KR102077781B1 - Packer Soil Sampler - Google Patents

Abstract

The present invention relates to a packer type soil sampler, which can hit the ground surface to collect a soil sample, before easily separating the collected soil sample to acquire the same. To this end, the packer type soil sampler according to one embodiment of the present invention is a packer type soil sampler which is installed at a hitting device providing hitting power to burrow into the ground surface to collect soil, and comprises: a sampler main body which is formed in a hollow container shape, and has a screw thread at an upper end portion and a lower end portion; a collecting pipe unit which has a diameter smaller than that of the sampler main body, and is inserted into the sampler main body such that the soil sample can be collected; an air packer which is installed between the sampler main body and the collecting pipe unit such that the volume thereof can be expanded when air is filled therein in order to locate and support the collecting pipe unit at the center of the sampler main body, and has the volume thereof contracted when the air filled therein is discharged in order to easily separate the collecting pipe unit; a sampler head which is screw-fastened to the screw thread formed at the lower end of the sampler main body in order to pressurize the ground surface by hitting, and has a sample hole through which the soil sample is introduced into the collecting pipe unit; a sampler cap which is screw-fastened to the screw thread formed at the upper end of the sampler main body in order to prevent the collecting pipe unit supported by the air packer from being dislocated from the air packer to an upper portion; and a sample separating member which is installed at an inner circumference of the upper end of the sampler main body in order to separate the soil sample fixed on an inner circumference of the collecting pipe unit from the inner circumference of the collecting pipe unit when the collecting pipe unit is separated from the sampler main body. Therefore, the soil sample can be easily acquired.

Description

Packer Soil Sampler

The present invention relates to a packer-type soil sampler for hitting the surface to collect soil samples and to easily separate and obtain the collected soil samples.

In general, soil samples are collected to investigate soil conditions such as soil contamination. The soil samples are drilled in a large form by hitting the soil sampler from the top or rotating.

When the soil sampler is formed in the shape of a tube and hits or drills the sampler, the soil may be introduced into the sampler as it is and acquire the soil according to the depth.

As an example of a soil sampler, Korean Patent Publication No. 10-1334041 (published on November 23, 2013) discloses a "soil sampler and soil sample storage device for OSL dating of soil".

The conventional soil sampler includes a sampler body portion penetrated therein, a soil sample inserting portion mounted on the sampler body portion, and a hole into which a soil sample is introduced at an end thereof is inclined, and a slide type is inserted into the sampler body portion. A cylindrical soil sample accommodating part for accommodating the soil sample therein; a handle part mounted on the soil sample accommodating part to separate the accommodating part from the sampler body part; In including a hitting portion detachably coupled to the body portion, the inner diameter of the insertion portion was formed to be the same as the inner diameter of the receiving portion.

When such a conventional soil sampler hits the upper part of the surface, the soil sample may be collected while the soil sample is introduced into the soil sample receiving unit.

However, the conventional soil sampler has a problem in that when the soil sample is taken out of the soil sample container, the soil sample is fixed to the inside of the soil sample container according to the soil and is not easily separated.

The present invention has been made to solve the above problems, the problem to be solved by the present invention is a packer type that can be easily obtained by separating the soil sample from the soil sample storage unit even if the soil sample is fixed to the soil sample storage unit The purpose is to provide a soil sampler.

Packer-type soil sampler according to an embodiment of the present invention for achieving the above object is a packer-type soil sampler which is installed in the blow mechanism that provides the impact force to dig into the surface to collect the soil, the inside is formed in an empty cylindrical shape , A sampler body having a thread formed in the upper portion and the lower portion, having a diameter smaller than the diameter of the sampler body and inserted into the sampler body to collect soil samples, installed between the sampler body and the sampling tube portion The air packer, the sampler body is reduced in volume when the air is filled, the volume is expanded to support the position of the collecting tube portion in the center of the sampler body, and the volume is reduced when the air packed inside is discharged to easily separate the collecting tube portion. It is screwed to the thread formed at the bottom of the pressing the surface by the impact and the collecting pipe portion A sampler head having a sample hole into which a soil sample is introduced into the sampler, a sampler cap which is screwed to a screw thread formed at an upper end of the sampler body to prevent the collecting pipe part supported by the air packer from being separated from the air packer to an upper portion thereof; And a sample separation member installed at the inner circumference of the upper end of the sampler body to separate the soil sample fixed at the inner circumference of the collecting tube part from the inner circumference of the collecting tube part when separating the collecting tube part from the sampler body.

The collecting tube part includes a semi-cylindrical first tube part and a second tube part facing each other to easily separate the soil samples collected inside the collecting tube part, and having a cylindrical shape, and the air packer is formed in a plate shape. And the air is filled therein, and includes a pipe connection part connecting the first pipe part and the second pipe part to both ends of the air packer so that the collecting pipe part and the air packer are integrated. The pipe part and the second pipe part may be inserted into the sampler body by rolling the air packer such that the first pipe part and the second pipe part have a cylindrical shape inside the air packer through the pipe connection part.

Formed in a shape corresponding to the inner circumference of the collecting pipe portion to easily separate the soil sample flowing into the collecting pipe portion in the compressed state and accommodates the sample flowing into the collecting pipe portion and the sampler head and the sampler It may include a sample bag having a flange portion that is sandwiched between the body.

The sample separating member is inserted into the inner circumference of the sampler body and is coupled to the fixed ring portion, the diameter of the fixed ring portion is located in the center of the fixed ring portion with a smaller diameter than the fixed ring portion, the inner circumference of the collecting tube portion when separating the sampling tube portion from the sampler body And separating the separation ring portion separated from the outer circumference of the soil sample, and spaced apart from the fixing ring portion so as to form a space into which the air packer and the collection pipe portion are inserted between the fixing ring portion and the separation ring portion. It may include a ring connection.

According to the present invention, the sampling tube portion for collecting soil samples is supported by the sampler body by a variable-size air packer to firmly support the collecting tube portion in the sampler body, and at the same time, the sampler body can be easily separated from the sampling tube portion.

In addition, when separating the sampling pipe portion from the sampler body, it is possible to prevent the soil sample is separated from the collecting pipe portion through the separation ring portion of the sample separation member to adhere the soil sample to the collecting pipe portion.

In addition, the sample bag is selectively installed, so that the soil sample is directly introduced into the sample bag, not only can easily separate the soil sample in the collecting pipe portion, but also can easily store the soil sample.

In addition, by selectively protruding the blade from the sample separating member to remove the sample tube from the sampler body, it is possible to eliminate the hassle of having to cut the sample bag for the test.

1 is an exploded perspective view illustrating decomposition of a soil sampler according to an embodiment of the present invention.
Figure 2 is a side cross-sectional view cut the soil sampler according to an embodiment of the present invention.
3 is a cross-sectional plan view of a soil sampler according to an embodiment of the present invention.
4 is a view schematically illustrating a state of rolling an air packer of a soil sampler according to an embodiment of the present invention.
Figure 5 is a side cross-sectional view of the soil sampler cut according to an embodiment of the present invention, a view showing a state of separating the air packer from the sampler body.

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

As shown in Figure 1 and 3, the packer-type soil sampler 100 according to an embodiment of the present invention may include a sampler body (110).

The sampler body 110 may be formed in a hollow cylindrical shape, the sampler body 110 may be formed of a synthetic resin, or may be formed of a metal to withstand the pressure shock.

The sampler body 110 is inserted into the impact mechanism, or the impact mechanism is coupled to the upper end of the sampler body 110 to transmit the impact force to the indicator so that the sampler body 110 penetrates the indicator and the interior of the sampler body 110. Soil samples can be taken in the form of soil samples.

Threads may be formed on a portion of the upper inner circumference and the outer circumference and the lower circumference of the sampler body 110.

The packer-type soil sampler 100 may include a collecting pipe part 120.

The collecting tube part 120 may be inserted into the sampler body 110 to accommodate soil samples introduced into the sampler body 110.

The collecting pipe part 120 may be formed in a hollow cylindrical shape having a diameter smaller than the diameter of the sampler body 110, and the collecting pipe part 120 may have a semi-cylindrical shape of the first pipe part 121 and the second pipe part ( 122 may be positioned to face each other to form a cylindrical shape.

Sampling pipe unit 120 is inserted into the inside through the upper portion open from the sampler body 110, when the soil sample is collected through the collecting pipe unit 120, separates the collecting pipe unit 120 from the sampler body 110, In the separated state, the first pipe part 121 and the second pipe part 122 may be separated to obtain a soil sample introduced into the collection pipe part 120.

Collecting pipe portion 120 may be formed of a synthetic resin.

The packer-type soil sampler 100 may include an air packer 130.

The air packer 130 is inserted between the sampler body 110 and the collecting tube part 120 so that the collecting tube part 120 may be located at the center of the sampler body 110 so that the collecting tube part 120 may be located in the sampler body 110. 120 may be supported.

For example, the air packer 130 supports the collection pipe part 120 in the sampler body 110 in a state in which air is filled to expand the volume, and in a state in which the air packed inside is discharged to the outside, It can be reduced to easily separate the collection tube portion 120 from the sampler body 110.

The air packer 130 may be formed in a hollow tube shape inside the cylinder, but may be formed in the form of a blank pack inside the square for the coupling between the production and the collection pipe portion 120.

The air packer 130 may be manufactured in a form in which a pair of square thin synthetic resin films are overlapped and heat-sealed around the end portion, and the air packer 130 fills air therein or discharges air filled therein. The injection hole 131 may be formed.

The air inlet 131 may be provided with a tube valve installed in a general tube having a function of charging and releasing air through one air inlet 131, or an opening and closing lid for opening and closing the air inlet 131 may be installed. .

In addition, the air packer 130 may be configured in an integrated form with the collecting pipe part 120.

As shown in FIG. 4, the air packer 130 has a first pipe part 121 and a second pipe part 122 connected to both ends of the air packer 130 by a pipe connection part 133 about a vertical axis. The first pipe part 121 and the second pipe part are rotatably coupled by the pipe connection part 133 and are positioned inside the air packer 130 so that the first pipe part 121 and the second pipe part 122 face each other. 122 is located in the center of the air packer 130 may be installed in the sampler body 110 in a round shape to form a tube shape.

The pipe connection part 133 may be configured in such a way as to heat-bond portions overlapping each other in a state in which the first pipe part 121 and the second pipe part 122 are respectively positioned at both ends of the air packer 130.

In addition, a handle for easily separating the air packer 130 and the sampling pipe part 120 connected to the air packer 130 from the sampler body 110 is respectively located on the first pipe part 121 and the second pipe part 122. It may be formed to protrude.

The packer soil sampler 100 may include a sampler head 140 and a sampler cap 150.

The sampler head 140 is coupled to the lower end of the sampler body 110 to dig into the ground, and the sample hole 141 through which the soil of the ground digs into the collecting pipe part 120 passes through the sampler head 140. Can be formed.

Meanwhile, the sampler head 140 may be coupled to a thread formed at the lower end of the sampler body 110 in such a manner that the inner circumference of the upper circumference of the sampler head 140 is screwed in, and the sampler head 140 facilitates the indicator. It may be formed to have a shape that narrows the area toward the bottom to dig into, that is, to have a pointed shape toward the bottom.

The sampler head 140 may be formed of a metal so as to easily dig the indicator, the sampler head 140 is screwed to the lower end of the sampler body 110 can be replaced when worn.

In addition, the sampler head 140 may prevent the air packer 130 and the collection pipe unit 120, which are accommodated in the sampler body 110, from being lowered to the sampler body 110.

The sampler cap 150 may be coupled to an upper portion of the sampler body 110, and the sampler cap 150 may collect the soil sample accommodated therein, and the sampling tube part 120 and the air packer 130 may be samplers. It is possible to prevent the departure from the main body 110.

Although the sampler cap 150 is illustrated in the form of a closed top, the sampler cap 150 may be provided with a coupling part to which the impact mechanism is coupled according to the type of the impact mechanism.

The sampler cap 150 is coupled to the sampler body 110 in a form in which an upper end of the sampler body 110 is inserted into an inner circumference of the sampler cap 150 and screwed to a thread formed on an outer circumference of the upper sampler body 110. Can be.

In addition, the sampler cap 150 may be provided with a receiving groove in which a handle portion protruding upward from the collecting pipe portion 120 is accommodated in the state of being coupled to the sampler body 110.

The packer-type soil sampler 100 may include a sample separating member 160.

When the sample separating member 160 separates the collecting tube unit 120 from the sampler body 110, the soil sample fixed to the collecting tube unit 120 may be separated from the collecting tube unit 120.

The sample separating member 160 may be coupled to the sampler body 110 by being circumferentially screwed into a screw thread formed on the upper inner circumference of the sampler body 110.

The sample separating member 160 may include a separating ring part 162, a fixing ring part 161, and a ring connecting part 163.

The fixed ring portion 161 may be formed in the shape of a ring to be fitted into the upper inner circumference of the sampler body 110, and a thread is formed on the outer circumference of the fixed ring portion 161 to the thread formed on the upper inner circumference of the sampler body 110. It can be combined in the form of screwing.

At this time, the inner circumference of the fixed ring portion 161 is formed to correspond to the inner circumference of the sampler body 110 in a state in which the fixed ring portion 161 is coupled to the sampler body 110 to provide the air packer 130 to the sampler body 110. It is possible to prevent the air packer 130 from being caught in the fixing ring 161 when being inserted or removed.

Separation ring portion 162 digging between the inner circumference of the collecting pipe portion 120 and the outer circumference of the soil sample when separating the collecting pipe portion 120 from the sampler body 110 to collect the soil sample fixed to the collecting pipe portion 120 It can be separated from the pipe (120).

Separation ring portion 162 may be formed to have a diameter smaller than the diameter of the fixed ring portion 161, the separation ring portion 162 and the inner circumference of the collecting pipe portion 120 to be located inside the collecting pipe portion 120 The outer circumference of the separation ring portion 162 may be formed to correspond to each other.

Separation ring portion 162 may be formed in a shape that becomes thinner toward the lower part of the bifunctional ability to easily separate the soil sample from the collecting pipe portion (120).

The ring connection part 163 may connect the fixing ring part 161 and the separation ring part 162 such that the separation ring part 162 is spaced apart from the center of the fixing ring part 161.

On the other hand, in the state in which the sample separation member 160 is coupled to the sampler body 110, the air packer 130 is fitted so that the ring connecting portion 163 passes between the opposite ends of the air packer 130 in a circularly dried state. It may be inserted between the separation ring 162 and the fixing ring 161 (see FIG. 4).

At this time, since the first pipe part 121 and the second pipe part 122 are connected by the pipe connection part 133 to the ends facing each other of the air packer 130, the collecting pipe part 120 and the center of the air packer 130. It may be inserted between the separation ring portion 162 and the fixed ring portion 161 in a coupled state.

Inside the separation ring 162, a blade 165 may be formed to protrude, and the blade 165 may separate the sample bag 170 to be described below when the sampling tube unit 120 is separated from the sampler body 110. When cutting and finally unfolding the air packer 130 to collect the soil sample in the collecting pipe unit 120, because the sample bag 170 is cut it can be easily separated from the soil sample in the sample bag 170.

The blade 165 is installed to be slidably movable in the ring connection part 163 and protrudes into the separation ring part 162 to cut off the sample bag 170 or is inserted into the separation ring part 162 to open the sample bag 170. It may be configured to selectively appear in the separation ring 162 so as not to cut.

The packer-type soil sampler 100 may include a sample bag 170.

The sample bag 170 may contain a soil sample collected by the collecting pipe part 120 to store the soil sample, or may prevent the soil sample from being fixed to the collecting pipe part 120.

The sample bag 170 may be formed of a synthetic resin, such as a plastic bag, the sample bag 170 has a length corresponding to the inner shape of the collecting pipe part 120 in a state in which a lower portion facing the sample hole 141 is opened. And it may be formed in a shape having a diameter, the flange portion 171 may be formed around the open lower end of the sample bag 170.

Sample bag 170 is a flange portion 171 is sandwiched between the sampler head 140 and the sample body and the sample bag 170 is inserted into the collecting tube portion 120 is inserted into the sample hole of the sampler head 140 Soil sample introduced through the 141 may be contained in the sample bag 170 may be accommodated in the collection pipe portion (120).

On the other hand, the sample bag 170 is inserted between the sampler head 140 and the sampler body 110 in the compressed state in the longitudinal direction to facilitate storage, and spread by the soil sample while the soil sample flows in the collecting tube portion It may be inserted into the interior of the 120.

The operation and effects between the components described above will be described.

The packer-type soil sampler 100 according to the embodiment of the present invention couples the sampler head 140 to the bottom of the sampler body 110, and couples the sample separation member 160 to the inner circumference of the top of the sampler body 110. .

In addition, the first pipe part 121 and the second pipe part 122 connected to both sides of the air packer 130 by the pipe connection part 133 are positioned inside the air packer 130 to form a tubular shape with each other. Rolling the packer 130 in a round, rolled state between the collecting pipe portion 120 and the air packer formed by the first tube portion 121 and the second tube portion 122 between the fixed ring portion 161 and the separating ring portion 162 Insert (130).

At this time, the air packer 130 is inserted in a state in which the ring connecting portion 163 is positioned between the opposite ends of the round air packer 130 that are facing each other.

When the air packer 130 is inserted into the sampler body 110, air is injected through the air inlet 131.

When air is injected into the air packer 130, the volume of the air packer 130 expands, and the outer circumference of the air packer 130 is suppressed by the inner circumference of the sampler body 110 and further expands inward to expand the inside of the air packer 130. The first pipe part 121 and the second pipe part 122 form a tube shape with each other by pressing the collecting pipe part 120 inserted into the center, and the collecting pipe part 120 is positioned at the center of the air packer 130. Firmly support 120.

When the air is filled in the air packer 130, the sampler cap 150 is coupled to the upper portion of the sampler body 110 to prevent the air packer 130 and the collecting pipe part 120 from being separated from the sampler body 110.

The combined packer-type soil sampler 100 is installed on the striking mechanism hitting the surface, and when the striking mechanism is hit, the sampler head 140 penetrates the ground, and through the sample hole 141 of the sampler head 140. The sample is introduced into the sampler body 110.

The soil sample introduced into the sampler body 110 is introduced into the sampling tube unit 120 formed by the first tube unit 121 and the second tube unit 122 while collecting the soil sample.

At this time, when the sample bag 170 is installed between the sampler body 110 and the sampler head 140, the soil sample is introduced into the sample tube 170 while being introduced into the sample bag 170.

When the sampling of the soil is completed, the packer-type soil sampler 100 is separated from the hitting mechanism, and the sampler head 140 and the sampler cap 150 fastened to the sampler body 110 are separated.

In addition, the air packer 130 is discharged to the outside through the air inlet 131 so that the air packer 130 and the sampling tube unit 120 are easily separated from the sampler body 110. Reduce the volume of

When pulling the handle of the sampling tube unit 120 in the upper portion of the sampler body 110 in this state, as shown in Figure 5, the collecting tube unit 120 and the air packer 130 is a fixed ring portion of the sample separation member 160 Separated while falling between the 161 and the separating ring portion 162, the separating ring portion 162 is passing through the outer surface of the soil sample collected in the collecting pipe portion 120 and the inner circumference of the collecting pipe portion 120, the collecting pipe portion 120 The soil sample fixed to the separation from the collecting pipe portion 120.

When the air packer 130 and the collecting tube unit 120 are separated from the sampler body 110, the circular dried air packer 130 is unfolded in a planar shape to obtain a soil sample collected between the collecting tube unit 120.

At this time, when the air packer 130 is unfolded, the first pipe part 121 and the second pipe part 122 which form the collection pipe part 120 are opened to both ends of the air packer 130 and the first pipe part 121 and the second pipe part 130 are opened. The soil sample collected between the pipe portions 122 can be easily obtained.

On the other hand, when separating the air packer 130 from the sampler body 110, when the soil sample is contained in the sample bag 170, when the blade 165 protrudes to the inner circumference of the separation ring 162, the blade 165 Since the sample bag 170 is cut in the longitudinal direction by the soil sample can be easily carried out without the need to separate the sample bag 170 when testing the soil sample.

Of course, if you do not want to cut the sample bag 170, if the air packer 130 is separated from the sampler body 110 in the inserted state so that the blade 165 does not protrude into the inner ring of the separation ring 162, the sample Since the bag 170 is not cut, the soil sample contained in the sample bag 170 can be taken out and stored easily.

Therefore, the packer-type soil sampler 100 according to the embodiment of the present invention firmly supports the sampling pipe unit 120 to the sampler body 110 according to the changing volume of the air packer 130 and at the same time the sampler body 110. ) Can be easily separated from the collection pipe portion (120).

In addition, the sampler head 140 is screwed to the sampler body 110 can be easily replaced and used, as well as the sample separating member 160 is installed on the sampler body 110 to be fixed to the sampling tube part 120. Soil samples can be easily separated.

In addition, the sample bag 170 is installed to prevent the soil sample is fixed to the collecting pipe unit 120, the blade 165 is selectively protruded to the sample separating member 160, the collecting pipe unit 120 Since the sample bag 170 is cut at the time of separation, the trouble of having to cut the sample bag 170 in order to obtain a soil sample from the sample bag 170 can be eliminated.

In addition, the soil sample is contained in the sample bag 170 can easily store the soil sample.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the present invention is easily changed by those skilled in the art to which the present invention pertains. It includes all changes and modifications to the scope that comes.

100: packer soil sampler 110: sampler body
120: collecting pipe portion 121: first pipe portion
122: second tube portion 130: air packer
131: air inlet 133: pipe connection
140: sampler head 141: sample ball
150: sampler cap 160: sample separation member
161: fixing ring portion 162: separation ring portion
163: ring connection 165: blade
170: sample envelope 171: flange portion

Claims (4)

As a packer-type soil sampler installed in the blow mechanism that provides the impact force, digging into the surface and collecting soil,
Sampler body formed inside the hollow cylindrical shape, the thread formed on the upper portion and the lower portion,
A collecting tube part having a diameter smaller than that of the sampler body and inserted into the sampler body to collect soil samples;
Installed between the sampler body and the collecting tube part to fill the air, the volume is expanded to position and support the collecting tube part in the center of the sampler body, and discharge the air filled therein to easily separate the collecting tube part. Air packer that reduces volume
A sampler head having a sample hole for screwing into a screw thread formed at a lower end of the sampler body to pressurize the surface by an impact, and to introduce a soil sample into the collection pipe part;
A sampler cap which is screwed into a screw thread formed at an upper end of the sampler body and prevents the sampling tube part supported by the air packer from being separated from the air packer to an upper part;
A sample separation member installed at an inner circumference of the upper end of the sampler body to separate the soil sample fixed to the inner circumference of the collecting tube part from the inner circumference of the collecting tube part when separating the collecting tube part from the sampler body;
The collecting tube part includes a semi-cylindrical first tube part and a second tube part facing each other to easily separate the soil samples collected inside the collecting tube part, and having a cylindrical shape, and the air packer is formed in the shape of a plate. And an air is filled therein, and a pipe connection part connecting the first pipe part and the second pipe part to both ends of the air packer so that the collecting pipe part and the air packer are integrated, wherein the air packer and the first pipe part are connected to each other. The pipe part and the second pipe part is inserted into the sampler body by rolling the air packer such that the first pipe part and the second pipe part have a cylindrical shape inside the air packer through the pipe connection part.
The sample separating member is inserted into the inner circumference of the sampler body and is coupled to the fixed ring portion, the diameter of the fixed ring portion is located in the center of the fixed ring portion with a smaller diameter than the fixed ring portion, the inner circumference of the collecting tube portion when separating the collecting tube portion from the sampler body And a separation ring portion separating between the outer circumference of the soil sample, and spaced apart from the fixing ring portion so as to form a space into which the air packer and the collection pipe portion are inserted between the fixing ring portion and the separation ring portion. Packer soil sampler comprising a ring connection. delete The method of claim 1,
Formed in a shape corresponding to the inner circumference of the collecting pipe portion to easily separate the soil sample flowing into the collecting pipe portion in the compressed state and accommodates the sample flowing into the collecting pipe portion and the sampler head and the sampler A packer-type soil sampler comprising a sample bag having a flange portion sandwiched between main bodies. delete

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