KR20070081403A - A picking apparatus of a soil sample - Google Patents

Abstract

A soil sample picking apparatus is provided to pick soil sample simply by fitting an impact bar between a main roller and an auxiliary roller and ascending and falling freely the impact bar, thereby hitting a rod and a sample picking pipe automatically. The invention relates to a soil sample picking apparatus for picking soil with a simple structure by ascending and falling freely an impact bar in a cycle using a pair of rollers, comprising a casing pipe(100) fixed to the ground for picking soil sample, provided with a primary mounting hole(102), a secondary mounting hole(104) and a checking hole(106) and equipped with a rod(123) to reach the depths of the ground and a sample picking pipe(124) to pick soil sample, a bracket(110) extended laterally to the casing pipe to support an operating panel and provided with a rib(112) to resist vertical compression, an impact bar(120) inserted to the casing pipe and hitting the rod and the sample picking pipe with strong impact force, and an operating panel(130) composed of a main roller(140), an electric motor(150), a bearing(160) and an auxiliary roller(170) and placed on each bracket to ascend the impact bar and to fall freely to pick the deep soil of the ground using the sample picking pipe.

Description

{A picking apparatus of a soil sample}

1 is a side view of a conventional soil sampler.

Figure 2 is a perspective view showing the installed state of the soil sample collector according to the present invention.

Figure 3 is an exploded perspective view of a soil sampler according to the present invention.

Figure 4a and 4b is an operating state diagram of the soil sampler according to the invention.

* Explanation of symbols for main parts of drawings *

100: casing pipe 102, 104: first and second installation holes

106: confirmation hole 110: bracket

112: rib 114: slot hole

120: batting rod 122: irregularities

124: sampling tube 126: scale

130: operation unit 140: main roller

142: flat portion 144: curved portion

150: electric motor 160: bearing

170: auxiliary roller 172: receiving groove

The present invention relates to a soil sampler, and more particularly, to raise and free fall periodically by rotating a pair of rollers hitting the ground rod to strike the soil in order to collect the soil sample in a simple structure It relates to a soil sampler that is capable of being harvested.

Since soils such as coasts, lakes, and wetlands are made of soft silt soil or viscous soils with high water content, in order to use them as foundations for the construction of industrial complexes such as ports, roads, airports, etc. It should be used after the ground has been improved by promoting it.

In order to improve such soft ground, sand pile or crushed stone pile is poured into the ground, or plastic drain board (PBD) is typed. Sometimes, cement is injected into the ground in various forms and mixed. do.

In order to improve the soft ground, it is necessary to know how deep the ground is through the investigation. The most commonly used method for such investigation is the standard penetration test (SPT).

Standard penetration test is a test method to measure the annual hardness of the ground by boring boring bores at regular intervals. A 37mm cylindrical sampler with a internal diameter of 76.2 ㎝ with a hammer weighing 63.5 kg. It is a method to measure the number of hammer strikes required to fall from the ground and drill the ground.

This hit number is called N-value, which is a widely used test method for measuring the hardness of the ground and using it as various design criteria.

1 is a schematic diagram of a conventional soil sampler.

As shown, the conventional soil sampler is provided with a casing pipe (1), a leader (2), a bucket (3), a generator (4).

The SL operating panel 5 for operating the SL (sand level) weight 8 is provided at the upper end of the material in the casing pipe 1, and the sensor 13 for sensing the height of the material in the casing pipe 1 and the A winch motor 6 is provided for raising or lowering the SL weight 8.

A current sensor 14 for measuring a current value of the electric motor for penetrating the casing pipe 1 is provided.

In addition, the casing pipe (1) is connected to the rope (7) is raised and lowered to hit the ground.

However, the conventional rope-type soil sampler has a problem that the wear of the rope is severe, the blow at the specified height is impossible, the impact efficiency of the hammer is significantly reduced.

The present invention has been made to solve the above problems, the object of the present invention is to install a constant rotation angle of the roller by installing between a pair of rollers to rotate the striking rod continuously hitting the ground to collect soil samples It is to provide a soil sampler that collects soil samples by automatically hitting the rods and sampling pipes by force of the rod and the sampling pipe due to the repeated frictional force.

The present invention for achieving the above object is a tubular shape fixed to the ground and formed in the first and second installation holes in the longitudinal direction on both sides of the circumferentially in communication with the interior and to reach the ground deep and A casing pipe inserted into the sampling pipe by screwing a sampling tube for collecting soil samples, a bracket extending in both directions from the circumference of the casing pipe in which the first and second installation holes are located, and the casing pipe Soil sampler comprising a striking rod inserted into the upper portion of the rod, and an operation unit for sampling the soil inside the sampling tube as the striking rod is hitting the rod while repeatedly raising and freely dropping the striking rod. I would like to suggest.

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

2 is a perspective view showing an installed state of the soil sample collector according to the present invention, Figure 3 is an exploded perspective view of the soil sample collector according to the present invention, Figures 4a and 4b is an operating state diagram of the soil sample collector according to the present invention. .

As shown, the soil sample collector of the present invention is largely composed of a casing pipe 100, the bracket 110, the striking rod 120 and the operation unit 130.

The casing pipe 100 has a cylindrical tube shape to form an empty space therein.

In addition, the casing pipe 100 is fixedly installed on the ground to collect the soil sample, it may be fixed by inserting the end portion in the ground, it is provided with a separate hook device (not shown) any fixed body (not shown) Can be fixed).

In particular, the casing pipe 100 is provided with a rod 123 and a sampling tube 124 therein.

The rod 123 and the sampling tube 124 are integrally screwed together.

In addition, the casing pipe 100 communicates with the first installation hole 102 and the second installation hole 104 facing in a straight line around the upper end of the casing pipe 100 in the longitudinal direction around the lower portion of the confirmation hole 106. It is formed to communicate with the inside.

On the other hand, the bracket 110 is formed extending in the lateral direction of the casing pipe 100 to support the operation unit 130.

In this case, the bracket 110 is formed extending in a direction perpendicular to the axial direction, respectively, around the casing pipe 100 corresponding to the lower portion of the first installation hole 102 and the second installation hole 104.

The bracket 110 may be manufactured integrally with the casing pipe 100 and may be integrally provided around the casing pipe 100 by welding.

In addition, the bracket 110 forms a rib 112 in the lower portion to withstand the pressing in the vertical direction.

That is, the rib 112 is installed to be welded at the same time around the lower portion of each bracket 110 and the casing pipe 100 to reinforce the bracket 110.

Meanwhile, the striking rod 120 is inserted into the casing pipe 100.

At this time, the striking rod 120 is preferably a solid pipe (中 實 管) in order to strike the rod 123 and the sampling tube 124 with a relatively strong impact force.

In addition, as shown, the striking rod 120 is hitting the rod 123 repeatedly as a lower end.

The rod 123 is provided to extend the sampling tube 124 to the depth to collect the soil sample of the deep layer of the ground.

Of course, although the sampling tube 124 may be extended for a long time, in this case it is difficult to take out a large amount of soil inserted into the sampling tube 124 at once.

When the striking rod 120 repeatedly hits the rod 123 automatically, the sampling tube 124 is collected by putting the inside of the soil in the order of the layers.

On the other hand, the operation unit 130 is provided on each of the brackets 110 formed on both sides of the casing pipe 100 to collect the deep soil of the ground with a sample pipe 124 while raising and freely dropping the striking rod 120 Manipulate it so you can.

At this time, the operation unit 130 is composed of the main roller 140, the electric motor 150, the bearing 160 and the auxiliary roller 170.

The main roller 140 is rotatably installed in the bracket 110 corresponding to the direction in which the first installation hole 102 is directed.

That is, the mounting piece 141 extends upward in the bracket 110 corresponding to the direction in which the first installation hole 102 faces, and the bracket corresponding to the installation piece 141 and the main roller 140. The ball bearing 145 is fixedly installed on the 110.

In addition, a first rotation shaft 146 is simultaneously inserted into the main roller 140 and the ball bearing 145.

In addition, the installation piece 141 is fixed to the electric motor 150 on the outside.

The electric motor 150 is connected to the first rotating shaft 146.

Thus, when the electric motor 150 is operated, the first rotation shaft 146 rotates in the counterclockwise direction and at the same time the main roller 140 rotates in the counterclockwise direction.

In particular, the main roller 140 is installed so that a part of the circumference is inserted into the first installation hole 102 of the casing pipe 100.

At this time, the main roller 140 is divided into a flat portion 142 and a curved portion 144 around.

The flat portion 142 refers to a state in which the circumferential surface of the main roller 140 is flat, and the curved portion 144 refers to a state in which the circumferential surface of the main roller 140 has a concave surface inside.

That is, when the main roller 140 rotates, the planar portion 142 and the curved portion 144 alternately face the circumferential surface of the striking rod 120.

In other words, when the planar portion 142 of the main roller 140 faces the circumferential surface of the striking rod 120, the main roller 140 presses the striking rod 120 laterally and strikes the striking rod 120. When the curved surface 144 of the main roller 140 faces the circumferential surface of the striking rod 120, the main roller 140 and the striking rod 120 are spaced apart from each other.

In addition, the bearing 160 is fixed to the bracket 110 extending in the direction in which the second installation hole 104 of the casing pipe 100 faces by the bolt 161.

The auxiliary roller 170 is rotatably installed at the bearing 160.

That is, a second rotating shaft 176 is inserted into the bearing 160 and the auxiliary roller 170 at the same time.

In particular, the auxiliary roller 170 is provided to be inserted into the second installation hole 104 a part.

Thus, the auxiliary roller 170 is always in contact with the circumference of the striking rod 120.

At this time, the auxiliary roller 170 increases the contact area with the striking rod 120 by forming a receiving groove 172 recessed to have the same curved surface as the striking rod 120.

As the auxiliary roller 170 increases the contact area with the striking rod 120, the striking rod 120 due to the improvement of the contact force when the flat portion 142 of the main roller 140 contacts the striking rod 120. Maximize your lifting power.

In addition, the striking rod 120 is formed in the circumferential surface in the longitudinal direction (122).

The unevenness 122 prevents the occurrence of slip of the striking rod 120 when the striking rod 120 is pushed up by both the main roller 140 and the auxiliary roller 170 at the same time.

Thus, as shown in Figure 4a, in the initial state in which the receiving groove 172 of the auxiliary roller 170 in contact with the circumferential surface of the striking rod 120, when the electric motor 150 is operated, the first rotating shaft 146 rotates counterclockwise.

Then, the main roller 140 fixedly coupled to the first rotation shaft 146 rotates in the counterclockwise direction.

When the flat portion 142 of the main roller 140 is in contact with the striking rod 120, the striking rod 120 is pushed toward the auxiliary roller 170 by the main roller 140 and at the same time the auxiliary roller 170, the pushing rod 120 is pushed in the direction of the main roller 140, so the hitting rod 120 is pinched.

In addition, when the main roller 140 rotates in the counterclockwise direction, the striking rod 120 is pulled upward by the frictional force with the main roller 140, and the auxiliary roller 170 has the second rotating shaft ( 176 with the main roller 140 to rotate in the opposite direction.

In addition, as shown in FIG. 4B, when the main roller 140 continues to rotate, when the curved portion 144 of the main roller 140 faces the circumferential surface of the striking rod 120, the main roller ( Since the main roller 140 is free from the circumferential surface of the striking rod 120 by the depth of the curved portion 144 on the surface of the circumferential surface of the 140, the striking rod 120 falls freely due to the release of the restraining force. Hitting).

Then, the striking rod 120 falls and hits the rod 123, and the sampling tube 124 is to collect the soil sample due to this striking force.

On the other hand, the striking rod 120 is worn on the inner surface of the receiving groove 172 of the auxiliary roller 170 due to the continuously rising and lowering in contact with the receiving groove 172 of the auxiliary roller 170.

Thus, the receiving groove 172 of the auxiliary roller 170 should be fixed by moving in the direction of the striking rod 120 to maintain contact with the peripheral surface of the striking rod 120.

Therefore, a rectangular slot hole 114 is formed in the bracket 110 extending from the casing pipe 100 in the direction of the second installation hole 104.

That is, the bearing 160 connecting the auxiliary roller 170 to the second rotation shaft 176 is movable by the length of the slot hole 114, and the bearing 160 is bolted to the bolt 161 through the slot hole 114. Combined with.

As a result, when the receiving groove 172 of the auxiliary roller 170 wears, the bearing 160 integrally connected with the auxiliary roller 170 may move along the slot hole 114 to strike the auxiliary roller 170. The rod 120 can be adjusted to always contact.

On the other hand, the casing pipe 100 forms a confirmation hole 106 in the longitudinal direction around the lower portion.

The confirmation hole 106 is to visually check the falling state of the rod 123 by the repetitive strike of the striking rod 120 to make the rise and free fall by the rotation of the main roller 140 and the auxiliary roller 170. It is provided.

In addition, the rod 123 is engraved graduation 126 in the longitudinal direction around.

The scale 126 is to make it easy to check the depth of the rod 123 is inserted into the ground through the confirmation hole 106.

As described above, the soil sampler according to the present invention is fitted by striking the rod between the main roller that rotates by the motor and the auxiliary roller facing the rod by automatically repeating the lifting rod by repeating the lifting and free fall according to the rotation angle of the main roller As a result of hitting the rod and the sampling pipe into the ground, the soil sample can be collected.

In addition, the soil sample harvester according to the present invention has an effect of easy installation and decomposition due to the relatively simple structure and reduced installation volume.

Claims (7)

Tubular shape fixedly installed on the ground, formed in the first and second mounting holes formed in the longitudinal direction on both sides of the circumference to communicate with the inside, sampling for collecting rods and soil samples to reach the depth of the ground A casing pipe coupled to the pipe and inserted therein; Brackets extending in both directions in the circumference of the casing pipe in which the first and second installation holes are located; An impact rod inserted into the casing pipe and positioned above the rod; Soil sampler characterized in that it comprises an operation unit for collecting the sample of the soil inside the sample collection pipe while hitting the rod while repeatedly raising and freely falling the striking rod. The method of claim 1, The operation unit is rotatably installed in the bracket adjacent to the first installation hole, is formed to insert a part of the first installation hole adjacent, and a flat portion for pressing and lifting the striking rod when rotating on the circumferential surface; A main roller partitioned into curved portions for releasing pressure from the striking rod and freely dropping the striking rod; An electric motor connected to the rotating shaft of the main roller to drive the main roller in a direction in which the striking rod is lifted; A bearing fixed to the bracket adjacent to the second installation hole with a bolt; It is axially coupled to the bearing is rotatably installed, a part is provided to be inserted into a part of the second installation hole, the receiving groove is formed in the circumference to contact the circumferential surface of the striking rod, the striking rod to the flat portion of the main roller Soil sample collector characterized in that it consists of an auxiliary roller for improving the pressing force by increasing the contact area with the striking rod during pressurization. The method of claim 2, The striking rod is a soil sampler, characterized in that to form irregularities on the circumferential surface in the longitudinal direction in order to maximize the friction between the main roller and the auxiliary roller. The method of claim 2, The bracket is a soil sampler, characterized in that to form a slot hole in the longitudinal direction to be coupled to move the bearing in order to maintain contact with the striking rod. The method of claim 1, The bracket is a soil sampler, characterized in that for forming a rib to be welded to the bottom and the casing pipe at the same time to reinforce the bearing force for the casing pipe. The method of claim 1, The casing pipe is a soil sampler, characterized in that through the confirmation hole in the longitudinal direction through the bottom in order to visually confirm the falling state of the rod by the repeated strike of the striking rod. The method of claim 6, The rod is a soil sampler, characterized in that to engrave a scale around the depth to be inserted into the ground through the confirmation hole.

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