KR101056355B1 - Apparatus for gathering unconsolidated sediment and the method thereof using the same - Google Patents

Abstract

PURPOSE: A device for gathering unconsolidated sediment and a method thereof using the same are provided to perform sampling without damage to a simple with originally stacked state. CONSTITUTION: A device for gathering unconsolidated sediment comprises an upper supporting member(120), a bottom support member(110), a space maintenance member, a sample holding member, a sampling tube, a sample sealing member, a hydraulic drive device, and a pushing-out member. A space maintenance member is allowed in between the upper supporting member and bottom support member vertically and makes maintain interval between the bottom support member and the upper supporting member. The sampling tube is fixed with the sample holding member. The sample sealing member surrounds the sampling tube.

Description

Apparatus for collecting unsedimented sediment and method for collecting unsedimented sediment using the same {APPARATUS FOR GATHERING UNCONSOLIDATED SEDIMENT AND THE METHOD THEREOF USING THE SAME}

The present invention relates to a non-deposited sediment collecting device and a method of collecting undeposited sediment using the same, and more particularly, undeposited sediment collecting device and undeposited sediment collecting using the sample as it is without damage. It is about a method.

Unconsolidated sediments are important for studying strata. However, in order to collect such unfinished sediment and use it for research in the laboratory, care must be taken not to damage unfinished sediment during the collection of unfinished sediment samples.

In general, to collect unconsolidated sediment samples, a sampling pipe is installed at a target point with a hammer, and an unconsolidated sediment is collected through it. It is important that the uncollected sediment sample collected in this way is to recover the unfinished sediment from the sampling tube correctly, and the sediment state is agglomerated or completely damaged during the recovery of the unfinished sediment from the sampling tube. . Therefore, it is difficult to obtain the unconsolidated sediments forming the complete sediment layer for the study, and thus, it is difficult to measure the state of the sediment through the unconsolidated sediment samples in the laboratory.

One object of the present invention is to provide an unfixed sediment collecting device and a method of collecting unfixed sediment using the same, which can collect a sample as it is without damage.

Unconsolidated sediment collecting device according to an embodiment of the present invention for achieving the above object is

Upper support means in the form of a square plate;

Lower support means in the form of a square plate;

A gap maintaining means vertically interposed between the upper support means and the lower support means to maintain a gap between the upper support means and the lower support means;

Sample holding means in the form of a square plate in parallel to the upper support means and the lower support means in the middle portion of the gap holding means;

A sample collecting tube fixed by the sample fixing means;

Sample sealing means for wrapping the sample collection pipe;

Hydraulic driving means provided between the upper support means and the sample fixing means to generate a driving force for collecting a sample; And

It is installed in contact with the lower portion of the hydraulic drive means, pushed downward by the hydraulic drive force of the hydraulic drive means is inserted into the sample collection pipe to push the unfixed sediment;

It is pushed downward by the pushing means characterized in that the unsealed deposit sample is discharged downward while being sealed by the sample sealing means covered outside the sample collection pipe.

Preferably, the gap holding means is characterized in that it comprises four gap holding members in the form of a rod.

Also preferably, the hydraulic driving means is a cylindrical hydraulic cylinder body is inserted into the piston which is operated by the hydraulic pressure; A hydraulic hose for transmitting hydraulic pressure connected to the hydraulic body; It is installed on the outside to generate the hydraulic pressure, characterized in that it comprises a hydraulic supply means for transmitting the hydraulic pressure through the hydraulic hose.

Also preferably, the pushing means includes a cylindrical body for inserting a portion of the cylindrical body into the hole in the sample collecting tube to push out the unconsolidated sediment sample, and an upper end portion of the cylindrical body installed in contact with the bottom surface of the hydraulic body of the hydraulic driving means. And the bottom surface of the cylindrical body is interviewed with the upper surface of the unconsolidated deposit sample, wherein the unconsolidated deposit sample is pushed downward.

Also preferably, the pushing means is made of a metal or reinforced plastic material.

Also preferably, the sample fixing means may include a first fixing member having a hole formed in the middle thereof; And a second fixing member positioned below the first fixing member and having a hole formed therein.

Also preferably, the sample collection tube is hollow, characterized in that the insertion portion of the cover is inserted into the hollow inner diameter of the sample collection tube.

Also preferably, the sample tube is characterized in that composed of a metal material.

Also preferably, the cover is characterized in that composed of a metallic material or reinforced plastic.

According to another aspect of the invention, the step of collecting a sample of undeposited sediment through a sampling tube; Fixing a sampling tube containing an undetermined sediment sample to a sampling device; And pushing and sealing the unconsolidated sediment sample from the sampling tube, wherein the sealing of the unconsolidated sediment sample comprises: wrapping the sample tube with a sample sealing means; Contracting the sample sealing means by applying heat to the sample collecting means; And then actuating the hydraulic drive means to push down the unfixed deposit contained in the sample collection pipe by using the pushing means located below the hydraulic drive means. In the extruding step, the unsolidified sediment sampling method using the unsolidified sediment sampling device, characterized in that discharged while being interviewed in the sample sealing means is pushed out downward.

Preferably, the sampling step comprises the steps of placing a sampling tube at a target point to collect the unconsolidated sediment sample; Hitting the sample tube with a hammer and inserting it below the ground of a target point; And uncollected sediment is collected in the inner diameter of the sample collection tube as the sample collection tube is inserted downward.

According to the present invention uncollected sediment collecting device and uncollected sediment collecting method using the same, uncollected sediment is collected as it is deposited, using a heat shrink tube sealed while maintaining the original state without breaking the unfinished sediment There is an effect that can be gathered and collected, which has the effect that can be used in the laboratory for the study of sediment deposition of unsolidified sediments in the laboratory.

Figure 1 is a side cross-sectional view showing a sample collection process of the unconsolidated sediment through the sampling tube according to an embodiment of the present invention.
2 to 7 are side cross-sectional views and perspective views of an unfixed sediment collecting device according to an embodiment of the present invention, showing the operation according to the unfixed sediment collecting process continuously.
8 is a flowchart sequentially illustrating a process of collecting unfixed sediment according to an embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and those skilled in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, with reference to the accompanying drawings in detail with respect to the undeposited sediment collecting device and undeposited sediment collecting method according to a preferred embodiment of the present invention.

1 is a side cross-sectional view showing a sampling process using a sampling tube according to an embodiment of the present invention.

Referring to Figure 1, the unconsolidated sediment sampling tube 10 according to an embodiment of the present invention is a hollow cylindrical shape. The size of the inner diameter 11 of the sampling tube 10 may be set differently depending on the unconsolidated sediment sample to be collected.

The insertion part 22 of the cover 20 is inserted into the inner diameter 11 of the sampling tube 10. The cover 20 is fixed to the sample collection tube 10 through a fixing screw (30).

The sampling tube 10 is pressed against the ground (E) marked the target point to collect the unconsolidated sediment sample (S), and then applied a force (F) through a hammer (not shown) to cover the portion 20 It is inserted into the ground (E) by hitting the. As the sampling tube 10 is inserted, the unconsolidated sediment sample S is filled in the inner diameter 11 of the sampling tube 10.

The sampling tube is composed of a metal material. In addition, the cover is made of a metallic material or reinforced plastic.

2 to 7 are schematic side cross-sectional views and perspective views of the unconsolidated sediment sampling device according to an embodiment of the present invention, showing the continuous operation according to the unconsolidated sediment collection process.

Referring to FIGS. 2 to 7, the sampling tube 10 containing the unconsolidated sediment sample collected in FIG. 1 may be safely sealed and contained without breaking or destroying the collected unconsolidated sediment sample (S). Transfer to the unsecured sediment sampling device of the invention and install it.

2 to 7, the unconsolidated sediment sampling device according to a preferred embodiment of the present invention

Upper support means 120 in the form of a square plate;

Lower support means 110 in the form of a square plate;

A plurality of space keeping members 131, 132, 133, and 134 interposed vertically between the upper support means 120 and the lower support means 110 to maintain a gap between the upper support means 120 and the lower support means 110. Gap maintaining means 130;

Square plate-shaped sample holding means 140 is installed in the middle of the gap holding member (131, 132, 133, 134) in parallel with the upper support means and the lower support means

A sample collecting tube 10 fixed by the sample fixing means 140;

Sample sealing means 170 surrounding the sample collection pipe 10;

Hydraulic driving means 150 is installed between the upper support means 120 and the sample fixing means 140 to generate a driving force for collecting a sample; And

Is installed in contact with the lower portion of the hydraulic drive means 150, pushed downward by the hydraulic drive force of the hydraulic drive means 150 is inserted into the sample collection pipe 10 to push out the unfixed deposit (S). Means (160);

It is pushed downward by the pushing means 160 is sealed by the sample sealing means 170 covered on the outside of the sampling tube 10, characterized in that the unsolidified sediment sample (S) is discharged downward. The discharged unconsolidated sediment sample (S) (see Fig. 6) is discharged in close contact with the body 172 of the sample sealing means 170, is tightly tightened by the narrow body lower portion 174 contracted. The upper body portion 171 is also tightened tightly in a narrowed state (see FIGS. 2 to 6). The upper body 171 and the lower body 174 of the sample sealing means 170 may be bundled and sealed.

The spacing means 130 includes four spacing members 131, 132, 133 and 134 in the form of rods.

The hydraulic drive means 150 is a cylindrical hydraulic body 152, the piston 154 which is operated by the hydraulic pressure is installed in the interior; A hydraulic hose 157 for transmitting hydraulic pressure connected to the hydraulic body 152; It is installed on the outside to generate a hydraulic pressure and includes a hydraulic pressure supply means 156 for transmitting the hydraulic pressure through the hydraulic hose 157. The surface of the end 155 of the piston 154 of the hydraulic drive means 150 is installed in contact with the bottom surface 122 of the upper support means 120 and is operated in contact with the operation.

The pushing means 160 is a portion of the cylindrical body 162 is inserted into the inner diameter 11 in the sampling tube 10 to push the unfinished sediment sample (S) and the hydraulic body of the hydraulic drive means 150 And an upper end portion 161 of the cylindrical body 162 installed in contact with a bottom surface of the 152, and the bottom surface 163 of the cylindrical body 162 is interviewed with an upper surface of the unconsolidated sediment sample S. The solid deposit sample S is pushed downward.

The pushing means 160 is made of metal or reinforced plastic material.

The sample fixing means 140 includes a first fixing member 142 having a hole 142a formed therein;

The second fixing member 144 is positioned below the first fixing member 142 and has a hole.

The sample collection tube 10 is installed to be inserted through the holes of each of the first and second fixing members of the sample fixing means.

The sampling tube 10 installed through the first fixing member 142 and the second fixing member 144, respectively, is fixed to two places of the sampling tube 10 by screws 141 and 143, respectively. In this state, the unsedimented sediment sampling device starts to operate.

Referring again to FIG. 2, the unconsolidated sediment sample S is still not pushed by the pushing means 160 and remains in the standby state. At this time, the body 172 of the sample sealing means 170 surrounds the sample collection tube 10, the lower body 174 is in a narrowed state.

Referring to FIG. 3 again, the unconsolidated sediment sample S is partially moved downward by being pushed by the bottom surface 163 of the pushing means 160, and the lower part of the unconsolidated sediment sample S discharged is a sample. While being in close contact with the sealing means 170 is moved downward. When the pushing means 160 is continuously moved, the sample sealing means 170 is moved along the discharged unconsolidated sediment sample (S) while leaving the sample collection pipe (10).

Referring to FIGS. 4 and 5 again, the unconsolidated sediment sample S, which is pushed by the pushing means 160 and out of the inner diameter 11 of the sample collecting tube 10, is in close contact with the sample sealing means 170. It continues to move downwards. The upper part of the sample sealing means 170 still surrounds the outer surface of the sample collection tube 10. In the state where the unconsolidated sediment sample S is completely discharged, the pushing means 160 stops downward movement once, and if necessary, moves the sample sealing means 170 (in particular, the upper portion 171) to a heater (not shown). Continue heating to ensure heat shrinkage.

Referring to FIG. 6, the pushing means 160 returns upward to its original position, and the sample sealing means 170 is obtained with both the lower portion 174 and the upper portion 171 of the body 172 narrowed. Thereafter, the top 171 and the bottom 174 of the sample sealing means 170 in which the unsolidified sediment sample S is collected and contained may be completely sealed again (not shown).

8 is a flowchart sequentially illustrating a process of collecting unfixed sediment according to an embodiment of the present invention.

Referring to Figure 8, first the sampling step will be described.

The sampling step is similar to that described in FIG.

First, the sampling pipe 10 is placed at the target point to collect the unfinished sediment sample (S) (S2).

After hitting the sampling tube 10 with a hammer is inserted below the target point ground (S4).

As the sampling tube 10 is inserted downward, the unconsolidated sediment sample S is collected into the inner diameter 11 of the sampling tube 10.

Thereafter, after being inserted into the sample collection pipe 10 to a certain extent, for example, about 10 cm below the ground, the sample collection pipe 10 is forcibly recovered by the manpower (S6).

The unsealed deposit sample sealing step will now be described. The sampling tube 10 containing the unfixed sediment sample (S) obtained in the sampling step is installed in the sampling device (S8). Specifically, the sample collection tube 10 is firmly fixed by the fixing means of the sample collection device. In the embodiment of the present invention it was fixed in two places.

Thereafter, the sample collection tube 10 is wrapped with a sample sealing means 170 (S10). The sample sealing means 170 is a heat shrink tube that contracts when heat is applied, and continuously heats around with a heater (not shown) while driving the sample collection device in the sample collecting step (S12) (after the above). The end of the heat shrink tube, which is a sample sealing means, is narrowed in a contracted state, and the unconsolidated sediment sample S discharged thereafter is discharged in a wrapped state while being in close contact with the heat shrink tube.

Thereafter, the hydraulic driving means 150 is operated (S14), and the pushing means 160 located below the hydraulic driving means 150 is inserted downward into the inner diameter of the sample collecting pipe 10 and the pushing means 160. The bottom surface 163 of the c) is pushed downward toward the heat shrink tube, which is the sample sealing means 170, while being interviewed with the unconsolidated sediment sample S (S16).

The heat-shrink tube, which is the sample sealing means 170, is continuously contracted by a heater (S18), and the pushing means pushes out the unconsolidated sediment in the sample collecting tube 10 to the outside by the operation of the hydraulic driving means. Unsealed deposit sample S is obtained by being sealed by a heat shrink tube (S20).

Although the above has been described with reference to the embodiments of the present invention, various changes and modifications can be made at the level of those skilled in the art. Such changes and modifications can be said to belong to the present invention without departing from the scope of the technical idea provided by the present invention. Therefore, the scope of the present invention will be determined by the claims described below.

110: lower support means
120: upper support means
130: spacing means
140: sample fixing means
150: hydraulic drive means
160: pushing means
170: sample sealing means

Claims (11)

Upper support means in the form of a square plate;
Lower support means in the form of a square plate;
A gap maintaining means vertically interposed between the upper support means and the lower support means to maintain a gap between the upper support means and the lower support means;
Sample holding means in the form of a square plate in parallel to the upper support means and the lower support means in the middle portion of the gap holding means;
A sample collecting tube fixed by the sample fixing means;
Sample sealing means for wrapping the sample collection pipe;
Hydraulic driving means provided between the upper support means and the sample fixing means to generate a driving force for collecting a sample; And
It is installed in contact with the lower portion of the hydraulic drive means, pushed downward by the hydraulic drive force of the hydraulic drive means is inserted into the sample collection pipe to push the unfixed sediment;
The unsolidified sediment sampling device characterized in that the unfinished sediment sample is discharged downward while being pushed downward by the pushing means and sealed by the sample sealing means covered outside the sample collecting pipe.
The method of claim 1,
The gap holding means comprises an uncoated sediment sampling device, characterized in that it comprises four interval holding members in the form of a rod.
According to claim 1, wherein the hydraulic drive means is a hydraulic cylinder body in which a piston which is operated by the hydraulic pressure is installed inside; A hydraulic hose for transmitting hydraulic pressure connected to the hydraulic body; Uncoated sediment sampling device characterized in that it is installed on the outside to generate the hydraulic pressure and the hydraulic supply means for transmitting the hydraulic pressure through the hydraulic hose.
4. The upper end of the cylindrical body of claim 3, wherein the pushing means has a portion inserted into a hole in the sample collecting tube to push out the unconsolidated sediment sample and the bottom surface of the hydraulic body of the hydraulic driving means. And, wherein the bottom surface of the cylindrical body is interviewed with an upper surface of the unconsolidated deposit sample, wherein the unconsolidated deposit sample is pushed downward.
5. The apparatus of claim 4, wherein the pushing means is made of metal or reinforced plastic material.
The method of claim 1, wherein the sample holding means comprises a first fixing member having a hole in the middle;
And an unfixed deposit sample collection device, characterized in that it comprises a second fixing member formed below the first fixing member and formed with a hole.
According to claim 1, wherein the sampling tube is a hollow form, the uncoated sediment sample collection device, characterized in that the insertion portion of the cover 20 is inserted into the inner diameter of the hollow portion of the sampling tube.
According to claim 1, wherein the sample collection tube is an unsolidified sediment sampling device, characterized in that consisting of a metallic material.
8. The apparatus of claim 7, wherein the cover is made of metal or reinforced plastic.
Sampling step of collecting the unconsolidated sediment sample through the sampling tube;
Fixing a sampling tube containing an undetermined sediment sample to a sampling device; And
And pushing and sealing the unconsolidated sediment sample from the sampling tube.
Sealing the unconsolidated sediment sample is
Wrapping the sample collection tube with a sample sealing means;
Contracting the sample sealing means by applying heat to the sample sealing means;
And actuating the hydraulic driving means to push down the unsolidified sediment contained in the sample collection pipe by using the pushing means located below the hydraulic driving means.
Uncoated sediment sampling method using the unfinished sediment sampling device, characterized in that the unfinished sediment pushed out downward is interviewed to the sample sealing means in the step of pushing the unfinished sediment downward.
The method of claim 10, wherein the sampling step
Placing a sampling tube at a target point for collecting unconsolidated sediment samples;
Hitting the sample tube with a hammer and inserting it below the ground of a target point; And
Uncollected sediment sampling method using an unfixed sediment sampling device comprising the step of collecting the unfinished sediment in the inner diameter of the sample collecting tube as the sample collecting tube is inserted downward.

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