JP2025509884A - Pile Frame - Google Patents

Abstract

The pile frame includes a rotating platform (4), a front bracket (3) hinged to the rotating platform (4), a column assembly (2) hinged to the front bracket (3), a tilting support (9), and a mast raising assembly (7), the mast raising assembly (7) includes a main body, a mast raising hoist (72), and a power unit installed so as to be telescopically movable, one end of the main body is hinged to the rotating platform (4) and the other end is hingedly connected to the tilting support (9), the other end of the tilting support (9) is hinged to the column assembly (2), the power unit is installed so as to be telescopically movable, and one end of the power unit is hinged to the rotating platform (4) and the other end is hinged to the main body, thereby adjusting the rotation angle of the main body with respect to the rotating platform (4). With this installation, the pile frame can lift the column assembly (2) to a vertical state without the assistance of a crane during use, making the mast raising process convenient and easy to operate, and eliminating the need for multiple cylinders to operate in unison, reducing the difficulty of operation.

Description

The present invention relates to the technical field of construction equipment, and more specifically to pile frames.

Pile frames are large machine tools that are indispensable in construction work, and all types of pile foundation construction machinery, such as pile driving and hole drilling, must be mounted on pile frames to carry out construction work. The crawler pile frame is one type of pile frame, which moves from one position to another using a crawler travel method and is characterized by its flexibility and convenience. Crawler pile frames usually mainly consist of a chassis, a machine body, a column, an inclined support, and a power hydraulic system, etc., and since the column is long (usually 20 to 40 meters), when transporting it over long distances, the mast must be tilted sideways against the column to remove it, and then the mast must be erected and reattached when it arrives at the new construction site.

Currently, there are several types of crawler pile frames and their installation methods:

As shown in Figure 1, the first type requires assistance from a crane. When raising the mast, the hoist moves the pulley block to raise column 01 to 75 degrees, and the crane assists in hoisting the tilt support cylinder to the mounting position, and then the tilt support cylinder pulls the column vertically.

As shown in Figure 2, the second type can use a set of cylinders to raise the mast when the height of the mast is small, and the column 01, cylinder 02 and the body are hinged to a large triangle, and the verticality of the column is adjusted by contracting the cylinder. The pile frame used to raise the mast in this way must not have too high a column height, and the support point is low, resulting in poor stability.

As shown in Figure 3, the third type does not require the assistance of a crane truck and employs the combined action of two sets of cylinders 02 to raise the mast. During the operation process, the requirements for synchronization of the cylinders that raise the mast are particularly high, making the operation difficult.

As described above, how to provide a pile frame that does not require the assistance of a crane and allows for easy mast erection is currently a problem that must be solved as soon as possible by those skilled in the art.

In view of this, the object of the present invention is to provide a pile frame that can lift a column assembly to a vertical position without the assistance of a crane during use, and that is convenient and easy to operate during the mast raising process, does not require multiple cylinders to operate in unison, and reduces the difficulty of operation.

To achieve the above objective, the present invention provides the following technical proposals:

a pile frame including a rotating platform, a front bracket hinged to the rotating platform, a column assembly hinged to the front bracket, a tilt support, and a mast raising assembly;
The mast raising assembly includes a main body, a mast raising hoist, and a power unit installed in an extendable manner, one end of the main body is hingedly connected to the rotating platform and the other end is hingedly connected to the tilting support, and the other end of the tilting support is hingedly connected to the column assembly, the power unit is installed in an extendable manner, and one end of the power unit is hingedly connected to the rotating platform and the other end is hingedly connected to the main body, thereby adjusting the rotation angle of the main body relative to the rotating platform.

Preferably, the main body includes a one-sided frame and a cross rail installed perpendicular to the one-sided frame, the one-sided frame is hinged at one end to the rotating platform and hinged at the other end to the cross rail, and the tilting support is hingedly connected to the cross rail.

Preferably, the number of the linear frames is two, and the two linear frames are installed in parallel.

Preferably, the cross rail includes a fixed end, a telescopic end connected to the fixed end along a longitudinal direction of the cross rail so as to be telescopic, and a telescopic power member for telescopically extending the telescopic end relative to the fixed end,
The fixed end is connected to the one-shaped frame by a hinge connection, and an end of the telescopic end is provided with a support lug for connecting to the inclined support by a hinge connection;
The number of the telescopic ends is two, the two telescopic ends are respectively installed on both ends of the fixed end so as to be telescopic, and the inclined supports are respectively connected to the telescopic ends.

Preferably, the main body includes an upper pulley block mounted on the cross rail and a lower pulley block mounted on the rotating platform, and the wire rope is wound around the mast raising hoist, the upper pulley block, and the lower pulley block in sequence.

Preferably, the rotating platform is provided with support rods for supporting the cross rail, the support rods being removably connected to the cross rail.

Preferably, the power unit is a lift cylinder;
The tilting support is a telescopic cylinder.

Preferably, the column assembly includes a number of removably connected column segments.

Preferably, a lifting hoist is mounted on the rotating platform, at least one of the column segments is mounted with a pulley assembly, and a wire rope having a hook portion attached thereto is connected at one end to the lifting hoist and is mounted through the pulley assembly at the other end.

During the use of the pile frame provided by the present invention, when it is necessary to erect the column assembly, the power unit must first be driven to rotate the main body relative to the rotating platform, and one end of the main body that is hinged to the tilt support is lifted, and after it is lifted to the appropriate height, the power unit is controlled to retract it, and the wire rope in the mast erecting hoist forms a magnification group through the upper pulley block and the lower pulley block, pulling the column assembly to reach 75 degrees left and right, and then the tilt support is controlled to retract, and the column assembly is rotated relative to the front bracket until it is in a vertical state.

Compared with the prior art, the pile frame provided by the present invention can lift the column assembly to a vertical position without the assistance of a crane during use, and the mast raising process is convenient and easy to operate, and there is no need for multiple cylinders to operate in unison, reducing the difficulty of operation.

In order to more clearly describe the technical solutions in the embodiments of the present invention or the prior art, the following briefly introduces drawings necessary for the description of the embodiments or the prior art. Obviously, the drawings in the following description are only the embodiments of the present invention, and those skilled in the art may obtain other drawings according to the drawings provided under the premise of not making any effort that amounts to inventive step.
FIG. 1 is a schematic diagram of a specific embodiment of a mast raising method for a pile frame in the prior art. FIG. 2 is a schematic diagram of a second specific embodiment of the prior art pile frame mast erection method. FIG. 13 is a schematic diagram of a concrete example 3 of a mast raising method of a pile frame in the prior art. FIG. 2 is a structural schematic diagram of a specific embodiment of the pile frame in the conveying process provided by the present invention; FIG. 5 is a side view of the pile frame in FIG. 4 . FIG. 2 is a structural schematic diagram of the pile frame provided by the present invention in the preparation stage for erecting the mast. FIG. 2 is a structural schematic diagram of the pile frame provided by the present invention when used as a crane truck. FIG. 2 is a structural schematic diagram of a specific embodiment of the pile frame provided by the present invention, in which the column assembly is in a vertical state. FIG. 9 is a side view of the pile frame in FIG. 8 . FIG. 2 is a structural schematic diagram of a mast raising assembly.

The following clearly and completely describes the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention, and obviously, the described embodiments are only a part of the embodiments of the present invention, not all of the present invention. All other embodiments that can be obtained by those skilled in the art based on the embodiments of the present invention without expending creative labor shall fall within the protection scope of the present invention.

The core of the present invention is to provide a pile frame that can lift the column assembly to a vertical position without the assistance of a crane during use, and that is convenient and easy to operate during the mast raising process, does not require multiple cylinders to operate in unison, and reduces the difficulty of operation.

See Figures 4 to 10.

This particular embodiment discloses a pile frame, comprising a rotating platform 4, a front bracket 3 hinged to the rotating platform 4, a column assembly 2 hinged to the front bracket 3, a tilting support 9, and a mast raising assembly 7;
The mast raising assembly 7 includes a main body, a mast raising winch 72, and a power unit installed so as to be telescopically movable. One end of the main body is hingedly connected to the rotating platform 4, and the other end of the inclined support 9 is hingedly connected to the column assembly 2. The power unit is installed so as to be telescopically movable. One end of the power unit is hingedly connected to the rotating platform 4, and the other end of the power unit is hingedly connected to the main body, thereby adjusting the rotation angle of the main body relative to the rotating platform 4.

During the use of the pile frame provided by this specific embodiment, when it is necessary to erect the column assembly 2, the power unit must first drive the main body to rotate relative to the rotating platform 4, and then control the power unit to lift one end of the main body that is hinged to the inclined support 9, lift it to an appropriate height, and then retract it. The wire rope in the mast erecting hoist 72 forms a magnification group through the upper pulley block 74 and the lower pulley block 75, lift the column assembly 2 to reach 75 degrees left and right, and then control the inclined support 9 to retract it, rotating the column assembly 2 relative to the front bracket 3 until the column assembly 2 is in a vertical state.

Compared with the prior art, the pile frame provided by this specific embodiment can raise the column assembly 2 to a vertical position without the assistance of a crane during use, and the mast raising process is convenient and easy to operate, and there is no need for multiple cylinders to operate in unison, reducing the difficulty of operation.

In one specific embodiment, as shown in FIG. 10, the main body includes a one-shaped frame 73 and a cross rail 77 installed perpendicular to the one-shaped frame 73, one end of the one-shaped frame 73 is hinged to the rotating platform 4 and the other end is hinged to the cross rail 77, and the tilt support 9 is hinged to the cross rail 77. The number of one-shaped frames 73 is two, and the two one-shaped frames 73 are installed in parallel. The power unit is a lift cylinder 71, and the tilt support 9 is a telescopic cylinder. Of course, the power unit and the tilt support 9 can be structures such as an electric screw, an electric cylinder, etc. Compared with the electric structure, installing the power unit as a lift cylinder 71 and installing the tilt support 9 as a telescopic cylinder can save costs and easily obtain the completed structure of the lift cylinder 71 and the telescopic cylinder.

In the process of use, after the lift cylinder 71 is extended, the one-sided frame 73 can be rotated relative to the rotating platform 4, and one end of the one-sided frame 73 connected to the inclined support 9 is raised.

Preferably, the lift cylinder 71 is hinged to a non-end position of the one-piece frame 73.

The two straight frames 73 may correspond to different lift cylinders 71 or the same lift cylinder 71, and the specifics are determined according to the actual situation, and will not be detailed here.

In one specific embodiment, as shown in FIG. 10, the cross rail 77 includes a fixed end 771, a telescopic end 772 telescopically connected to the fixed end 771 along the longitudinal direction of the cross rail 77, and a telescopic power member 76 that telescopically connects the telescopic end 772 to the fixed end 771, the fixed end 771 is connected to the one-shaped frame 73 by a hinge connection, and the end of the telescopic end 772 is provided with a support lug for connecting to the inclined support 9 by a hinge connection, and the inclined support 9 is connected to the support lug by a hinge connection.

As shown in FIG. 9, the number of inclined supports 9 is two, the number of telescopic ends 772 is two, and the two telescopic ends 772 are respectively installed on both ends of the fixed end 771 so as to be telescopic, and the inclined supports 9 are connected to the telescopic ends 772 one by one.

In the course of use, after the telescopic end 772 is extended, the length of the base of the triangle formed by the inclined support 9, the cross rail 77, and the column assembly 2 can be increased, improving the stability of the structure.

In one specific embodiment, as shown in FIG. 10, the main body includes an upper pulley block 74 installed on the cross rail 77 and a lower pulley block 75 installed on the rotating platform 4, and the wire rope is wound around the mast raising hoist 72, the upper pulley block 74, and the lower pulley block 75 in sequence. During use, when the pile frame is in the position shown in FIG. 6, the column assembly 2 can be pulled up by the mast raising hoist 72 so that the column assembly 2 forms an included angle of 75° to the left and right with respect to the vertical direction.

In one specific embodiment, the rotating platform 4 is provided with a support rod for supporting the cross rail 77, and the support rod is removably connected to the cross rail 77. During the process of using the column assembly 2, if the cross rail 77 needs to be moved during the process of erecting the column assembly 2, the connection between the cross rail 77 and the support rod can be released, and after the column assembly 2 is erected in a vertical state, the support rod and the cross rail 77 can be connected, which provides support and positional restriction for the cross rail 77 and improves the stability of the structure.

As shown in FIG. 6, the column assembly 2 includes a number of removably connected column segments 21.

As shown in Figures 4 and 5, during the transportation process, some of the column segments 21 can be removed to reduce the space occupied by the column assembly 2. As shown in Figure 7, a lifting hoist is installed on the rotating platform 4, and a pulley assembly 10 is installed at the end of the column segment 21 away from the rotating platform 4. One end of a wire rope with a hook attached is connected to the lifting hoist and the other end is installed through the pulley assembly 10. After removing some of the column segments 21, the column assembly 2 is rotated relative to the front bracket 3 via the inclined support 9, and a pulley structure is installed on the remaining column segments 21 that are not removed. In this case, the pile frame may be used as a telhar.

As shown in Figures 4 to 10, the pile frame includes a column assembly 2, a front bracket 3, a rotating platform 4, a separation device 5, a crawler chassis 6, a mast raising assembly 7, a counterweight 8, an inclined support 9, a pulley assembly 10, etc., and the luffing mechanism 1 is fixed to the top of the column assembly 2 via a bolt, the column assembly 2 is hinged to the front bracket 3, which is hinged onto the rotating platform 4, the separation device 5 connects the crawler chassis 6 and the rotating platform 4, the mast raising assembly 7 has one end hinged to the rotating platform 4 and one end as a lower hinge connection point of the inclined support 9, and the upper end of the inclined support 9 is hinged to the column assembly 2, forming a stable support. The counterweight 8 is fixed to the rear of the rotating platform 4 through a bolt. In the process of using the pile frame provided by this application, the mast raising operation of the whole machine does not require the assistance of a crane truck. Before raising the mast, first, one end of the one-shaped frame 73 hinged to the inclined support 9 needs to be lifted through the lift cylinder 71, that is, the cross rail 77 needs to be lifted until it is as shown in FIG. 6, so that the wire rope and the inclined support 9 can subsequently bias the column assembly 2. Then, the mast raising hoist 72 is controlled and operated, and the wire rope forms a magnification group through the upper pulley block 74 and the lower pulley block 75, and the column assembly 2 is raised to the position shown in FIG. 7. Then, as shown in FIG. 8, the column assembly 2 is raised to a vertical state by the extension and contraction of the inclined support cylinder of the inclined support 9, and the extension end 772 is extended through the extension and contraction power member 76 to further improve stability, and the mast raising operation can be completed to the state shown in FIG. 9.

Each embodiment in this specification is described in a progressive manner, and the main points of each embodiment are the differences from other embodiments. The similarities between the embodiments may be referred to each other. Any combination of the embodiments provided by the present invention is within the scope of protection of the present invention and will not be described here.

The above is a detailed introduction of the pile frame provided by the present invention. In this specification, the principles and embodiments of the present invention are explained using specific examples, and the explanation of the above examples is only to contribute to understanding the method and core idea of the present invention. It should be noted that those skilled in the art may make some improvements and modifications to the present invention without departing from the principles of the present invention, and all such improvements and modifications fall within the scope of protection of the claims of the present invention.

01 ... Column 02 ... Cylinder 1 ... Ruffling mechanism,
2 Column assembly 21 Column segment 3 Front bracket 4 Rotating platform 5 Separation device 6 Crawler chassis 7 Mast raising assembly 71 Lift cylinder,
72 ... Mast raising winch 73 ... Line frame 74 ... Upper pulley block 75 ... Lower pulley block 76 ... Telescopic power member 77 ... Cross rail 771 ... Fixed end 772 ... Telescopic end 8 ... Counterweight 9 ... Inclined support 10 ... Pulley assembly.

Claims (9)

The invention comprises a rotating platform (4), a front bracket (3) hinged to the rotating platform (4), a column assembly (2) hinged to the front bracket (3), a tilting support (9), and a mast raising assembly (7),
The mast raising assembly (7) includes a main body, a mast raising winch (72), and a power unit installed in a telescopic manner, one end of the main body is hinged to the rotating platform (4), the other end of the main body is hinged to the tilting support (9), and the other end of the tilting support (9) is hinged to the column assembly (2), the power unit is installed in a telescopic manner, and one end of the power unit is hinged to the rotating platform (4), and the other end of the power unit is hinged to the main body, thereby adjusting the rotation angle of the main body relative to the rotating platform (4).
A pile frame characterized by: The body includes a one-shaped frame (73) and a cross rail (77) arranged perpendicular to the one-shaped frame (73), the one-shaped frame (73) is hinged at one end to the rotating platform (4) and hinged at the other end to the cross rail (77), and the tilting support (9) is hingedly connected to the cross rail (77).
2. A pile frame according to claim 1. The number of the linear frames (73) is two, and the two linear frames (73) are installed in parallel;
3. A pile frame according to claim 2. The cross rail (77) includes a fixed end (771), a telescopic end (772) telescopically connected to the fixed end (771) along the longitudinal direction of the cross rail (77), and a telescopic power member (76) that telescopically connects the telescopic end (772) to the fixed end (771),
The fixed end (771) is connected to the one-shaped frame (73) by a hinge connection, and a support lug is provided at the end of the telescopic end (772) for connecting to the inclined support (9) by a hinge connection;
The number of the telescopic ends (772) is two, and the two telescopic ends (772) are respectively installed at both ends of the fixed end (771) so as to be telescopic, and the inclined supports (9) are respectively connected to the telescopic ends (772).
3. A pile frame according to claim 2. The main body includes an upper pulley block (74) installed on the cross rail (77) and a lower pulley block (75) installed on the rotating platform (4), and a wire rope is wound around the mast erection hoist (72), the upper pulley block (74), and the lower pulley block (75) in this order.
3. A pile frame according to claim 2. The rotating platform (4) is provided with a support rod for supporting the cross rail (77), the support rod being removably connected to the cross rail (77).
3. A pile frame according to claim 2. The power unit is a lift cylinder (71),
The inclined support (9) is a telescopic cylinder;
7. The pile frame according to claim 1, wherein the pile frame is made of a material selected from the group consisting of tungsten, tungsten, tantalum, tungsten, fluorine, arsenic, fluorine ... The column assembly (2) includes a number of removably connected column segments (21).
7. The pile frame according to claim 1, wherein the pile frame is made of a material selected from the group consisting of tungsten, tungsten, tantalum, tungsten, fluorine, arsenic, fluorine ... A lifting hoist is installed on the rotating platform (4), and at least one of the column segments (21) is installed with a pulley assembly (10), and a wire rope having a hook portion attached thereto is connected at one end to the lifting hoist and installed at the other end through the pulley assembly (10).
9. A pile frame according to claim 8.