KR101218055B1 - A clay lump separating equipment from clayed soil excavation - Google Patents

Abstract

The present invention relates to a device for separating clay lumps in clay excavated soil, in the clay lump separation device manufactured to separate clay and clay lumps mixed in the clay excavated soil generated during various excavation work , The clay lump separation device is a mesh screen conveyor is installed to be inclined with the ground, the clay crushed excavated soil is injected into the upper portion of the mesh screen conveyor and the excavation earth input hopper (7) is installed with a drop speed reduction partition is installed. In the lower part of the mesh screen conveyor, a clay chute (5) for storing clay falling through the mesh and a clay lump chute (5) containing the clay separated from the clay are installed, and various excavation works To solve the problem of environmental pollution caused by the excavation of clay that has been excavated during excavation , It can significantly reduce the processing cost.

Description

 A device for separating clay lumps from clay excavated earth and sand {A CLAY LUMP SEPARATING EQUIPMENT FROM CLAYED SOIL EXCAVATION}

The present invention relates to a device for separating clay lumps contained in clay excavated excavated soil generated during various excavation, more specifically, in the excavated excavated soil generated during excavation work, such as clay and gravel, sand, and fine rock powder The clay excavated soil is generated in which the lumps of clay formed by tangling with each other are mixed. The present invention relates to an apparatus for separating clay and clay lumps before carrying out the clay excavated soil.

During various excavation works, clay and gravel soils are mixed with clay, gravel, sand, and fine rock powder, which are entangled with each other. It is preferable to separate and carry out the clay and clay lump mixed in the excavated excavated soil.

However, until now, there is no special technology for the device for separating and discharging the clay and clay lumps mixed in the clay excavated soil, so that the clay excavated soil in the excavated soil is taken out as it is, and a spill occurs when moving. Problems were occurring.

In order to improve the above problems, the present invention provides a method for separating clay lumps from clay excavated soils in which clay and gravel, sand, and fine rock powder, which are generated during various excavation works, are entangled with each other and clay lumps are mixed. It is to provide a device.

In order to achieve the above, the present invention in the clay lump separation device manufactured to separate the clay and clay lumps mixed in the clay excavated soil generated during various excavation work, the clay lump separation device is a mesh screen conveyor It is installed inclined with the ground, the upper part of the mesh screen conveyor is equipped with an excavated soil dropping hopper (7) is installed in the excavation soil falling speed reduction partition into which the clay ground excavated soil is injected, the lower portion of the mesh screen conveyor mesh Clay chute (8) containing the clay falling through passing through and clay lump chute (5) containing the clay is separated clay is characterized in that it is installed.

Therefore, the present invention has a remarkable effect of solving the environmental pollution problem caused by the excavated clay excavated soil that is generated when excavation during various excavation work, and can reduce the processing cost.

1 is a front view of an apparatus for separating clay masses from clay excavated soil
Figure 2 is a side view of the device for separating clay lumps in clay excavated soil

The present invention relates to a device for separating clay lumps in clay excavated soil, in the clay lump separation device manufactured to separate clay and clay lumps mixed in the clay excavated soil generated during various excavation work The clay lump separator is a mesh screen conveyor is installed to be inclined with the ground, the excavated soil dropping speed hopper for the excavation earth fall speed is inserted into the top of the mesh screen conveyor (7) And, the lower portion of the mesh screen conveyor is characterized in that the clay chute (5) containing the clay chute (8) containing the clay falling through the mesh and the clay is separated from the clay fall is installed.

    In addition, the hopper 7 for the excavation earth is characterized in that it is installed spaced apart on the upper portion of the mesh screen conveyor.

    And the clay chute (8) and clay lump chute (5) is installed side by side adjacent to the bottom in the direction that the mesh screen conveyor proceeds, the clay chute (8) is located on the side where the mesh screen conveyor starts, The clay mass chute 5 is located at the end of the mesh screen conveyor.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a front view of an apparatus for separating clay masses from clay excavated soil, and FIG. 2 is a side view of an apparatus for separating clay masses from clay excavated soil.

According to the present invention, among the excavated soils generated by various excavators among various excavation works, clay and gravel, sand, and fine rock powder are entangled with each other, which includes clay masses formed with agglomerates and a lot of water, and clays having high water content. The clay excavation soil is generated, wherein the clay mass separation device is a mesh in the clay mass separation device manufactured to separate the clay and clay masses mixed in the clay ground excavation soil before carrying out the clay ground excavation soil The screen conveyor is installed to be inclined with the ground, the drive roller is installed low and the driven roller is installed high so that the mesh screen conveyor is installed inclined horizontally, preventing clay from flowing in the direction of the mesh screen conveyor flow, and also the mesh Screen conveyor is bottle on the left, right side of the flow direction It is connected to a chain conveyor formed in a row and moved together. The mesh screen conveyor may be divided into an upper section and a lower section. An upper section of the mesh screen conveyor is a section in which excavated soil is loaded and transported, and a lower section is a section in which a mesh screen conveyor is returned. The upper section and the lower section are manufactured integrally, and the upper section and the lower section are manufactured in an endless track structure in which the upper section and the lower section are repeatedly rotated.

In addition, in the upper section of the mesh screen conveyor, there is an excavated earth input hopper equipped with a partition for reducing the excavated earth drop speed into which clay ground excavated earth is injected, and the excavated earth input hopper is spaced apart from the upper portion of the mesh screen conveyor. As it is installed, the clay excavated excavated soil injected into the excavating hopper for the excavated soil is dropped at the top of the upper section of the mesh screen conveyor is reduced and begins to be transported. At this time, the clay having high moisture content, which is not formed as clay mass, among the clay excavated soils, passes through the upper section and the lower section of the mesh screen conveyor and falls to the bottom of the mesh screen conveyor, and the clay mass is the mesh screen conveyor. It is transported along the top section of the.

In addition, after the clay crushed excavated soil injected into the hopper for the excavated soil falls on the upper section of the mesh screen conveyor, the clay mass of the excavated soil is seated on the upper section of the mesh screen conveyor. , The clay flows through the gap of the mesh and falls down through the upper section and the lower section of the mesh screen conveyor, and the clay chute for collecting the falling clay is installed, and the clay chute is installed under the driving roller of the mesh screen conveyor. Adjacent to the lower center of the mesh screen conveyor.

In addition, clay from the excavated soil mixed with clay and clay lump mixed from the hopper for crushing soil is collected in the clay chute through a mesh screen conveyor, and the clay lump is seated on the upper section of the mesh screen conveyor and transported. At this time, when the clay lump reaches the end of the upper section of the mesh screen conveyor, that is, the driven roller, the clay lump is freely dropped by gravity, and the clay lump suit that collects the freely falling clay lump is the lower section of the mesh screen conveyor. Is installed at the bottom, the clay chute chute is installed beyond the driven roller of the mesh screen conveyor at the end of the clay chute chute.

And the lower section of the mesh screen conveyor is returned after passing the driven roller, spaced between the upper section and the lower section of the returned mesh screen conveyor is also adjacent to the driven roller in parallel with the air nozzle pipe is installed, The air nozzle pipe is dropped into the clay lump chute after the clay lump is dropped from the driven roller by spraying the remaining soil and foreign matter remaining in the lower section mesh of the mesh screen conveyor with air.

In addition, the vibrating roller is mounted in parallel to the lower portion of the lower portion of the screen conveyor adjacent to the air nozzle pipe, the vibrating roller is provided with a groove on the roller surface so that the vibration of the mesh of the mesh screen conveyor is in contact with the vibrating roller It generates and separates the remaining soil in the mesh and falls to the clay mass chute. In addition, a brush roller is installed on the upper portion of the lower portion of the mesh screen conveyor, the brush roller is located in the upper portion of the clay chute, spaced apart from the lower portion of the mesh screen conveyor is installed on the upper, while passing through the vibrating roller The separated residue is once again separated by a brush and dropped into the clay chute. The brush roller is installed by attaching a wire brush to a generally used roller surface.

In addition, the water nozzle pipe is spaced apart from the upper section of the mesh screen conveyor in parallel adjacent to the brush roller, and the water nozzle pipe is drilled through the water after being punched through the general pipe to spray the mesh screen conveyor. Finally, the remaining soil in the lower section is washed with water.

Therefore, the process of removing the remaining soil in the bottom section of the mesh screen conveyor after the clay mass passes through the driven roller of the mesh screen conveyor and removes the remaining soil in the bottom section of the mesh screen conveyor is carried out through air nozzle pipe, vibrating roller, brush roller, and water nozzle. Residual soil can be removed through the pipe process.

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

    1 is a front view of a device for separating clay lumps from clay excavated soil, showing the upper and lower sections of the mesh screen conveyor, and the location where the hopper for clay input, clay chute and clay lump chute are installed. And the location of various apparatuses for removing residual soil which are installed in the lower section of the mesh screen conveyor, namely, air nozzle pipe, vibrating roller, brush roller, and water nozzle pipe.

    Figure 2 shows a state in which the hopper for the excavation earth and the clay chute is installed in the overall side view of the device for separating the clay lump in the clay excavated soil.

    Therefore, the present invention can solve the environmental pollution problem caused by the excavated clay excavated soil that is generated when excavation during various excavation work, and can reduce the treatment cost.

Reference Signs List 1 frame 2 idle roller 3 air nozzle pipe 4 vibration roller
DESCRIPTION OF SYMBOLS 5 Clay chute chute 6 Support roller 7 Excavation soil hopper 8 Clay chute
9 Water Nozzle Pipe 10 Driving Roller 11 Idle Sprocket 12 Mesh Screen
13 support sprocket 14, 17 chain 15 brush roller 16 input sprocket
18: drive sprocket 19: reduction motor

Claims (3)

In the clay lump separation device manufactured to separate the clay and clay lumps mixed in the clay excavated soil generated during various excavation work, the clay lump separation device is installed with a mesh screen conveyor, the mesh screen conveyor In the upper part of the excavated soil input hopper (7) into which the clay excavated excavated soil is introduced, a clay chute (8) containing clay falling through the mesh is separated from the lower portion of the mesh screen conveyor and the clay is separated The clay lump chute (5) containing the clay lumps are installed,
The mesh screen conveyor is installed to be inclined with the ground, the hopper (7) for the excavation earth is installed spaced apart on the upper portion of the mesh screen conveyor,
The clay chute 8 and clay lump chute 5 are installed adjacent to the lower side in the direction in which the mesh screen conveyor proceeds, and the clay chute 8 is located on the side where the mesh screen conveyor starts. Clay mass chute (5) is to be placed on the end of the mesh screen conveyor,
In addition, an air nozzle pipe 3 is installed between the upper section and the lower section of the returned mesh screen conveyor. Spraying and separating to drop into the clay lump chute,
A vibrating roller 4 having a groove formed on the roller surface adjacent to the air nozzle pipe 3 is mounted. When the mesh of the mesh screen conveyor contacts the vibrating roller 4, vibration is generated to remove residual soil remaining in the mesh. Separate and drop into the clay lump chute,
Brush roller 15 is located in the upper portion of the clay chute, spaced apart from the lower end of the mesh screen conveyor is installed on the upper, separated through the vibrating roller (4) to separate the separated soil once again with a brush Drop into the clay suit,
Adjacent to the brush roller 15 is installed in the water nozzle pipe (9) spaced above the lower section of the mesh screen conveyor, the water nozzle pipe (9) is to be injected by passing water through a hole in a common pipe The apparatus for separating clay lumps from clay excavated soil, characterized in that the remaining soil remaining in the lower section of the mesh screen conveyor with the last wash with water. delete delete

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