CN108680725B - Soil detection excavation test device - Google Patents

Abstract

The invention discloses a soil detection excavation test device which comprises a soil cutting part and a soil supporting part, wherein the soil cutting part is installed on one side of the soil supporting part, the soil supporting part comprises a plurality of cutting wheels, the soil supporting part is a plurality of triangular rails which are arranged in parallel, a gap is formed between every two adjacent triangular rails, the end parts of the triangular rails are provided with triangular sleeves corresponding to triangular shapes, the triangular sleeves are provided with two cutting wheels, the bottom of the soil supporting part is provided with four hydraulic lifting columns, and umbrella-shaped supporting feet are installed at the lower parts of the four hydraulic lifting columns. The special structure of the invention improves the soil cutting efficiency, and the automatic lifting of the whole experimental device is skillfully realized through the falling soil and the mutual lifting movement of the four umbrella-shaped supporting feet.

Description

Soil detection excavation test device

Technical Field

The invention relates to a soil detection excavation test device.

Background

The existing soil detection experimental device has the condition of deep burying of the ground bottom. Often need punch through the rig is vertical this moment, settle experimental apparatus in soil depth. However, in order to adjust the depth of the device, it is necessary to perform multiple drilling operations and to continuously adjust the position of the drill. The market is urgent to develop an experimental device carrying device capable of automatically lifting in soil.

Disclosure of Invention

In order to solve the problems, the invention provides a soil detection excavation test device which is convenient for excavating soil and can realize self lifting by utilizing the excavated soil.

In order to achieve the purpose, the invention provides the technical scheme that: the soil detection excavation test device is characterized by comprising a soil cutting part and a soil supporting part, wherein the soil cutting part is arranged on one side of the soil supporting part, the soil supporting part comprises a plurality of cutting wheels, the soil supporting part is a plurality of triangular rails which are arranged in parallel, a gap is arranged between every two adjacent triangular rails,

the end part of the triangular rail is provided with a triangular sleeve corresponding to the triangular shape, two cutting wheels are arranged on the triangular sleeve,

the soil supporting part bottom has four hydraulic lifting post, and the umbelliform support foot is all installed to four hydraulic lifting post lower parts.

The umbrella-shaped supporting foot comprises an upper driving block, the upper driving block is annular, a hydraulic lifting column is arranged in the annular, the hydraulic lifting column and the upper driving block can independently move up and down relatively,

a plurality of outer umbrella face connecting rods are uniformly arranged on the upper driving block, an outer hinging block is arranged at the upper end of each outer umbrella face connecting rod, the outer umbrella face connecting rods are hinged with the upper driving block through the outer hinging blocks, the lower ends of the outer umbrella face connecting rods are connected with umbrella edge shafts in a hinged manner, the outer umbrella edge shafts are hinged and connected into a ring shape through fixing rings,

the umbrella edge shaft is hinged with an inner umbrella surface connecting rod, the other side of the inner umbrella surface connecting rod is connected with an inner hinge block at the bottom of the hydraulic lifting column, an umbrella panel is arranged between two adjacent inner umbrella surface connecting rods, thus the contraction of the outer umbrella surface connecting rod and the inner umbrella surface connecting rod is formed through the combined movement of the upper driving block and the hydraulic lifting column, and the up-and-down contraction movement of the umbrella-shaped supporting foot is formed,

the umbrella-shaped supporting foot forms relative movement of three layers, namely a plurality of outer hinged block layers fixed by the upper driving block, inner hinged block layers fixed by the hydraulic lifting column and umbrella edge shaft hinged layers connected by the fixed ring, and the mutual movement of the three layers realizes the effects of layered progressive filling and lifting.

The special structure of the invention improves the soil cutting efficiency, and the automatic lifting of the whole experimental device is skillfully realized through the falling soil and the mutual lifting movement of the four umbrella-shaped supporting feet.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a front view;

FIG. 4 is a view showing a structure of a soil cutting portion;

FIG. 5 is an overall structural view of the present invention;

FIG. 6 is a side view of the present invention;

FIG. 7 is a first schematic diagram;

FIG. 8 is a second operation diagram;

FIG. 9 is a third schematic diagram of operation;

FIG. 10 is a fourth schematic diagram of operation;

FIG. 11 is a diagram of an umbrella support foot configuration;

figure 12 is a cross-sectional view of an umbrella support foot.

In the figure: 1. a triangular rail, 2 umbrella-shaped supporting feet, 3 cutting wheels, 4 hydraulic lifting columns,

21. the umbrella comprises an upper driving block, a fixing ring, a connecting rod of an outer umbrella surface, an outer hinging block, a connecting rod of an inner umbrella surface, an inner hinging block, a connecting rod of an inner umbrella surface and a connecting rod of an outer umbrella surface, wherein the upper driving block is 22, the fixing ring is 23, the connecting.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, a soil detecting and excavating test device is characterized by comprising a soil cutting part and a soil supporting part, wherein the soil cutting part is installed at one side of the soil supporting part, the soil supporting part comprises a plurality of cutting wheels, the soil supporting part is a plurality of triangular rails arranged in parallel, a gap is formed between every two adjacent triangular rails,

the end part of the triangular rail is provided with a triangular sleeve corresponding to the triangular shape, two cutting wheels are arranged on the triangular sleeve,

the soil supporting part bottom has four hydraulic lifting post, and the umbelliform support foot is all installed to four hydraulic lifting post lower parts.

The umbrella-shaped supporting foot comprises an upper driving block, the upper driving block is annular, a hydraulic lifting column is arranged in the annular, the hydraulic lifting column and the upper driving block can independently move up and down relatively,

a plurality of outer umbrella face connecting rods are uniformly arranged on the upper driving block, an outer hinging block is arranged at the upper end of each outer umbrella face connecting rod, the umbrella face connecting rods are hinged with the upper driving block through the outer hinging blocks, the lower ends of the outer umbrella face connecting rods are connected with umbrella edge shafts in a hinged mode, the umbrella edge shafts are hinged and connected into a ring shape through fixing rings,

the umbrella edge shaft is hinged with an inner umbrella surface connecting rod, the other side of the inner umbrella surface connecting rod is connected with an inner hinge block at the bottom of the hydraulic lifting column, an umbrella panel is arranged between two adjacent inner umbrella surface connecting rods, thus the umbrella surface connecting rod and the inner umbrella surface connecting rod are contracted through the combined movement of the upper driving block and the hydraulic lifting column, so as to form the up-and-down contraction movement of the umbrella-shaped supporting foot,

the umbrella-shaped supporting foot forms relative movement of three layers, namely a plurality of outer hinged block layers fixed by the upper driving block, inner hinged block layers fixed by the hydraulic lifting column and umbrella edge shaft hinged layers connected by the fixed ring, and the mutual movement of the three layers realizes the effects of layered progressive filling and lifting.

The special structure of the invention improves the soil cutting efficiency, and the automatic lifting of the whole experimental device is skillfully realized through the falling soil and the mutual lifting movement of the four umbrella-shaped supporting feet.

Claims (1)

1. The soil detection excavation test device is characterized by comprising a soil cutting part and a soil supporting part, wherein the soil cutting part is installed on one side of the soil supporting part, the soil supporting part comprises a plurality of cutting wheels, the soil supporting part is a plurality of triangular rails which are arranged in parallel, a gap is formed between every two adjacent triangular rails, the end parts of the triangular rails are provided with triangular sleeves corresponding to triangular shapes, the triangular sleeves are provided with two cutting wheels, the bottom of the soil supporting part is provided with four hydraulic lifting columns, and umbrella-shaped supporting feet are installed on the lower parts of the four hydraulic lifting columns; the umbrella-shaped supporting foot comprises an upper driving block, the upper driving block is annular, a hydraulic lifting column is arranged in the annular, the hydraulic lifting column and the upper driving block can independently move up and down relatively, the upper driving block is uniformly provided with a plurality of outer umbrella face connecting rods, the upper ends of the outer umbrella face connecting rods are provided with outer hinging blocks, the outer umbrella face connecting rods are hinged with the upper driving block through the outer hinging blocks, the lower ends of the outer umbrella face connecting rods are connected with umbrella edge shafts which are hinged and connected into a ring through fixing rings, the umbrella edge shafts are hinged and connected with inner umbrella face connecting rods, the other sides of the inner umbrella face connecting rods are connected with inner hinging blocks at the bottoms of the hydraulic lifting columns, an umbrella panel is arranged between every two adjacent inner umbrella face connecting rods, and therefore, the contraction of the outer umbrella face connecting rods and the inner umbrella face connecting rods is formed through the combined movement of the upper driving block and the hydraulic lifting column, so that the up-down contraction movement of, the umbrella-shaped supporting foot forms relative movement of three layers, namely a plurality of outer hinged block layers fixed by the upper driving block, inner hinged block layers fixed by the hydraulic lifting column and umbrella edge shaft hinged layers connected by the fixed ring, and the mutual movement of the three layers realizes the effects of layered progressive filling and lifting.

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