sets, and the multiple sets of screw holes 8 are equidistantly distributed on both sides of the platform 1. By setting multiple sets of screw holes 8, the installation position of the lifting ring module 4 can be adjusted according to the actual lifting requirements, adapting to different lifting conditions and improving the versatility and flexibility of the unloading platform.
[0038] Secondly, there are multiple sets of lifting ring modules 4, and all sets of lifting ring modules 4 are symmetrically installed on both sides of the platform 1 by bolts 17. The multiple sets of lifting ring modules 4 are evenly distributed on both sides of the platform 1, which can make the unloading platform more evenly stressed during the lifting process, avoid the platform tilting or being damaged due to uneven stress, and ensure that the unloading platform can carry out lifting operations smoothly and safely.
[0039] In this embodiment, the lifting ring module 4 also adopts a modular design, which can be disassembled and installed separately to avoid the inconvenience of maintenance when the lifting ring is damaged. In addition, the lifting ring module 4 can be freely adjusted to a suitable installation position to ensure the stability and reliability of the platform when suspended.
[0040] Working principle: First, insert the rods 13 on both sides of the rear end of the I-beam 2 into the slots 12 on both sides of the front end of the platform 1. During this process, the support plate 9 at the bottom of the I-beam 2 will be placed at the bottom of the platform 1. The support plate 9 will support and stabilize the I-beam 2, preventing it from shifting vertically. At the same time, the limiting plate 10 at the top of the I-beam 2 will be inserted into the limiting groove 11 on the front side of the top of the platform 1. This structure restricts the horizontal movement of the I-beam 2, ensuring the relative position between the I-beam 2 and the platform 1. When the insertion rod 13 is fully inserted into the slot 12, the pin 18 in the pin holder 5, under the elastic force of the spring 15, will insert into the insertion hole 14 behind the insertion rod 13. The pin 18 penetrates the platform 1, thus firmly fixing the insertion rod 13 in the slot 12, thereby achieving a reliable connection between the I-beam 2 and the platform 1. This connection method is not only convenient to operate, but also allows for easy disassembly. Simply overcome the elastic force of the spring 15 and pull out the pin 18 to separate the I-beam 2 from the platform 1. Depending on the actual hoisting... To meet the requirements, select suitable screw holes 8 on both sides of the platform 1. Because multiple sets of equally spaced screw holes 8 are symmetrically opened on both sides of the platform 1, this provides flexible installation position selection. Insert bolts 17 into the lifting ring module 4, and then insert the bolts 17 through the lifting ring module 4 into the selected screw holes 8. By tightening the bolts 17, the lifting ring module 4 is firmly installed on both sides of the platform 1. Due to the multiple lifting ring modules 4 and their symmetrical distribution, the unloading platform can be evenly stressed during hoisting. During unloading, place building materials and other materials on the surface of the platform 1. Multiple sets of evenly distributed anti-slip grooves 6 are opened horizontally on the top surface of the platform 1. These anti-slip grooves 6 can increase the friction between the material and the platform 1. When the unloading platform shakes or tilts during hoisting, the anti-slip grooves 6 can effectively prevent the material from sliding on the platform 1, ensuring the stable placement of the material. The guard plate 3 vertically installed on the outer side of the top of the platform 1 can prevent the material from sliding off the sides of the platform. The unloading port 7 located in the center of the rear side of the guard plate 3 is used to guide the material to the designated unloading area when the unloading position is reached.
[0041] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A building construction de-loading platform, characterized in that, Includes a platform (1), an I-beam (2), and a lifting ring module (4); The platform (1) has slots (12) symmetrically opened on both sides of the front end. The I-beam (2) has a plug rod (13) integrally formed on both sides of the rear end. The plug rod (13) is inserted into the slot (12). The I-beam (2) is detachably installed on the front end of the platform (1) through the plug rod (13). The outer walls of both sides of the platform (1) and near the I-beam (2) are fixedly welded with a pin seat (5). A pin (18) is movably inserted into the pin seat (5). A spring (15) is sleeved on the outside of the pin (18) and inside the pin seat (5). A plug hole (14) is opened through the rear of the plug rod (13). The top of the lifting ring module (4) is fixedly welded with a lifting ring (16), and a bolt (17) is inserted into the lifting ring module (4). The platform (1) has symmetrical screw holes (8) on both sides. The bolt (17) passes through the lifting ring module (4) and is inserted into the screw hole (8).
2. A building construction de-loading platform according to claim 1, characterised in that The bottom of the I-beam (2) and the side near the insert rod (13) are integrally formed with a support plate (9), which is placed at the bottom of the platform (1).
3. A building construction de-loading platform according to claim 1, characterized in that, The top of the I-beam (2) and the side near the insert rod (13) are integrally formed with a limiting insert plate (10), and a limiting groove (11) is opened on the front side of the top of the platform (1), and the limiting insert plate (10) is inserted into the limiting groove (11).
4. A building construction debris platform according to claim 1, wherein, The platform (1) has a vertically detachable guard plate (3) installed on the outer side of the top, and a discharge port (7) is provided in the center of the rear side of the guard plate (3).
5. A building construction debris platform according to claim 1, wherein, The top surface of the platform (1) is provided with anti-slip grooves (6) in the horizontal direction, and there are multiple sets of anti-slip grooves (6) evenly distributed on the surface of the platform (1).
6. A building construction debris platform according to claim 1, wherein, The number of screw holes (8) is multiple sets, and the multiple sets of screw holes (8) are equidistantly distributed on both sides of the platform (1).
7. A building construction debris platform according to claim 1 wherein, The pin (18) passes through the platform (1), and the end of the pin (18) is inserted into the socket (14). The rod (13) is fixedly installed in the slot (12) by the pin (18).
8. A building construction debris platform according to claim 1, wherein, The number of lifting ring modules (4) is multiple sets, and all sets of lifting ring modules (4) are symmetrically installed on both sides of the platform (1) by bolts (17).