A pile driving device for construction
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI TAIBANG HONGYE CONSTRUCTION CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-03
Smart Images

Figure CN224452730U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of construction technology, and in particular to a pile driving device for construction. Background Technology
[0002] Construction refers to the process of transforming planned designs into actual buildings, structures, or infrastructures through the combination of elements such as manpower, machinery, and materials, in accordance with engineering design drawings and relevant technical standards. Piling equipment is a special type of machinery used for foundation treatment in construction. Its main function is to drive precast piles or cast-in-place piles into the ground to enhance the bearing capacity of the foundation, reduce building settlement, and ensure the stability of the foundation structure.
[0003] When using existing piling equipment, due to the uncertainty of the objects in the soil below the surface, the drilling parts will wear out after long-term use. At this time, the staff needs to replace them in time to ensure that the equipment can operate normally. However, in the existing technology, replacing the drilling parts usually requires removing the screws or bolts used for fixing on the surface, which is a complicated and time-consuming process, which leads to a reduction in the efficiency of piling and maintenance. Summary of the Invention
[0004] The technical problem to be solved by this utility model is that the existing technology has the disadvantage that the process of replacing worn drilling parts is cumbersome, which will result in long downtime and poor work efficiency. Therefore, we propose a pile driving equipment for construction.
[0005] To achieve the above objectives, this application adopts the following technical solution: a piling device for construction, comprising a fixed support: a driving component is installed at the top of the fixed support, a driving rod is installed at the bottom of the driving component, a drilling component is installed at the bottom of the driving rod, a connecting column is fixedly connected to the bottom of the driving rod, an mounting plate is fixedly connected to the top of the drilling component, two slots are formed on the surface of the mounting plate, two buckles that engage with the slots are slidably connected inside the connecting column, a fixed plate is fixedly connected inside the connecting column, spring springs are fixedly connected to both sides of the fixed plate, the spring springs are fixedly connected to the buckles on the side closer to the buckles, sliding sleeves are fixedly connected to both sides of the connecting column, sliding grooves are formed inside both sides of the connecting column and the sliding sleeves, a sliding rod is slidably connected inside the sliding groove, and a push-pull plate is fixedly connected to the side of the sliding rod away from the connecting column.
[0006] Preferably, the front and rear ends of the connecting column are provided with guide grooves, the front and rear ends of the buckle are fixedly connected with guide blocks, and the interior of the guide groove is slidably connected with the guide blocks.
[0007] Preferably, the front and rear ends of the sliding sleeve are provided with stop grooves, and the front and rear ends of the sliding rod are fixedly connected with stop blocks, and the inside of the stop groove is slidably connected to the stop block.
[0008] Preferably, an energy storage spring is sleeved on the surface of the sliding rod, and the two sides of the energy storage spring are fixedly connected to the sliding sleeve and the push-pull plate, respectively.
[0009] Preferably, the end of the buckle is rounded, and two rubber contact pads are installed at the bottom of the mounting plate.
[0010] Preferably, the bottom end of the connecting column has two alignment grooves, and the top end of the punched part is equipped with two alignment rods, with the interior of the alignment grooves slidably connected to the alignment rods.
[0011] The technical effects and advantages of this utility model are as follows:
[0012] In this invention, when workers need to replace the drilling component, they press the push-pull plate inward to cause the sliding rod to abut the buckle, disengaging the buckle from the slot. Then, the drilling component can be pulled downwards for removal. After removal, the slot at the top of another drilling component is aligned with the buckle for engagement. Once engaged, the spring force stored in the spring spring ensures the buckle is stably engaged in the slot, achieving stable fixation of the drilling component after installation. This design allows for quick installation and removal of the drilling component. When a drilling component is worn and needs replacement, it can be quickly removed by simply pressing and pulling twice, and installation is equally simple, effectively improving the efficiency of equipment maintenance and piling. Attached Figure Description
[0013] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts:
[0014] Figure 1 This is a schematic diagram of the main structure of the piling equipment of this utility model;
[0015] Figure 2 This is a bottom view schematic diagram of the piling equipment of this utility model;
[0016] Figure 3 This is a schematic diagram of the drive rod and the punching component of this utility model;
[0017] Figure 4 This is a schematic diagram of the vertical cross-sectional structure of the internal structure of the connecting column of this utility model;
[0018] Figure 5 This is a schematic cross-sectional view of the internal structure of the connecting column of this utility model.
[0019] Legend: 1. Fixed bracket; 2. Drive assembly; 3. Drive rod; 4. Drilled part; 5. Connecting column; 6. Mounting plate; 7. Slot; 8. Buckle; 9. Fixing plate; 10. Spring; 11. Sliding sleeve; 12. Sliding groove; 13. Sliding rod; 14. Push-pull plate; 15. Guide groove; 16. Guide block; 17. Stop groove; 18. Stop block; 19. Energy storage spring; 20. Rounded corner; 21. Rubber contact pad; 22. Alignment groove; 23. Alignment rod. Detailed Implementation
[0020] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementation methods without changing the essential spirit of this utility model. Therefore, the following specific embodiments and accompanying drawings are merely exemplary descriptions of the technical solution of this utility model, and should not be regarded as the entirety of this utility model or as a limitation or restriction on the technical solution of this utility model.
[0021] Reference Figure 1 - Figure 4 As shown, this utility model provides a technical solution: a piling device for construction, including a fixed support 1; a drive assembly 2 is installed at the top of the fixed support 1, a drive rod 3 is installed at the bottom of the drive assembly 2, a drilling component 4 is installed at the bottom of the drive rod 3, a connecting column 5 is fixedly connected to the bottom of the drive rod 3, an mounting plate 6 is fixedly connected to the top of the drilling component 4, two slots 7 are formed on the surface of the mounting plate 6, two buckles 8 that engage with the slots 7 are slidably connected inside the connecting column 5, a fixed plate 9 is fixedly connected inside the connecting column 5, spring springs 10 are fixedly connected to both sides of the fixed plate 9, the side of the spring spring 10 near the buckle 8 is fixedly connected to the buckle 8, sliding sleeves 11 are fixedly connected to both sides of the connecting column 5, and sliding grooves 12 are formed inside both sides of the connecting column 5 and the sliding sleeves 11. An internal sliding connection is provided with a sliding rod 13. A push-pull plate 14 is fixedly connected to the side of the sliding rod 13 away from the connecting column 5. When the worker needs to replace the drilling part 4, the push-pull plate 14 is pressed inward to make the sliding rod 13 abut against the buckle 8, so that the buckle 8 is disengaged from the slot 7. At this time, the drilling part 4 can be pulled down to disassemble it. After removal, the slot 7 at the top of another drilling part 4 is aligned with the buckle 8 to engage. After engagement, the elastic force stored in the spring spring 10 makes the buckle 8 stably engaged in the slot 7, thereby achieving stable fixation of the drilling part 4 after installation. With the setting that allows for quick installation and removal of the drilling part 4, when the drilling part 4 is worn and needs to be replaced, it can be quickly removed by pressing and pulling twice, and the installation is equally simple, thereby effectively improving the efficiency of equipment maintenance and piling.
[0022] Reference Figure 5As shown in this embodiment: guide grooves 15 are provided at both the front and rear ends of the connecting column 5, and guide blocks 16 are fixedly connected to both the front and rear ends of the buckle 8. The interior of the guide groove 15 is slidably connected to the guide block 16. Through the setting of the guide groove 15 and the guide block 16, the buckle 8 can form a stable guiding effect when sliding inside the connecting column 5, so that the buckle 8 will not be offset when it is engaged with the buckle groove 7, effectively ensuring the stability and efficiency of the installation process of the drive rod 3 and the drilling part 4.
[0023] Reference Figure 5 As shown in this embodiment: the front and rear ends of the sliding sleeve 11 are provided with stop grooves 17, and the front and rear ends of the sliding rod 13 are fixedly connected with stop blocks 18. The inside of the stop groove 17 is slidably connected with the stop block 18. By setting the stop groove 17 and the stop block 18, the sliding rod 13 can form a stable limiting effect when sliding inside the sliding sleeve 11, thereby effectively limiting the movement trajectory of the sliding rod 13 and preventing excessive movement, thus effectively ensuring the stability of the punched part 4 during disassembly.
[0024] Reference Figure 5 As shown in this embodiment: an energy storage spring 19 is sleeved on the surface of the sliding rod 13. The two sides of the energy storage spring 19 are fixedly connected to the sliding sleeve 11 and the push-pull plate 14, respectively. With the setting of the energy storage spring 19, when the staff presses the push-pull plate 14 to drive the sliding rod 13 to abut the buckle 8 and releases the push-pull plate 14, the elastic force of the energy storage spring 19 is released, which drives the sliding rod 13 to quickly return to the initial position, thereby achieving the quick reset of the sliding rod 13 after it is pressed, which is convenient for the next use.
[0025] Reference Figure 3 and Figure 4 As shown in this embodiment: the end of the buckle 8 is provided with a rounded corner 20, and two rubber contact pads 21 are installed at the bottom of the mounting plate 6. By setting the rounded corner 20 and the rubber contact pads 21, the slot 7 can have less friction when it engages with the buckle 8, and it is not easy to shake or shift after engagement, thus effectively ensuring the fixing effect of the punched part 4 after installation.
[0026] Reference Figure 3 As shown in this embodiment: the bottom end of the connecting column 5 has two alignment grooves 22, and the top end of the punched part 4 is equipped with two alignment rods 23. The inside of the alignment groove 22 is slidably connected with the alignment rod 23. By setting the alignment groove 22 and the alignment rod 23, the slot 7 can achieve automatic alignment when it is engaged with the buckle 8, which makes it more convenient and efficient to install the punched part 4 with the drive rod 3, and effectively improves the replacement efficiency.
[0027] Working principle: When the worker needs to replace the punching part 4, the push-pull plate 14 is pressed inward to cause the sliding rod 13 to abut against the buckle 8, disengaging the buckle 8 from the slot 7. Then, the punching part 4 can be pulled downwards for removal. After removal, the slot 7 at the top of another punching part 4 is aligned with the buckle 8 for engagement. After engagement, the spring force stored in the spring spring 10 ensures that the buckle 8 is stably engaged in the slot 7, thus achieving stable fixation of the punching part 4 after installation. This design allows for quick installation and removal of the punching part 4. When part 4 is worn and needs to be replaced, it can be quickly removed by simply pressing and pulling it out twice. Installation is equally simple, effectively improving the efficiency of equipment maintenance and piling. The guide groove 15 and guide block 16 provide stable guidance when the buckle 8 slides inside the connecting column 5, preventing positional shift when the buckle 8 engages with the slot 7. This effectively ensures the stability and efficiency of the installation process between the drive rod 3 and the drilling part 4. The stop groove 17 and stop block 1... The setting of 8 allows the sliding rod 13 to form a stable limiting effect when sliding inside the sliding sleeve 11, thereby effectively limiting the movement trajectory of the sliding rod 13 and preventing excessive movement. This effectively ensures the stability of the punched part 4 during disassembly. The energy storage spring 19, when the operator presses the push-pull plate 14 to move the sliding rod 13 against the buckle 8, and then releases the push-pull plate 14, releases the elastic force of the energy storage spring 19, causing the sliding rod 13 to quickly return to its initial position, thus achieving rapid reset after pressing, facilitating future use. The rounded corner 20 and rubber contact pad 21 allow for less friction when the slot 7 engages with the buckle 8, and prevent wobbling or displacement after engagement, effectively ensuring the fixing effect of the punched part 4 after installation. The alignment slot 22 and alignment rod 23 enable automatic alignment when the slot 7 engages with the buckle 8, making the installation of the punched part 4 with the drive rod 3 more convenient and efficient, effectively improving replacement efficiency.
[0028] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.
Claims
1. A pile driving apparatus for construction work, characterized by comprising: Includes a fixed bracket (1): a drive assembly (2) is installed at the top of the fixed bracket (1), a drive rod (3) is installed at the bottom of the drive assembly (2), a punch (4) is installed at the bottom of the drive rod (3), a connecting post (5) is fixedly connected to the bottom of the drive rod (3), a mounting plate (6) is fixedly connected to the top of the punch (4), two slots (7) are opened on the surface of the mounting plate (6), two buckles (8) that engage with the slots (7) are slidably connected inside the connecting post (5), and the connecting post (5) has two buckles (8) that engage with the slots (7). A fixing plate (9) is fixedly connected to the part. A spring spring (10) is fixedly connected to both sides of the fixing plate (9). The spring spring (10) is fixedly connected to the buckle (8) on the side closer to the buckle (8). A sliding sleeve (11) is fixedly connected to both sides of the connecting column (5). A sliding groove (12) is opened in the interior of both sides of the connecting column (5) and the sliding sleeve (11). A sliding rod (13) is slidably connected inside the sliding groove (12). A push-pull plate (14) is fixedly connected to the side of the sliding rod (13) away from the connecting column (5).
2. The pile driving apparatus for construction work according to claim 1, characterized by: The front and rear ends of the connecting column (5) are provided with guide grooves (15), and the front and rear ends of the buckle (8) are fixedly connected with guide blocks (16). The interior of the guide groove (15) is slidably connected to the guide block (16).
3. The pile driving apparatus for construction work according to claim 1, characterized by: The front and rear ends of the sliding sleeve (11) are provided with stop grooves (17), and the front and rear ends of the sliding rod (13) are fixedly connected with stop blocks (18). The inside of the stop groove (17) is slidably connected to the stop block (18).
4. The pile driving apparatus for construction work according to claim 1, characterized by: The surface of the sliding rod (13) is fitted with an energy storage spring (19), and the two sides of the energy storage spring (19) are fixedly connected to the sliding sleeve (11) and the push-pull plate (14) respectively.
5. The piling equipment for construction as described in claim 1, characterized in that: The buckle (8) has a rounded corner (20) at its end, and two rubber contact pads (21) are installed at the bottom of the mounting plate (6).
6. The pile driving apparatus for construction work according to Claim 1, characterized by: The bottom end of the connecting column (5) has two alignment grooves (22), and the top end of the punch (4) is equipped with two alignment rods (23). The inside of the alignment groove (22) is slidably connected to the alignment rods (23).