KR101449723B1 - rotary table of excavation device - Google Patents

Abstract

The present invention relates to a rotary plate of an excavation device. The present invention provides a rotary plate of an excavation device including a front pipe provided in the shape of a cylinder having a hollow inner part and having a machine chamber formed therein by an intermediate partition and a rear wall; a driving unit mounted on one surface of the intermediate partition; a rotational unit mounted on the other surface of the intermediate partition to rotate by receiving driving force from the driving unit; and a rotational plate installed at the front of the front pipe separably from the rotational unit to rotate by receiving rotational force from the rotational unit. The rotational plate includes: an outer rotational body which has a plurality of grinding protrusions on one surface thereof, has an open ring-shape center, and is formed in a single body; and an inner rotational body that is selectively separated from or coupled to the open center of the outer rotational body, rotates by receiving the power from the outer rotational body, and has a plurality of grinding protrusions arranged on one surface thereof.

Description

A rotary table of excavation device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary plate of a drilling apparatus, and more particularly, to a rotary plate structure of a drilling apparatus (or a tip propelling apparatus) And more particularly to a rotary plate of a drilling rig capable of saving energy such as electric power and oil.

In general, various subcontracting industries such as roads and railways, and piping work of sewage and waterworks have been carried out in the state where work is performed on the ground or exposed to manpower or ground when silt layer and rock are found.

However, there was a method called semi-shielding in the silt layer, but since it does not have the localization of equipment, it relies on high-priced imported equipment, so the construction cost is high and the indentation method and the remnant method can not work and there is no safety and accuracy. Work is being done.

In order to maintain the original shape without damaging the natural environment, it is proposed that the work can be performed underground by a so-called small-caliber tunnel method.

In other words, the tunnel type construction is a method of constructing a work space having a certain width and depth in order to transport a road, a railway or a fluid that forms a passage in the underground, a piping work of a sewage pipe, a city gas supply pipe, (Or installation direction) of the passageway (or pipeline), and then performing the excavation work in such a manner that the pipe body is gradually buried and continued.

However, a common problem in the above method is that it is impossible to drive the vehicle at a long distance and there is no accuracy.

The semi-shield method is expensive, and the press-in method and the ram method have a problem in that it is not possible to perform a heavy-duty excavation work.

Patent No. 10-0558172 proposed to solve all of these problems, proposed a tip propulsion device and a propulsion method of a pipeline for burial underground, and a propulsion device for propulsion of an underground pipeline for patent registration No. 10-0598677 have.

The tip propulsion device and method described above are currently used to form a pipeline in the ground, and to construct a pipeline in the ground such as a tunnel construction for burying a pipe, a pipe connection for forming a flow path of a fluid such as a gas, Although it is widely used in construction, another problem has occurred as follows.

For example, when an unexpected obstacle is encountered during excavation of the ground by a tip propulsion device, that is, when industrial wastes such as metal plates or concrete structures abandoned by rock or long-term burial are found, the tip propulsion device does not crush and excavate it It is necessary to excavate it vertically separately from the ground at the point to remove the obstacle and then excavate it again.

Therefore, there is a problem that the working time is delayed so much that the productivity is lowered and the working period is delayed.

Or the end propulsion device is retracted to the outside by the distance that the tip propulsion device advances, and then an additional person is inserted through the excavated space to remove the obstacle.

As a result, when an obstacle obstructing the propulsion of the end propulsion device is found while excavating the ground by the end propulsion device, there is a big problem that the construction period is delayed because a separate work process for removing the obstacle is generated.

In order to solve such a problem, the present applicant has proposed a drilling device registered in Korean Patent Registration No. 10-1254495.

However, their common purpose is to properly cope with underground buried rocks or rock layers that can be encountered during excavation work and to smooth the propulsion work. In practice, the rotary plate of the drilling rig is rotated There is a structural problem that must be excavated.

That is, when soil is broken by the type and nature of the geological material when excavating the ground by the rotating force of the rotary plate, and therefore the speed of advancement of the excavator is fast, the excavated equipment installed inside the excavator, There is a problem that the time for claying is delayed with respect to the advancing speed of the drilling rig.

This problem has always been caused by the use of the rotary plate of the drilling rig regardless of the nature of the lipid, and therefore the drilling rig must be used for a long time, shortening the aging of the drilling rig.

In addition, when driving the excavator, the larger the contact surface between the soil and the rotating plate that is crushed and rotated when the front surface of the rotating plate is in contact with the earth, the more power and oil are consumed. There was plenty of room to do so, and all such problems can be found in the structural contradiction of the rotary plate of the drilling rig.

KR 1254495 10

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a drilling apparatus that can improve the structure of a rotary disc of a drilling apparatus and change the structure of a rotary disc according to characteristics of a geographical feature or lipid, A drilling rig of a drilling rig is provided.

It is still another object of the present invention to improve the rotating plate structure of a drilling apparatus to reduce the contact surface of a rotating plate contacting the ground according to the characteristics of the terrain or the geology, thereby delaying the aging of the drilling apparatus, And it is an object of the present invention to provide a rotary plate of a drilling rig capable of saving power and oil.

It is a further object of the present invention to provide a drilling apparatus in which the structure of the rotary plate is changed in a place where excavation is easy due to the rotating force of the rotary plate in the excavation apparatus, So that the excavation time can be shortened.

According to an aspect of the present invention, there is provided an exhaust gas purifying apparatus, comprising: a front end pipe having an inner hollow cylindrical shape and having a machine room formed therein by an intermediate partition wall and a rear wall; A driving unit mounted on one side of the partition; A rotating part mounted on the other side of the partition and rotated by receiving a driving force of the driving part; And a rotating plate installed in front of the end pipe and detachably mounted to the rotating part and rotated by receiving a rotating force of the rotating part, wherein the rotating plate has a plurality of crushing projections arranged on one surface thereof An outer circumferential body having a ring shape and a single body, the center portion of which is opened; And an inner circumferential rotating body which is selectively separated and connected to an open central portion of the outer circumferential rotating body and is rotated by receiving the power of the outer circumferential rotating body and a plurality of crushing protrusions are arranged on one surface thereof. Provides a rotating plate of the device.

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The present invention having the above-described configuration brings about the following effects.

First, by changing the structure of the rotary plate according to the characteristics of the topography or geology, the drilling apparatus can be efficiently utilized and the use width can be widened.

Secondly, according to the characteristics of the terrain or geology, it is possible to reduce the contact surface of the rotating plate that touches the ground, thereby delaying the aging due to overuse of the excavator, as well as driving the excavator and saving power and oil .

Third, due to the nature of the terrain or geology, the soil is easily broken by the rotating force of the rotary plate in the excavation equipment. In the place where excavation is easy, the structure of the rotary plate should be changed so that the crushed soil will not fall behind the forward speed of the excavator, So that the excavation time can be shortened.

1 is an exemplary view for showing an example of a drilling apparatus to which the present invention is applied
Fig. 2 is a front view of a rotating plate applied in the present invention
Fig. 3 is a front view of the rotating plate according to the present invention in a state in which the inner periphery thereof is separated
Fig. 4 is a side view showing the engaging portions of the inner and outer peripheral surfaces of the rotating plate,
5 is a side view showing another engaging portion of the inner and outer peripheral surfaces of the rotating plate,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a sectional view showing an example of a drilling apparatus in which a rotating plate according to the present invention is installed, and FIGS. 2 to 3 are front views showing a modified example of a rotating plate applied to the present invention.

The drilling apparatus shown in FIG. 1 refers to any one of various types of drilling apparatuses. The drilling apparatus shown in FIG. 1 is provided with a hollow cylindrical shape and has an intermediate partition 11 and a rear wall 12, 13 are formed by the end pipe 10 to form the main body of the drilling apparatus.

A driving part 20 is mounted on one side of the partition 11 and a rotation part 30 is provided on the other side of the partition 11 to receive the driving force of the driving part 20 and rotate.

A rotary plate 40 is installed in front of the end pipe 10 to be detachable from the rotary part 30 and rotates by the rotational force of the rotary part 30. Do.

The feature of the present invention resides in that the rotary plate (40) is formed as a single body and has a plurality of crushing projections (41a) arranged on one surface thereof and an outer peripheral rotating body (41) (42) in which a plurality of crushing projections (42a) are arranged on one surface of the inner rotor (42).

The outer circumferential rotating body 41 and the inner circumferential rotating body 42 are in contact with each other at a side edge portion thereof with a coupling portion 50 .

Since the engaging portion 50 is designed to couple the outer circumferential rotating body 41 and the inner circumferential rotating body 42 to each other, various techniques have been proposed to realize the object. However, the rotating plate 40, 5, the bolts B and the bolts B are formed so as to correspond to the side edge portions of the inner and outer circumferential rotating bodies 42, 41 facing each other in order to withstand the rotational force, frictional force, In a fitting manner in which they are engaged and separated by a fastening member.

Since the rotary plate of the drilling apparatus according to the present invention having the above-described structure is to be quickly separated and combined and used, it is required to be manufactured with a weight that can be separated and combined by the worker alone. Therefore, the outer diameter of the rotary plate is not so large, It should be formed as a single body rather than a segment type to be formed.

The operation of the present invention configured as described above will be described.

First, the state in which the present invention is mounted becomes the state shown in Fig.

That is, in this state, the inner and outer circumferential rotating bodies 42 and 41 forming the rotating plate 40 are joined together to form a disc shape.

When the excavation proceeds in the above-described state, the rotary unit 30 is rotated by the driving force of the driving unit 20, and the rotary plate 40 is rotated by the rotational force of the rotary unit 30 to proceed the excavation.

More specifically, when the rotary plate 40 rotates, the ground layer is crushed by the segments arranged on the surface thereof, that is, the plurality of crushing protrusions 41a and 42a, and excavation proceeds.

When the inner and outer circumferential rotors 42 and 41 are used in combination as described above, the rotary plate 40 rotates while being in surface contact with the ground surface by a diameter distance of the rotary plate 40, For example, in the case of the soft ground layer where the ground layer is easily broken by the rotary plate 40 and the plurality of the crushing projections 41a and 42a arranged on the surface thereof, the amount of soil mass produced by the rotary plate 30 is large .

Therefore, at this time, the inner rotor 42 mounted on the central portion of the rotary plate 40 is separated, and then excavation proceeds using only the outer circumferential rotating body 41.

As described above, when the excavation proceeds using the outer circumferential rotating body 41, the ground to be crushed will be collapsed into the space formed by the separated inner circumferential rotating body 42 and will be poured into the space, And is forcibly discharged to the outside by the soil discharge device arranged inward.

Therefore, the present invention as described above separates and combines the rotating body according to the lipid and the characteristics thereof, and is compatible and used.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is therefore to be understood that the embodiments described above are to be considered in all respects as illustrative and not restrictive and the scope of the invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10; End pipe 11; Intermediate barrier
12; Rear wall 13; machine room
20; A driving unit 30; reel
40; Rotating plates 41, 42; Outer circumference, Inner circumference
41a, 42a; Crushing protrusions 50; Engaging portion
"B"; volt

Claims (2)

A front end pipe having a hollow inside and having a machine room formed therein by an intermediate partition wall and a rear wall;
A driving unit mounted on one side of the partition;
A rotating part mounted on the other side of the partition and rotated by receiving a driving force of the driving part; And
And a rotating plate installed in front of the end pipe and detachably mounted to the rotating part and rotated by receiving a rotating force of the rotating part,
An outer circumferential surface of the rotary plate having a plurality of crushing projections arranged on one surface thereof and a central portion thereof opened to form a ring; And
And an inner circumferential rotating body selectively separated and coupled to an open central portion of the outer circumferential rotating body and rotated by receiving power of the outer circumferential rotating body and having a plurality of crushing protrusions arranged on one surface thereof. Of the rotating plate. delete

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