CN220166873U

CN220166873U - Foundation tamping device for civil engineering

Info

Publication number: CN220166873U
Application number: CN202321691201.1U
Authority: CN
Inventors: 王艳峰; 尹海涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-06-30
Filing date: 2023-06-30
Publication date: 2023-12-12
Anticipated expiration: 2033-06-30

Abstract

The utility model relates to the technical field of civil engineering, in particular to a foundation ramming device for civil engineering, which comprises a base, wherein a motor is fixedly arranged on one side of the base, the output end of the motor is fixedly connected with a double-groove belt wheel, the double-groove belt wheel is connected with two single-groove belt wheels through belt transmission, the inner walls of key grooves of the two single-groove belt wheels are fixedly connected with rotating shafts, and the outer surfaces of the two rotating shafts are fixedly connected with two incomplete gears. The utility model has the advantages that: through motor, double flute band pulley, single flute band pulley, pivot, incomplete gear, rack, direction slider, tamp piece and wear the cooperation setting in groove, can once carry out dual tamping work to the ground to the required number of times when need tamp the work to whole ground is less, and then practiced thrift the number of times that comes and goes at the in-process of tamping the ground, practiced thrift the required time of whole tamping process, reached the effect that improves tamping efficiency.

Description

Foundation tamping device for civil engineering

Technical Field

The utility model relates to the technical field of civil engineering, in particular to a foundation tamping device for civil engineering.

Background

Civil engineering is a generic term for science and technology in building various engineering facilities. It refers to both the materials and equipment used and the technical activities of surveying, designing, constructing, maintaining and repairing performed; also, the objects of engineering construction, i.e., construction on the ground or underground, on land or in water, are various engineering facilities for directly or indirectly serving human life, production, military, scientific research, such as houses, roads, railways, transportation pipelines, tunnels, bridges, canals, dams, ports, power stations, airports, ocean platforms, water supply and drainage, and protection engineering. The foundation tamping is an important work in civil engineering construction, and in order to ensure engineering construction quality, a foundation tamping device is needed to tamp the foundation.

The conventional compaction device can only perform single compaction operation on the foundation in the process of compaction, and in order to ensure the compaction quality of the foundation, multiple compaction operations are required, so that multiple round trips are required in the process of construction and the compaction operation is performed on the foundation, the whole compaction process is longer, and the compaction efficiency is reduced.

Disclosure of Invention

The object of the present utility model is to solve at least one of the technical drawbacks.

Therefore, an object of the present utility model is to provide a foundation compaction device for civil engineering, which solves the problems mentioned in the background art and overcomes the disadvantages of the prior art.

In order to achieve the above object, an embodiment of an aspect of the present utility model provides a foundation ramming device for civil engineering, including a base, a motor is fixedly installed on one side of the base, an output end of the motor is fixedly connected with a double-groove belt pulley, the double-groove belt pulley is connected with two single-groove belt pulleys through belt transmission, two inner walls of key grooves of the single-groove belt pulleys are fixedly connected with rotating shafts, two incomplete gears are fixedly connected with outer surfaces of the two rotating shafts, racks are meshed with outer surfaces of the four incomplete gears, one sides of the four racks are fixedly connected with a guide slide block, bottom ends of the two guide slide blocks are fixedly connected with a ramming block, and two through grooves are formed on one side of the base.

By the above-mentioned scheme preferred, one side fixedly connected with four support posts of base, four the direction spout has all been seted up to one side of support post, the shape of direction slider and direction spout is the T shape, the big or small looks adaptation of direction slider and direction spout, through direction slider and direction spout play the guide effect to the rack, make the rack can only carry out rectilinear motion in vertical direction.

By above-mentioned arbitrary scheme preferred, one side fixedly connected with supporting seat of base, the pivot runs through the supporting seat, the pivot passes through the bearing and rotates with the supporting seat and be connected, has supported the pivot, thereby guarantees the stability of pivot when rotating.

By any of the above-mentioned schemes, it is preferable that the bottom side of the base is fixedly provided with a moving wheel, one side of the base is fixedly connected with a handle, and the foundation tamping device is convenient to move through the moving wheel and the handle.

By the above-mentioned arbitrary scheme preferred, one side fixedly connected with first reinforcement rib plate of ramming piece, one side fixedly connected with second reinforcement rib plate of direction slider, one side and rack fixed connection of first reinforcement rib plate, second reinforcement rib plate and rack fixed connection, through first reinforcement rib plate can guarantee the connection stability of rack and ramming piece, through second reinforcement rib plate can guarantee the connection stability of rack and direction slider.

By any of the above-mentioned aspects, it is preferable that the number of the tamper blocks is two, the tamper blocks correspond to the positions of the through slots, and the tamper blocks are smaller than the through slots in size, so that the tamper blocks can smoothly pass through the inside of the through slots.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

through motor, double flute band pulley, single flute band pulley, pivot, incomplete gear, rack, direction slider, tamp piece and wear the cooperation setting in groove, can once carry out dual tamping work to the ground to the required number of times when need tamp the work to whole ground is less, and then practiced thrift the number of times that comes and goes at the in-process of tamping the ground, practiced thrift the required time of whole tamping process, reached the effect that improves tamping efficiency.

Drawings

FIG. 1 is a schematic view of a first view structure according to the present utility model;

FIG. 2 is a schematic view of a second view angle structure according to the present utility model;

FIG. 3 is a schematic view of a third view angle structure according to the present utility model;

FIG. 4 is a schematic view of the structure of the rack and its connecting members according to the present utility model;

fig. 5 is a schematic view of the structure of the unassembled rack of the present utility model.

In the figure: the device comprises a base, a 2-motor, a 3-double-groove belt pulley, a 4-single-groove belt pulley, a 5-rotating shaft, a 6-incomplete gear, a 7-rack, an 8-guiding sliding block, a 9-tamping block, a 10-penetrating groove, an 11-supporting upright post, a 12-guiding sliding groove, a 13-supporting seat, a 14-moving wheel, a 15-handle, a 16-first reinforcing rib plate and a 17-second reinforcing rib plate.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings, but the scope of the present utility model is not limited to the following.

As shown in fig. 1 to 5, a foundation ramming device for civil engineering, it includes base 1, one side fixedly mounted of base 1 has motor 2, motor 2's output fixedly connected with double-groove band pulley 3, double-groove band pulley 3 passes through belt drive and is connected with two single-groove band pulleys 4, the equal fixedly connected with pivot 5 of keyway inner wall of two single-groove band pulleys 4, the equal fixedly connected with two incomplete gear 6 of surface of two pivot 5, the equal meshing of the surface of four incomplete gear 6 has rack 7, the equal fixedly connected with direction slider 8 of one side of four rack 7, wherein two bottom fixedly connected with one ramming piece 9 of two direction slider 8, ramming piece 9 and rack 7 fixed connection, two wear grooves 10 have been seted up to one side of base 1, in the in-process of ramming the foundation, make double-groove band pulley 3 rotate, make two single-groove band pulley 4 drive two pivots 5 under the transmission effect of belt, thereby make two incomplete gear 6 drive rack 7 upwards move, along with the removal of 7, along with the complete gear 9 is followed by the complete gear 6 up and is full meshing of rack 7, and the complete gear 7 is carried out to the complete gear 6 with the complete gear 9 is full mesh with the complete gear 6 is not in the complete gear 9 of the step down, and the complete gear 9 is full mesh with rack 7 is carried out to the complete gear 9 is not in the step down, and the complete gear 9 is full mesh with the complete gear 9 is not in the complete gear 9 is full mesh with the tooth 9 is down, and the complete gear 9 is full mesh with the rack is full down, and the complete mesh, and is not full down, and the gear 9 is completely down.

As an alternative technical scheme of the utility model, one side of the base 1 is fixedly connected with four support columns 11, one side of each of the four support columns 11 is provided with a guide chute 12, the shapes of the guide slide block 8 and the guide chute 12 are T-shaped, the guide slide block 8 is matched with the guide chute 12 in size, and the guide slide block 8 and the guide chute 12 play a guide role on the rack 7, so that the rack 7 can only perform linear motion in the vertical direction.

As an alternative technical scheme of the utility model, one side of the base 1 is fixedly connected with the supporting seat 13, the rotating shaft 5 penetrates through the supporting seat 13, and the rotating shaft 5 is rotatably connected with the supporting seat 13 through a bearing, so that the rotating shaft 5 is supported, and the stability of the rotating shaft 5 during rotation is ensured.

As an alternative solution of the present utility model, a moving wheel 14 is fixedly installed at the bottom side of the base 1, a handle 15 is fixedly connected to one side of the base 1, and the foundation ramming device is conveniently moved by the moving wheel 14 and the handle 15.

As an alternative technical solution of the present utility model, a first reinforcing rib plate 16 is fixedly connected to one side of the tamper block 9, a second reinforcing rib plate 17 is fixedly connected to one side of the guide slide block 8, one side of the first reinforcing rib plate 16 is fixedly connected to the rack 7, the second reinforcing rib plate 17 is fixedly connected to the rack 7, the connection stability of the rack 7 and the tamper block 9 can be ensured through the first reinforcing rib plate 16, and the connection stability of the rack 7 and the guide slide block 8 can be ensured through the second reinforcing rib plate 17.

As an alternative solution of the present utility model, the number of the tamper blocks 9 is two, the tamper blocks 9 correspond to the positions of the through slots 10, and the size of the tamper blocks 9 is smaller than the size of the through slots 10, so that the tamper blocks 9 can smoothly pass through the inside of the through slots 10.

A foundation tamping device for civil engineering works according to the following working principle:

the starting motor 2 enables the double-groove belt pulley 3 to rotate, the two single-groove belt pulleys 4 drive the two rotating shafts 5 to rotate under the transmission action of the belt, so that the two incomplete gears 6 drive the racks 7 to move upwards, the tamping block 9 moves upwards along with the movement of the racks 7, the two racks 7 and the tamping block 9 move downwards under the action of gravity when teeth of the incomplete gears 6 are not meshed with the racks 7, the two tamping blocks 9 pass through the two through grooves 10 and simultaneously tamp a foundation, and after the tamping block 9 falls to the ground, the incomplete gears 6 are meshed with the racks 7 again and drive the tamping block 9 to move upwards along with the rotation of the incomplete gears 6, and when teeth of the incomplete gears 6 are not meshed with the racks 7, the tamping block 9 falls down again and tamps the foundation, so that the foundation is reciprocated, and the foundation is tamped.

To sum up, this foundation ramming device for civil engineering through motor 2, double-groove band pulley 3, single-groove band pulley 4, pivot 5, incomplete gear 6, rack 7, direction slider 8, tamp piece 9 and wear the cooperation setting in groove 10, can once carry out dual ramming work to the foundation, thereby the required number of times when need tamp the work to whole foundation is less, and then practiced thrift the number of times that comes and goes at the in-process of tamping the foundation, practiced thrift the required time of whole tamp process, reached the effect that improves the tamp efficiency.

Claims

1. The utility model provides a foundation ramming device for civil engineering which characterized in that: including base (1), one side fixed mounting of base (1) has motor (2), the output fixedly connected with double-groove band pulley (3) of motor (2), double-groove band pulley (3) are connected with two single-groove band pulleys (4) through belt drive, two equal fixedly connected with pivot (5) of keyway inner wall of single-groove band pulley (4), two the equal fixedly connected with of surface of pivot (5) is incomplete gear (6), four the surface of incomplete gear (6) is all meshed with rack (7), four one side of rack (7) is all fixedly connected with direction slider (8), wherein two the bottom fixedly connected with ramming piece (9) of direction slider (8), two wear groove (10) have been seted up to one side of base (1).

2. The foundation compaction device for civil engineering according to claim 1, wherein: four support posts (11) are fixedly connected to one side of the base (1), guide sliding grooves (12) are formed in one side of each support post (11), the shape of each guide sliding block (8) and the shape of each guide sliding groove (12) are T-shaped, and the size of each guide sliding block (8) is matched with the size of each guide sliding groove (12).

3. The foundation compaction device for civil engineering according to claim 2, wherein: one side of the base (1) is fixedly connected with a supporting seat (13), the rotating shaft (5) penetrates through the supporting seat (13), and the rotating shaft (5) is rotationally connected with the supporting seat (13) through a bearing.

4. A foundation compaction device for civil engineering according to claim 3 wherein: the base is characterized in that a movable wheel (14) is fixedly arranged at the bottom side of the base (1), and a handle (15) is fixedly connected to one side of the base (1).

5. The foundation compaction device for civil engineering according to claim 4, wherein: one side of the ramming block (9) is fixedly connected with a first reinforcing rib plate (16), one side of the guide sliding block (8) is fixedly connected with a second reinforcing rib plate (17), one side of the first reinforcing rib plate (16) is fixedly connected with the rack (7), and the second reinforcing rib plate (17) is fixedly connected with the rack (7).

6. The foundation compaction device for civil engineering according to claim 5, wherein: the number of the tamping blocks (9) is two, the tamping blocks (9) correspond to the positions of the through grooves (10), and the dimension of the tamping blocks (9) is smaller than that of the through grooves (10).