CN112252295A - Tamping equipment for building construction foundation - Google Patents

Abstract

The invention relates to a tamping device for a building construction foundation, which comprises a fixed supporting plate and a device connecting plate, wherein the fixed supporting plate is fixedly arranged on the upper end surface of the device connecting plate, the device connecting plate is fixedly arranged on mechanical equipment, the lower end surface of the transverse section of the fixed supporting plate is connected with a hydraulic cylinder, the driving lower end of the hydraulic cylinder is connected with a hydraulic rod, the free lower end of the hydraulic rod is connected with a striking plate, and a tamping mechanism is arranged right below the striking plate; according to the invention, a part of structure is added on the basis of the existing tamping column, and the part of structure can achieve the effect of multiple times of tamping in the same tamping process in the tamping process, so that the high-efficiency tamping effect is achieved in the actual tamping process, and further the building construction process can be carried out in high efficiency and order, therefore, the time cost can be greatly saved in the actual using process, and the high-efficiency tamping column has higher practical value.

Description

Tamping equipment for building construction foundation

Technical Field

The invention relates to the technical field of building construction, in particular to tamping equipment for a building construction foundation.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on a design drawing into a real object at a specified place. The method comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like. The site of the construction work is called a "construction site" or "job site", also called a worksite.

In the building work progress, use the rammer compactor more for the tamp of ground, the rammer compactor utilizes the heavy object to make its freedom fall repeatedly and tamp ground or fill soil building stones to improve its closely knit degree's construction operation, make the more firm of basis.

However, in the process of tamping, the existing tamping machine has the problem of low tamping efficiency in the process of tamping because the tamping machine has a simple structure.

In order to solve the problems, the invention provides a tamping device for a building construction foundation.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to practical requirements and provide tamping equipment for a building construction foundation so as to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides a construction is ramming equipment for ground, includes mounting support plate and equipment connecting plate, the mounting support plate is fixed to be set up on the up end of equipment connecting plate, and the equipment connecting plate is fixed to be set up on mechanical equipment, be connected with hydraulic cylinder under mounting support plate's the horizontal section on the terminal surface, and hydraulic cylinder's drive lower extreme is connected with the hydraulic stem, the free lower extreme of hydraulic stem is connected with the striking plate, be provided with tamping mechanism under the striking plate, and tamping mechanism sets up on mounting support plate's lateral wall.

Furthermore, the tamping mechanism comprises an upper bearing plate and a first guide supporting assembly, the lower end face of the upper bearing plate is connected with a plurality of first guide supporting assemblies, the free lower ends of the first guide supporting assemblies are fixedly connected to the upper end face of the lower bearing plate, the lower end face of the lower bearing plate is connected with a plurality of second guide supporting assemblies, the free lower ends of the second guide supporting assemblies are connected to the upper end face of the fixed bearing plate, the fixed bearing plate is fixedly arranged on the side wall of the fixed supporting plate, a first moving hole is formed in the fixed bearing plate, a moving column is movably inserted in the first moving hole, the upper end of the moving column is connected to the lower end face of the lower bearing plate, and the lower end of the moving column is connected with a tamping column.

Furthermore, a direction supporting component includes a direction bracing piece, a direction supporting cylinder and a direction supporting spring, a direction bracing piece activity is pegged graft in a direction supporting cylinder, a direction supporting spring winding is connected on a direction bracing piece, and a direction supporting spring's both ends respectively fixed connection on a direction bracing piece's lateral wall and a direction supporting cylinder's lateral wall.

Further, No. two direction supporting component includes No. two direction bracing pieces, No. two direction supporting barrels and No. two direction supporting springs, No. two direction bracing piece activities are pegged graft in No. two direction supporting barrels, No. two direction supporting spring winding is connected on No. two direction bracing pieces, and No. two direction supporting spring's both ends respectively fixed connection on No. two direction bracing pieces's lateral wall and No. two direction supporting barrel's lateral wall.

Furthermore, an upper side supporting plate is fixedly connected to two side walls of the upper supporting plate, a second moving hole is formed in the upper side supporting plate, a moving rod is movably inserted into the second moving hole, a supporting spring is wound and connected to the moving rod, two ends of the supporting spring are fixedly connected to the upper end face of the upper side supporting plate and the side wall of the moving rod respectively, the lower end of the moving rod is connected to the upper end face of the lower side supporting plate, the lower side supporting plate is fixedly arranged on the side wall of a first bearing plate, the first bearing plate is arranged in a first sliding groove in a sliding mode, the first sliding groove is formed in the side wall of the tamping column, the upper end of the first bearing plate is connected with a third guiding and supporting component, the free upper end of the third guiding and supporting component is fixedly connected to the top wall of the first sliding groove, and the lower end of the first bearing plate is connected with a first tamping rod, and the first tamping rod is movably inserted in the first tamping groove, the first tamping groove is arranged on the side wall of the tamping column, and the first tamping groove is communicated with the first sliding groove.

Furthermore, No. three direction supporting component includes No. three direction bracing pieces, No. three direction supporting barrels and No. three direction supporting springs, No. three direction bracing piece activities are pegged graft in No. three direction supporting barrels, No. three direction supporting spring winding is connected on No. three direction bracing pieces, and No. three direction supporting spring's both ends respectively fixed connection on No. three direction bracing pieces's lateral wall and No. three direction supporting barrel's lateral wall.

Furthermore, the lower end face of the lower bearing plate is connected with one end of a traction steel rope, the other end of the traction steel rope sequentially and movably penetrates through a first through hole and a second through hole, the first through hole is formed in the lower bearing plate, the first through hole is formed in the tamping column, a second sliding groove is formed in the tamping column, the second sliding groove is communicated with the second through hole, the free end of the traction steel rope extends into the second sliding groove and is connected to the upper end face of the second bearing plate, the lower end of the second bearing plate is fixedly connected with a second tamping rod, and the second tamping rod is movably inserted into a second tamping groove formed in the tamping column.

Further, the lower end of the second tamping rod is fixedly connected with an anti-clamping block.

Furthermore, two movable tamping holes are symmetrically formed in the tamping column and communicated with the second tamping groove, a third tamping rod is movably inserted into the movable tamping holes, one end of the third tamping rod is movably arranged in the second tamping groove, a supporting sliding groove is formed in the third tamping rod and movably provided with a supporting sliding block, the supporting sliding block is fixedly connected to the side wall of the movable tamping holes, the side wall of the supporting sliding block is connected with one end of a connecting spring, and the other end of the connecting spring is fixedly connected to the side wall of the supporting sliding groove.

Furthermore, the left view of the anti-clamping block is in a trapezoidal structure.

(3) Has the advantages that:

A. according to the invention, a part of structure is added on the basis of the existing tamping column, and the part of structure can achieve the effect of multiple times of tamping in the same tamping process in the tamping process, so that the high-efficiency tamping effect is achieved in the actual tamping process, and further the building construction process can be carried out in high efficiency and order, therefore, the time cost can be greatly saved in the actual using process, and the high-efficiency tamping column has higher practical value.

B. In the tamping process, a combined structure of the impact plate, the hydraulic rod, the hydraulic cylinder and the tamping column is added, the combined structure is used for tamping for the first time, and specifically, the tamping column is tamped on the foundation under the downward impact of the impact plate on the tamping column, so that the foundation is tamped.

C. In the process of tamping the foundation by the tamping columns, on one hand, the first tamping rod is driven to move downwards under the pushing of the moving rod and on the other hand, the first tamping rod is driven to move downwards under the self-weight action of the first bearing plate, the second tamping can be formed on the foundation by the movement of the first tamping rod, and the second tamping and the first tamping can be carried out synchronously, so that on the basis of the prior art, the tamping efficiency can be effectively improved in the tamping process.

D. Simultaneously, at the in-process that the column tamped, under the dead weight effect of No. two bearing plates, can take No. two tamping rods to move down in No. two tamping grooves to tamp the ground through No. two tamping rods, thereby when the ground was tamped twice in the aforesaid, this step also can tamp the ground in coordination, thereby reaches the effect of tamping the ground high efficiency.

E. In the process that the second tamping rod tamps the foundation downwards, the third tamping rod is pushed to move in the moving tamping hole, and the foundation can be tamped again by the movement of the third tamping rod, so that the foundation can be tamped for the fourth time in the actual working process.

Drawings

FIG. 1 is a schematic structural view of a tamping apparatus for a construction foundation according to an embodiment of the present invention;

FIG. 2 is a partially enlarged schematic structural view of the tamping apparatus for construction foundation of the present invention shown in FIG. 1;

FIG. 3 is an enlarged view of the structure A in FIG. 2 of the tamping apparatus for construction foundation according to the present invention;

FIG. 4 is a partially enlarged schematic view of the tamping apparatus for a construction foundation of the present invention shown in FIG. 2;

FIG. 5 is an enlarged schematic view of a tamping apparatus for a construction foundation according to another embodiment of the present invention shown in FIG. 1;

FIG. 6 is an enlarged view of the construction B of FIG. 5 of the compaction apparatus for a construction foundation according to the present invention.

The reference numbers are as follows:

the impact plate 1, the tamping mechanism 2, the upper supporting plate 21, the first guiding and supporting component 22, the first guiding and supporting rod 221, the first guiding and supporting cylinder 222, the first guiding and supporting spring 223, the lower supporting plate 23, the second guiding and supporting component 24, the second guiding and supporting rod 241, the second guiding and supporting cylinder 242, the second guiding and supporting spring 243, the moving column 25, the first moving hole 26, the fixed supporting plate 27, the tamping column 28, the upper side supporting plate 29, the second moving hole 210, the moving rod 211, the supporting spring 212, the lower side supporting plate 213, the first bearing plate 214, the first sliding groove 215, the third guiding and supporting component 216, the third guiding and supporting rod 2161, the third guiding and supporting cylinder 2162, the third guiding and supporting spring 2163, the first tamping rod 217, the first tamping groove 218, the traction steel rope 219, the first through hole 220, the second through hole 221, the second bearing plate 222, the second sliding groove 223, the second tamping rod 224, the third guiding and supporting rod 224, A second tamping groove 225, an anti-blocking block 226, a third tamping rod 227, a movable tamping hole 228, a support sliding groove 229, a support sliding block 230, a connecting spring 231, a hydraulic rod 3, a hydraulic cylinder 4, a fixed support plate 5 and an equipment connecting plate 6.

Detailed Description

The invention will be further illustrated with reference to the following figures 1-6 and examples:

a tamping device for a building construction foundation comprises a fixed support plate 5 and a device connecting plate 6, wherein the fixed support plate 5 is fixedly arranged on the upper end surface of the device connecting plate 6, the device connecting plate 6 is fixedly arranged on mechanical equipment, a hydraulic cylinder 4 is connected on the lower end surface of the transverse section of the fixed support plate 5, the driving lower end of the hydraulic cylinder 4 is connected with a hydraulic rod 3, the free lower end of the hydraulic rod 3 is connected with a striking plate 1, a tamping mechanism 2 is arranged under the striking plate 1, and the tamping mechanism 2 is arranged on the side wall of the fixed support plate 5, in the invention, a partial structure is added on the basis of the existing tamping column, the arrangement of the partial structure can achieve the effect of multiple times of tamping in the same tamping process, thereby achieving the effect of high-efficiency tamping in the actual tamping process and further enabling the building construction process, can go on in order with high efficiency, consequently in the use of reality, can save time cost greatly to have higher practical value.

In this embodiment, the tamping mechanism 2 includes an upper supporting plate 21 and a first guiding and supporting assembly 22, a plurality of first guiding and supporting assemblies 22 are connected to a lower end surface of the upper supporting plate 21, free lower ends of the first guiding and supporting assemblies 22 are fixedly connected to an upper end surface of the lower supporting plate 23, a plurality of second guiding and supporting assemblies 24 are connected to a lower end surface of the lower supporting plate 23, free lower ends of the second guiding and supporting assemblies 24 are connected to an upper end surface of a fixed supporting plate 27, the fixed supporting plate 27 is fixedly arranged on a side wall of the fixed supporting plate 5, a first moving hole 26 is formed in the fixed supporting plate 27, a moving column 25 is movably inserted into the first moving hole 26, an upper end of the moving column 25 is connected to a lower end surface of the lower supporting plate 23, and a lower end of the moving column 25 is connected to a tamping column 28, specifically, during tamping, the impacting plate 1 is additionally provided in the tamping process, The combined structure of the hydraulic rod 3, the hydraulic cylinder 4 and the tamping column 28 is arranged for the first tamping action, in particular, under the downward impact of the tamping column 28 by the impact plate 1, so that the tamping column 28 is tamped on the foundation, thereby having a tamping effect on the foundation.

In this embodiment, a direction supporting component 22 includes a direction bracing piece 221, a direction supporting cylinder 222 and a direction supporting spring 223, a direction bracing piece 221 activity is pegged graft in a direction supporting cylinder 222, a direction supporting spring 223 winding is connected on a direction bracing piece 221, and the both ends of a direction supporting spring 223 fixed connection respectively are on a lateral wall of direction bracing piece 221 and the lateral wall of a direction supporting cylinder 222, a setting of direction supporting component 22, both can play the effect that the direction was supported, can provide power for reseing again.

In this embodiment, No. two direction supporting component 24 includes No. two direction bracing piece 241, No. two direction supporting barrel 242 and No. two direction supporting spring 243, No. two direction bracing piece 241 activity is pegged graft in No. two direction supporting barrel 242, No. two direction supporting spring 243 winding is connected on No. two direction bracing piece 241, and the both ends of No. two direction supporting spring 243 fixed connection respectively on No. two direction bracing piece 241's lateral wall and No. two direction supporting barrel 242's lateral wall, No. two direction supporting component 24's setting, both can play the effect that the direction was supported, can provide power for reseing again.

In this embodiment, the upper supporting plate 29 is fixedly connected to two side walls of the upper supporting plate 21, the upper supporting plate 29 is provided with a second moving hole 210, a moving rod 211 is movably inserted into the second moving hole 210, a supporting spring 212 is wound on the moving rod 211, two ends of the supporting spring 212 are respectively and fixedly connected to the upper end surface of the upper supporting plate 29 and the side wall of the moving rod 211, the lower end of the moving rod 211 is connected to the upper end surface of the lower supporting plate 213, the lower supporting plate 213 is fixedly disposed on the side wall of the first supporting plate 214, the first supporting plate 214 is slidably disposed in the first sliding groove 215, the first sliding groove 215 is disposed on the side wall of the tamping column 28, the upper end of the first supporting plate 214 is connected to the third guiding supporting assembly 216, the free upper end of the third guiding supporting assembly 216 is fixedly connected to the top wall of the first sliding groove 215, the lower end of the first supporting plate 214 is connected to the first tamping rod 217, the first tamping rod 217 is movably inserted into the first tamping groove 218, the first tamping groove 218 is arranged on the side wall of the tamping column 28, the first tamping groove 218 is communicated with the first sliding groove 215, the first tamping rod 217 is driven to move downwards under the action of the dead weight of the first bearing plate 214 during the process that the foundation is tamped by the tamping column 28, the first tamping rod 217 is driven to move downwards, the second tamping is formed on the foundation by the first tamping rod 217, and the second tamping and the first tamping can be carried out synchronously, so that the tamping efficiency can be effectively improved during the tamping process of the invention on the existing foundation.

In this embodiment, No. three direction supporting component 216 includes No. three direction bracing piece 2161, No. three direction supporting barrel 2162 and No. three direction supporting spring 2163, No. three direction bracing piece 2161 activity is pegged graft in No. three direction supporting barrel 2162, No. three direction supporting spring 2163 winding is connected on No. three direction bracing piece 2161, and No. three direction supporting spring 2163's both ends fixed connection respectively on No. three direction bracing piece 2161's lateral wall and No. three direction supporting barrel 2162's lateral wall, No. three direction supporting component 216's setting, both can play the effect of direction support, can provide power for reseing again.

In this embodiment, one end of the traction steel cable 219 is connected to the lower end surface of the lower support plate 23, the other end of the traction steel cable 219 sequentially and movably penetrates through the first through hole 220 and the second through hole 221, the first through hole 220 is formed in the lower support plate 23, the first through hole 220 is formed in the tamping column 28, the tamping column 28 is formed with the second through hole 223, the second through hole 223 is communicated with the second through hole 221, the free end of the traction steel cable 219 extends into the second through hole 223 and is connected to the upper end surface of the second bearing plate 222, the lower end of the second bearing plate 222 is fixedly connected with the second tamping rod 224, the second tamping rod 224 is movably inserted into the second tamping groove 225 formed in the tamping column 28, and simultaneously, in the process of tamping the tamping column 28, under the self-weight of the second bearing plate 222, the second tamping rod 224 is driven to move downwards in the second tamping groove 225 and tamp the foundation through the second tamping rod 224, therefore, when the foundation is tamped twice, the foundation can be tamped cooperatively, and the effect of tamping the foundation efficiently is achieved.

In this embodiment, the lower extreme fixedly connected with of No. two ramming pole 224 prevents fixture block 226, and the left view of preventing fixture block 226 is trapezium structure, and the effect of anti-sticking can be played in the setting of preventing fixture block 226, specifically speaking, can make No. two ramming pole 224 play the effect of effective promotion to No. three ramming pole 227, avoids this process to be blocked.

In this embodiment, two movable tamping holes 228 are symmetrically formed in the tamping column 28, the movable tamping holes 228 are communicated with the second tamping groove 225, a third tamping rod 227 is movably inserted into the movable tamping holes 228, one end of the third tamping rod 227 is movably disposed in the second tamping groove 225, a support sliding groove 229 is formed in the third tamping rod 227, a support sliding block 230 is movably disposed in the support sliding groove 229, the support sliding block 230 is fixedly connected to the side wall of the movable tamping hole 228, one end of a connecting spring 231 is connected to the side wall of the support sliding groove 231, the other end of the connecting spring 231 is fixedly connected to the side wall of the support sliding groove 229, the third tamping rod 227 is pushed to move in the movable tamping holes 228 during the process that the second tamping rod 224 tamps the foundation downwards, the movement of the third tamping rod 227 can be used for tamping the foundation again, so that during the actual working process, the foundation can be tamped for the fourth time, so that compared with the tamping column in the prior art, the tamping structure can improve the tamping efficiency and reduce the construction time cost.

The invention has the beneficial effects that:

according to the invention, a part of structure is added on the basis of the existing tamping column, and the part of structure can achieve the effect of multiple times of tamping in the same tamping process in the tamping process, so that the high-efficiency tamping effect is achieved in the actual tamping process, and further the building construction process can be carried out in high efficiency and order, therefore, the time cost can be greatly saved in the actual using process, and the high-efficiency tamping column has higher practical value.

Specifically, in the tamping process, the combined structure of the impact plate 1, the hydraulic rod 3, the hydraulic cylinder 4 and the tamping column 28 is added, and the combined structure is arranged for the first tamping action, specifically, under the downward impact of the impact plate 1 on the tamping column 28, the tamping column 28 is tamped on the foundation, so that the foundation is tamped.

In the process of tamping the foundation by the tamping columns 28, on one hand, the first tamping rod 217 is driven to move downwards under the pushing of the moving rod 211 and on the other hand, under the self-weight action of the first bearing plate 214, the first tamping rod 217 moves to tamp the foundation for the second time, and the tamping processes for the second time and the first time can be synchronously carried out, so that the tamping efficiency can be effectively improved in the tamping process of the invention on the existing basis.

Meanwhile, in the process of tamping the tamping columns 28, under the action of the self weight of the second bearing plate 222, the second tamping rod 224 can be driven to move downwards in the second tamping groove 225, and the foundation is tamped through the second tamping rod 224, so that the foundation can be tamped in cooperation with the tamping of the foundation twice, and the foundation can be tamped efficiently.

In the process that the second tamping rod 224 tamps the foundation downwards, the third tamping rod 227 is pushed to move in the movable tamping hole 228, and the foundation can be tamped again by the movement of the third tamping rod 227, so that the foundation can be tamped for the fourth time in the actual working process, and compared with the tamping column in the prior art, the tamping structure can improve the tamping efficiency and reduce the construction time cost.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a construction is ramming equipment for ground, includes fixed support plate (5) and equipment connecting plate (6), fixed support plate (5) are fixed to be set up on the up end of equipment connecting plate (6), and equipment connecting plate (6) are fixed to be set up on mechanical equipment, a serial communication port, be connected with hydraulic cylinder (4) under the horizontal section of fixed support plate (5) on the terminal surface, and the drive lower extreme of hydraulic cylinder (4) is connected with hydraulic stem (3), the free lower extreme of hydraulic stem (3) is connected with striking plate (1), be provided with ramming mechanism (2) under striking plate (1), and ramming mechanism (2) set up on the lateral wall of fixed support plate (5).

2. The ramming apparatus for a construction foundation of claim 1, wherein: the tamping mechanism (2) comprises an upper bearing plate (21) and a first guide supporting component (22), the lower end face of the upper bearing plate (21) is connected with a plurality of first guide supporting components (22), the free lower ends of the first guide supporting components (22) are fixedly connected onto the upper end face of the lower bearing plate (23), the lower end face of the lower bearing plate (23) is connected with a plurality of second guide supporting components (24), the free lower ends of the second guide supporting components (24) are connected onto the upper end face of a fixed bearing plate (27), the fixed bearing plate (27) is fixedly arranged on the side wall of the fixed supporting plate (5), the fixed bearing plate (27) is provided with a first moving hole (26), a moving column (25) is movably inserted into the first moving hole (26), and the upper end of the moving column (25) is connected onto the lower end face of the lower bearing plate (23), and the lower end of the movable column (25) is connected with a tamping column (28).

3. The ramming apparatus for a construction foundation of claim 2, wherein: a direction supporting component (22) includes a direction bracing piece (221), a direction supporting cylinder (222) and a direction supporting spring (223), a direction bracing piece (221) activity is pegged graft in a direction supporting cylinder (222), a direction supporting spring (223) winding is connected on a direction bracing piece (221), and the both ends of a direction supporting spring (223) fixed connection respectively on the lateral wall of a direction bracing piece (221) and the lateral wall of a direction supporting cylinder (222).

4. The ramming apparatus for a construction foundation of claim 2, wherein: no. two direction supporting component (24) are including No. two direction bracing piece (241), No. two direction supporting barrel (242) and No. two direction supporting spring (243), No. two direction bracing piece (241) activity is pegged graft in No. two direction supporting barrel (242), No. two direction supporting spring (243) winding is connected on No. two direction bracing piece (241), and the both ends of No. two direction supporting spring (243) fixed connection respectively on the lateral wall of No. two direction bracing piece (241) and on the lateral wall of No. two direction supporting barrel (242).

5. The ramming apparatus for a construction foundation of claim 2, wherein: an upper side supporting plate (29) is fixedly connected to two side walls of the upper bearing plate (21), a second moving hole (210) is formed in the upper side supporting plate (29), a moving rod (211) is movably inserted in the second moving hole (210), a supporting spring (212) is wound on the moving rod (211), two ends of the supporting spring (212) are fixedly connected to the upper end face of the upper side supporting plate (29) and the side wall of the moving rod (211) respectively, the lower end of the moving rod (211) is connected to the upper end face of a lower side supporting plate (213), the lower side supporting plate (213) is fixedly arranged on the side wall of a first bearing plate (214), the first bearing plate (214) is arranged in a first sliding groove (215) in a sliding manner, the first sliding groove (215) is arranged on the side wall of the tamping column (28), and a third guiding supporting component (216) is connected to the upper end of the first bearing plate (214), and the free upper end of the third guide support component (216) is fixedly connected to the top wall of the first sliding groove (215), the lower end of the first bearing plate (214) is connected with a first tamping rod (217), the first tamping rod (217) is movably inserted into a first tamping groove (218), the first tamping groove (218) is arranged on the side wall of the tamping column (28), and the first tamping groove (218) is communicated with the first sliding groove (215).

6. The ramming apparatus for a construction foundation of claim 5, wherein: the third guide supporting component (216) comprises a third guide supporting rod (2161), a third guide supporting cylinder (2162) and a third guide supporting spring (2163), the third guide supporting rod (2161) is movably inserted into the third guide supporting cylinder (2162), the third guide supporting spring (2163) is wound on the third guide supporting rod (2161), and two ends of the third guide supporting spring (2163) are respectively and fixedly connected to the side wall of the third guide supporting rod (2161) and the outer side wall of the third guide supporting cylinder (2162).

7. The ramming apparatus for a construction foundation of claim 5, wherein: the lower end face of the lower bearing plate (23) is connected with one end of a traction steel rope (219), the other end of the traction steel rope (219) sequentially and movably penetrates through a first through hole (220) and a second through hole (221), the first through hole (220) is formed in the lower bearing plate (23), the first through hole (220) is formed in a tamping column (28), a second sliding groove (223) is formed in the tamping column (28), the second sliding groove (223) is communicated with the second through hole (221), the free end of the traction steel rope (219) extends into the second sliding groove (223) and is connected to the upper end face of a second bearing plate (222), the lower end of the second bearing plate (222) is fixedly connected with a second tamping rod (224), and the second tamping rod (224) is movably inserted into a second tamping groove (225) formed in the tamping column (28).

8. The ramming apparatus for a construction foundation of claim 7, wherein: the lower end of the second tamping rod (224) is fixedly connected with an anti-clamping block (226).

9. The ramming apparatus for a construction foundation of claim 7, wherein: two movable tamping holes (228) are symmetrically formed in the tamping column (28), the movable tamping holes (228) are communicated with the second tamping groove (225), a third tamping rod (227) is movably inserted into the movable tamping holes (228), one end of the third tamping rod (227) is movably arranged in the second tamping groove (225), a supporting sliding groove (229) is formed in the third tamping rod (227), a supporting sliding block (230) is movably arranged in the supporting sliding groove (229), the supporting sliding block (230) is fixedly connected to the side wall of the movable tamping holes (228), the side wall of the supporting sliding block (230) is connected with one end of a connecting spring (231), and the other end of the connecting spring (231) is fixedly connected to the side wall of the supporting sliding groove (229).

10. The ramming apparatus for a construction foundation of claim 8, wherein: the left view of the anti-clamping block (226) is in a trapezoidal structure.

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