KR101734531B1 - Seabed Soil sample Collection Device For Type Of Vibration - Google Patents

Abstract

Disclosed is a vibratory seabed soil sample collection device. According to the present invention, the vibratory seabed soil sample collection device is provided on a ship, is inserted into the seabed to collect seabed soil, and comprises a triangle support, a core barrel, a pressurizer, a pair of guide rails, and an electric winch. Therefore, the vibratory seabed soil sample collection device prevents a seabed soil sample from being separated and a disturbance of soil.

Description

{Seabed Soil sample Collection Device for Type of Vibration}

More particularly, the present invention relates to an apparatus for collecting a sample of a submerged soil, more specifically, a triangular barrel, which enables the core barrel to be vertically penetrated to the subsoil soil and to hold the triangular zone from the narrow deck of the ship, The core barrel can be stably penetrated into the seabed soils, and it is possible to collect the quality of the bottom of the soil and the quality of the sample, and to prevent the disturbance of the soil by preventing the core catcher from getting into the seabed soils. ≪ / RTI >

In general, sediments of subsoil soil are widely used as basic data for high environment, submarine biology, geology, and earth science research because they preserve relatively complete information of global environmental change.

In order to use submarine sediments as research data, submarine soil samplers are used to collect submarine soil samples. Submarine soil drilling equipments such as barges and marine drilling rigs are connected with marine cranes and cables, And a free-fall submarine soil sampler collects the seabed soils suitable for the purpose and then collects the recovered submarine soils. However, because of the sea waves, the sampling vessel is kept vertical to the subsoil soil And the problem is that the investigation time is limited due to the fact that even the birds can not penetrate the soil layer and the quality of the sample can not be collected due to insufficient penetration into the soil layer of the seabed so that the result of inaccurate seabed soil is derived It is true.

However, it is possible to penetrate vertically into the bottom of the seabed soils, and it is possible to collect high quality seabed soil by intruding the sample collection tube into the soil layer of the subsoil soils, The need for an undersea soil sampler to prevent disturbance of the soil has been raised, and research has been actively conducted.

Conventional subsea soil sampling devices are divided into two types: those that receive rotational force and are introduced into the subsoil soil and those that fall freely from the sea and enter the subsoil soil. The submarine soil sampling device that receives the rotational force and receives the rotational force, As the tubular sampler penetrates into the stratum, the stratum is filled with the depth of the sampler. Therefore, it is possible to prevent undersea soil distortion such as compression and twisting of sampled specimens. However, the installation and operation of materials, It takes a lot of time and money to transport it, and there is a difficulty that the collector and the bird can not be vertically penetrated into the subsoil soil.

As a conventional technique of a subsea soil sampling device, a sampling device is provided in the body of a sampling device that freely falls on the sea floor through Korean Registered Patent No. 10-1046577 (June 29, 2011), and the sampling device is provided near the undersurface There has been proposed a device for collecting a sample of a sole soil which can conveniently collect the sample to be formed and which can be easily operated to shorten the working time and reduce the cost required for the operation of the equipment.

However, such a subsea soil sampling apparatus is merely to shorten the sampling time of the subsoil soil sample due to the simple operation method, and the sampling section of the sampling apparatus main body can not sufficiently penetrate into the subsoil soil layer, It is difficult to do.

The sample collection part of the main body of the sampling device can not be vertically penetrated to the bottom of the sea due to the mid-wave and the algae free falling on the seabed to collect the sample of the subsoil soil, And it is inefficient because of the problem that the result of inaccurate subsoil soil is derived.

The present invention has been conceived to overcome the problems of the prior art described above. The triangular peg is supported on the seabed so that the core barrel can be penetrated into the seabed soils while keeping the vertical barrel. , It is easy to store on the narrow deck of the core and the core barrel can be stably penetrated into the subsoil soil due to the vibration motor, so that it is easy to collect a good quality sample, and the accuracy of the subsoil soil collection is enhanced, The present invention provides an apparatus for sampling a vibrating submarine soil which prevents the disturbance of the soil by preventing the deviation of the soil by blocking the tip of the core barrel.

It is an object of the present invention to provide a vibration type submerged soil sampling device which is provided on a ship and can be taken into the sea floor and can collect the subsoil soil. The apparatus includes a triangular pavement having a through hole at the center, A core barrel penetrating through the through hole of the triangular pier and having one end perpendicularly penetrated into the submarine soils and filled with seabed soil inward by a depth penetrated into the submarine soils; A presser for pulling the core barrel to move upward or downward and to cause the core barrel to penetrate into the submarine soil while generating vibration; and a presser disposed on both sides of the core barrel, one end of which is perpendicular to the center of the triangle A pair of guide rails provided so as to be able to move the pusher upward or downward, A cable is connected to one side of an upper portion of the base pressurizer and is provided on a line so as to vary the length of the cable according to a depth at which the core barrel descends or ascends and collects the core barrel, The present invention can be achieved by an oscillatory bottom soil sampling apparatus,

According to a preferred aspect of the present invention, the triangle zone includes a support base body extending on both sides of the through-hole to support a bottom surface of the support base, And a support driving unit coupled to the outer side of the interlocking gear and rotatably supported by the interlocking gears so as to be rotated in the radial direction.

According to a preferred aspect of the present invention, the support base body includes a through-hole coupling device which is hinged to one side of a side surface of the support body formed with the through-hole so as to open and close the side surface of the through- .

According to a preferred aspect of the present invention, the support tournament driving part includes a fixed wire, one side of which is connected to the supporting tournament part to fix the guide rail, and which provides tension and the other side of which extends upward, A first wire hanger provided on one side of the side of the supporting tourminder so as to be connected to the supporting tourminder so as to be connected to each other; And a support base extension frame for supporting the surface.

According to a preferred feature of the present invention, the triangle zone further includes a fixing spike, which is formed by a plurality of conical protrusions formed at the lower part and firmly fixed to the floor of the seabed.

According to a preferred aspect of the present invention, the guide rail has one side open on an upper surface thereof so that the cable of the electric winch is passed and connected to the pusher, and the upper side of the upper side, which is coupled to the other end of the pair of guide rails, A fixed frame, And a second wire hook which is respectively provided on the upper fixed frame and the other ends of the fixed wires are connected to each other to fix the guide rail by tension.

According to a preferred aspect of the present invention, the pusher further includes: a vibration motor coupled to the other end of the core barrel to generate vibration so that the core barrel penetrates the seabed soil, and to pull the core barrel; A motor fixed guide portion which is slidably moved upward or downward along an outer circumferential surface of the guide rail to pull the vibration motor; a motor provided at one side of the upper portion of the vibration motor, And a pulling pulley for pulling the pusher upward or downward.

According to a preferred aspect of the present invention, the electric winch includes a steel cable provided on the cable whose length is variable according to a depth at which the core barrel descends and ascends, and is connected to the pulling pulley of the pusher to pull the pusher, An underwater power cable provided in the cable and adapted to apply power to the vibration motor through the pulling pulley of the pusher; and a control unit connected to the electric winch and connected to the other side of the underwater power cable, And a core control box for controlling the core control box.

According to a preferred aspect of the present invention, the triangle is formed such that each axis extends to the outside and is separated from each other, and one side of the triangle is inserted into the other side so as to be mutually fixed and one side is slid along the inner circumference of the other side, And supports the bottom of the sea floor.

According to the present invention, since the triangular land supports the bottom of the sea so that the core barrel is vertically penetrated into the subsoil soil and the triangular land can be folded foldably, it is easy to store on a deck of a narrow ship, Because the vibration motor can stably penetrate the core barrel into the subsoil soil, it is possible to collect the quality of the subsoil soil and the quality of the sample. When the subterranean soil sampling device is lifted, the core catcher blocks the tip of the core barrel, It has the effect of preventing the deviation of the soil sample and the disturbance of the soil.

1 is a perspective view of a vibrating type submerged soil sampling apparatus according to an embodiment of the present invention,
FIG. 2 is a side view showing a vibrating type submerged soil sample collecting apparatus according to an embodiment of the present invention,
FIG. 3 is a plan view showing a triangular area in a vibrating type submerged soil sample collecting apparatus according to an embodiment of the present invention,
FIG. 4 is an enlarged view of a through-hole coupling device in a vibrating type submarine soil sampling device according to an embodiment of the present invention;
FIG. 5 is an enlarged view showing that the support frame is rotated in the vibrating type submerged soil sample collecting apparatus according to the embodiment of the present invention,
FIG. 6 is a perspective view illustrating the installation of a vibrating type submerged soil sampling device according to an embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a vibrating type submarine soil sampling device according to the present invention will be described in detail with reference to the accompanying drawings.

The thickness of the lines and the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and those skilled in the art will easily implement the invention. But does not mean that the technical idea and scope of the present invention are limited.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

The following terms are defined in consideration of the functions of the present invention, and this may vary depending on the intention or custom of the user, the operator, and the definition of these terms should be based on the contents throughout this specification.

1 to 6, a vibrating type submerged soil sampling device 1 according to the present invention is provided on a ship and is drawn into a seabed so as to collect subsoil soil. A triangular pile zone 100 formed on the lower surface of the triangular pile 100 and providing a supporting force adjacent to the bottom of the sea floor and a through hole 110 formed in the triangular pile zone 100 so that one end portion is perpendicularly penetrated into the submarine soils, The core barrel 200 is coupled to the other end of the core barrel 200 to pull the core barrel 200 to move upward or downward, A core barrel 200 and a core barrel 200. The core barrel 200 includes a core barrel 200 and a core barrel 200. The core barrel 200 includes a core barrel 200, Pressurizer ( A pair of guide rails 400 for movably guiding the core barrel 300 to the upper portion or the lower portion of the core barrel 200 and a cable 510 connected to one side of the upper portion of the pusher 300, And an electric winch 500 that varies the length of the cable 510 according to the depth of the vertical movement and collects the core barrel 200 taken on the sea floor.

In this case, the triangular peg 100 is formed with a through hole 110 at the center thereof and provides a supporting force adjacent to the bottom of the sea. The triangular peg 100 extends radially and enters the bottom of the sea, The triangular area 100 supports the sea floor.

The triangle 100 includes a support base body 120 extending on both sides of a through hole 110 to support a bottom surface of the support base body 120 and two side surfaces of the support base main body 120, An interlocking gear 130 provided on both sides of the supporting shaft 110 so as to correspond to each other with respect to the supporting shaft 110 and a supporting tournament part 140 which is radially expanded or contracted by the interlocking gear 130 to rotate in the same direction.

The support base body 120 is provided with a through hole 110 whose inside is opened at the central portion and both sides of the through hole 110 are extended to support the bottom of the sea, The inner side of the core barrel 200 is passed through the core barrel 200 to be vertically penetrated into the subsoil soil, and the extended sides of the support base body 120 support the bottom surface.

A through hole coupling device 121 is provided on a side surface of the support base body 120. The through hole coupling device 121 is rotatably hinged to one side of the side of the support base body 120, When the core barrel 200 to be described below is lifted to the deck on the ship, the through-hole attaching device 121 is opened to remove the core barrel 200, So that the core barrel 200 can be pulled out from the side of the support base body 120.

The through-hole coupling device 121 includes a through-hole door 121-1 hinged to one side so as to be rotatable and opening and closing a side surface of the through-hole 110, A fixing member 121-2 provided on an outer surface of the fixing member 121-2 and having a locking groove 121-3 which is open on the inside and has a groove formed on the outer circumferential surface to provide a locking, A fixing bar 121-4 extending through the opened inside of the fixing member 121-2 and having a knob 121-5 protruding vertically on one side of the groove formed by the fixing member 121-2, And a fixing pipe 121-6, which is opened on the inner side so that the extended end of the bar 121-4 is drawn in and is provided on the side of the support base body 120. [

The through-hole door 121-1 opens and closes the side surface of the through-hole 110 so that the core barrel 200 to be described below can be pulled out from the side of the through-hole 110.

The fixing member 121-2 is formed in a semicircular arc shape having an open inside and has an engaging groove 121-3 formed on the outer circumferential surface thereof to provide a latch.

The fixing bar 121-4 extends through the opened inner side of the fixing member 121-2 and the knob 121-5 vertically protruding from one side of the outer circumferential surface is fixed to the fixing member 121-2, And is formed to be movable along a groove formed by a lance.

The fixed tube 121-6 is formed in a semicircular arc shape having an open inside and is provided on the side of the support base body 120 so that an extended end of the fixing bar 121-4 is inserted to provide a latch.

Interlocking gears 130 are installed on both sides of the side of the support body 120. The interlocking gears 130 are installed on both sides of the side of the support base body 120 and intermeshed with each other, (130) are provided in a pair such that both sides of the through hole (110) of the support base body (120) are corresponding to each other. When the interlocking gear (130) meshing with each other is rotated by an external force, .

A supporting tournament portion 140 is coupled to the outer side of the interlocking gear 130. The supporting tournament portion 140 is coupled to the interlocking gear 130 and extends outwardly, Both sides thereof are radially expanded or contracted and rotated in the same manner to each other, so that the radially raised supporting portion 140 supports the bottom surface.

The support tournament driving part 140 is connected to one side of the support tournament driving part 140 for fixing the guide rail 400 to be described below and is provided with a fixing wire 141, A first wire hanger 142 provided at one side of the side of the supporting tournament part 140 so that one side of the fixing wire 141 is connected to the first side of the supporting tournament part 140, And a support base extension frame 143 which is hinged to be pivotable to support the bottom of the support shaft 140 and extends further at each end of the support shaft 140.

The fixing wire 141 is connected to one side of the side of the supporting tourminder 140 and extends upward and the other side of the fixing wire 141 is connected to the upper fixing frame 410 to provide a tension, The guide rail 400 to be explained is held vertically and fixed so as not to collapse.

The first wire hook 142 is connected to one side of the fixing wire 141 and is provided on one side of the supporting tournament part 140 so as not to hinder the turning period of the supporting tournament part 140.

The supporting frame extension frame 143 is coupled to the end of the supporting frame 140 and is pivotally hinged so that one side thereof coupled to the end of the supporting frame 140 is folded Supporting the sea floor.

A hinge engaging member 150 is hingably coupled to one side of the supporting frame 140 and the supporting frame extension frame 143 so that the supporting frame 143 is folded in a folding manner Respectively.

The hinge coupling member 150 includes a stopper 151 provided at one end of the end portion of the support shaft 140 and having a coupling portion 153 protruding from both sides thereof, The stopper protrusions 152 protrude from one side of the support frame and are provided at one side of the end of the support frame extension frame 143. The stopper 151 is received and coupled with the coupling groove 153 And a plurality of grooves are formed in the inner side surface of the stopper receiving portion 160 so as to correspond to each other in the shape of a circular arc so as to correspond to the stopper protrusions 152, And an arc-shaped multi-step groove (161) which is inserted into the stopper protrusion (152) selectively at one point along the plurality of grooves to adjust the rotation angle of the support arm extension frame (143) do.

The stopper 151 is provided at one end of the end portion of the support shaft 140 and has a semicircular shape. The stopper 151 protrudes from the center of both side surfaces to be rotatably engaged with the end of the support shaft extension frame 143 .

The stopper protrusion 152 protrudes from one side of both sides of the stopper 151 and is inserted into the arc-shaped multi-stage groove 161 to provide a stop.

The stopper receiving portion 160 is provided at one end of the end portion of the support frame extension frame 143 and accommodates the stopper 151 and has an engagement groove 162 Is fixed to the engaging part 153 of the stopper 151 so that the support frame extension frame 143 is rotatable.

The arc-shaped multi-stage groove 161 has a plurality of grooves formed in a circular arc shape corresponding to the inner side surfaces thereof so that the stopper protrusion 152 is inserted. The stopper protrusion 152 is engaged with the plurality of grooves And the pivot angle of the support frame extension frame 143 is adjusted to be rotatable in multiple stages from 0 to 90 degrees.

A plurality of fixed spikes 170 are formed on the lower portion of the triangle 100 so as to conically protrude from the lower portion of the triangle 100 to fix the bottom of the bottom of the triangle. Sand, rock, or the like to securely fix the triangle 100 to the sea floor.

In the meantime, the construction of the triangle zone is preferably as described above, but according to the embodiment, the triangle zone 100 extends outward to each shaft so as to firmly support the bottom surface, Are separated from each other and have diameters different from each other, one side of the one side is inserted into the other side so as to be mutually fixed, one side is slid along the inner circumference of the other side and inserted or fixed to the inside and fixed, It is easy to store and move because it is expandable and shrinkable, and the outwardly extended triangular pile 100 is provided to firmly support the sea floor.

As another example of the triangle zone, the triangle zone 100 has a plurality of shafts radially extended from the center of the guide rail 400, which will be described later, which is vertically installed and fixed to the center of the triangle zone 100, The shafts of the zone 100 are formed in a tubular shape and are separated from each other. One side of the shaft 100 is inserted into the other side so as to be mutually fixed, and one side is slid along the inner circumference of the other side, Which is easy to store and move because the length thereof can be expanded or shrunk, and the triangular padding 100 extending in the outward direction is provided to firmly support the sea floor.

The triangle zone 100 includes a core barrel 200 through which the through hole 110 is opened so that one end of the core barrel 200 passes through the open inside of the through hole 110 And the bottom of the core barrel 200 is filled with the bottom of the core barrel 200 so that the core barrel 200 is penetrated into the bottom so that the triangle 100 is supported on the bottom of the sea. And the core barrel 200 is introduced into the subsoil soil by the vibration of the pressurizer 300 described below.

A core catcher (not shown) is provided at an end portion of the core barrel 200 which is penetrated into the seabed soil. The core catcher is coupled to an end of the core barrel 200, 200 of the submarine soil.

The core barrel 200 is hingedly coupled to one side of the core catcher (not shown) so as to be rotatable. When the core barrel 200 is inserted into the submarine soil, the core barrel 200 is pulled out from the submarine soil. A catcher door (not shown) to be closed is provided.

A pusher 300 is coupled to the other end of the core barrel 200. The pusher 300 is coupled to the other end of the core barrel 200 and pulls the core barrel 200 up or down The core barrel 200 is penetrated into the submarine soils by the vibration of the presser 300 and the submarine soils are collected by the vibration of the core barrel 200, The completed core barrel 200 stops vibrating the pusher 300 and pulls the core barrel 200 upward.

The pusher 300 includes a vibration motor 310 coupled to the other end of the core barrel 200 to generate vibration to allow the core barrel 200 to penetrate into the seabed soil and to pull the core barrel 200 A motor fixing guide 320 for sliding the vibration motor 310 up and down along the outer circumferential surface of the guide rail 400 to be described later and for pulling the vibration motor 310, And a pulling sheave 330 provided at one side of the upper portion of the vibration motor 310 and having an inner side opened and a cable 510 for transmitting an external force are connected to pull the pusher 300 up or down .

The vibration motor 310 is coupled to the other end of the core barrel 200 to generate vibration and to pull the core barrel 200. The vibration motor 310 generates vibration, ) Is introduced into the subsoil soil, and the core barrel 200, from which the bottom soil has been collected, is pulled up.

The motor fixing guide 320 fixes the side surface of the vibration motor 310 and pulls the vibration motor 310 upward or downward along a guide rail 400 to be described below. 320 are respectively coupled to the outer circumferential surfaces of the pair of guide rails 400 to be described below and are slidably movable upward or downward.

The pulling pulley 330 is opened at the inside and connected to a cable 510 which is provided at one side of the upper part of the vibration motor 310 to transmit an external force and is connected to the pulling pulley 330 are pulled to pull the presser 300 up or down.

The guide rails 400 are disposed on both sides of the core barrel 200. The guide rails 400 are disposed on both sides of the core barrel 200, The pusher 300 is slid along the outer circumferential surface of the guide rail 400 and guided to be movable upward or downward.

The guide rail 400 includes an upper fixing frame 410 and a second wire hanger 420. The upper fixing frame 410 is formed by passing the cable 510 of the electric winch 500, And is coupled to the other end of the pair of guide rails 400 to fix the upper portion of the guide rail 400. [

The second wire hanger 420 is connected to the first wire hanger 142 of the support driving hinge 140. The second wire hanger 420 is connected to the first wire hanger And the fixing wires 141 extending upward are connected to fix the guide rail 400 by tension.

The electric winch 500 is provided on a line on which one end of the cable 510 is connected to the pulling pulley 330 of the pusher 300 and the cable 510 is wound. The length of the cable 510 is varied according to the depth of the core barrel 200 descending or rising and the core barrel 200 collected from the sea bed is collected in a line. The length of the cable 510 wound on the core barrel 200 can be varied to selectively control the depth into which the core barrel 200 is inserted into the subsoil soil.

The electric winch 500 is connected to a core control box 520 for controlling the operation of the vibration motor 310. The electric winch 500 is connected to a core control box 520, A cable 510 and an underwater power cable 510. The steel cable 510 is wound around the electric winch 500 and is contained in the cable 510 so that the core barrel 200 descends and ascends The length of the presser 300 varies depending on the depth of the presser 300 and is connected to the pulling pulley 330 of the presser 300 to pull the presser 300 by an external force.

The underwater power cable 510 is included in the cable 510 wound on the electric winch 500 and is varied in length depending on the depth of the core barrel 200 moving up and down, And is connected to the vibration motor 310 to apply an external power source to the vibration motor 310.

The core control box 520 is connected to the other side of the underwater power cable 510 and connected to the electric winch 500 to operate the vibration motor 310 provided on the pusher 300 .

Meanwhile, in order to shorten the lifting operation when the vibrating type submerged soil sample collecting apparatus 1 which has completed the sampling of the subsoil soil sample is lifted to the inside of the deck, it is rotatably provided on one side of the ship's deck, A deck door 600 for opening and closing one side surface is provided.

The operation of the vibration type submerged soil sampling apparatus 1 constructed as described above will be described below.

The triangle zone 100 according to the embodiment of the present invention is formed with the through hole 110 at the center and the triangle zone 100 is radially extended on the ship and drawn into the sea floor and the triangle zone 100 100) has an effect of stably supporting the sea floor.

The fixed spike 170 is inserted into the undersurface formed by sand and rock to form the triangle 100 on the underside of the triangle 100, It has an effect of firmly fixing to the surface.

The support base body 120 according to an embodiment of the present invention supports both sides of the through hole 110 and supports the bottom surface of the support base body 120. The open inner side of the through hole 110 is connected to the core barrel 200 And is guided vertically into the subsoil soil.

A through hole coupling device 121 is provided at one side of a side of the support body 120 according to an embodiment of the present invention. The through hole coupling device 121 is pivotably hinged to the through hole 110, When the core barrel 200 is pulled out, the through-hole coupling device 121 is opened without lifting the upper portion of the triangular pawl 100 so as to open and close the side of the support base body 120 It can be easily removed from the side.

The interlocking gears 130 installed on both sides of the support body 120 according to an embodiment of the present invention are formed as a pair and interlocked with each other, A pair of interlocking gears 130 that are mutually meshed by the action of the engaging member 130 are rotated in the same manner.

The supporting tour driven portion 140 coupled to the outer side of the interlocking gear 130 according to an embodiment of the present invention is configured such that both sides of the interlocking gear 130 are radially expanded or contracted by the rotation of the interlocking gear 130, So that the support platform 140 can stably support the sea floor.

The fixing wire 141 is connected to one side of the support shaft 140 and the other side of the fixing wire 141 is connected to the upper fixing frame 410 to provide a tension to the guide rail 400, There is an effect of firmly fixing it.

The support frame extension frame 143, which is coupled to the end of the support frame assembly 140 according to an embodiment of the present invention, rigidly supports the underside surface, and each support frame extension frame 143 is folded in a folding manner So it is easy to store on a narrow deck.

The hinge engaging member 150 provided at one side of the supporting frame 140 and the supporting frame extension frame 143 is folded so that the supporting frame 143 is folded in a folding manner, The support base extension frame 143 can be rotated at various angles adjacent to the undersurface having irregular bends. Thus, the support base extension frame 143 can be rotated at various angles, There is an effect that the core 100 is held horizontally with the sea floor so that the core barrel 200 penetrates into the sea bed in a state where the core barrel 200 is maintained perpendicular to the sea floor.

The core barrel 200 passing through the through hole 110 according to an embodiment of the present invention and penetrating into the seabed soil is connected to the other end of the pusher 300 and is moved into the submarine soil by the vibration of the pusher 300 It is intrusive so that it can be stably intruded into the subsoil soil, it is easy to collect good quality samples, and it has the effect of improving the accuracy of the sampling of the underwater soil.

A core catcher (not shown) provided at an end of the core barrel 200 to prevent detachment of the seabed soil is provided at one side of the core catcher (not shown) when the core barrel 200 penetrates the submarine soil A catcher door (not shown) provided hingably and rotatably is opened to allow the core barrel 200 to be introduced into the submarine soil and the submarine soil is introduced into the core barrel 200 by a depth penetrated into the submarine soil After the sampling of the seabed soil is completed, the core barrel 200 is pulled out of the subsoil by an external force, and the catcher door is closed by the weight of the soil when lifted up on the line, thereby preventing the loss and disturbance of the soil have.

The pusher 300 coupled to the other end of the core barrel 200 according to an embodiment of the present invention stably penetrates the core barrel 200 into the submarine soils while generating vibration, And the core barrel 200 in which the sampling of the subsea soil is completed stops the vibrator 300 and pulls it upwards.

The vibrator 310 is coupled to the other end of the core barrel 200 to generate vibrations. The vibration motor 310 includes a vibration motor 310, a motor fixing guide 320 and a traction sheave 330. This facilitates the sampling of subsoil soil.

The motor fixing guide 320 fixes the side surface of the vibration motor 310 and is coupled to the outer circumferential surfaces of the pair of guide rails 400 so that the vibration motor 310 can be moved upward or downward by a depth at which the core barrel 200 is pulled. Pull down.

The towing pulley 330 is provided on one side of the upper portion of the vibration motor 310 and is connected to one side of the cable 510 to transmit an external force transmitted to the cable 510 to the cable 510, The pulling pulley 330 is pulled by an external force and the pusher 300 is pulled up or down.

A guide rail 400 is disposed on both sides of the core barrel 200 according to an embodiment of the present invention. The guide rails 400 are disposed on both sides of the core barrel 200 And one end of the pusher 300 is vertically installed at the center of the triangle 100. The pusher 300 is slid upward or downward along the outer circumferential surface of the guide rail 400 and moves while being coupled to the pusher 300 Guides the pusher 300 so that the core barrel 200 penetrates vertically into the subsoil soil.

A cable 510 is connected to one side of the towing pulley 330 according to an embodiment of the present invention and the electric winch 500 having the cable 510 wound thereon is connected to the core barrel 200 The length of the cable 510 is changed by winding or loosening the cable 510 according to the depth of descent or ascending and descending, and the core barrel 200 having completed the harvesting of the seabed soil is lifted up to a line.

The steel cable 510 provided on the cable 510 is connected to one side of the pulling pulley 330 and pulls the pulling pulley 330 upward or downward by the operation of the electric winch 500.

The underwater power cable 510 provided in the cable 510 passes through the opened inside of the towing sheath 330 and one side is connected to the vibration motor 310 to apply power.

The core control box 520 connected to the electric winch 500 is connected to an underwater power cable 510 connected to the vibration motor 310 to control the operation of the vibration motor 310 conveniently on- .

The present invention is not limited to the above-described embodiments, and various modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

100: Triangle zone 110: Through hole
120: support base body 121: through-hole coupling device
121-1: Through-hole door 121-2: Fixing member
121-3: engagement groove 121-4: fixed bar
121-5: Handle 121-6: Fixing tube
130: Interlocking gear 140:
141: fixed wire 142: first wire hook
143: support frame extension frame 150: hinge coupling member
151: stopper 152: stopper projection
153: engaging portion 160: stopper accommodating portion
161: arc-shaped multi-step groove 162: engaging groove
170: Fixed spike 200: Core barrel
300: Compressor 310: Vibration motor
320: Motor fixing guide 330: Towing pulley
400: guide rail 410: upper fixing frame
420: 2nd wire rack 500: electric winch
510: Cable 511: Steel cable
512: underwater power cable 520: core control box
600: Deck door

Claims (9)

1. An apparatus for collecting a submerged soil in a seawater,
A triangular zone formed with a through hole at the center and providing a supporting force adjacent to the sea floor;
A core barrel passing through the through hole of the triangular pierce so that one end thereof is vertically penetrated into the submarine soils and the submarine soils are filled with the depth penetrated into the submarine soils;
A presser coupled to the other end of the core barrel and capable of traversing the core barrel to move upward or downward and allowing the core barrel to penetrate into the submarine soil while generating vibration;
A pair of guide rails disposed on both sides of the core barrel, one end of which is perpendicular to the center of the triangle, and which guides the pusher to move up or down; And
A cable is connected to one side of the upper portion of the pusher and the cable is wound and provided on a line so that the length of the cable is varied according to a depth at which the core barrel is lowered or lifted and the core barrel, And an electric winch recovered on board,
Wherein the triangular-
A support base body extending on both sides of the through-hole to support the bottom surface;
An interlocking gear provided on both sides of the side of the support body and meshed with each other and corresponding to both sides of the through hole; And
Further comprising a supporting mechanism coupled to an outer side of the interlocking gear and rotated in the same direction by being widened or contracted radially by engagement of the interlocking gears.
delete The method according to claim 1,
In the support base body,
Further comprising: a through hole coupling device hingedly coupled to one side of the side of the support base body through which the through hole is formed to open and close the side surface of the through hole.
The method according to claim 1,
The supporting tournament east part,
A fixing wire having one side connected to the supporting portion and the other side extending upward to fix the guide rail;
A first wire hanger provided on one side of the side of the supporting tourminder so that one side of the fixing wire is connected; And
Further comprising a support base extension frame hingedly pivotally foldable at each end of the support meet section and foldably supported at each end of the support meet section to support the underside surface, Sampling device.
The method according to claim 1,
Wherein the triangular zone further comprises a fixed spike formed by a plurality of conical protrusions formed at a lower portion thereof and firmly fixed to the ground surface of the seabed.
The method of claim 4,
The guide rails
An upper fixed frame coupled to the other end of the pair of guide rails to fix the upper portion of the guide rails, the upper fixed frame having one upper surface opened to allow the cables of the electric winch to pass therethrough and to be connected to the pusher; And
Further comprising a second wire hanger provided on the upper fixed frame and connected to the other end of the fixed wire to fix the guide rail by tension.
The method according to claim 1,
The pusher
A vibration motor coupled to the other end of the core barrel to generate vibration to draw the core barrel into the submarine soil and to pull the core barrel;
A motor fixing guide part for fixing the side surface of the vibration motor and sliding the upper or lower part along the outer peripheral surface of the guide rail to pull the vibration motor; And
Further comprising a traction sheave provided at one side of the upper portion of the vibration motor, the traction sheave being opened inside and connected to a cable for transmitting an external force so as to pull the pusher upward or downward.
The method of claim 7,
The electric winch includes:
A steel cable provided on the cable and varying in length depending on a depth at which the core barrel descends and ascends, and connected to a pulling pulley of the pusher to pull the pusher by an external force;
An underwater power cable provided on the cable and varying in length depending on a depth of the core barrel descending and ascending, and passing power through the open inside of the towing shear to the vibration motor; And
Further comprising a core control box connected to the electric winch and connected to the other side of the underwater power cable to control operation of the vibration motor.
The method according to claim 1,
Each of the triangles has an axis extending outward and separated from each other. One side of the triangle is inserted into the other side so as to be mutually fixed. One side of the triangle slides along the inner circumference of the other side and is inserted or extended outward And supports the bottom of the sea floor.

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