KR101308039B1 - Sampling device for horizontal soil stratum - Google Patents

Abstract

PURPOSE: A horizontal soil collecting device is fixed to a soil layer by an auger unit inserted into a cross section of the soil layer, thereby preventing disturbance of the soil layer caused by shaking. CONSTITUTION: A horizontal soil collecting device includes a square external body unit (100), a square inner body unit (200), a blocking unit (300), a string unit (400), a soil layer cutting unit (500), and an auger unit. The square inner body unit is horizontally inserted into the cross section of a horizontal soil layer laminated horizontally. The square inner body unit is installed inside the square outer body unit by being spaced and includes an internal receiving unit receiving the horizontal soil layer. The blocking unit is arranged to be vertically movable inside a gap between one surface of the square outer body unit and one surface of the square inner body unit. The string unit connected to the bottom of the blocking unit is extended to a gap between the other surface of the square outer body unit and the other surface of the square inner body unit and protruding on the top of the gap. The soil layer cutting unit is mounted on the bottom of the square outer body unit and includes a driving member driving a cutting member cutting the horizontal soil layer to be rotated along the periphery of the square outer body unit.

Description

Horizontal Soil Collector {SAMPLING DEVICE FOR HORIZONTAL SOIL STRATUM}

The present invention relates to a horizontal soil collecting device, and more particularly, to a horizontal soil collecting device for fixing the soil collecting device to the soil layer by an auger inserted into the cross section of the soil layer, and cutting the soil layer by cutting the soil layer. will be.

In order to clarify the geology of a particular area, it is called geological survey to clarify the development history of the area by examining the type, nature, distribution status, formation age, strata relationship, and geological structure of the rock.

Boring, one of the geological survey methods, collects soil by forming boreholes in the soil. The collected soil is analyzed to provide various data such as physicochemical properties and structure of the area.

The soil collecting process is a tubular collecting device that receives a blow or rotational force in the state connected to the power means is inserted into the stratum, and the soil layer filled with the depth penetrated into the collecting device is filled. By removing the device to the ground, the soil layer of the sample can be checked externally.

Soil collection can be confirmed by changing the vertical soil layer by inserting the collecting device vertically in the soil layer according to the depth of the collecting device. Also, in the places where the strata are shifted, such as a single layer, the collecting device can be checked in the vertical direction with respect to the displaced vertical surface of the soil layer, that is, by inserting the chip device horizontally into the vertically cut soil layer and collecting the horizontal soil layer. have.

8 is a view showing a soil sample harvester according to the prior art. Application No. 10-2006-0062607 relates to a soil sampler, as shown in FIG. 8, and discloses a soil sampler that rotates a roller to move the striking rod up and down to collect soil samples.

However, in the prior art as described above, in order to collect the soil, hitting the rod with a striking rod, the rod hits the sampler, there is a problem that the disturbance of the soil may occur because the impact is transmitted to the soil in the process.

In addition, the conventional technique has a problem in that it is impossible to use when collecting soil in the horizontal direction by using a method of hitting the rod with the repeatedly rising and free fall of the striking rod.

9 is a view showing a vertical deposit sampler according to the prior art. Application No. 10-2011-0103350, as shown in Figure 9, relates to a vertical sediment sampler, the first outer tube including a rotary blade and the second outer tube to which the vertical force of the first outer tube is transmitted The vertical sediment sampler which collects a soil layer in the inside of a 2nd outer side pipe | tube is disclosed.

The vertical sediment sampler as described above compensates for the shortcomings of the above-described soil sampler, and it does not collect soil samples in a striking manner, so there is little disturbance of soil layers, but the collection device is not fixed to the horizontal soil layer. 1 There is a problem that the disturbance of the soil layer may occur due to the rotation of the outer tube.

The present invention has been made to solve the problems as described above, by fixing the collecting device to the soil layer with an auger inserted into the cross section of the soil layer, to prevent the disturbance of the soil layer due to the shaking of the collecting device, the soil collecting device An object of the present invention is to provide a horizontal soil collection device which is easy to collect the horizontal soil layers while supporting the same.

In addition, the present invention is to cut the horizontal soil layer by cutting the soil layer by storing the horizontal soil layer in the collecting device, the horizontal soil layer collecting device that can prevent the internal disturbance of the horizontal soil layer by not transmitting a blow impact to the horizontal soil layer It is for the purpose of providing.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

Horizontal soil layer collecting device according to an embodiment of the present invention in order to achieve the object as described above is spaced in the rectangular outer body portion, which is inserted in the horizontal direction in the cross section of the horizontal soil layer vertically stacked, the spaced inside the rectangular outer body portion It is installed, the inner rectangular body portion having a storage space for storing the horizontal soil layer therein, the cut portion is located in the separation space between the one surface of the rectangular outer body portion and the one surface of the rectangular inner body portion so as to be movable, the lower portion of the cut portion Is connected to, the string portion extending to the separation space between the other surface corresponding to one surface of the rectangular outer body portion and the other surface corresponding to one surface of the rectangular inner body portion, protruding to the top of the separation space, mounted on the lower end of the rectangular outer body portion And, to drive the cutting member for cutting the horizontal soil layer to rotate along the circumference of the rectangular outer body portion The soil cutting part is installed with a drive member and one end is connected to the drive member, the other end is provided with an auger (auger) that is rotated by the drive of the drive member, and includes an auger protruding from the lower end of the rectangular outer body portion And, the auger portion is inserted into the cross section of the horizontal soil layer in a fixed state, characterized in that for fixing the position of the rectangular outer body portion.

In addition, the horizontal soil layer collecting device according to an embodiment of the present invention includes a guide groove formed in each of the lower sides of the rectangular inner body portion from the rectangular inner body portion, the cut portion along the guide groove is the rectangular outer Characterized in that the movable space between the space between the one surface of the body portion and one surface of the rectangular inner body portion to the other surface of the rectangular inner body portion.

In addition, the horizontal soil layer collecting device according to an embodiment of the present invention is moved by the string portion is lifted by the cut portion in the space between the space between one side of the rectangular outer body portion and one surface of the rectangular inner body portion along the guide groove The rectangular inner body portion is moved to the other surface, characterized in that for closing the lower portion of the rectangular inner body portion.

In addition, the horizontal soil layer collecting device according to an embodiment of the present invention includes a strip-shaped cutting member having a rack gear formed on the inner surface of the soil cutting unit and a drive member provided with a pinion gear to rotate in engagement with the rack gear. It features.

In addition, the horizontal soil layer collecting device according to an embodiment of the present invention is characterized in that the edge of the rectangular outer body portion is rounded so that the cutting member is rotatable along the circumference of the rectangular outer body portion.

In addition, the horizontal soil layer collecting device according to an embodiment of the present invention is characterized in that the blade is formed to cut the horizontal soil layer at the bottom portion.

In addition, the horizontal soil layer collecting device according to another embodiment of the present invention in order to achieve the above object is a rectangular outer body portion inserted in the horizontal direction in the cross-section of the horizontal soil layer stacked vertically, inside the rectangular outer body portion It is installed spaced apart, the inner rectangular body portion having a storage space for storing the horizontal soil layer therein, the disconnection portion is located in the separation space between the one surface of the rectangular outer body portion and the one surface of the rectangular inner body portion so as to be shandong A string portion connected to a lower portion of the portion and extending to a spaced space between the other surface corresponding to one surface of the rectangular outer body portion and the other surface corresponding to one surface of the rectangular inner body portion to protrude to an upper portion of the spaced apart space, each of the rectangular outer body portions It is mounted at the bottom of the surface, respectively, the cutting member at the bottom of each side of the rectangular outer body portion is linear reciprocating motion Soil cut portion and one end is installed so that the drive member is connected to the drive member, the other end is provided with an auger (auger) that rotates by the drive of the drive member, and includes an auger protruding from the lower end of the rectangular outer body portion And, the auger portion is inserted into the cross section of the horizontal soil layer in a fixed state, characterized in that for fixing the position of the rectangular outer body portion.

In addition, the horizontal soil layer collecting device according to another embodiment of the present invention includes a guide groove formed on each of the lower sides of the rectangular inner body portion from the rectangular inner body portion, the disconnection portion along the guide groove is the rectangular outer Characterized in that the movable space between the space between the one surface of the body portion and one surface of the rectangular inner body portion to the other surface of the rectangular inner body portion.

In addition, the horizontal soil layer collecting device according to another embodiment of the present invention is moved by the string portion is lifted by the cut portion in the space between the space between one side of the rectangular outer body portion and one surface of the rectangular inner body portion along the guide groove The rectangular inner body portion is moved to the other surface, characterized in that for closing the lower portion of the rectangular inner body portion.

In addition, the horizontal soil layer collecting device according to another embodiment of the present invention is coupled to the rod member and the rod member rotatably coupled to the cutting member and the soil layer is rotated by the drive of the drive member And a disc cam member, and as the disc cam member rotates by the driving member, the cutting member is linearly reciprocated along a lower end of each surface of the rectangular outer body portion.

In addition, the horizontal soil layer collecting device according to another embodiment of the present invention is characterized in that the blade is formed to cut the horizontal soil layer at the bottom portion.

According to the horizontal soil layer collecting device of the present invention, by fixing the collecting device to the soil layer with an auger inserted into the cross section of the soil layer, to prevent disturbance of the soil layer caused by the shaking of the collecting device, the horizontal soil layer is supported while the collecting device is supported on the soil layer. There is an advantage that it is easy to collect.

In addition, according to the horizontal soil layer collecting device of the present invention by cutting the horizontal soil layer with the soil layer cutting part to accommodate the horizontal soil layer inside the collecting device, it is possible to prevent the internal disturbance of the horizontal soil layer by not transmitting a blow impact to the horizontal soil layer. There is an advantage to that.

1 is a perspective view of a horizontal soil layer collecting device according to an embodiment of the present invention.
Figure 2 is an exemplary view showing the movement of the disconnection unit by the string unit according to an embodiment of the present invention.
3 is a perspective view of a soil cut and auger according to an embodiment of the present invention.
4 is an exemplary view showing an auger connected to a pinion gear according to an embodiment of the present invention.
5 is an exemplary view showing a state of collecting the horizontal soil layer in the horizontal soil layer collecting device according to an embodiment of the present invention.
6 is a perspective view of a horizontal soil layer collecting device according to another embodiment of the present invention.
7 is a perspective view of a soil cut and auger according to another embodiment of the present invention.
8 is a view showing a soil sample harvester according to the prior art.
9 is a view showing a vertical deposit sampler according to the prior art.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

1 is a perspective view of a horizontal soil layer collecting device according to an embodiment of the present invention. As shown, the horizontal soil layer collecting device according to an embodiment of the present invention, the rectangular outer body portion 100, the rectangular inner body portion 200, the cutout portion 300, the string portion 400, the soil layer cut portion 500 ), May include an auger 600.

The rectangular outer body portion 100 may be inserted in the horizontal direction in the cross section of the horizontal soil layer stacked vertically. In more detail, the rectangular outer body portion 100 may be formed in a rectangular pillar, and a space may be formed therein. Therefore, it can be used to collect the horizontal soil layer in a manner that is inserted into the horizontal soil layer in the horizontal direction.

The square inner body portion 200 is formed with a square pillar, such as the square outer body portion 100, the size is smaller than the square outer body portion 100 so that it can be installed inside the square outer body portion 100 , Square spaced apart from the body portion 100 may be installed spaced apart. Here, the connection member connecting the square outer body portion 100 and the square inner body portion 200 may be mounted at each corner of the square outer body portion 100 and the square inner body portion 200.

Accordingly, the space between the rectangular outer body portion 100 and the rectangular inner body portion 200 may be spaced apart by a predetermined interval. In addition, the interior of the rectangular inner body portion 200 may be formed with a storage space for storing the horizontal soil layer, the rectangular inner body portion 200 is lower on both sides except for one surface and the other surface of the rectangular inner body portion 200 Guide grooves 210 may be formed.

Here, one surface of the rectangular outer body portion 100 and one surface of the rectangular inner body portion 200 may be front surfaces of the respective rectangular inner and outer body portions. The guide groove 210 may be formed from one surface of the rectangular inner body portion 200 to the other surface.

The cutout part 300 may be formed in a plate shape, and may be located in a spaced space between one surface of the rectangular outer body part 100 and one surface of the rectangular inner body part 200, and may be particularly movable. In addition, the cutout 300 may be formed with a blade 310 that cuts the horizontal soil layer at the bottom.

As shown in FIG. 1, the string unit 400 may be preferably formed in a pair of wires. In addition, the string portion 400 is connected to the lower portion of the cutout 300, from the space between the space between one side of the rectangular outer body portion 100 and one side of the rectangular inner body portion 200, the rectangular outer body portion 100 It may extend to the separation space between the other surface corresponding to one surface of the other side and the other surface corresponding to one surface of the rectangular inner body portion 200.

In particular, the string part 400 may protrude to an upper portion of the separation space between the other surface corresponding to one surface of the rectangular outer body portion 100 and the other surface corresponding to one surface of the rectangular inner body portion 200.

Although not shown, the string part 400 is spaced apart between one surface of the rectangular outer body part 100 and one surface of the rectangular inner body part 200 through a hole formed in one lower surface of the rectangular inner body part 200. It can extend from the inner space of the rectangular inner body portion 200 from. The string part 400 extends through a hole formed in the lower surface of the other side of the rectangular inner body part 200 to a spaced space between the other side of the rectangular outer body part 100 and the other side of the rectangular inner body part 200 .

In particular, as shown in FIG. 1, the string part 400 may be guided through the guide groove 210 inside the rectangular inner body part 200. Specifically, the string portion 400 formed in the form of a pair of wires may be moved by guide grooves 210 formed at the lower portions of both sides except for one surface and the other surface of the wire-shaped square inner body portion 200, respectively. .

And the string portion 400 may be made of nylon or iron material in order to prevent breaking easily.

Figure 2 is an exemplary view showing the movement of the disconnection unit by the string unit according to an embodiment of the present invention. As shown, the cutout portion 300 is moved between the one surface of the rectangular outer body portion 100 and one surface of the rectangular inner body portion 200 by the string portion 400 being lifted so that the rectangular inner body portion 200 is formed. ) Can enter inside. At this time, although not shown, a hole is formed in the lower portion of the rectangular inner body portion 200 so that the cutout portion 300 may enter the rectangular inner body portion 200.

The cutout part 300 may be moved into the square inner body part 200 along the guide groove 210.

In addition, the lifting of the string part 400 is preferably a portion protruding between the spaced apart space from the upper portion of the rectangular outer body portion 100 and the rectangular inner body portion 200 is pulled by the force or force by the machine.

At this time, the cut-off portion 300 entered into the inside of the rectangular inner body portion 200 may enter the other surface of the rectangular inner body portion 200 along the guide groove 210 by the string portion 400, It is preferable to close the lower portion of the rectangular inner body portion 200 to completely block the outside.

3 is a perspective view of a soil cut and auger according to an embodiment of the present invention. As illustrated in FIGS. 1 to 3, the soil cut 500 may be mounted at a lower end of the quadrangular outer body part 100 and may include a cutting member 510 and a driving member 520. The cutting member 510 may be formed in a band shape, and a rack gear 511 may be formed on an inner surface thereof, and a lower end thereof may be formed in a saw blade shape to cut the horizontal soil layer.

The driving member 520 is mounted at each corner of the rectangular outer body portion 100 and the rectangular inner body portion 200, preferably four can be mounted. At this time, the driving member 520 is preferably mounted between the spaced apart spaced intervals of the rectangular outer body portion 100 and the rectangular inner body portion 200.

In addition, the drive member 520 may be provided with a pinion gear 521 that meshes with the rack gear 511 to rotate the rack gear 511. Therefore, the driving member 520 may rotate the cutting gear 510 along the circumference of the rectangular outer body part 100 by rotating the rack gear 511 by rotating the pinion gear 521.

Therefore, the cutting member 510 may be made of a flexible material, and the corners of the rectangular outer body portion 100 may be rounded such that the cutting member 510 is rotatable along the circumference of the rectangular outer body portion 100.

4 is an exemplary view showing an auger connected to a pinion gear according to an embodiment of the present invention. As shown in FIGS. 1 to 4, the auger 600 may be connected to the pinion gear 521 of the driving member 520 mounted at each corner at the bottom of the rectangular outer body part 100. Accordingly, four augers 600 may be mounted, and may include an auger member 610.

In addition, the auger 600 may have a length formed in the longitudinal direction and the horizontal direction of the rectangular outer body portion 100 to protrude from the lower end of the rectangular outer body portion 100.

The auger member 610 is formed in the form of a tapered screw auger, and may be provided at one end of the auger 600 to be rotated by the rotation of the pinion gear 521. In particular, the auger member 610 may be formed to be easily inserted into the cross section of the horizontal soil layer by rotating the screw awl.

In addition, the position of the horizontal soil layer collecting device may be fixed by the auger 600 inserted into the cross section of the horizontal soil layer through the auger member 610.

5 is an exemplary view showing a state of collecting the horizontal soil layer in the horizontal soil layer collecting device according to an embodiment of the present invention. As shown in the figure, the horizontal soil layer collecting device may be inserted in the horizontal direction to a cut surface formed vertically, such as a single layer surface of the soil layer. Accordingly, the horizontal soil layer collecting device may collect the horizontal soil layer by collecting the stacked soil layers for each layer.

Specifically, the auger member 610 of the horizontal soil layer collecting device may be inserted and fixed in the horizontal direction in the cross section of the horizontal soil layer stacked vertically. At this time, the auger 600 is auger member 610 is rotated by the drive member 520 is inserted into the soil layer, it is possible to fix and support the horizontal soil collection device to the horizontal soil layer.

In addition, the soil cutting unit 500 may cut the horizontal soil layer. In this case, the soil cutting unit 500 may cut the horizontal soil layer in contact with the cutting member 510 by rotating the cutting member 510 in a manner of rotating the circumference of the rectangular outer body part 100.

Here, the soil layer cutting unit 500 cuts the horizontal soil layer, and further, the horizontal soil layer is moved into the horizontal soil layer in a state where the horizontal soil layer collecting device is inserted into the horizontal soil layer by the operation of the auger member 610, so that the cut horizontal soil layer is naturally square inward. It may be inserted into the storage space of the body portion 200.

When the horizontal soil layer is sufficiently inserted into the inner storage space of the rectangular inner body portion 200, protrudes to the upper part of the space in the separation space between the other surface of the rectangular outer body portion 100 and the other surface of the rectangular inner body portion 200. The string part 400 is lifted so that the cutout part 300 moves along the string part 400 to close the lower portion of the rectangular inner body part 200 to collect the horizontal soil layer in the horizontal soil collecting device.

6 is a perspective view of a horizontal soil layer collecting device according to another embodiment of the present invention, Figure 7 is a perspective view of the soil cut and auger portion according to another embodiment of the present invention.

The horizontal soil layer collecting device according to another embodiment of the present invention, as shown in Figures 6 to 7 rectangular outer body portion 100, rectangular inner body portion 200, cutout portion 300, string portion 400 It may include a soil layer cut portion 500 and the auger portion 600.

The rectangular outer body portion 100, the rectangular inner body portion 200, the cutout portion 300 and the string portion 400 according to another embodiment of the present invention is a rectangular outer body portion 100 according to an embodiment of the present invention ), The rectangular inner body portion 200, the cutout portion 300 and the string portion 400 and their functions and configurations are the same, so detailed description thereof will be omitted.

Soil cut portion 500 is mounted to each lower surface of the rectangular outer body portion 100, and may include a cutting member 530, a rod member 540, a driving member 550, a disc cam member 560. have. Cutting member 530 is a flexible material or a rigid material, may be located at the bottom of the rectangular outer body portion 100, specifically mounted on each lower side of each of the four sides of the rectangular outer body portion 100 is preferably 4 The dog may be mounted on one horizontal soil collector.

At this time, the cutting member 530 may be coupled to the rod member 540 to be rotatable from the top, it may be formed in the shape of a saw blade to cut the horizontal soil layer at the bottom.

On the other hand, the cutting member 530 is not shown, but a guide rail is formed at the lower end of the rectangular outer body portion 100 can be operated to enable a linear reciprocating motion.

The rod member 540 may be rotatably coupled to one side of the disc cam member 550 in a state rotatably connected to the cutting member 530. The disc cam member 560 may be coupled to the driving member 550 in a state rotatably connected to the rod member 540. At this time, the disc cam member 560 can be rotated by the drive member 550 without changing the position with respect to the rectangular outer body portion 100.

Therefore, the position of the rod member 540 is changed according to the rotation of the disc cam member 560, whereby the cutting member 530 can perform a linear reciprocating motion at the lower end of the rectangular outer body portion 100.

Specifically, the driving member 550 rotates the disc cam member 560, the position of the bar member 540 is changed along the rotating disc cam member 560, according to the position of the changed bar member 540 The cutting member 530 may perform a linear reciprocating motion along the bottom surface of the rectangular outer body portion 100. In particular, the linear reciprocating motion of the cutting member 530 originating from the driving member 550 is formed to occur at each lower surface of the quadrangular outer body portion 100 so that a total of four cutting members 530 perform the linear reciprocating motion. It may be in the form of.

6 to 7, as shown in FIGS. 6 to 7, each of which is mounted at a square corner at the bottom of the rectangular outer body part 100, preferably four can be mounted, and an auger member 610. And it may include a rotating shaft member 620.

In addition, the auger 600 may have a length horizontally formed in the longitudinal direction of the rectangular outer body portion 100.

Auger member 610 is formed in the form of a tapered screw auger, it is connected to receive power from the rotary shaft member 620 may be rotated in accordance with the rotation of the rotary shaft member 620. At this time, the auger member 610 may be formed so that the screw awl shape can be inserted into the cross section of the horizontal soil layer by the rotation.

Here, between the rotating shaft member 620 and the auger member 610 may be preferably connected by a bevel gear (bevel gear). Therefore, the power of the rotating shaft member 620 may be transmitted to the auger member 610.

In addition, when the auger 600 is formed to protrude from the rectangular outer body portion 100 and the auger member 610 is inserted into the cross section of the soil layer, the auger portion 600 fixes the soil collecting device to the soil layer. Can play a role.

The rotary shaft member 620 may be connected to the driving member 550 and driven by the driving member 550. Therefore, the rotating shaft member 620 rotates about the central axis in the longitudinal direction, and by transmitting the rotational force to the auger member 610, the auger member 610 can be rotated.

As described above, according to the horizontal soil layer collecting device of the present invention by fixing the collecting device to the horizontal soil layer with an auger inserted and fixed to the horizontal soil layer, to prevent the disturbance of the soil layer due to the shaking of the collecting device, horizontal in the horizontal direction There is an advantage that it is easy to collect soil layers.

In addition, according to the horizontal soil layer collecting device of the present invention by cutting the horizontal soil layer with the soil layer cutting part to accommodate the horizontal soil layer inside the collecting device, it is possible to prevent the internal disturbance of the horizontal soil layer by not transmitting a blow impact to the horizontal soil layer. There is an advantage to that.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: square outer body portion 200: square inner body portion
210: guide groove 300: cutout
310: blade 400: string part
500: soil cut portion 510: cutting member
520, 550: drive member 600: auger
610: Auger member 620: Rotary shaft member

Claims (11)

A rectangular outer body portion inserted in a horizontal direction in a cross section of the horizontal soil layer stacked vertically;
A rectangular inner body part spaced apart from the inside of the rectangular outer body part and having an accommodation space for accommodating horizontal soil layers therein;
A cut-off portion located in a separation space between one surface of the square outer body portion and one surface of the square inner body portion to be movable;
A string part connected to a lower portion of the cutout part and extending to a separation space between the other surface corresponding to one surface of the rectangular outer body portion and the other surface corresponding to one surface of the rectangular inner body portion, and protruding to an upper portion of the separation space;
A soil cutting part mounted on a lower end of the rectangular outer body part and provided with a driving member for driving a cutting member for cutting horizontal soil layers to rotate along the circumference of the rectangular outer body part; And
An auger member having one end connected to the driving member and having an auger member rotating at the other end by driving of the driving member, the auger projecting from a lower end of the rectangular outer body portion;
The auger soil collecting device, characterized in that for fixing the position of the rectangular outer body portion in a state in which the auger is inserted in a horizontal direction in the cross section of the horizontal soil layer.
The method of claim 1,
The rectangular inner body portion includes guide grooves formed on lower sides of both sides of the rectangular inner body portion, and the cut-off portion is spaced apart from a space between one surface of the rectangular outer body portion and one surface of the rectangular inner body portion along the guide groove. Horizontal soil layer collecting device, characterized in that movable to the other side of the rectangular inner body portion.
The method of claim 2,
The cut-off portion is moved by the string portion lifted to move to the other surface of the rectangular inner body portion in a spaced space between one surface of the rectangular outer body portion and one surface of the rectangular inner body portion along the guide groove, And closes the horizontal soil layer collection device.
The method of claim 1,
The soil cut portion,
A band-shaped cutting member having a rack gear formed on an inner side thereof; And
And a driving member provided with a pinion gear that rotates in conjunction with the rack shaft.
5. The method of claim 4,
The corner of the rectangular outer body portion is a horizontal soil layer collecting device, characterized in that the cutting member is rounded so as to rotate around the circumference of the rectangular outer body portion.
The method of claim 1,
The cut portion horizontal soil layer collecting device, characterized in that the blade is formed to cut the horizontal soil layer at the bottom.
A rectangular outer body portion inserted in a horizontal direction in a cross section of the horizontal soil layer stacked vertically;
A rectangular inner body part spaced apart from the inside of the rectangular outer body part and having an accommodation space for accommodating horizontal soil layers therein;
A cut-off portion located in a separation space between one surface of the square outer body portion and one surface of the square inner body portion to be movable;
A string part connected to a lower portion of the cutout part and extending to a separation space between the other surface corresponding to one surface of the rectangular outer body portion and the other surface corresponding to one surface of the rectangular inner body portion, and protruding to an upper portion of the separation space;
A soil cutting part mounted on each lower end of each of the rectangular outer body parts, and a driving member installed at a lower end of each of the rectangular outer body parts so that a cutting member performs a linear reciprocating motion; And
An auger member having one end connected to the driving member and the rotating shaft member and having an auger member rotating at the other end by driving of the driving member, the auger portion projecting from a lower end of the rectangular outer body portion.
The auger soil collecting device, characterized in that for fixing the position of the rectangular outer body portion in a state in which the auger is inserted in a horizontal direction in the cross section of the horizontal soil layer.
8. The method of claim 7,
The rectangular inner body portion includes guide grooves formed on lower sides of both sides of the rectangular inner body portion, and the cut-off portion is spaced apart from a space between the one side of the rectangular outer body portion and the rectangular inner body portion along the guide groove. Horizontal soil layer collecting device, characterized in that movable to the other side of the inner body.
The method of claim 8,
The cut-off portion is moved by the string portion lifted to move to the other surface of the rectangular inner body portion in a spaced space between one surface of the rectangular outer body portion and one surface of the rectangular inner body portion along the guide groove, And closes the horizontal soil layer collection device.
8. The method of claim 7,
The soil cut portion,
A rod member coupled to the cutting member to be rotatable; And
And a disc cam member rotatably coupled to the rod member and rotated by driving of the driving member.
As the disc cam member is rotated by the drive member, the cutting member is a horizontal soil layer collecting device characterized in that the linear reciprocating motion along the lower end of each surface of the rectangular outer body portion.
8. The method of claim 7,
The cut portion horizontal soil layer collecting device, characterized in that the blade is formed to cut the horizontal soil layer at the bottom.

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