CN216948266U - Vibration hammer for installing lock catch steel pipe pile - Google Patents

Abstract

The utility model relates to the field of vibratory hammers, in particular to a vibratory hammer for installing a lock catch steel pipe pile, which comprises a hammer body, wherein the hammer body is connected with a clamp head and is connected with a steel pipe pile to be installed through the clamp head; the hammer body is connected with the clamp head through a connecting beam; the width of the connecting beam is smaller than that of the hammer body; the utility model discloses a vibrating hammer for installing a lock catch steel pipe pile.

Description

Vibration hammer for installing lock catch steel pipe pile

Technical Field

The utility model relates to the field of vibratory hammers, in particular to a vibratory hammer for installing a lock catch steel pipe pile.

Background

During cofferdam construction, need the cartridge steel-pipe pile, the steel-pipe pile need be used the bobbing hammer when the cartridge, and the anchor clamps head lug connection of traditional bobbing hammer can realize the socket of steel-pipe pile on the hammer block, but under special environment, the bobbing hammer can and cofferdam adjacent part intergeneration interfere.

The reason is that the transverse dimension of the hammer body of the traditional vibration hammer is large, and when the edge of the cofferdam is close to a trestle or other protruding equipment, the normal falling of the vibration hammer can be influenced by the reason that the transverse dimension of the hammer body is large, so that the insertion of the steel pipe pile can be influenced.

Therefore, in order to avoid the above problems, it is necessary to optimally design the conventional vibration hammer.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a vibrating hammer structure with strong interference prevention capability.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a vibration hammer for installing a lock catch steel pipe pile comprises a hammer body, wherein the hammer body is connected with a clamp head, and the hammer body is connected with a steel pipe pile to be installed through the clamp head; the hammer body is connected with the clamp head through a connecting beam; the width of the connecting beam is smaller than that of the hammer body.

The connection beam is arranged in a vertical direction.

Two ends of the beam body are respectively connected with the hammer body and the clamp head through connecting parts; connecting portion are including setting up the connection diaphragm at the roof beam body tip, connection diaphragm edge is equipped with the pilot hole, it passes the pilot hole through the bolt and is connected with hammer block or anchor clamps head to connect the diaphragm.

The connecting beam comprises a beam body, and a plurality of supporting rib plates are arranged on the beam body; the adjacent support rib plates are distributed at intervals.

A plurality of wire arranging buckles are arranged on the beam body; the winding displacement buckle comprises a buckle body arranged on the beam body, and the buckle body is provided with a penetration groove.

The buckle body comprises a first inclined plate and a second inclined plate which are arranged in an intersecting manner, and one ends of the first inclined plate and the second inclined plate are connected to the beam body; the first inclined plate and the second inclined plate are arranged in an intersecting mode at one ends far away from the beam body.

The utility model has the advantages that:

the utility model discloses a vibrating hammer for installing a lock catch steel pipe pile.

Drawings

The contents of the expressions in the various figures of the present specification and the labels in the figures are briefly described as follows:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the coupling beam of the present invention.

Fig. 3 is a side view of a coupling beam according to the present invention.

Fig. 4 is a bottom view of the coupling beam of the present invention.

Fig. 5 is a front view of the coupling beam with the cable clamp attached.

Fig. 6 is a top view of the cable management buckle of the present invention.

The labels in the above figures are:

1. the beam body, 2, connecting portion, 3, support floor, 4, winding displacement are buckled, 5, hammer block, 6, anchor clamps head.

Detailed Description

The following description of preferred embodiments of the utility model will be made in further detail with reference to the accompanying drawings.

A vibration hammer for installing a lock catch steel pipe pile comprises a hammer body 5, wherein the hammer body 5 is connected with a clamp head, and the hammer body 5 is connected with a steel pipe pile to be installed through a clamp head 6; the hammer body 5 is connected with the clamp head 6 through a connecting beam; the width of the connecting beam is less than that of the hammer body 5; the utility model discloses a vibrating hammer for installing a lock catch steel pipe pile, which lengthways prolongs the distance between a clamp head 6 and a hammer body 5 through the arrangement of a connecting beam, and avoids the interference between the hammer body 5 and a foundation pit or two pieces at the periphery when the steel pipe pile to be installed is assembled.

The vibration hammer mainly comprises a hammer body 5 and a clamp head 6, wherein the hammer body 5 and the clamp head 6 belong to the prior art, and are not described again; in order to achieve the above requirements, it is required in the present invention that the width of the connecting beam is smaller than the width of the hammer body 5; the connecting beams are arranged along the vertical direction; such an arrangement; when making the fine function as the connecting piece of tie-beam, still avoid setting up the tie-beam and arouse the problem of extra interference.

Furthermore, the connecting beam comprises a beam body 1, and two ends of the beam body 1 are respectively connected with a hammer body 5 and a clamp head 6 through connecting parts 2; the connecting part 2 comprises a connecting transverse plate 21 arranged at the end part of the beam body 1, an assembling hole 22 is formed in the edge of the connecting transverse plate 21, and the connecting transverse plate 21 penetrates through the assembling hole 22 through a bolt to be connected with the hammer body 5 or the clamp head 6; according to the utility model, the connecting part 2 is arranged, so that the assembly between the connecting beam and the adjacent parts is facilitated, when in actual processing and production, the length of the connecting transverse plate 21 is required to be not less than the length of the beam body 1, the width of the connecting transverse plate 21 is required to be not less than the width of the beam body 1, and the width of the connecting transverse plate 21 is preferably equal to the width of the beam body 1 plus the height of the two supporting rib plates 3.

Further, the connecting beam comprises a beam body 1, wherein a plurality of supporting rib plates 3 are arranged on the beam body 1; the adjacent supporting rib plates 3 are distributed at intervals; the setting of support floor 3 can increase the structural strength of roof beam body 1, can also act as the stiffening rib simultaneously, guarantees roof beam body 1 and is connected the structural strength between the diaphragm 21, guarantees roof beam body 1 simultaneously and is connected the structural strength between the diaphragm 21.

Furthermore, a plurality of wire arranging buckles 4 are arranged on the beam body 1; the wiring buckle 4 comprises a buckle body 41 arranged on the beam body 1, and a through connection groove 42 is arranged on the buckle body 41; the arrangement of the wire arranging port can facilitate the arrangement of the wire harnesses on the beam body 1, and the disordered distribution of the wire harnesses on the beam body 1 is avoided; the buckle body 41 plays a role in supporting and limiting, and the arrangement of the cross-connecting groove 42 facilitates the cross-connection of the wiring harness in the buckle body 41; in the utility model, the buckle body 41 comprises a first inclined plate 411 and a second inclined plate 421, the first inclined plate 411 and the second inclined plate 421 are arranged in an intersecting manner, and one ends of the first inclined plate 411 and the second inclined plate 421 are connected to the beam body 1; the first inclined plate 411 and the second inclined plate 421 are arranged in an intersecting manner at one end far away from the beam body 1; the first inclined plate 411 and the second inclined plate 421 are obliquely arranged, so that the first inclined plate 411, the second inclined plate 421 and the beam body 1 form a triangular structure, and the structural strength of the cable arrangement buckle 4 can be ensured.

It is clear that the specific implementation of the utility model is not restricted to the above-described embodiments, but that various insubstantial modifications of the inventive process concept and technical solutions are within the scope of protection of the utility model.

Claims (5)

1. The vibrating hammer for installing the lock catch steel pipe pile is characterized by comprising a hammer body, wherein the hammer body is connected with a clamp head, and the hammer body is connected with the steel pipe pile to be installed through the clamp head; the hammer body is connected with the clamp head through a connecting beam; the width of the connecting beam is smaller than that of the hammer body; the connecting beam comprises a beam body, and a plurality of supporting rib plates are arranged on the beam body; the adjacent support rib plates are distributed at intervals.

2. The vibrohammer for installation of shackled steel-pipe piles according to claim 1, characterized in that the coupling beams are arranged in the vertical direction.

3. The vibratory hammer for installing the lock catch steel pipe pile according to claim 1, wherein two ends of the beam body are respectively connected with the hammer body and the clamp head through connecting parts; connecting portion are including setting up the connection diaphragm at the roof beam body tip, connection diaphragm edge is equipped with the pilot hole, the connection diaphragm passes the pilot hole through the bolt and is connected with hammer block or anchor clamps head.

4. The vibratory hammer for installing the lock catch steel pipe pile according to claim 1, wherein a plurality of row line buckles are arranged on the beam body; the winding displacement buckle comprises a buckle body arranged on the beam body, and the buckle body is provided with a penetration groove.

5. The vibratory hammer for installing the lock catch steel pipe pile according to claim 4, wherein the buckle body comprises a first inclined plate and a second inclined plate, the first inclined plate and the second inclined plate are arranged in an intersecting manner, and one end of the first inclined plate and one end of the second inclined plate are connected to the beam body; the first inclined plate and the second inclined plate are arranged in an intersecting mode at one ends far away from the beam body.

Images