CN210315540U - Vibration hammer convenient for horizontal installation with pile body - Google Patents

Abstract

The utility model relates to an engineering machine tool, in particular to vibratory hammer convenient to horizontal and pile body installation. The utility model provides a following technical scheme: a vibration hammer convenient for horizontal installation with pile body is composed of a vibration-absorbing mechanism, a gear box connected to said vibration-absorbing mechanism, a pile body clamping mechanism connected to said gear box, and a lifting mechanism for connecting steel cable when said vibration hammer is in horizontal state. By adopting the technical scheme, the vibrating hammer which shortens the installation time, improves the installation quality and reduces the energy consumption and is convenient for horizontal installation with the pile body is provided.

Description

Vibration hammer convenient for horizontal installation with pile body

Technical Field

The utility model relates to an engineering machine tool, in particular to vibratory hammer convenient to horizontal and pile body installation.

Background

The vibration hammer is a piling device used in building engineering and mainly comprises a driving vibration absorption mechanism connected with an external driving source, a gear box connected with the driving vibration absorption mechanism and a pile body clamping mechanism connected with the gear box.

When the vibration hammer and the pile body are installed, the vibration hammer needs to be vertically lifted by a crane, then the pile body is also lifted to the clamping mechanism of the pile body by the crane, and then clamping and installation are carried out in the air. The air butt joint has more uncertain factors, and operators cannot clearly observe the butt joint. Not only is time consuming, but also energy consuming.

Disclosure of Invention

Not enough to prior art exists, the utility model provides a shorten installation time, improve installation quality, reduce the energy consumption be convenient for horizontal and pile body installation's vibratory hammer.

In order to achieve the above purpose, the utility model provides a following technical scheme: convenient bed

Formula and pile body installation's vibratory hammer, including the drive inhale shake the mechanism, with the drive inhale the gear box that the mechanism is connected and the pile body fixture who is connected with the gear box, its characterized in that: and a lifting mechanism for connecting the steel rope when the vibration hammer is in a horizontal state is arranged between the driving vibration absorption mechanism and the gear box.

By adopting the technical scheme, the lifting mechanism is arranged between the driving vibration absorption mechanism and the gear box. When the vibration hammer needs to be installed with a pile body, the steel rope can be connected with the lifting mechanism, then the steel rope is pulled through the crane, the pile body clamping mechanism is connected, the vibration hammer is enabled to be integrally overturned and laid until the pile body is parallel to the ground, and then the vibration hammer is installed with the pile body through the crane moving the pile body. In the installation process, an operator can conveniently observe the installation position, the volume and the weight of the pile body are obviously larger than those of the vibration hammer, and the lifting of the pile body is reduced, so that energy consumed when the vibration hammer and the pile body are respectively lifted is saved.

The utility model discloses further set up to: the lifting mechanism comprises connecting discs which are symmetrically arranged on two sides of the vibration hammer and are respectively positioned between the driving vibration absorption mechanism and the gear box, an extension block is arranged at one end, facing the gear box, of the driving vibration absorption mechanism, the connecting discs are detachably connected with the extension block, an annular cavity for winding a steel rope is formed between the connecting discs and the extension block, and the steel rope can slide in the annular cavity.

By adopting the technical scheme, the lifting mechanism is arranged between the driving vibration absorption mechanism and the gear box, so that the lifting mechanism is positioned in the middle of the vibration hammer, the gravity center of the vibration hammer is kept stable when the lifting mechanism lifts, and the deviation cannot occur. The annular concave cavity is arranged on the connecting disc, so that the steel rope can be conveniently installed, and when the vibration hammer is turned, the steel rope can slide in the annular concave cavity without hindrance, and the installation process is smoother.

The utility model discloses further set up to: the connecting disc comprises a flange disc fixedly connected with the extension block and an annular body sleeved on the flange disc, the flange plate is provided with a flange and a connecting body, the annular body is sleeved on the connecting body, the annular concave cavity is arranged on the peripheral surface of the annular body, one axial end of the annular body is abutted against the flange, and the other axial end of the annular body is abutted against the extension block.

By adopting the technical scheme, the installation is convenient and the structure is simple.

The present invention will be further described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is an exploded view of an embodiment of the present invention.

Detailed Description

As shown in fig. 1-3, the vibration hammer convenient for horizontal installation with a pile body comprises a driving vibration absorption mechanism 1, a gear box 2 connected with the driving vibration absorption mechanism 1, and a pile body clamping mechanism 3 connected with the gear box 2, wherein a lifting mechanism 5 for connecting a steel rope 4 when the vibration hammer is in a horizontal state is arranged between the driving vibration absorption mechanism 1 and the gear box 2. In the above-described embodiment, the lifting mechanism 5 is provided between the drive vibration absorbing mechanism 1 and the gear case 2. When the vibration hammer needs to be installed with a pile body, the steel rope 4 can be connected with the lifting mechanism 5, then the steel rope 4 is pulled through the crane, the pile body clamping mechanism 3 is connected, the vibration hammer is enabled to be integrally overturned and laid until the pile body is parallel to the ground, and then the vibration hammer is installed with the pile body through the movement of the crane. In the installation process, an operator can conveniently observe the installation position, the volume and the weight of the pile body are obviously larger than those of the vibration hammer, and the lifting of the pile body is reduced, so that energy consumed when the vibration hammer and the pile body are respectively lifted is saved.

The embodiment of the utility model provides an in, carry and hang mechanism 5 locates the vibrohammer both sides and be in the drive respectively and inhale the connection pad between mechanism 1 and the gear box 2 including the symmetry, and the drive is inhaled and is inhaled mechanism 1 and be equipped with extension piece 11 towards the one end of gear box 2, and this connection pad can be dismantled with extension piece 11 and be connected, has the annular cavity that supplies the winding of steel cable 4 between connection pad and the extension piece 11, and steel cable 4 can be in and slide in this annular cavity. The lifting mechanism 5 is arranged between the driving vibration absorption mechanism 1 and the gear box 2, so that the lifting mechanism is positioned in the middle of the vibration hammer, the gravity center of the vibration hammer is kept stable during lifting, and the vibration hammer cannot deviate. The annular concave cavity is arranged on the connecting disc, so that the steel rope 4 can be conveniently installed, and when the vibration hammer is turned, the steel rope 4 can slide in the annular concave cavity without hindrance, and the installation process is smoother.

In order to facilitate the disassembly and the assembly between the connecting disc and the vibration hammer, the processing is convenient. The connecting disc comprises a flange 51 fixedly connected with the extension block 11 and an annular body 52 sleeved on the flange 51, the flange 51 is provided with a flange 511 and a connecting body 512, the annular body 52 is sleeved on the connecting body 512, an annular concave cavity 521 is opened on the outer circumferential surface of the annular body 52, one axial end of the annular body 52 is abutted against the flange 511, and the other axial end of the annular body 52 is abutted against the extension block 11.

Claims (3)

1. A vibration hammer for horizontal installation on pile body is composed of vibration absorbing mechanism, and hammer body

The gear box that the drive was inhaled and is inhaled the mechanism connection and the pile body fixture who is connected with the gear box, its characterized in that: and a lifting mechanism for connecting the steel rope when the vibration hammer is in a horizontal state is arranged between the driving vibration absorption mechanism and the gear box.

2. The vibratory hammer of claim 1, wherein the vibratory hammer facilitates horizontal and pile installation

The method comprises the following steps: the lifting mechanism comprises connecting discs which are symmetrically arranged on two sides of the vibration hammer and are respectively positioned between the driving vibration absorption mechanism and the gear box, an extension block is arranged at one end, facing the gear box, of the driving vibration absorption mechanism, the connecting discs are connected with the extension block, an annular cavity for winding a steel rope is formed between the connecting discs and the extension block, and the steel rope can slide in the annular cavity.

3. The vibratory hammer of claim 2 for facilitating horizontal and pile installation, wherein the vibratory hammer comprises a hammer head and a hammer head

The method comprises the following steps: the connecting disc comprises a flange disc fixedly connected with the extension block and an annular body sleeved on the flange disc, the flange plate is provided with a flange and a connecting body, the annular body is sleeved on the connecting body, the annular concave cavity is arranged on the peripheral surface of the annular body, one axial end of the annular body is abutted against the flange, and the other axial end of the annular body is abutted against the extension block.

Images