KR101171745B1 - Percussion sampler to obtain undisturbed soils at the shallow depth layer and sampling method using this sampler - Google Patents

Abstract

PURPOSE: A sampler for an undistributed sample and a sampling method using the same are provided to collect a sample maintaining a ground condition regardless of the rigidity requirements of a soil layer. CONSTITUTION: A sampler for an undistributed sample comprises a sampling tube(500), a striking plate(400), and a rammer. The striking plate inserts the sampling tube into a soil layer by applying striking power to the sampling tube. The striking plate comprises a taper portion and a guide track. The taper portion is inserted into the sampling tube, and comprises a holding portion. The holding portion holds a spanner to easily connect the striking plate and the sampling tube. The guide track is inserted into an upper part of the sampling tube, and covers the sampling tube. The rammer is inserted into a groove formed in the upper part of the striking plate, and connected with a screw.

Description

Percussion sampler to obtain undisturbed soils at the shallow depth layer and sampling method using this sampler}

The present invention relates to a striking soil sample rammer, a sampler, and a method for collecting soil samples using the same, and relates to a striking soil sample rammer, a sampler, and a soil sample collecting method using the same, which is capable of collecting a surface Buddhism sample.

Soils play a very important role in ecosystems. Soil samples need to be taken and analyzed to clarify what is happening in the soil.

1 is a block diagram of a soil core sampler according to the prior art.

For example, the soil core sampler introduced in Korean Patent Application No. 10-2001-0049428 is shown in Figure 1, the outer cylinder (1) is marked with a scale, and inserted into the outer cylinder and the soil core sample The cylinder is inserted into the soil by inserting the cylinder into two, the inner cylinder (2,3) divided into two, the cover (4) placed on the outer cylinder, the hole formed in the outer cylinder and the inner cylinder so that it can be easily separated It consists of a cylinder collecting rod (5) that can be pulled out together with the sample and a sample container (6) that can hold the collected soil sample. It can collect efficiently inside.

On the other hand, in general, in order to grasp the physical properties and engineering characteristics of the ground soil, it is necessary to precede the sampling of the test specimens in the comparable eggs in order to maintain the site conditions of the ground soil. In addition, the soil test is required to evaluate the physical properties and engineering characteristics of the soil, and to calculate the strength constant that is used as design data. To collect the soil samples efficiently, a sampler for collecting soil samples is required.

Soil sampling methods known in the art include a method using a Raymond sprit spoon sampler and a sampling tube (stationary piston sampler, foil sampler).

The Raymond sampler is a sampler used for the standard penetration test performed for the purpose of estimating the relative density of the ground by measuring the number of blows of the rammer connected to the drilling machine. The sampler has a deep depth (up to 30 m) that is difficult to attract manpower. Although there is an advantage in that the sampling is possible and the ground state of deep depth can be directly checked by eye, there is a problem that only the sampling of the disturbed state is possible due to the structural limitation of the sampler itself.

In addition, the sampling tube is mainly used for sampling the Buddhism eggs of viscous soils in soft ground, which can be applied only in soft soils with loose relative density or very viscous soils with very low strength, so that the sampling tube hits the sampling soil and is sampled on a specific soil layer. When the tube is inserted, there is a problem that the sampling tube is unevenly inserted according to the ground state of the specific soil layer, so that it is impossible to collect the soil sample in the Buddhist disturbance state.

Therefore, the inventors of the present invention, while developing a sampler that is easy to collect soil samples in the Buddhism state regardless of the ground conditions, while studying the development of a method for collecting soil samples efficiently when applying the developed sampler While the present invention was completed.

The present invention has been invented to solve the problems described above, the impact type soil sample rammer that can take a sample that maintains the ground conditions of the target site without being affected by the strength conditions of the ground, Its purpose is to provide a sampler and a method for collecting soil samples using the same.

Strike soil sample rammer according to the present invention to achieve the object as described above is a blow member; A support rod coupled to the hit member; And a striking rod covering the supporting rod and moving along the supporting rod to strike the hit member.

The hit member may further include a fixing part; A catching part connected to the fixing part stepwise; And a hitting part connected to the locking part and hit by the hitting rod.

In addition, the support rod is characterized in that the coupling is inserted into the hit.

In addition, the support rod is characterized in that the screwed to the hitting portion.

In addition, the support rod is characterized in that the stopper is provided at the top to prevent the outer separation of the striking rod.

In addition, the striking rod is characterized in that the striking portion is provided for striking the hit.

In addition, the striking soil sample rammer according to the present invention is a hit member; A support rod integrally connected to the hit member; And a striking rod covering the support rod and sliding along the support rod to strike the hit member.

In addition, the striking soil sampler according to the present invention is a sampling tube; A blow plate connected to the sampling tube; And a rammer connected to the striking plate, wherein the rammer is a striking soil sample rammer according to the present invention.

In addition, the striking plate is characterized in that provided with a tapered portion inserted into the sampling tube.

In addition, the striking plate is characterized in that the guide track for inserting the upper end of the sampling tube is provided on the bottom surface.

In addition, the soil sample collection method according to the present invention comprises a rammer fixing step of fixing the rammer according to the invention to the striking plate; A blow plate connecting step of connecting the blow plate to a sampling tube; And a tube striking step of inserting the sampling tube to a predetermined position by striking the striking rod of the rammer to a portion to be hit of the rammer.

In addition, after the tube hitting step, the sampling plate for separating the striking plate on the sampling tube to collect the soil samples in the sampling tube; characterized in that it further comprises a.

According to the striking soil sample rammer, the sampler and the soil sample collection method using the same according to the present invention as described above, it is possible to take a sample that maintains the ground conditions of the target site without being affected by the strength conditions of the ground soil It works.

In addition, according to the present invention, it is easy to carry and the operation method is simple, there is an effect that the sample can be easily collected by the manpower.

In addition, according to the present invention, since the sample can be easily sealed, there is an effect of preventing deformation of the sample due to sample transport or sample storage.

1 is a block diagram of a soil core sampler according to the prior art.
2 is a block diagram of a striking soil sample rammer according to the present invention.
3 is a perspective view of the hitting member and the support bar in accordance with the present invention.
Figure 4 is a view showing a state in which the striking rod sliding movement along the support rod according to the present invention.
5 is a block diagram of a striking soil sampler according to the present invention.
6 is a perspective view of the combination of the striking plate and the striking soil sample rammer according to the present invention.
Figure 7a is a first combined perspective view of the sampling tube and the striking plate according to the present invention.
7B is a second perspective view of the sampling tube and striking plate according to the present invention.
8 is a view showing a state of collecting the soil samples using the striking soil sample sampler according to the present invention.
9 is a first block diagram of a striking soil sample collection method according to the present invention.
10 is a second block diagram of a striking soil sample collection method according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

2 is a block diagram of a striking soil sample rammer according to the present invention.

The striking soil sample rammer according to the first embodiment of the present invention, as shown in Figure 2, the hit member 100, the support rod 200 and the striking rod 300.

The hit member 100 may be fixed to a striking plate connected to a sampling tube to transmit a striking force to the sampling tube.

Specifically, the hit member 100 may transmit the striking force generated by the striking of the striking rod 300 to be described later to the sampling tube via the striking plate, and thus the sampling tube that has received the striking force is Soil samples can be collected by insertion into the soil layers.

The object to be hit 100 includes a fixing part 110, a locking part 120, and a hit part 130.

The fixing part 110 may be fixed to the striking plate.

Specifically, the fixing part 110 may be inserted into and fixed to the hitting plate, wherein the hitting plate is formed with a groove corresponding to the fixing part, and the fixing part 110 is inserted into the groove. By screwing, the fixing part 110 and the striking plate may be fixed.

The catching part 120 may be connected to the fixing part 110 step by step.

Specifically, the locking portion 120 may be formed integrally with the fixing portion 110, wherein the locking portion 120 is the strike when the fixing portion 110 is inserted into the blow plate entirely Can support the plate.

That is, the locking part 120 may be formed to be larger than the inner diameter of the groove formed in the hitting plate to support the hitting plate and transmit the hitting force generated by the hitting of the hitting rod 300 to the hitting plate.

The hit part 130 may be connected to the catching part 120 and may be hit by the striking rod 300.

Specifically, the hitting part 130 may be formed in a polygonal shape as a part hit directly by the striking rod 300, and the hitting part 130 is integrally formed with the catching part or the catching part. It can be screwed into the part and connected.

3 is a perspective view of the hitting member and the support bar in accordance with the present invention.

The support rod 200 may be coupled to the lower end is inserted into the hit portion 130.

Specifically, as shown in FIG. 3, the hit part 130 has a groove corresponding to the support rod 200, and the support rod 200 is inserted into the groove and screwed to the support rod 200. ) And the hit unit 130 may be combined. In this case, the support rod 200 may include a groove-shaped holding portion 220 in which a spanner is held in order to facilitate coupling of the support rod 200 and the hitter 130.

In addition, the support rod 200 may be provided with a stopper 210 on the top to prevent the external separation of the hitting rod 300 to be described later.

Figure 4 is a view showing a state in which the striking rod sliding movement along the support rod according to the present invention.

The striking rod 300 may cover the supporting rod 200 and move along the supporting rod 200 to strike the hit member 100.

Specifically, the striking rod 300, as shown in Figure 4, the striking portion 310 hitting the hitting unit 130 may be provided at the bottom, the support rod 200 by the attraction As it descends, the hitting unit 130 may be hit.

That is, the striking rod 300 can be inserted into the outer portion of the support rod 200 to control the load while moving up and down, the striking rod 300 is caught on the stopper 210 provided in the support rod 200 When having the maximum separation distance from the hit unit 130 may have a maximum potential energy, when hitting the hit unit 130 by descending along the support rod 200 by the attraction force Impact force may be transmitted to 130.

Hereinafter, the striking soil sample rammer according to the second embodiment of the present invention will be described in detail.

The striking soil sample rammer according to the second embodiment of the present invention may include a hit member, a support rod, and a striking rod, in the same manner as the striking soil sample rammer according to the first embodiment of the present invention.

Here, the hit member and the striking rod is the same as the structure and the contents of the hit member and the striking rod included in the striking soil sample rammer according to the first embodiment of the present invention, detailed description thereof will be omitted.

The support rod included in the striking soil sample rammer according to the second embodiment of the present invention may be integrally connected to the hit member differently from the support rod included in the striking soil sample rammer according to the first embodiment of the present invention. In particular, the support rod may be integrally connected to the hitting portion to which the striking rod strikes directly so that the support rod may not include a groove-shaped holding portion in which a spanner is held.

Hereinafter, the striking soil sampler according to the present invention will be described in detail.

5 is a block diagram of a striking soil sampler according to the present invention.

The striking soil sampler according to the present invention includes a sampling tube 500, a striking plate 400, and a rammer 10, as shown in FIG. 5.

The sample mold described in the present invention is a component for collecting soil samples, and the sample mold includes a sampling tube 500 inserted into the soil layer and upper and lower lids covering upper and lower portions of the sampling tube 500. Here, the sample mold may be made of stainless steel resistant to impact and corrosion.

The size of the sampling tube 500 should be a standard that can be utilized for unit weight and shear strength test, the inner diameter may be 100mm × height 50mm, thickness may be about 1mm, the lower end is provided with a beveled blade to facilitate the soil layer insertion can do.

In addition, the upper and lower lids may be slightly larger than the outer diameter of the sampling tube 500 and the height may be about 5 mm so as to fix and seal the soil samples exposed to the upper and lower portions of the sampling tube 500 without moving.

The striking plate 400 may be connected to the sampling tube 500. The striking plate 400 may transmit the striking force generated from the rammer 10 to the sampling tube 500 to be described later. ) Can be inserted into the soil layer.

Figure 7a is a first coupling perspective view of the sampling tube and the striking plate according to the present invention, Figure 7b is a second coupling perspective view of the sampling tube and the striking plate according to the present invention.

Specifically, the striking plate 400 is inserted into the sampling tube 500, as shown in FIG. 7A, in which a spanner is held to facilitate coupling of the striking plate 400 and the sampling tube 500. A tapered portion 410 including a groove-shaped holding portion 430 is provided, or as shown in FIG. 7B, the guide track 420 into which the upper end of the sampling tube 500 is inserted is provided at the bottom thereof. The upper end of the sampling tube 500 may be entirely covered.

That is, the striking plate 400 covers the upper end of the sampling tube 500 as a whole to uniformly transfer the striking force generated from the rammer 10 to all the portions of the sampling tube 500. All parts of) can be evenly inserted into the soil, so that the sample can be taken to maintain the soil condition of the site without being affected by the strength condition of the soil.

6 is a perspective view of the combination of the striking plate and the striking soil sample rammer according to the present invention.

The rammer 10 may be connected to the striking plate, as shown in FIG. 6. Specifically, the striking plate has a groove corresponding to the rammer 10 formed thereon, and the rammer 10 may be One end may be fixed by being inserted into the groove and screwed together.

Here, the rammer 10 is a striking soil sample rammer according to the first and second embodiments of the present invention described above, the rammer 10 is the sampling tube 500 is sufficiently inserted into the ground soil It can be forcibly manufactured to control the load and impact force as much as possible, and the weight can be about 4.0 kg.

Hereinafter, a method for collecting soil samples according to the present invention It explains in detail.

9 is a first block diagram of a striking soil sample collection method according to the present invention.

The soil sample collection method according to the present invention includes a rammer fixing step (S10), the blow plate connection step (S20) and the tube strike step (S30).

In the method of collecting soil samples according to the present invention, when the sampling position is first selected, the operation of leveling the surface of the ground soil using a tool such as a shovel is preceded.

The rammer fixing step S10 is a step of fixing the rammer to the striking plate.

The blow plate connecting step (S20) is a step of connecting the blow plate to the sampling tube.

8 is a view showing a state of collecting the soil samples using the striking soil sample sampler according to the present invention.

The tube striking step (S30) is a step of inserting the sampling tube to a predetermined position by hitting the striking rod of the rammer hit the hitting portion of the rammer.

Specifically, in the tube striking step (S30), as shown in Figure 8, after fixing the sampling tube 500 to the ground surface, by repeatedly attracting the striking rod 300 to the hit part 130 by the attraction force By hitting the sampling tube 500 can be sufficiently inserted to a predetermined position.

10 is a second block diagram of a striking soil sample collection method according to the present invention.

On the other hand, the soil sample collection method according to the invention, as shown in Figure 10, after the tube hitting step (S30), further comprises a sampling step (S40).

In the sampling step S40, when the sampling tube is inserted to a predetermined position, the striking plate is separated from the sampling tube to collect soil samples in the sampling tube.

Specifically, in the sampling step (S40), while shoveling out the sampling tube while being careful not to move the soil sample inside the sampling tube, and removing the soil on the surface, and then, the upper and lower portions of the sampling tube Soil samples can be collected by using a knife to remove soil that protrudes flat.

As such, the sampling tube from which the soil sample is collected is covered with a lid on the upper and lower sides so that the soil sample inside the sample mold is sufficiently enclosed around the wrap first so that the ground conditions of the site such as wet state and density characteristics can be maintained well. Therefore, by completely sealing the outside with a tape or the like so that the wrap is fixed well, deformation of the sample can be prevented.

As described above, according to the present invention, it is possible to take a sample in which the ground conditions of the target site are maintained without being affected by the strength conditions of the ground, and it is easy to carry and the operation method is simple, so that the sample can be easily pulled out by manpower. It can be collected, and the sample can be easily sealed to prevent the deformation of the sample due to sample transport or sample storage.

As described above with reference to the drawings illustrating a blow-type soil sample rammer, a sampler and a soil sample collection method using the same according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, Of course, various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention.

10: Rammer
100: Hitting member 110: Fixed part
120: catching part 130: hitting part
200: support rod 210: stopper
220,430: Holding part 300: Strike rod
310: hitting part 400: hitting plate
410: taper 420: guide track
500: sampling tube
S10: Rammer fixing step
S20: Connecting plate
S30: Tube Strike Step
S40: Sample Collection Step

Claims (12)

A hit member;
A support rod inserted into and coupled to the hit member; And
And a striking rod covering the supporting rod and moving along the supporting rod to strike the hit member.
The hit member,
Fixing part;
A catching part integrally formed with the fixing part and connected stepwise; And
It includes; the hitting portion integrally formed or screwed coupled to the engaging portion hit by the striking rod;
The support rod is a striking soil sample rammer, characterized in that coupled to the hitting portion.
delete delete The method of claim 1,
The support rod striking sample rammer, characterized in that the support rod is screwed to the hitting portion.
The method of claim 1,
The support rod is a striking soil sample rammer, characterized in that the stopper is provided on the top to prevent the outer detachment of the striking rod.
The method of claim 1,
The striking rod is a striking soil sample rammer, characterized in that provided with a striking portion for hitting the hitting portion.
A hit member;
A support rod integrally connected to the hit member; And
And a striking rod covering the supporting rod and moving along the supporting rod to strike the hit member.
The hit member,
Fixing part;
A catching part integrally formed with the fixing part and connected stepwise; And
It includes; the hitting portion integrally formed or screwed coupled to the engaging portion hit by the striking rod;
The support rod striking sample rammer, characterized in that the support rod is integrally connected to the hitting portion.
Sampling tube;
A blow plate connected to the sampling tube; And
And a rammer having one end inserted into a groove formed on the striking plate and screwed thereto.
The rammer is a striking soil sample rammer according to any one of claims 1, 4 to 7,
The striking plate has a tapered portion inserted into the sampling tube, the striking soil sampler, characterized in that connected to the sampling tube.
delete Sampling tube;
A blow plate connected to the sampling tube; And
And a rammer having one end inserted into a groove formed on the striking plate and screwed thereto.
The rammer is a striking soil sample rammer according to any one of claims 1, 4 to 7,
The striking plate is a striking soil sampler, characterized in that the upper end of the sampling tube is inserted into the guide track provided on the bottom surface is connected to the sampling tube.
delete delete

Images